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1<?xml version="1.0" encoding="utf-8"?>
2<!-- Copyright (C) 2012 The Android Open Source Project
3
4     Licensed under the Apache License, Version 2.0 (the "License");
5     you may not use this file except in compliance with the License.
6     You may obtain a copy of the License at
7
8          http://www.apache.org/licenses/LICENSE-2.0
9
10     Unless required by applicable law or agreed to in writing, software
11     distributed under the License is distributed on an "AS IS" BASIS,
12     WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
13     See the License for the specific language governing permissions and
14     limitations under the License.
15-->
16<metadata xmlns="http://schemas.android.com/service/camera/metadata/"
17xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
18xsi:schemaLocation="http://schemas.android.com/service/camera/metadata/ metadata_definitions.xsd">
19
20  <tags>
21    <tag id="BC">
22        Needed for backwards compatibility with old Java API
23    </tag>
24    <tag id="V1">
25        New features for first camera 2 release (API1)
26    </tag>
27    <tag id="RAW">
28        Needed for useful RAW image processing and DNG file support
29    </tag>
30    <tag id="HAL2">
31        Entry is only used by camera device legacy HAL 2.x
32    </tag>
33    <tag id="FULL">
34        Entry is required for full hardware level devices, and optional for other hardware levels
35    </tag>
36    <tag id="DEPTH">
37        Entry is required for the depth capability.
38    </tag>
39    <tag id="REPROC">
40        Entry is required for the YUV or PRIVATE reprocessing capability.
41    </tag>
42    <tag id="LOGICALCAMERA">
43        Entry is required for logical multi-camera capability.
44    </tag>
45    <tag id="HEIC">
46        Entry is required for devices with HEIC (High Efficiency Image Format) support.
47    </tag>
48    <tag id="FUTURE">
49        Entry is  under-specified and is not required for now. This is for book-keeping purpose,
50        do not implement or use it, it may be revised for future.
51    </tag>
52  </tags>
53
54  <types>
55    <typedef name="pairFloatFloat">
56      <language name="java">android.util.Pair&lt;Float,Float&gt;</language>
57    </typedef>
58    <typedef name="pairDoubleDouble">
59      <language name="java">android.util.Pair&lt;Double,Double&gt;</language>
60    </typedef>
61    <typedef name="rectangle">
62      <language name="java">android.graphics.Rect</language>
63    </typedef>
64    <typedef name="size">
65      <language name="java">android.util.Size</language>
66    </typedef>
67    <typedef name="string">
68      <language name="java">String</language>
69    </typedef>
70    <typedef name="boolean">
71      <language name="java">boolean</language>
72    </typedef>
73    <typedef name="imageFormat">
74      <language name="java">int</language>
75    </typedef>
76    <typedef name="streamConfigurationMap">
77      <language name="java">android.hardware.camera2.params.StreamConfigurationMap</language>
78    </typedef>
79    <typedef name="streamConfiguration">
80      <language name="java">android.hardware.camera2.params.StreamConfiguration</language>
81    </typedef>
82    <typedef name="recommendedStreamConfiguration">
83      <language
84      name="java">android.hardware.camera2.params.RecommendedStreamConfiguration</language>
85    </typedef>
86    <typedef name="streamConfigurationDuration">
87      <language name="java">android.hardware.camera2.params.StreamConfigurationDuration</language>
88    </typedef>
89    <typedef name="face">
90      <language name="java">android.hardware.camera2.params.Face</language>
91    </typedef>
92    <typedef name="meteringRectangle">
93      <language name="java">android.hardware.camera2.params.MeteringRectangle</language>
94    </typedef>
95    <typedef name="rangeFloat">
96      <language name="java">android.util.Range&lt;Float&gt;</language>
97    </typedef>
98    <typedef name="rangeInt">
99      <language name="java">android.util.Range&lt;Integer&gt;</language>
100    </typedef>
101    <typedef name="rangeLong">
102      <language name="java">android.util.Range&lt;Long&gt;</language>
103    </typedef>
104    <typedef name="colorSpaceTransform">
105      <language name="java">android.hardware.camera2.params.ColorSpaceTransform</language>
106    </typedef>
107    <typedef name="rggbChannelVector">
108      <language name="java">android.hardware.camera2.params.RggbChannelVector</language>
109    </typedef>
110    <typedef name="blackLevelPattern">
111      <language name="java">android.hardware.camera2.params.BlackLevelPattern</language>
112    </typedef>
113    <typedef name="enumList">
114      <language name="java">int</language>
115    </typedef>
116    <typedef name="sizeF">
117      <language name="java">android.util.SizeF</language>
118    </typedef>
119    <typedef name="point">
120      <language name="java">android.graphics.Point</language>
121    </typedef>
122    <typedef name="tonemapCurve">
123      <language name="java">android.hardware.camera2.params.TonemapCurve</language>
124    </typedef>
125    <typedef name="lensShadingMap">
126      <language name="java">android.hardware.camera2.params.LensShadingMap</language>
127    </typedef>
128    <typedef name="location">
129      <language name="java">android.location.Location</language>
130    </typedef>
131    <typedef name="highSpeedVideoConfiguration">
132      <language name="java">android.hardware.camera2.params.HighSpeedVideoConfiguration</language>
133    </typedef>
134    <typedef name="reprocessFormatsMap">
135      <language name="java">android.hardware.camera2.params.ReprocessFormatsMap</language>
136    </typedef>
137    <typedef name="oisSample">
138      <language name="java">android.hardware.camera2.params.OisSample</language>
139    </typedef>
140    <typedef name="mandatoryStreamCombination">
141      <language name="java">android.hardware.camera2.params.MandatoryStreamCombination</language>
142    </typedef>
143  </types>
144
145  <namespace name="android">
146    <section name="colorCorrection">
147      <controls>
148        <entry name="mode" type="byte" visibility="public" enum="true" hwlevel="full">
149          <enum>
150            <value>TRANSFORM_MATRIX
151              <notes>Use the android.colorCorrection.transform matrix
152                and android.colorCorrection.gains to do color conversion.
153
154                All advanced white balance adjustments (not specified
155                by our white balance pipeline) must be disabled.
156
157                If AWB is enabled with `android.control.awbMode != OFF`, then
158                TRANSFORM_MATRIX is ignored. The camera device will override
159                this value to either FAST or HIGH_QUALITY.
160              </notes>
161            </value>
162            <value>FAST
163              <notes>Color correction processing must not slow down
164              capture rate relative to sensor raw output.
165
166              Advanced white balance adjustments above and beyond
167              the specified white balance pipeline may be applied.
168
169              If AWB is enabled with `android.control.awbMode != OFF`, then
170              the camera device uses the last frame's AWB values
171              (or defaults if AWB has never been run).
172            </notes>
173            </value>
174            <value>HIGH_QUALITY
175              <notes>Color correction processing operates at improved
176              quality but the capture rate might be reduced (relative to sensor
177              raw output rate)
178
179              Advanced white balance adjustments above and beyond
180              the specified white balance pipeline may be applied.
181
182              If AWB is enabled with `android.control.awbMode != OFF`, then
183              the camera device uses the last frame's AWB values
184              (or defaults if AWB has never been run).
185            </notes>
186            </value>
187          </enum>
188
189          <description>
190          The mode control selects how the image data is converted from the
191          sensor's native color into linear sRGB color.
192          </description>
193          <details>
194          When auto-white balance (AWB) is enabled with android.control.awbMode, this
195          control is overridden by the AWB routine. When AWB is disabled, the
196          application controls how the color mapping is performed.
197
198          We define the expected processing pipeline below. For consistency
199          across devices, this is always the case with TRANSFORM_MATRIX.
200
201          When either FULL or HIGH_QUALITY is used, the camera device may
202          do additional processing but android.colorCorrection.gains and
203          android.colorCorrection.transform will still be provided by the
204          camera device (in the results) and be roughly correct.
205
206          Switching to TRANSFORM_MATRIX and using the data provided from
207          FAST or HIGH_QUALITY will yield a picture with the same white point
208          as what was produced by the camera device in the earlier frame.
209
210          The expected processing pipeline is as follows:
211
212          ![White balance processing pipeline](android.colorCorrection.mode/processing_pipeline.png)
213
214          The white balance is encoded by two values, a 4-channel white-balance
215          gain vector (applied in the Bayer domain), and a 3x3 color transform
216          matrix (applied after demosaic).
217
218          The 4-channel white-balance gains are defined as:
219
220              android.colorCorrection.gains = [ R G_even G_odd B ]
221
222          where `G_even` is the gain for green pixels on even rows of the
223          output, and `G_odd` is the gain for green pixels on the odd rows.
224          These may be identical for a given camera device implementation; if
225          the camera device does not support a separate gain for even/odd green
226          channels, it will use the `G_even` value, and write `G_odd` equal to
227          `G_even` in the output result metadata.
228
229          The matrices for color transforms are defined as a 9-entry vector:
230
231              android.colorCorrection.transform = [ I0 I1 I2 I3 I4 I5 I6 I7 I8 ]
232
233          which define a transform from input sensor colors, `P_in = [ r g b ]`,
234          to output linear sRGB, `P_out = [ r' g' b' ]`,
235
236          with colors as follows:
237
238              r' = I0r + I1g + I2b
239              g' = I3r + I4g + I5b
240              b' = I6r + I7g + I8b
241
242          Both the input and output value ranges must match. Overflow/underflow
243          values are clipped to fit within the range.
244          </details>
245          <hal_details>
246          HAL must support both FAST and HIGH_QUALITY if color correction control is available
247          on the camera device, but the underlying implementation can be the same for both modes.
248          That is, if the highest quality implementation on the camera device does not slow down
249          capture rate, then FAST and HIGH_QUALITY should generate the same output.
250          </hal_details>
251        </entry>
252        <entry name="transform" type="rational" visibility="public"
253               type_notes="3x3 rational matrix in row-major order"
254               container="array" typedef="colorSpaceTransform" hwlevel="full">
255          <array>
256            <size>3</size>
257            <size>3</size>
258          </array>
259          <description>A color transform matrix to use to transform
260          from sensor RGB color space to output linear sRGB color space.
261          </description>
262          <units>Unitless scale factors</units>
263          <details>This matrix is either set by the camera device when the request
264          android.colorCorrection.mode is not TRANSFORM_MATRIX, or
265          directly by the application in the request when the
266          android.colorCorrection.mode is TRANSFORM_MATRIX.
267
268          In the latter case, the camera device may round the matrix to account
269          for precision issues; the final rounded matrix should be reported back
270          in this matrix result metadata. The transform should keep the magnitude
271          of the output color values within `[0, 1.0]` (assuming input color
272          values is within the normalized range `[0, 1.0]`), or clipping may occur.
273
274          The valid range of each matrix element varies on different devices, but
275          values within [-1.5, 3.0] are guaranteed not to be clipped.
276          </details>
277        </entry>
278        <entry name="gains" type="float" visibility="public"
279               type_notes="A 1D array of floats for 4 color channel gains"
280               container="array" typedef="rggbChannelVector" hwlevel="full">
281          <array>
282            <size>4</size>
283          </array>
284          <description>Gains applying to Bayer raw color channels for
285          white-balance.</description>
286          <units>Unitless gain factors</units>
287          <details>
288          These per-channel gains are either set by the camera device
289          when the request android.colorCorrection.mode is not
290          TRANSFORM_MATRIX, or directly by the application in the
291          request when the android.colorCorrection.mode is
292          TRANSFORM_MATRIX.
293
294          The gains in the result metadata are the gains actually
295          applied by the camera device to the current frame.
296
297          The valid range of gains varies on different devices, but gains
298          between [1.0, 3.0] are guaranteed not to be clipped. Even if a given
299          device allows gains below 1.0, this is usually not recommended because
300          this can create color artifacts.
301          </details>
302          <hal_details>
303          The 4-channel white-balance gains are defined in
304          the order of `[R G_even G_odd B]`, where `G_even` is the gain
305          for green pixels on even rows of the output, and `G_odd`
306          is the gain for green pixels on the odd rows.
307
308          If a HAL does not support a separate gain for even/odd green
309          channels, it must use the `G_even` value, and write
310          `G_odd` equal to `G_even` in the output result metadata.
311          </hal_details>
312        </entry>
313        <entry name="aberrationMode" type="byte" visibility="public" enum="true" hwlevel="legacy">
314          <enum>
315            <value>OFF
316              <notes>
317                No aberration correction is applied.
318              </notes>
319            </value>
320            <value>FAST
321              <notes>
322                Aberration correction will not slow down capture rate
323                relative to sensor raw output.
324            </notes>
325            </value>
326            <value>HIGH_QUALITY
327              <notes>
328                Aberration correction operates at improved quality but the capture rate might be
329                reduced (relative to sensor raw output rate)
330            </notes>
331            </value>
332          </enum>
333          <description>
334            Mode of operation for the chromatic aberration correction algorithm.
335          </description>
336          <range>android.colorCorrection.availableAberrationModes</range>
337          <details>
338            Chromatic (color) aberration is caused by the fact that different wavelengths of light
339            can not focus on the same point after exiting from the lens. This metadata defines
340            the high level control of chromatic aberration correction algorithm, which aims to
341            minimize the chromatic artifacts that may occur along the object boundaries in an
342            image.
343
344            FAST/HIGH_QUALITY both mean that camera device determined aberration
345            correction will be applied. HIGH_QUALITY mode indicates that the camera device will
346            use the highest-quality aberration correction algorithms, even if it slows down
347            capture rate. FAST means the camera device will not slow down capture rate when
348            applying aberration correction.
349
350            LEGACY devices will always be in FAST mode.
351          </details>
352        </entry>
353      </controls>
354      <dynamic>
355        <clone entry="android.colorCorrection.mode" kind="controls">
356        </clone>
357        <clone entry="android.colorCorrection.transform" kind="controls">
358        </clone>
359        <clone entry="android.colorCorrection.gains" kind="controls">
360        </clone>
361        <clone entry="android.colorCorrection.aberrationMode" kind="controls">
362        </clone>
363      </dynamic>
364      <static>
365        <entry name="availableAberrationModes" type="byte" visibility="public"
366        type_notes="list of enums" container="array" typedef="enumList" hwlevel="legacy">
367          <array>
368            <size>n</size>
369          </array>
370          <description>
371            List of aberration correction modes for android.colorCorrection.aberrationMode that are
372            supported by this camera device.
373          </description>
374          <range>Any value listed in android.colorCorrection.aberrationMode</range>
375          <details>
376            This key lists the valid modes for android.colorCorrection.aberrationMode.  If no
377            aberration correction modes are available for a device, this list will solely include
378            OFF mode. All camera devices will support either OFF or FAST mode.
379
380            Camera devices that support the MANUAL_POST_PROCESSING capability will always list
381            OFF mode. This includes all FULL level devices.
382
383            LEGACY devices will always only support FAST mode.
384          </details>
385          <hal_details>
386            HAL must support both FAST and HIGH_QUALITY if chromatic aberration control is available
387            on the camera device, but the underlying implementation can be the same for both modes.
388            That is, if the highest quality implementation on the camera device does not slow down
389            capture rate, then FAST and HIGH_QUALITY will generate the same output.
390          </hal_details>
391          <tag id="V1" />
392        </entry>
393      </static>
394    </section>
395    <section name="control">
396      <controls>
397        <entry name="aeAntibandingMode" type="byte" visibility="public"
398               enum="true" hwlevel="legacy">
399          <enum>
400            <value>OFF
401              <notes>
402                The camera device will not adjust exposure duration to
403                avoid banding problems.
404              </notes>
405            </value>
406            <value>50HZ
407              <notes>
408                The camera device will adjust exposure duration to
409                avoid banding problems with 50Hz illumination sources.
410              </notes>
411            </value>
412            <value>60HZ
413              <notes>
414                The camera device will adjust exposure duration to
415                avoid banding problems with 60Hz illumination
416                sources.
417              </notes>
418            </value>
419            <value>AUTO
420              <notes>
421                The camera device will automatically adapt its
422                antibanding routine to the current illumination
423                condition. This is the default mode if AUTO is
424                available on given camera device.
425              </notes>
426            </value>
427          </enum>
428          <description>
429            The desired setting for the camera device's auto-exposure
430            algorithm's antibanding compensation.
431          </description>
432          <range>
433            android.control.aeAvailableAntibandingModes
434          </range>
435          <details>
436            Some kinds of lighting fixtures, such as some fluorescent
437            lights, flicker at the rate of the power supply frequency
438            (60Hz or 50Hz, depending on country). While this is
439            typically not noticeable to a person, it can be visible to
440            a camera device. If a camera sets its exposure time to the
441            wrong value, the flicker may become visible in the
442            viewfinder as flicker or in a final captured image, as a
443            set of variable-brightness bands across the image.
444
445            Therefore, the auto-exposure routines of camera devices
446            include antibanding routines that ensure that the chosen
447            exposure value will not cause such banding. The choice of
448            exposure time depends on the rate of flicker, which the
449            camera device can detect automatically, or the expected
450            rate can be selected by the application using this
451            control.
452
453            A given camera device may not support all of the possible
454            options for the antibanding mode. The
455            android.control.aeAvailableAntibandingModes key contains
456            the available modes for a given camera device.
457
458            AUTO mode is the default if it is available on given
459            camera device. When AUTO mode is not available, the
460            default will be either 50HZ or 60HZ, and both 50HZ
461            and 60HZ will be available.
462
463            If manual exposure control is enabled (by setting
464            android.control.aeMode or android.control.mode to OFF),
465            then this setting has no effect, and the application must
466            ensure it selects exposure times that do not cause banding
467            issues. The android.statistics.sceneFlicker key can assist
468            the application in this.
469          </details>
470          <hal_details>
471            For all capture request templates, this field must be set
472            to AUTO if AUTO mode is available. If AUTO is not available,
473            the default must be either 50HZ or 60HZ, and both 50HZ and
474            60HZ must be available.
475
476            If manual exposure control is enabled (by setting
477            android.control.aeMode or android.control.mode to OFF),
478            then the exposure values provided by the application must not be
479            adjusted for antibanding.
480          </hal_details>
481          <tag id="BC" />
482        </entry>
483        <entry name="aeExposureCompensation" type="int32" visibility="public" hwlevel="legacy">
484          <description>Adjustment to auto-exposure (AE) target image
485          brightness.</description>
486          <units>Compensation steps</units>
487          <range>android.control.aeCompensationRange</range>
488          <details>
489          The adjustment is measured as a count of steps, with the
490          step size defined by android.control.aeCompensationStep and the
491          allowed range by android.control.aeCompensationRange.
492
493          For example, if the exposure value (EV) step is 0.333, '6'
494          will mean an exposure compensation of +2 EV; -3 will mean an
495          exposure compensation of -1 EV. One EV represents a doubling
496          of image brightness. Note that this control will only be
497          effective if android.control.aeMode `!=` OFF. This control
498          will take effect even when android.control.aeLock `== true`.
499
500          In the event of exposure compensation value being changed, camera device
501          may take several frames to reach the newly requested exposure target.
502          During that time, android.control.aeState field will be in the SEARCHING
503          state. Once the new exposure target is reached, android.control.aeState will
504          change from SEARCHING to either CONVERGED, LOCKED (if AE lock is enabled), or
505          FLASH_REQUIRED (if the scene is too dark for still capture).
506          </details>
507          <tag id="BC" />
508        </entry>
509        <entry name="aeLock" type="byte" visibility="public" enum="true"
510               typedef="boolean" hwlevel="legacy">
511          <enum>
512            <value>OFF
513            <notes>Auto-exposure lock is disabled; the AE algorithm
514            is free to update its parameters.</notes></value>
515            <value>ON
516            <notes>Auto-exposure lock is enabled; the AE algorithm
517            must not update the exposure and sensitivity parameters
518            while the lock is active.
519
520            android.control.aeExposureCompensation setting changes
521            will still take effect while auto-exposure is locked.
522
523            Some rare LEGACY devices may not support
524            this, in which case the value will always be overridden to OFF.
525            </notes></value>
526          </enum>
527          <description>Whether auto-exposure (AE) is currently locked to its latest
528          calculated values.</description>
529          <details>
530          When set to `true` (ON), the AE algorithm is locked to its latest parameters,
531          and will not change exposure settings until the lock is set to `false` (OFF).
532
533          Note that even when AE is locked, the flash may be fired if
534          the android.control.aeMode is ON_AUTO_FLASH /
535          ON_ALWAYS_FLASH / ON_AUTO_FLASH_REDEYE.
536
537          When android.control.aeExposureCompensation is changed, even if the AE lock
538          is ON, the camera device will still adjust its exposure value.
539
540          If AE precapture is triggered (see android.control.aePrecaptureTrigger)
541          when AE is already locked, the camera device will not change the exposure time
542          (android.sensor.exposureTime) and sensitivity (android.sensor.sensitivity)
543          parameters. The flash may be fired if the android.control.aeMode
544          is ON_AUTO_FLASH/ON_AUTO_FLASH_REDEYE and the scene is too dark. If the
545          android.control.aeMode is ON_ALWAYS_FLASH, the scene may become overexposed.
546          Similarly, AE precapture trigger CANCEL has no effect when AE is already locked.
547
548          When an AE precapture sequence is triggered, AE unlock will not be able to unlock
549          the AE if AE is locked by the camera device internally during precapture metering
550          sequence In other words, submitting requests with AE unlock has no effect for an
551          ongoing precapture metering sequence. Otherwise, the precapture metering sequence
552          will never succeed in a sequence of preview requests where AE lock is always set
553          to `false`.
554
555          Since the camera device has a pipeline of in-flight requests, the settings that
556          get locked do not necessarily correspond to the settings that were present in the
557          latest capture result received from the camera device, since additional captures
558          and AE updates may have occurred even before the result was sent out. If an
559          application is switching between automatic and manual control and wishes to eliminate
560          any flicker during the switch, the following procedure is recommended:
561
562            1. Starting in auto-AE mode:
563            2. Lock AE
564            3. Wait for the first result to be output that has the AE locked
565            4. Copy exposure settings from that result into a request, set the request to manual AE
566            5. Submit the capture request, proceed to run manual AE as desired.
567
568          See android.control.aeState for AE lock related state transition details.
569          </details>
570          <tag id="BC" />
571        </entry>
572        <entry name="aeMode" type="byte" visibility="public" enum="true" hwlevel="legacy">
573          <enum>
574            <value>OFF
575              <notes>
576                The camera device's autoexposure routine is disabled.
577
578                The application-selected android.sensor.exposureTime,
579                android.sensor.sensitivity and
580                android.sensor.frameDuration are used by the camera
581                device, along with android.flash.* fields, if there's
582                a flash unit for this camera device.
583
584                Note that auto-white balance (AWB) and auto-focus (AF)
585                behavior is device dependent when AE is in OFF mode.
586                To have consistent behavior across different devices,
587                it is recommended to either set AWB and AF to OFF mode
588                or lock AWB and AF before setting AE to OFF.
589                See android.control.awbMode, android.control.afMode,
590                android.control.awbLock, and android.control.afTrigger
591                for more details.
592
593                LEGACY devices do not support the OFF mode and will
594                override attempts to use this value to ON.
595              </notes>
596            </value>
597            <value>ON
598              <notes>
599                The camera device's autoexposure routine is active,
600                with no flash control.
601
602                The application's values for
603                android.sensor.exposureTime,
604                android.sensor.sensitivity, and
605                android.sensor.frameDuration are ignored. The
606                application has control over the various
607                android.flash.* fields.
608              </notes>
609            </value>
610            <value>ON_AUTO_FLASH
611              <notes>
612                Like ON, except that the camera device also controls
613                the camera's flash unit, firing it in low-light
614                conditions.
615
616                The flash may be fired during a precapture sequence
617                (triggered by android.control.aePrecaptureTrigger) and
618                may be fired for captures for which the
619                android.control.captureIntent field is set to
620                STILL_CAPTURE
621              </notes>
622            </value>
623            <value>ON_ALWAYS_FLASH
624              <notes>
625                Like ON, except that the camera device also controls
626                the camera's flash unit, always firing it for still
627                captures.
628
629                The flash may be fired during a precapture sequence
630                (triggered by android.control.aePrecaptureTrigger) and
631                will always be fired for captures for which the
632                android.control.captureIntent field is set to
633                STILL_CAPTURE
634              </notes>
635            </value>
636            <value>ON_AUTO_FLASH_REDEYE
637              <notes>
638                Like ON_AUTO_FLASH, but with automatic red eye
639                reduction.
640
641                If deemed necessary by the camera device, a red eye
642                reduction flash will fire during the precapture
643                sequence.
644              </notes>
645            </value>
646            <value hal_version="3.3">ON_EXTERNAL_FLASH
647              <notes>
648                An external flash has been turned on.
649
650                It informs the camera device that an external flash has been turned on, and that
651                metering (and continuous focus if active) should be quickly recaculated to account
652                for the external flash. Otherwise, this mode acts like ON.
653
654                When the external flash is turned off, AE mode should be changed to one of the
655                other available AE modes.
656
657                If the camera device supports AE external flash mode, android.control.aeState must
658                be FLASH_REQUIRED after the camera device finishes AE scan and it's too dark without
659                flash.
660              </notes>
661            </value>
662          </enum>
663          <description>The desired mode for the camera device's
664          auto-exposure routine.</description>
665          <range>android.control.aeAvailableModes</range>
666          <details>
667            This control is only effective if android.control.mode is
668            AUTO.
669
670            When set to any of the ON modes, the camera device's
671            auto-exposure routine is enabled, overriding the
672            application's selected exposure time, sensor sensitivity,
673            and frame duration (android.sensor.exposureTime,
674            android.sensor.sensitivity, and
675            android.sensor.frameDuration). If one of the FLASH modes
676            is selected, the camera device's flash unit controls are
677            also overridden.
678
679            The FLASH modes are only available if the camera device
680            has a flash unit (android.flash.info.available is `true`).
681
682            If flash TORCH mode is desired, this field must be set to
683            ON or OFF, and android.flash.mode set to TORCH.
684
685            When set to any of the ON modes, the values chosen by the
686            camera device auto-exposure routine for the overridden
687            fields for a given capture will be available in its
688            CaptureResult.
689          </details>
690          <tag id="BC" />
691        </entry>
692        <entry name="aeRegions" type="int32" visibility="public"
693            optional="true" container="array" typedef="meteringRectangle">
694          <array>
695            <size>5</size>
696            <size>area_count</size>
697          </array>
698          <description>List of metering areas to use for auto-exposure adjustment.</description>
699          <units>Pixel coordinates within android.sensor.info.activeArraySize or
700            android.sensor.info.preCorrectionActiveArraySize depending on
701            distortion correction capability and mode</units>
702          <range>Coordinates must be between `[(0,0), (width, height))` of
703            android.sensor.info.activeArraySize or android.sensor.info.preCorrectionActiveArraySize
704            depending on distortion correction capability and mode</range>
705          <details>
706              Not available if android.control.maxRegionsAe is 0.
707              Otherwise will always be present.
708
709              The maximum number of regions supported by the device is determined by the value
710              of android.control.maxRegionsAe.
711
712              For devices not supporting android.distortionCorrection.mode control, the coordinate
713              system always follows that of android.sensor.info.activeArraySize, with (0,0) being
714              the top-left pixel in the active pixel array, and
715              (android.sensor.info.activeArraySize.width - 1,
716              android.sensor.info.activeArraySize.height - 1) being the bottom-right pixel in the
717              active pixel array.
718
719              For devices supporting android.distortionCorrection.mode control, the coordinate
720              system depends on the mode being set.
721              When the distortion correction mode is OFF, the coordinate system follows
722              android.sensor.info.preCorrectionActiveArraySize, with
723              `(0, 0)` being the top-left pixel of the pre-correction active array, and
724              (android.sensor.info.preCorrectionActiveArraySize.width - 1,
725              android.sensor.info.preCorrectionActiveArraySize.height - 1) being the bottom-right
726              pixel in the pre-correction active pixel array.
727              When the distortion correction mode is not OFF, the coordinate system follows
728              android.sensor.info.activeArraySize, with
729              `(0, 0)` being the top-left pixel of the active array, and
730              (android.sensor.info.activeArraySize.width - 1,
731              android.sensor.info.activeArraySize.height - 1) being the bottom-right pixel in the
732              active pixel array.
733
734              The weight must be within `[0, 1000]`, and represents a weight
735              for every pixel in the area. This means that a large metering area
736              with the same weight as a smaller area will have more effect in
737              the metering result. Metering areas can partially overlap and the
738              camera device will add the weights in the overlap region.
739
740              The weights are relative to weights of other exposure metering regions, so if only one
741              region is used, all non-zero weights will have the same effect. A region with 0
742              weight is ignored.
743
744              If all regions have 0 weight, then no specific metering area needs to be used by the
745              camera device.
746
747              If the metering region is outside the used android.scaler.cropRegion returned in
748              capture result metadata, the camera device will ignore the sections outside the crop
749              region and output only the intersection rectangle as the metering region in the result
750              metadata.  If the region is entirely outside the crop region, it will be ignored and
751              not reported in the result metadata.
752          </details>
753          <ndk_details>
754              The data representation is `int[5 * area_count]`.
755              Every five elements represent a metering region of `(xmin, ymin, xmax, ymax, weight)`.
756              The rectangle is defined to be inclusive on xmin and ymin, but exclusive on xmax and
757              ymax.
758          </ndk_details>
759          <hal_details>
760              The HAL level representation of MeteringRectangle[] is a
761              int[5 * area_count].
762              Every five elements represent a metering region of
763              (xmin, ymin, xmax, ymax, weight).
764              The rectangle is defined to be inclusive on xmin and ymin, but
765              exclusive on xmax and ymax.
766              HAL must always report metering regions in the coordinate system of pre-correction
767              active array.
768          </hal_details>
769          <tag id="BC" />
770        </entry>
771        <entry name="aeTargetFpsRange" type="int32" visibility="public"
772               container="array" typedef="rangeInt" hwlevel="legacy">
773          <array>
774            <size>2</size>
775          </array>
776          <description>Range over which the auto-exposure routine can
777          adjust the capture frame rate to maintain good
778          exposure.</description>
779          <units>Frames per second (FPS)</units>
780          <range>Any of the entries in android.control.aeAvailableTargetFpsRanges</range>
781          <details>Only constrains auto-exposure (AE) algorithm, not
782          manual control of android.sensor.exposureTime and
783          android.sensor.frameDuration.</details>
784          <tag id="BC" />
785        </entry>
786        <entry name="aePrecaptureTrigger" type="byte" visibility="public"
787               enum="true" hwlevel="limited">
788          <enum>
789            <value>IDLE
790              <notes>The trigger is idle.</notes>
791            </value>
792            <value>START
793              <notes>The precapture metering sequence will be started
794              by the camera device.
795
796              The exact effect of the precapture trigger depends on
797              the current AE mode and state.</notes>
798            </value>
799            <value>CANCEL
800              <notes>The camera device will cancel any currently active or completed
801              precapture metering sequence, the auto-exposure routine will return to its
802              initial state.</notes>
803            </value>
804          </enum>
805          <description>Whether the camera device will trigger a precapture
806          metering sequence when it processes this request.</description>
807          <details>This entry is normally set to IDLE, or is not
808          included at all in the request settings. When included and
809          set to START, the camera device will trigger the auto-exposure (AE)
810          precapture metering sequence.
811
812          When set to CANCEL, the camera device will cancel any active
813          precapture metering trigger, and return to its initial AE state.
814          If a precapture metering sequence is already completed, and the camera
815          device has implicitly locked the AE for subsequent still capture, the
816          CANCEL trigger will unlock the AE and return to its initial AE state.
817
818          The precapture sequence should be triggered before starting a
819          high-quality still capture for final metering decisions to
820          be made, and for firing pre-capture flash pulses to estimate
821          scene brightness and required final capture flash power, when
822          the flash is enabled.
823
824          Normally, this entry should be set to START for only a
825          single request, and the application should wait until the
826          sequence completes before starting a new one.
827
828          When a precapture metering sequence is finished, the camera device
829          may lock the auto-exposure routine internally to be able to accurately expose the
830          subsequent still capture image (`android.control.captureIntent == STILL_CAPTURE`).
831          For this case, the AE may not resume normal scan if no subsequent still capture is
832          submitted. To ensure that the AE routine restarts normal scan, the application should
833          submit a request with `android.control.aeLock == true`, followed by a request
834          with `android.control.aeLock == false`, if the application decides not to submit a
835          still capture request after the precapture sequence completes. Alternatively, for
836          API level 23 or newer devices, the CANCEL can be used to unlock the camera device
837          internally locked AE if the application doesn't submit a still capture request after
838          the AE precapture trigger. Note that, the CANCEL was added in API level 23, and must not
839          be used in devices that have earlier API levels.
840
841          The exact effect of auto-exposure (AE) precapture trigger
842          depends on the current AE mode and state; see
843          android.control.aeState for AE precapture state transition
844          details.
845
846          On LEGACY-level devices, the precapture trigger is not supported;
847          capturing a high-resolution JPEG image will automatically trigger a
848          precapture sequence before the high-resolution capture, including
849          potentially firing a pre-capture flash.
850
851          Using the precapture trigger and the auto-focus trigger android.control.afTrigger
852          simultaneously is allowed. However, since these triggers often require cooperation between
853          the auto-focus and auto-exposure routines (for example, the may need to be enabled for a
854          focus sweep), the camera device may delay acting on a later trigger until the previous
855          trigger has been fully handled. This may lead to longer intervals between the trigger and
856          changes to android.control.aeState indicating the start of the precapture sequence, for
857          example.
858
859          If both the precapture and the auto-focus trigger are activated on the same request, then
860          the camera device will complete them in the optimal order for that device.
861          </details>
862          <hal_details>
863          The HAL must support triggering the AE precapture trigger while an AF trigger is active
864          (and vice versa), or at the same time as the AF trigger.  It is acceptable for the HAL to
865          treat these as two consecutive triggers, for example handling the AF trigger and then the
866          AE trigger.  Or the HAL may choose to optimize the case with both triggers fired at once,
867          to minimize the latency for converging both focus and exposure/flash usage.
868          </hal_details>
869          <tag id="BC" />
870        </entry>
871        <entry name="afMode" type="byte" visibility="public" enum="true"
872               hwlevel="legacy">
873          <enum>
874            <value>OFF
875            <notes>The auto-focus routine does not control the lens;
876            android.lens.focusDistance is controlled by the
877            application.</notes></value>
878            <value>AUTO
879            <notes>Basic automatic focus mode.
880
881            In this mode, the lens does not move unless
882            the autofocus trigger action is called. When that trigger
883            is activated, AF will transition to ACTIVE_SCAN, then to
884            the outcome of the scan (FOCUSED or NOT_FOCUSED).
885
886            Always supported if lens is not fixed focus.
887
888            Use android.lens.info.minimumFocusDistance to determine if lens
889            is fixed-focus.
890
891            Triggering AF_CANCEL resets the lens position to default,
892            and sets the AF state to INACTIVE.</notes></value>
893            <value>MACRO
894            <notes>Close-up focusing mode.
895
896            In this mode, the lens does not move unless the
897            autofocus trigger action is called. When that trigger is
898            activated, AF will transition to ACTIVE_SCAN, then to
899            the outcome of the scan (FOCUSED or NOT_FOCUSED). This
900            mode is optimized for focusing on objects very close to
901            the camera.
902
903            When that trigger is activated, AF will transition to
904            ACTIVE_SCAN, then to the outcome of the scan (FOCUSED or
905            NOT_FOCUSED). Triggering cancel AF resets the lens
906            position to default, and sets the AF state to
907            INACTIVE.</notes></value>
908            <value>CONTINUOUS_VIDEO
909            <notes>In this mode, the AF algorithm modifies the lens
910            position continually to attempt to provide a
911            constantly-in-focus image stream.
912
913            The focusing behavior should be suitable for good quality
914            video recording; typically this means slower focus
915            movement and no overshoots. When the AF trigger is not
916            involved, the AF algorithm should start in INACTIVE state,
917            and then transition into PASSIVE_SCAN and PASSIVE_FOCUSED
918            states as appropriate. When the AF trigger is activated,
919            the algorithm should immediately transition into
920            AF_FOCUSED or AF_NOT_FOCUSED as appropriate, and lock the
921            lens position until a cancel AF trigger is received.
922
923            Once cancel is received, the algorithm should transition
924            back to INACTIVE and resume passive scan. Note that this
925            behavior is not identical to CONTINUOUS_PICTURE, since an
926            ongoing PASSIVE_SCAN must immediately be
927            canceled.</notes></value>
928            <value>CONTINUOUS_PICTURE
929            <notes>In this mode, the AF algorithm modifies the lens
930            position continually to attempt to provide a
931            constantly-in-focus image stream.
932
933            The focusing behavior should be suitable for still image
934            capture; typically this means focusing as fast as
935            possible. When the AF trigger is not involved, the AF
936            algorithm should start in INACTIVE state, and then
937            transition into PASSIVE_SCAN and PASSIVE_FOCUSED states as
938            appropriate as it attempts to maintain focus. When the AF
939            trigger is activated, the algorithm should finish its
940            PASSIVE_SCAN if active, and then transition into
941            AF_FOCUSED or AF_NOT_FOCUSED as appropriate, and lock the
942            lens position until a cancel AF trigger is received.
943
944            When the AF cancel trigger is activated, the algorithm
945            should transition back to INACTIVE and then act as if it
946            has just been started.</notes></value>
947            <value>EDOF
948            <notes>Extended depth of field (digital focus) mode.
949
950            The camera device will produce images with an extended
951            depth of field automatically; no special focusing
952            operations need to be done before taking a picture.
953
954            AF triggers are ignored, and the AF state will always be
955            INACTIVE.</notes></value>
956          </enum>
957          <description>Whether auto-focus (AF) is currently enabled, and what
958          mode it is set to.</description>
959          <range>android.control.afAvailableModes</range>
960          <details>Only effective if android.control.mode = AUTO and the lens is not fixed focus
961          (i.e. `android.lens.info.minimumFocusDistance &gt; 0`). Also note that
962          when android.control.aeMode is OFF, the behavior of AF is device
963          dependent. It is recommended to lock AF by using android.control.afTrigger before
964          setting android.control.aeMode to OFF, or set AF mode to OFF when AE is OFF.
965
966          If the lens is controlled by the camera device auto-focus algorithm,
967          the camera device will report the current AF status in android.control.afState
968          in result metadata.</details>
969          <hal_details>
970          When afMode is AUTO or MACRO, the lens must not move until an AF trigger is sent in a
971          request (android.control.afTrigger `==` START). After an AF trigger, the afState will end
972          up with either FOCUSED_LOCKED or NOT_FOCUSED_LOCKED state (see
973          android.control.afState for detailed state transitions), which indicates that the lens is
974          locked and will not move. If camera movement (e.g. tilting camera) causes the lens to move
975          after the lens is locked, the HAL must compensate this movement appropriately such that
976          the same focal plane remains in focus.
977
978          When afMode is one of the continuous auto focus modes, the HAL is free to start a AF
979          scan whenever it's not locked. When the lens is locked after an AF trigger
980          (see android.control.afState for detailed state transitions), the HAL should maintain the
981          same lock behavior as above.
982
983          When afMode is OFF, the application controls focus manually. The accuracy of the
984          focus distance control depends on the android.lens.info.focusDistanceCalibration.
985          However, the lens must not move regardless of the camera movement for any focus distance
986          manual control.
987
988          To put this in concrete terms, if the camera has lens elements which may move based on
989          camera orientation or motion (e.g. due to gravity), then the HAL must drive the lens to
990          remain in a fixed position invariant to the camera's orientation or motion, for example,
991          by using accelerometer measurements in the lens control logic. This is a typical issue
992          that will arise on camera modules with open-loop VCMs.
993          </hal_details>
994          <tag id="BC" />
995        </entry>
996        <entry name="afRegions" type="int32" visibility="public"
997               optional="true" container="array" typedef="meteringRectangle">
998          <array>
999            <size>5</size>
1000            <size>area_count</size>
1001          </array>
1002          <description>List of metering areas to use for auto-focus.</description>
1003          <units>Pixel coordinates within android.sensor.info.activeArraySize or
1004            android.sensor.info.preCorrectionActiveArraySize depending on
1005            distortion correction capability and mode</units>
1006          <range>Coordinates must be between `[(0,0), (width, height))` of
1007            android.sensor.info.activeArraySize or android.sensor.info.preCorrectionActiveArraySize
1008            depending on distortion correction capability and mode</range>
1009          <details>
1010              Not available if android.control.maxRegionsAf is 0.
1011              Otherwise will always be present.
1012
1013              The maximum number of focus areas supported by the device is determined by the value
1014              of android.control.maxRegionsAf.
1015
1016
1017              For devices not supporting android.distortionCorrection.mode control, the coordinate
1018              system always follows that of android.sensor.info.activeArraySize, with (0,0) being
1019              the top-left pixel in the active pixel array, and
1020              (android.sensor.info.activeArraySize.width - 1,
1021              android.sensor.info.activeArraySize.height - 1) being the bottom-right pixel in the
1022              active pixel array.
1023
1024              For devices supporting android.distortionCorrection.mode control, the coordinate
1025              system depends on the mode being set.
1026              When the distortion correction mode is OFF, the coordinate system follows
1027              android.sensor.info.preCorrectionActiveArraySize, with
1028              `(0, 0)` being the top-left pixel of the pre-correction active array, and
1029              (android.sensor.info.preCorrectionActiveArraySize.width - 1,
1030              android.sensor.info.preCorrectionActiveArraySize.height - 1) being the bottom-right
1031              pixel in the pre-correction active pixel array.
1032              When the distortion correction mode is not OFF, the coordinate system follows
1033              android.sensor.info.activeArraySize, with
1034              `(0, 0)` being the top-left pixel of the active array, and
1035              (android.sensor.info.activeArraySize.width - 1,
1036              android.sensor.info.activeArraySize.height - 1) being the bottom-right pixel in the
1037              active pixel array.
1038
1039              The weight must be within `[0, 1000]`, and represents a weight
1040              for every pixel in the area. This means that a large metering area
1041              with the same weight as a smaller area will have more effect in
1042              the metering result. Metering areas can partially overlap and the
1043              camera device will add the weights in the overlap region.
1044
1045              The weights are relative to weights of other metering regions, so if only one region
1046              is used, all non-zero weights will have the same effect. A region with 0 weight is
1047              ignored.
1048
1049              If all regions have 0 weight, then no specific metering area needs to be used by the
1050              camera device. The capture result will either be a zero weight region as well, or
1051              the region selected by the camera device as the focus area of interest.
1052
1053              If the metering region is outside the used android.scaler.cropRegion returned in
1054              capture result metadata, the camera device will ignore the sections outside the crop
1055              region and output only the intersection rectangle as the metering region in the result
1056              metadata. If the region is entirely outside the crop region, it will be ignored and
1057              not reported in the result metadata.
1058          </details>
1059          <ndk_details>
1060              The data representation is `int[5 * area_count]`.
1061              Every five elements represent a metering region of `(xmin, ymin, xmax, ymax, weight)`.
1062              The rectangle is defined to be inclusive on xmin and ymin, but exclusive on xmax and
1063              ymax.
1064          </ndk_details>
1065          <hal_details>
1066              The HAL level representation of MeteringRectangle[] is a
1067              int[5 * area_count].
1068              Every five elements represent a metering region of
1069              (xmin, ymin, xmax, ymax, weight).
1070              The rectangle is defined to be inclusive on xmin and ymin, but
1071              exclusive on xmax and ymax.
1072              HAL must always report metering regions in the coordinate system of pre-correction
1073              active array.
1074          </hal_details>
1075          <tag id="BC" />
1076        </entry>
1077        <entry name="afTrigger" type="byte" visibility="public" enum="true"
1078               hwlevel="legacy">
1079          <enum>
1080            <value>IDLE
1081              <notes>The trigger is idle.</notes>
1082            </value>
1083            <value>START
1084              <notes>Autofocus will trigger now.</notes>
1085            </value>
1086            <value>CANCEL
1087              <notes>Autofocus will return to its initial
1088              state, and cancel any currently active trigger.</notes>
1089            </value>
1090          </enum>
1091          <description>
1092          Whether the camera device will trigger autofocus for this request.
1093          </description>
1094          <details>This entry is normally set to IDLE, or is not
1095          included at all in the request settings.
1096
1097          When included and set to START, the camera device will trigger the
1098          autofocus algorithm. If autofocus is disabled, this trigger has no effect.
1099
1100          When set to CANCEL, the camera device will cancel any active trigger,
1101          and return to its initial AF state.
1102
1103          Generally, applications should set this entry to START or CANCEL for only a
1104          single capture, and then return it to IDLE (or not set at all). Specifying
1105          START for multiple captures in a row means restarting the AF operation over
1106          and over again.
1107
1108          See android.control.afState for what the trigger means for each AF mode.
1109
1110          Using the autofocus trigger and the precapture trigger android.control.aePrecaptureTrigger
1111          simultaneously is allowed. However, since these triggers often require cooperation between
1112          the auto-focus and auto-exposure routines (for example, the may need to be enabled for a
1113          focus sweep), the camera device may delay acting on a later trigger until the previous
1114          trigger has been fully handled. This may lead to longer intervals between the trigger and
1115          changes to android.control.afState, for example.
1116          </details>
1117          <hal_details>
1118          The HAL must support triggering the AF trigger while an AE precapture trigger is active
1119          (and vice versa), or at the same time as the AE trigger.  It is acceptable for the HAL to
1120          treat these as two consecutive triggers, for example handling the AF trigger and then the
1121          AE trigger.  Or the HAL may choose to optimize the case with both triggers fired at once,
1122          to minimize the latency for converging both focus and exposure/flash usage.
1123          </hal_details>
1124          <tag id="BC" />
1125        </entry>
1126        <entry name="awbLock" type="byte" visibility="public" enum="true"
1127               typedef="boolean" hwlevel="legacy">
1128          <enum>
1129            <value>OFF
1130            <notes>Auto-white balance lock is disabled; the AWB
1131            algorithm is free to update its parameters if in AUTO
1132            mode.</notes></value>
1133            <value>ON
1134            <notes>Auto-white balance lock is enabled; the AWB
1135            algorithm will not update its parameters while the lock
1136            is active.</notes></value>
1137          </enum>
1138          <description>Whether auto-white balance (AWB) is currently locked to its
1139          latest calculated values.</description>
1140          <details>
1141          When set to `true` (ON), the AWB algorithm is locked to its latest parameters,
1142          and will not change color balance settings until the lock is set to `false` (OFF).
1143
1144          Since the camera device has a pipeline of in-flight requests, the settings that
1145          get locked do not necessarily correspond to the settings that were present in the
1146          latest capture result received from the camera device, since additional captures
1147          and AWB updates may have occurred even before the result was sent out. If an
1148          application is switching between automatic and manual control and wishes to eliminate
1149          any flicker during the switch, the following procedure is recommended:
1150
1151            1. Starting in auto-AWB mode:
1152            2. Lock AWB
1153            3. Wait for the first result to be output that has the AWB locked
1154            4. Copy AWB settings from that result into a request, set the request to manual AWB
1155            5. Submit the capture request, proceed to run manual AWB as desired.
1156
1157          Note that AWB lock is only meaningful when
1158          android.control.awbMode is in the AUTO mode; in other modes,
1159          AWB is already fixed to a specific setting.
1160
1161          Some LEGACY devices may not support ON; the value is then overridden to OFF.
1162          </details>
1163          <tag id="BC" />
1164        </entry>
1165        <entry name="awbMode" type="byte" visibility="public" enum="true"
1166               hwlevel="legacy">
1167          <enum>
1168            <value>OFF
1169            <notes>
1170            The camera device's auto-white balance routine is disabled.
1171
1172            The application-selected color transform matrix
1173            (android.colorCorrection.transform) and gains
1174            (android.colorCorrection.gains) are used by the camera
1175            device for manual white balance control.
1176            </notes>
1177            </value>
1178            <value>AUTO
1179            <notes>
1180            The camera device's auto-white balance routine is active.
1181
1182            The application's values for android.colorCorrection.transform
1183            and android.colorCorrection.gains are ignored.
1184            For devices that support the MANUAL_POST_PROCESSING capability, the
1185            values used by the camera device for the transform and gains
1186            will be available in the capture result for this request.
1187            </notes>
1188            </value>
1189            <value>INCANDESCENT
1190            <notes>
1191            The camera device's auto-white balance routine is disabled;
1192            the camera device uses incandescent light as the assumed scene
1193            illumination for white balance.
1194
1195            While the exact white balance transforms are up to the
1196            camera device, they will approximately match the CIE
1197            standard illuminant A.
1198
1199            The application's values for android.colorCorrection.transform
1200            and android.colorCorrection.gains are ignored.
1201            For devices that support the MANUAL_POST_PROCESSING capability, the
1202            values used by the camera device for the transform and gains
1203            will be available in the capture result for this request.
1204            </notes>
1205            </value>
1206            <value>FLUORESCENT
1207            <notes>
1208            The camera device's auto-white balance routine is disabled;
1209            the camera device uses fluorescent light as the assumed scene
1210            illumination for white balance.
1211
1212            While the exact white balance transforms are up to the
1213            camera device, they will approximately match the CIE
1214            standard illuminant F2.
1215
1216            The application's values for android.colorCorrection.transform
1217            and android.colorCorrection.gains are ignored.
1218            For devices that support the MANUAL_POST_PROCESSING capability, the
1219            values used by the camera device for the transform and gains
1220            will be available in the capture result for this request.
1221            </notes>
1222            </value>
1223            <value>WARM_FLUORESCENT
1224            <notes>
1225            The camera device's auto-white balance routine is disabled;
1226            the camera device uses warm fluorescent light as the assumed scene
1227            illumination for white balance.
1228
1229            While the exact white balance transforms are up to the
1230            camera device, they will approximately match the CIE
1231            standard illuminant F4.
1232
1233            The application's values for android.colorCorrection.transform
1234            and android.colorCorrection.gains are ignored.
1235            For devices that support the MANUAL_POST_PROCESSING capability, the
1236            values used by the camera device for the transform and gains
1237            will be available in the capture result for this request.
1238            </notes>
1239            </value>
1240            <value>DAYLIGHT
1241            <notes>
1242            The camera device's auto-white balance routine is disabled;
1243            the camera device uses daylight light as the assumed scene
1244            illumination for white balance.
1245
1246            While the exact white balance transforms are up to the
1247            camera device, they will approximately match the CIE
1248            standard illuminant D65.
1249
1250            The application's values for android.colorCorrection.transform
1251            and android.colorCorrection.gains are ignored.
1252            For devices that support the MANUAL_POST_PROCESSING capability, the
1253            values used by the camera device for the transform and gains
1254            will be available in the capture result for this request.
1255            </notes>
1256            </value>
1257            <value>CLOUDY_DAYLIGHT
1258            <notes>
1259            The camera device's auto-white balance routine is disabled;
1260            the camera device uses cloudy daylight light as the assumed scene
1261            illumination for white balance.
1262
1263            The application's values for android.colorCorrection.transform
1264            and android.colorCorrection.gains are ignored.
1265            For devices that support the MANUAL_POST_PROCESSING capability, the
1266            values used by the camera device for the transform and gains
1267            will be available in the capture result for this request.
1268            </notes>
1269            </value>
1270            <value>TWILIGHT
1271            <notes>
1272            The camera device's auto-white balance routine is disabled;
1273            the camera device uses twilight light as the assumed scene
1274            illumination for white balance.
1275
1276            The application's values for android.colorCorrection.transform
1277            and android.colorCorrection.gains are ignored.
1278            For devices that support the MANUAL_POST_PROCESSING capability, the
1279            values used by the camera device for the transform and gains
1280            will be available in the capture result for this request.
1281            </notes>
1282            </value>
1283            <value>SHADE
1284            <notes>
1285            The camera device's auto-white balance routine is disabled;
1286            the camera device uses shade light as the assumed scene
1287            illumination for white balance.
1288
1289            The application's values for android.colorCorrection.transform
1290            and android.colorCorrection.gains are ignored.
1291            For devices that support the MANUAL_POST_PROCESSING capability, the
1292            values used by the camera device for the transform and gains
1293            will be available in the capture result for this request.
1294            </notes>
1295            </value>
1296          </enum>
1297          <description>Whether auto-white balance (AWB) is currently setting the color
1298          transform fields, and what its illumination target
1299          is.</description>
1300          <range>android.control.awbAvailableModes</range>
1301          <details>
1302          This control is only effective if android.control.mode is AUTO.
1303
1304          When set to the ON mode, the camera device's auto-white balance
1305          routine is enabled, overriding the application's selected
1306          android.colorCorrection.transform, android.colorCorrection.gains and
1307          android.colorCorrection.mode. Note that when android.control.aeMode
1308          is OFF, the behavior of AWB is device dependent. It is recommened to
1309          also set AWB mode to OFF or lock AWB by using android.control.awbLock before
1310          setting AE mode to OFF.
1311
1312          When set to the OFF mode, the camera device's auto-white balance
1313          routine is disabled. The application manually controls the white
1314          balance by android.colorCorrection.transform, android.colorCorrection.gains
1315          and android.colorCorrection.mode.
1316
1317          When set to any other modes, the camera device's auto-white
1318          balance routine is disabled. The camera device uses each
1319          particular illumination target for white balance
1320          adjustment. The application's values for
1321          android.colorCorrection.transform,
1322          android.colorCorrection.gains and
1323          android.colorCorrection.mode are ignored.
1324          </details>
1325          <tag id="BC" />
1326        </entry>
1327        <entry name="awbRegions" type="int32" visibility="public"
1328               optional="true" container="array" typedef="meteringRectangle">
1329          <array>
1330            <size>5</size>
1331            <size>area_count</size>
1332          </array>
1333          <description>List of metering areas to use for auto-white-balance illuminant
1334          estimation.</description>
1335          <units>Pixel coordinates within android.sensor.info.activeArraySize or
1336            android.sensor.info.preCorrectionActiveArraySize depending on
1337            distortion correction capability and mode</units>
1338          <range>Coordinates must be between `[(0,0), (width, height))` of
1339            android.sensor.info.activeArraySize or android.sensor.info.preCorrectionActiveArraySize
1340            depending on distortion correction capability and mode</range>
1341          <details>
1342              Not available if android.control.maxRegionsAwb is 0.
1343              Otherwise will always be present.
1344
1345              The maximum number of regions supported by the device is determined by the value
1346              of android.control.maxRegionsAwb.
1347
1348              For devices not supporting android.distortionCorrection.mode control, the coordinate
1349              system always follows that of android.sensor.info.activeArraySize, with (0,0) being
1350              the top-left pixel in the active pixel array, and
1351              (android.sensor.info.activeArraySize.width - 1,
1352              android.sensor.info.activeArraySize.height - 1) being the bottom-right pixel in the
1353              active pixel array.
1354
1355              For devices supporting android.distortionCorrection.mode control, the coordinate
1356              system depends on the mode being set.
1357              When the distortion correction mode is OFF, the coordinate system follows
1358              android.sensor.info.preCorrectionActiveArraySize, with
1359              `(0, 0)` being the top-left pixel of the pre-correction active array, and
1360              (android.sensor.info.preCorrectionActiveArraySize.width - 1,
1361              android.sensor.info.preCorrectionActiveArraySize.height - 1) being the bottom-right
1362              pixel in the pre-correction active pixel array.
1363              When the distortion correction mode is not OFF, the coordinate system follows
1364              android.sensor.info.activeArraySize, with
1365              `(0, 0)` being the top-left pixel of the active array, and
1366              (android.sensor.info.activeArraySize.width - 1,
1367              android.sensor.info.activeArraySize.height - 1) being the bottom-right pixel in the
1368              active pixel array.
1369
1370              The weight must range from 0 to 1000, and represents a weight
1371              for every pixel in the area. This means that a large metering area
1372              with the same weight as a smaller area will have more effect in
1373              the metering result. Metering areas can partially overlap and the
1374              camera device will add the weights in the overlap region.
1375
1376              The weights are relative to weights of other white balance metering regions, so if
1377              only one region is used, all non-zero weights will have the same effect. A region with
1378              0 weight is ignored.
1379
1380              If all regions have 0 weight, then no specific metering area needs to be used by the
1381              camera device.
1382
1383              If the metering region is outside the used android.scaler.cropRegion returned in
1384              capture result metadata, the camera device will ignore the sections outside the crop
1385              region and output only the intersection rectangle as the metering region in the result
1386              metadata.  If the region is entirely outside the crop region, it will be ignored and
1387              not reported in the result metadata.
1388          </details>
1389          <ndk_details>
1390              The data representation is `int[5 * area_count]`.
1391              Every five elements represent a metering region of `(xmin, ymin, xmax, ymax, weight)`.
1392              The rectangle is defined to be inclusive on xmin and ymin, but exclusive on xmax and
1393              ymax.
1394          </ndk_details>
1395          <hal_details>
1396              The HAL level representation of MeteringRectangle[] is a
1397              int[5 * area_count].
1398              Every five elements represent a metering region of
1399              (xmin, ymin, xmax, ymax, weight).
1400              The rectangle is defined to be inclusive on xmin and ymin, but
1401              exclusive on xmax and ymax.
1402              HAL must always report metering regions in the coordinate system of pre-correction
1403              active array.
1404          </hal_details>
1405          <tag id="BC" />
1406        </entry>
1407        <entry name="captureIntent" type="byte" visibility="public" enum="true"
1408               hwlevel="legacy">
1409          <enum>
1410            <value>CUSTOM
1411            <notes>The goal of this request doesn't fall into the other
1412            categories. The camera device will default to preview-like
1413            behavior.</notes></value>
1414            <value>PREVIEW
1415            <notes>This request is for a preview-like use case.
1416
1417            The precapture trigger may be used to start off a metering
1418            w/flash sequence.
1419            </notes></value>
1420            <value>STILL_CAPTURE
1421            <notes>This request is for a still capture-type
1422            use case.
1423
1424            If the flash unit is under automatic control, it may fire as needed.
1425            </notes></value>
1426            <value>VIDEO_RECORD
1427            <notes>This request is for a video recording
1428            use case.</notes></value>
1429            <value>VIDEO_SNAPSHOT
1430            <notes>This request is for a video snapshot (still
1431            image while recording video) use case.
1432
1433            The camera device should take the highest-quality image
1434            possible (given the other settings) without disrupting the
1435            frame rate of video recording.  </notes></value>
1436            <value>ZERO_SHUTTER_LAG
1437            <notes>This request is for a ZSL usecase; the
1438            application will stream full-resolution images and
1439            reprocess one or several later for a final
1440            capture.
1441            </notes></value>
1442            <value>MANUAL
1443            <notes>This request is for manual capture use case where
1444            the applications want to directly control the capture parameters.
1445
1446            For example, the application may wish to manually control
1447            android.sensor.exposureTime, android.sensor.sensitivity, etc.
1448            </notes></value>
1449            <value hal_version="3.3">MOTION_TRACKING
1450            <notes>This request is for a motion tracking use case, where
1451            the application will use camera and inertial sensor data to
1452            locate and track objects in the world.
1453
1454            The camera device auto-exposure routine will limit the exposure time
1455            of the camera to no more than 20 milliseconds, to minimize motion blur.
1456            </notes></value>
1457          </enum>
1458          <description>Information to the camera device 3A (auto-exposure,
1459          auto-focus, auto-white balance) routines about the purpose
1460          of this capture, to help the camera device to decide optimal 3A
1461          strategy.</description>
1462          <details>This control (except for MANUAL) is only effective if
1463          `android.control.mode != OFF` and any 3A routine is active.
1464
1465          All intents are supported by all devices, except that:
1466            * ZERO_SHUTTER_LAG will be supported if android.request.availableCapabilities contains
1467          PRIVATE_REPROCESSING or YUV_REPROCESSING.
1468            * MANUAL will be supported if android.request.availableCapabilities contains
1469          MANUAL_SENSOR.
1470            * MOTION_TRACKING will be supported if android.request.availableCapabilities contains
1471          MOTION_TRACKING.
1472          </details>
1473          <tag id="BC" />
1474        </entry>
1475        <entry name="effectMode" type="byte" visibility="public" enum="true"
1476               hwlevel="legacy">
1477          <enum>
1478            <value>OFF
1479              <notes>
1480              No color effect will be applied.
1481              </notes>
1482            </value>
1483            <value optional="true">MONO
1484              <notes>
1485              A "monocolor" effect where the image is mapped into
1486              a single color.
1487
1488              This will typically be grayscale.
1489              </notes>
1490            </value>
1491            <value optional="true">NEGATIVE
1492              <notes>
1493              A "photo-negative" effect where the image's colors
1494              are inverted.
1495              </notes>
1496            </value>
1497            <value optional="true">SOLARIZE
1498              <notes>
1499              A "solarisation" effect (Sabattier effect) where the
1500              image is wholly or partially reversed in
1501              tone.
1502              </notes>
1503            </value>
1504            <value optional="true">SEPIA
1505              <notes>
1506              A "sepia" effect where the image is mapped into warm
1507              gray, red, and brown tones.
1508              </notes>
1509            </value>
1510            <value optional="true">POSTERIZE
1511              <notes>
1512              A "posterization" effect where the image uses
1513              discrete regions of tone rather than a continuous
1514              gradient of tones.
1515              </notes>
1516            </value>
1517            <value optional="true">WHITEBOARD
1518              <notes>
1519              A "whiteboard" effect where the image is typically displayed
1520              as regions of white, with black or grey details.
1521              </notes>
1522            </value>
1523            <value optional="true">BLACKBOARD
1524              <notes>
1525              A "blackboard" effect where the image is typically displayed
1526              as regions of black, with white or grey details.
1527              </notes>
1528            </value>
1529            <value optional="true">AQUA
1530              <notes>
1531              An "aqua" effect where a blue hue is added to the image.
1532              </notes>
1533            </value>
1534          </enum>
1535          <description>A special color effect to apply.</description>
1536          <range>android.control.availableEffects</range>
1537          <details>
1538          When this mode is set, a color effect will be applied
1539          to images produced by the camera device. The interpretation
1540          and implementation of these color effects is left to the
1541          implementor of the camera device, and should not be
1542          depended on to be consistent (or present) across all
1543          devices.
1544          </details>
1545          <tag id="BC" />
1546        </entry>
1547        <entry name="mode" type="byte" visibility="public" enum="true"
1548               hwlevel="legacy">
1549          <enum>
1550            <value>OFF
1551            <notes>Full application control of pipeline.
1552
1553            All control by the device's metering and focusing (3A)
1554            routines is disabled, and no other settings in
1555            android.control.* have any effect, except that
1556            android.control.captureIntent may be used by the camera
1557            device to select post-processing values for processing
1558            blocks that do not allow for manual control, or are not
1559            exposed by the camera API.
1560
1561            However, the camera device's 3A routines may continue to
1562            collect statistics and update their internal state so that
1563            when control is switched to AUTO mode, good control values
1564            can be immediately applied.
1565            </notes></value>
1566            <value>AUTO
1567            <notes>Use settings for each individual 3A routine.
1568
1569            Manual control of capture parameters is disabled. All
1570            controls in android.control.* besides sceneMode take
1571            effect.</notes></value>
1572            <value optional="true">USE_SCENE_MODE
1573            <notes>Use a specific scene mode.
1574
1575            Enabling this disables control.aeMode, control.awbMode and
1576            control.afMode controls; the camera device will ignore
1577            those settings while USE_SCENE_MODE is active (except for
1578            FACE_PRIORITY scene mode). Other control entries are still active.
1579            This setting can only be used if scene mode is supported (i.e.
1580            android.control.availableSceneModes
1581            contain some modes other than DISABLED).</notes></value>
1582            <value optional="true">OFF_KEEP_STATE
1583            <notes>Same as OFF mode, except that this capture will not be
1584            used by camera device background auto-exposure, auto-white balance and
1585            auto-focus algorithms (3A) to update their statistics.
1586
1587            Specifically, the 3A routines are locked to the last
1588            values set from a request with AUTO, OFF, or
1589            USE_SCENE_MODE, and any statistics or state updates
1590            collected from manual captures with OFF_KEEP_STATE will be
1591            discarded by the camera device.
1592            </notes></value>
1593          </enum>
1594          <description>Overall mode of 3A (auto-exposure, auto-white-balance, auto-focus) control
1595          routines.</description>
1596          <range>android.control.availableModes</range>
1597          <details>
1598          This is a top-level 3A control switch. When set to OFF, all 3A control
1599          by the camera device is disabled. The application must set the fields for
1600          capture parameters itself.
1601
1602          When set to AUTO, the individual algorithm controls in
1603          android.control.* are in effect, such as android.control.afMode.
1604
1605          When set to USE_SCENE_MODE, the individual controls in
1606          android.control.* are mostly disabled, and the camera device
1607          implements one of the scene mode settings (such as ACTION,
1608          SUNSET, or PARTY) as it wishes. The camera device scene mode
1609          3A settings are provided by {@link
1610          android.hardware.camera2.CaptureResult|ACameraCaptureSession_captureCallback_result
1611          capture results}.
1612
1613          When set to OFF_KEEP_STATE, it is similar to OFF mode, the only difference
1614          is that this frame will not be used by camera device background 3A statistics
1615          update, as if this frame is never captured. This mode can be used in the scenario
1616          where the application doesn't want a 3A manual control capture to affect
1617          the subsequent auto 3A capture results.
1618          </details>
1619          <tag id="BC" />
1620        </entry>
1621        <entry name="sceneMode" type="byte" visibility="public" enum="true"
1622               hwlevel="legacy">
1623          <enum>
1624            <value id="0">DISABLED
1625              <notes>
1626              Indicates that no scene modes are set for a given capture request.
1627              </notes>
1628            </value>
1629            <value>FACE_PRIORITY
1630              <notes>If face detection support exists, use face
1631              detection data for auto-focus, auto-white balance, and
1632              auto-exposure routines.
1633
1634              If face detection statistics are disabled
1635              (i.e. android.statistics.faceDetectMode is set to OFF),
1636              this should still operate correctly (but will not return
1637              face detection statistics to the framework).
1638
1639              Unlike the other scene modes, android.control.aeMode,
1640              android.control.awbMode, and android.control.afMode
1641              remain active when FACE_PRIORITY is set.
1642              </notes>
1643            </value>
1644            <value optional="true">ACTION
1645              <notes>
1646              Optimized for photos of quickly moving objects.
1647
1648              Similar to SPORTS.
1649              </notes>
1650            </value>
1651            <value optional="true">PORTRAIT
1652              <notes>
1653              Optimized for still photos of people.
1654              </notes>
1655            </value>
1656            <value optional="true">LANDSCAPE
1657              <notes>
1658              Optimized for photos of distant macroscopic objects.
1659              </notes>
1660            </value>
1661            <value optional="true">NIGHT
1662              <notes>
1663              Optimized for low-light settings.
1664              </notes>
1665            </value>
1666            <value optional="true">NIGHT_PORTRAIT
1667              <notes>
1668              Optimized for still photos of people in low-light
1669              settings.
1670              </notes>
1671            </value>
1672            <value optional="true">THEATRE
1673              <notes>
1674              Optimized for dim, indoor settings where flash must
1675              remain off.
1676              </notes>
1677            </value>
1678            <value optional="true">BEACH
1679              <notes>
1680              Optimized for bright, outdoor beach settings.
1681              </notes>
1682            </value>
1683            <value optional="true">SNOW
1684              <notes>
1685              Optimized for bright, outdoor settings containing snow.
1686              </notes>
1687            </value>
1688            <value optional="true">SUNSET
1689              <notes>
1690              Optimized for scenes of the setting sun.
1691              </notes>
1692            </value>
1693            <value optional="true">STEADYPHOTO
1694              <notes>
1695              Optimized to avoid blurry photos due to small amounts of
1696              device motion (for example: due to hand shake).
1697              </notes>
1698            </value>
1699            <value optional="true">FIREWORKS
1700              <notes>
1701              Optimized for nighttime photos of fireworks.
1702              </notes>
1703            </value>
1704            <value optional="true">SPORTS
1705              <notes>
1706              Optimized for photos of quickly moving people.
1707
1708              Similar to ACTION.
1709              </notes>
1710            </value>
1711            <value optional="true">PARTY
1712              <notes>
1713              Optimized for dim, indoor settings with multiple moving
1714              people.
1715              </notes>
1716            </value>
1717            <value optional="true">CANDLELIGHT
1718              <notes>
1719              Optimized for dim settings where the main light source
1720              is a candle.
1721              </notes>
1722            </value>
1723            <value optional="true">BARCODE
1724              <notes>
1725              Optimized for accurately capturing a photo of barcode
1726              for use by camera applications that wish to read the
1727              barcode value.
1728              </notes>
1729            </value>
1730            <value deprecated="true" optional="true" ndk_hidden="true">HIGH_SPEED_VIDEO
1731              <notes>
1732              This is deprecated, please use {@link
1733              android.hardware.camera2.CameraDevice#createConstrainedHighSpeedCaptureSession}
1734              and {@link
1735              android.hardware.camera2.CameraConstrainedHighSpeedCaptureSession#createHighSpeedRequestList}
1736              for high speed video recording.
1737
1738              Optimized for high speed video recording (frame rate >=60fps) use case.
1739
1740              The supported high speed video sizes and fps ranges are specified in
1741              android.control.availableHighSpeedVideoConfigurations. To get desired
1742              output frame rates, the application is only allowed to select video size
1743              and fps range combinations listed in this static metadata. The fps range
1744              can be control via android.control.aeTargetFpsRange.
1745
1746              In this mode, the camera device will override aeMode, awbMode, and afMode to
1747              ON, ON, and CONTINUOUS_VIDEO, respectively. All post-processing block mode
1748              controls will be overridden to be FAST. Therefore, no manual control of capture
1749              and post-processing parameters is possible. All other controls operate the
1750              same as when android.control.mode == AUTO. This means that all other
1751              android.control.* fields continue to work, such as
1752
1753              * android.control.aeTargetFpsRange
1754              * android.control.aeExposureCompensation
1755              * android.control.aeLock
1756              * android.control.awbLock
1757              * android.control.effectMode
1758              * android.control.aeRegions
1759              * android.control.afRegions
1760              * android.control.awbRegions
1761              * android.control.afTrigger
1762              * android.control.aePrecaptureTrigger
1763
1764              Outside of android.control.*, the following controls will work:
1765
1766              * android.flash.mode (automatic flash for still capture will not work since aeMode is ON)
1767              * android.lens.opticalStabilizationMode (if it is supported)
1768              * android.scaler.cropRegion
1769              * android.statistics.faceDetectMode
1770
1771              For high speed recording use case, the actual maximum supported frame rate may
1772              be lower than what camera can output, depending on the destination Surfaces for
1773              the image data. For example, if the destination surface is from video encoder,
1774              the application need check if the video encoder is capable of supporting the
1775              high frame rate for a given video size, or it will end up with lower recording
1776              frame rate. If the destination surface is from preview window, the preview frame
1777              rate will be bounded by the screen refresh rate.
1778
1779              The camera device will only support up to 2 output high speed streams
1780              (processed non-stalling format defined in android.request.maxNumOutputStreams)
1781              in this mode. This control will be effective only if all of below conditions are true:
1782
1783              * The application created no more than maxNumHighSpeedStreams processed non-stalling
1784              format output streams, where maxNumHighSpeedStreams is calculated as
1785              min(2, android.request.maxNumOutputStreams[Processed (but not-stalling)]).
1786              * The stream sizes are selected from the sizes reported by
1787              android.control.availableHighSpeedVideoConfigurations.
1788              * No processed non-stalling or raw streams are configured.
1789
1790              When above conditions are NOT satistied, the controls of this mode and
1791              android.control.aeTargetFpsRange will be ignored by the camera device,
1792              the camera device will fall back to android.control.mode `==` AUTO,
1793              and the returned capture result metadata will give the fps range choosen
1794              by the camera device.
1795
1796              Switching into or out of this mode may trigger some camera ISP/sensor
1797              reconfigurations, which may introduce extra latency. It is recommended that
1798              the application avoids unnecessary scene mode switch as much as possible.
1799              </notes>
1800            </value>
1801            <value optional="true">HDR
1802              <notes>
1803              Turn on a device-specific high dynamic range (HDR) mode.
1804
1805              In this scene mode, the camera device captures images
1806              that keep a larger range of scene illumination levels
1807              visible in the final image. For example, when taking a
1808              picture of a object in front of a bright window, both
1809              the object and the scene through the window may be
1810              visible when using HDR mode, while in normal AUTO mode,
1811              one or the other may be poorly exposed. As a tradeoff,
1812              HDR mode generally takes much longer to capture a single
1813              image, has no user control, and may have other artifacts
1814              depending on the HDR method used.
1815
1816              Therefore, HDR captures operate at a much slower rate
1817              than regular captures.
1818
1819              In this mode, on LIMITED or FULL devices, when a request
1820              is made with a android.control.captureIntent of
1821              STILL_CAPTURE, the camera device will capture an image
1822              using a high dynamic range capture technique.  On LEGACY
1823              devices, captures that target a JPEG-format output will
1824              be captured with HDR, and the capture intent is not
1825              relevant.
1826
1827              The HDR capture may involve the device capturing a burst
1828              of images internally and combining them into one, or it
1829              may involve the device using specialized high dynamic
1830              range capture hardware. In all cases, a single image is
1831              produced in response to a capture request submitted
1832              while in HDR mode.
1833
1834              Since substantial post-processing is generally needed to
1835              produce an HDR image, only YUV, PRIVATE, and JPEG
1836              outputs are supported for LIMITED/FULL device HDR
1837              captures, and only JPEG outputs are supported for LEGACY
1838              HDR captures. Using a RAW output for HDR capture is not
1839              supported.
1840
1841              Some devices may also support always-on HDR, which
1842              applies HDR processing at full frame rate.  For these
1843              devices, intents other than STILL_CAPTURE will also
1844              produce an HDR output with no frame rate impact compared
1845              to normal operation, though the quality may be lower
1846              than for STILL_CAPTURE intents.
1847
1848              If SCENE_MODE_HDR is used with unsupported output types
1849              or capture intents, the images captured will be as if
1850              the SCENE_MODE was not enabled at all.
1851              </notes>
1852            </value>
1853            <value optional="true" hidden="true">FACE_PRIORITY_LOW_LIGHT
1854              <notes>Same as FACE_PRIORITY scene mode, except that the camera
1855              device will choose higher sensitivity values (android.sensor.sensitivity)
1856              under low light conditions.
1857
1858              The camera device may be tuned to expose the images in a reduced
1859              sensitivity range to produce the best quality images. For example,
1860              if the android.sensor.info.sensitivityRange gives range of [100, 1600],
1861              the camera device auto-exposure routine tuning process may limit the actual
1862              exposure sensitivity range to [100, 1200] to ensure that the noise level isn't
1863              exessive in order to preserve the image quality. Under this situation, the image under
1864              low light may be under-exposed when the sensor max exposure time (bounded by the
1865              android.control.aeTargetFpsRange when android.control.aeMode is one of the
1866              ON_* modes) and effective max sensitivity are reached. This scene mode allows the
1867              camera device auto-exposure routine to increase the sensitivity up to the max
1868              sensitivity specified by android.sensor.info.sensitivityRange when the scene is too
1869              dark and the max exposure time is reached. The captured images may be noisier
1870              compared with the images captured in normal FACE_PRIORITY mode; therefore, it is
1871              recommended that the application only use this scene mode when it is capable of
1872              reducing the noise level of the captured images.
1873
1874              Unlike the other scene modes, android.control.aeMode,
1875              android.control.awbMode, and android.control.afMode
1876              remain active when FACE_PRIORITY_LOW_LIGHT is set.
1877              </notes>
1878            </value>
1879            <value optional="true" hidden="true" id="100">DEVICE_CUSTOM_START
1880              <notes>
1881                Scene mode values within the range of
1882                `[DEVICE_CUSTOM_START, DEVICE_CUSTOM_END]` are reserved for device specific
1883                customized scene modes.
1884              </notes>
1885            </value>
1886            <value optional="true" hidden="true" id="127">DEVICE_CUSTOM_END
1887              <notes>
1888                Scene mode values within the range of
1889                `[DEVICE_CUSTOM_START, DEVICE_CUSTOM_END]` are reserved for device specific
1890                customized scene modes.
1891              </notes>
1892            </value>
1893          </enum>
1894          <description>
1895          Control for which scene mode is currently active.
1896          </description>
1897          <range>android.control.availableSceneModes</range>
1898          <details>
1899          Scene modes are custom camera modes optimized for a certain set of conditions and
1900          capture settings.
1901
1902          This is the mode that that is active when
1903          `android.control.mode == USE_SCENE_MODE`. Aside from FACE_PRIORITY, these modes will
1904          disable android.control.aeMode, android.control.awbMode, and android.control.afMode
1905          while in use.
1906
1907          The interpretation and implementation of these scene modes is left
1908          to the implementor of the camera device. Their behavior will not be
1909          consistent across all devices, and any given device may only implement
1910          a subset of these modes.
1911          </details>
1912          <hal_details>
1913          HAL implementations that include scene modes are expected to provide
1914          the per-scene settings to use for android.control.aeMode,
1915          android.control.awbMode, and android.control.afMode in
1916          android.control.sceneModeOverrides.
1917
1918          For HIGH_SPEED_VIDEO mode, if it is included in android.control.availableSceneModes, the
1919          HAL must list supported video size and fps range in
1920          android.control.availableHighSpeedVideoConfigurations. For a given size, e.g.  1280x720,
1921          if the HAL has two different sensor configurations for normal streaming mode and high
1922          speed streaming, when this scene mode is set/reset in a sequence of capture requests, the
1923          HAL may have to switch between different sensor modes.  This mode is deprecated in legacy
1924          HAL3.3, to support high speed video recording, please implement
1925          android.control.availableHighSpeedVideoConfigurations and CONSTRAINED_HIGH_SPEED_VIDEO
1926          capbility defined in android.request.availableCapabilities.
1927          </hal_details>
1928          <tag id="BC" />
1929        </entry>
1930        <entry name="videoStabilizationMode" type="byte" visibility="public"
1931               enum="true" hwlevel="legacy">
1932          <enum>
1933            <value>OFF
1934            <notes>
1935              Video stabilization is disabled.
1936            </notes></value>
1937            <value>ON
1938            <notes>
1939              Video stabilization is enabled.
1940            </notes></value>
1941          </enum>
1942          <description>Whether video stabilization is
1943          active.</description>
1944          <details>
1945          Video stabilization automatically warps images from
1946          the camera in order to stabilize motion between consecutive frames.
1947
1948          If enabled, video stabilization can modify the
1949          android.scaler.cropRegion to keep the video stream stabilized.
1950
1951          Switching between different video stabilization modes may take several
1952          frames to initialize, the camera device will report the current mode
1953          in capture result metadata. For example, When "ON" mode is requested,
1954          the video stabilization modes in the first several capture results may
1955          still be "OFF", and it will become "ON" when the initialization is
1956          done.
1957
1958          In addition, not all recording sizes or frame rates may be supported for
1959          stabilization by a device that reports stabilization support. It is guaranteed
1960          that an output targeting a MediaRecorder or MediaCodec will be stabilized if
1961          the recording resolution is less than or equal to 1920 x 1080 (width less than
1962          or equal to 1920, height less than or equal to 1080), and the recording
1963          frame rate is less than or equal to 30fps.  At other sizes, the CaptureResult
1964          android.control.videoStabilizationMode field will return
1965          OFF if the recording output is not stabilized, or if there are no output
1966          Surface types that can be stabilized.
1967
1968          If a camera device supports both this mode and OIS
1969          (android.lens.opticalStabilizationMode), turning both modes on may
1970          produce undesirable interaction, so it is recommended not to enable
1971          both at the same time.
1972          </details>
1973          <tag id="BC" />
1974        </entry>
1975      </controls>
1976      <static>
1977        <entry name="aeAvailableAntibandingModes" type="byte" visibility="public"
1978               type_notes="list of enums" container="array" typedef="enumList"
1979               hwlevel="legacy">
1980          <array>
1981            <size>n</size>
1982          </array>
1983          <description>
1984            List of auto-exposure antibanding modes for android.control.aeAntibandingMode that are
1985            supported by this camera device.
1986          </description>
1987          <range>Any value listed in android.control.aeAntibandingMode</range>
1988          <details>
1989            Not all of the auto-exposure anti-banding modes may be
1990            supported by a given camera device. This field lists the
1991            valid anti-banding modes that the application may request
1992            for this camera device with the
1993            android.control.aeAntibandingMode control.
1994          </details>
1995          <tag id="BC" />
1996        </entry>
1997        <entry name="aeAvailableModes" type="byte" visibility="public"
1998               type_notes="list of enums" container="array" typedef="enumList"
1999               hwlevel="legacy">
2000          <array>
2001            <size>n</size>
2002          </array>
2003          <description>
2004            List of auto-exposure modes for android.control.aeMode that are supported by this camera
2005            device.
2006          </description>
2007          <range>Any value listed in android.control.aeMode</range>
2008          <details>
2009            Not all the auto-exposure modes may be supported by a
2010            given camera device, especially if no flash unit is
2011            available. This entry lists the valid modes for
2012            android.control.aeMode for this camera device.
2013
2014            All camera devices support ON, and all camera devices with flash
2015            units support ON_AUTO_FLASH and ON_ALWAYS_FLASH.
2016
2017            FULL mode camera devices always support OFF mode,
2018            which enables application control of camera exposure time,
2019            sensitivity, and frame duration.
2020
2021            LEGACY mode camera devices never support OFF mode.
2022            LIMITED mode devices support OFF if they support the MANUAL_SENSOR
2023            capability.
2024          </details>
2025          <tag id="BC" />
2026        </entry>
2027        <entry name="aeAvailableTargetFpsRanges" type="int32" visibility="public"
2028               type_notes="list of pairs of frame rates"
2029               container="array" typedef="rangeInt"
2030               hwlevel="legacy">
2031          <array>
2032            <size>2</size>
2033            <size>n</size>
2034          </array>
2035          <description>List of frame rate ranges for android.control.aeTargetFpsRange supported by
2036          this camera device.</description>
2037          <units>Frames per second (FPS)</units>
2038          <details>
2039          For devices at the LEGACY level or above:
2040
2041          * For constant-framerate recording, for each normal
2042          {@link android.media.CamcorderProfile CamcorderProfile}, that is, a
2043          {@link android.media.CamcorderProfile CamcorderProfile} that has
2044          {@link android.media.CamcorderProfile#quality quality} in
2045          the range [{@link android.media.CamcorderProfile#QUALITY_LOW QUALITY_LOW},
2046          {@link android.media.CamcorderProfile#QUALITY_2160P QUALITY_2160P}], if the profile is
2047          supported by the device and has
2048          {@link android.media.CamcorderProfile#videoFrameRate videoFrameRate} `x`, this list will
2049          always include (`x`,`x`).
2050
2051          * Also, a camera device must either not support any
2052          {@link android.media.CamcorderProfile CamcorderProfile},
2053          or support at least one
2054          normal {@link android.media.CamcorderProfile CamcorderProfile} that has
2055          {@link android.media.CamcorderProfile#videoFrameRate videoFrameRate} `x` &gt;= 24.
2056
2057          For devices at the LIMITED level or above:
2058
2059          * For YUV_420_888 burst capture use case, this list will always include (`min`, `max`)
2060          and (`max`, `max`) where `min` &lt;= 15 and `max` = the maximum output frame rate of the
2061          maximum YUV_420_888 output size.
2062          </details>
2063          <tag id="BC" />
2064        </entry>
2065        <entry name="aeCompensationRange" type="int32" visibility="public"
2066               container="array" typedef="rangeInt"
2067               hwlevel="legacy">
2068          <array>
2069            <size>2</size>
2070          </array>
2071          <description>Maximum and minimum exposure compensation values for
2072          android.control.aeExposureCompensation, in counts of android.control.aeCompensationStep,
2073          that are supported by this camera device.</description>
2074          <range>
2075            Range [0,0] indicates that exposure compensation is not supported.
2076
2077            For LIMITED and FULL devices, range must follow below requirements if exposure
2078            compensation is supported (`range != [0, 0]`):
2079
2080            `Min.exposure compensation * android.control.aeCompensationStep &lt;= -2 EV`
2081
2082            `Max.exposure compensation * android.control.aeCompensationStep &gt;= 2 EV`
2083
2084            LEGACY devices may support a smaller range than this.
2085          </range>
2086          <tag id="BC" />
2087        </entry>
2088        <entry name="aeCompensationStep" type="rational" visibility="public"
2089               hwlevel="legacy">
2090          <description>Smallest step by which the exposure compensation
2091          can be changed.</description>
2092          <units>Exposure Value (EV)</units>
2093          <details>
2094          This is the unit for android.control.aeExposureCompensation. For example, if this key has
2095          a value of `1/2`, then a setting of `-2` for android.control.aeExposureCompensation means
2096          that the target EV offset for the auto-exposure routine is -1 EV.
2097
2098          One unit of EV compensation changes the brightness of the captured image by a factor
2099          of two. +1 EV doubles the image brightness, while -1 EV halves the image brightness.
2100          </details>
2101          <hal_details>
2102            This must be less than or equal to 1/2.
2103          </hal_details>
2104          <tag id="BC" />
2105        </entry>
2106        <entry name="afAvailableModes" type="byte" visibility="public"
2107               type_notes="List of enums" container="array" typedef="enumList"
2108               hwlevel="legacy">
2109          <array>
2110            <size>n</size>
2111          </array>
2112          <description>
2113          List of auto-focus (AF) modes for android.control.afMode that are
2114          supported by this camera device.
2115          </description>
2116          <range>Any value listed in android.control.afMode</range>
2117          <details>
2118          Not all the auto-focus modes may be supported by a
2119          given camera device. This entry lists the valid modes for
2120          android.control.afMode for this camera device.
2121
2122          All LIMITED and FULL mode camera devices will support OFF mode, and all
2123          camera devices with adjustable focuser units
2124          (`android.lens.info.minimumFocusDistance &gt; 0`) will support AUTO mode.
2125
2126          LEGACY devices will support OFF mode only if they support
2127          focusing to infinity (by also setting android.lens.focusDistance to
2128          `0.0f`).
2129          </details>
2130          <tag id="BC" />
2131        </entry>
2132        <entry name="availableEffects" type="byte" visibility="public"
2133               type_notes="List of enums (android.control.effectMode)." container="array"
2134               typedef="enumList" hwlevel="legacy">
2135          <array>
2136            <size>n</size>
2137          </array>
2138          <description>
2139          List of color effects for android.control.effectMode that are supported by this camera
2140          device.
2141          </description>
2142          <range>Any value listed in android.control.effectMode</range>
2143          <details>
2144          This list contains the color effect modes that can be applied to
2145          images produced by the camera device.
2146          Implementations are not expected to be consistent across all devices.
2147          If no color effect modes are available for a device, this will only list
2148          OFF.
2149
2150          A color effect will only be applied if
2151          android.control.mode != OFF.  OFF is always included in this list.
2152
2153          This control has no effect on the operation of other control routines such
2154          as auto-exposure, white balance, or focus.
2155          </details>
2156          <tag id="BC" />
2157        </entry>
2158        <entry name="availableSceneModes" type="byte" visibility="public"
2159               type_notes="List of enums (android.control.sceneMode)."
2160               container="array" typedef="enumList" hwlevel="legacy">
2161          <array>
2162            <size>n</size>
2163          </array>
2164          <description>
2165          List of scene modes for android.control.sceneMode that are supported by this camera
2166          device.
2167          </description>
2168          <range>Any value listed in android.control.sceneMode</range>
2169          <details>
2170          This list contains scene modes that can be set for the camera device.
2171          Only scene modes that have been fully implemented for the
2172          camera device may be included here. Implementations are not expected
2173          to be consistent across all devices.
2174
2175          If no scene modes are supported by the camera device, this
2176          will be set to DISABLED. Otherwise DISABLED will not be listed.
2177
2178          FACE_PRIORITY is always listed if face detection is
2179          supported (i.e.`android.statistics.info.maxFaceCount &gt;
2180          0`).
2181          </details>
2182          <tag id="BC" />
2183        </entry>
2184        <entry name="availableVideoStabilizationModes" type="byte"
2185               visibility="public" type_notes="List of enums." container="array"
2186               typedef="enumList" hwlevel="legacy">
2187          <array>
2188            <size>n</size>
2189          </array>
2190          <description>
2191          List of video stabilization modes for android.control.videoStabilizationMode
2192          that are supported by this camera device.
2193          </description>
2194          <range>Any value listed in android.control.videoStabilizationMode</range>
2195          <details>
2196          OFF will always be listed.
2197          </details>
2198          <tag id="BC" />
2199        </entry>
2200        <entry name="awbAvailableModes" type="byte" visibility="public"
2201               type_notes="List of enums"
2202               container="array" typedef="enumList" hwlevel="legacy">
2203          <array>
2204            <size>n</size>
2205          </array>
2206          <description>
2207          List of auto-white-balance modes for android.control.awbMode that are supported by this
2208          camera device.
2209          </description>
2210          <range>Any value listed in android.control.awbMode</range>
2211          <details>
2212          Not all the auto-white-balance modes may be supported by a
2213          given camera device. This entry lists the valid modes for
2214          android.control.awbMode for this camera device.
2215
2216          All camera devices will support ON mode.
2217
2218          Camera devices that support the MANUAL_POST_PROCESSING capability will always support OFF
2219          mode, which enables application control of white balance, by using
2220          android.colorCorrection.transform and android.colorCorrection.gains
2221          (android.colorCorrection.mode must be set to TRANSFORM_MATRIX). This includes all FULL
2222          mode camera devices.
2223          </details>
2224          <tag id="BC" />
2225        </entry>
2226        <entry name="maxRegions" type="int32" visibility="ndk_public"
2227               container="array" hwlevel="legacy">
2228          <array>
2229            <size>3</size>
2230          </array>
2231          <description>
2232          List of the maximum number of regions that can be used for metering in
2233          auto-exposure (AE), auto-white balance (AWB), and auto-focus (AF);
2234          this corresponds to the the maximum number of elements in
2235          android.control.aeRegions, android.control.awbRegions,
2236          and android.control.afRegions.
2237          </description>
2238          <range>
2239          Value must be &amp;gt;= 0 for each element. For full-capability devices
2240          this value must be &amp;gt;= 1 for AE and AF. The order of the elements is:
2241          `(AE, AWB, AF)`.</range>
2242          <tag id="BC" />
2243        </entry>
2244        <entry name="maxRegionsAe" type="int32" visibility="java_public"
2245               synthetic="true" hwlevel="legacy">
2246          <description>
2247          The maximum number of metering regions that can be used by the auto-exposure (AE)
2248          routine.
2249          </description>
2250          <range>Value will be &amp;gt;= 0. For FULL-capability devices, this
2251          value will be &amp;gt;= 1.
2252          </range>
2253          <details>
2254          This corresponds to the the maximum allowed number of elements in
2255          android.control.aeRegions.
2256          </details>
2257          <hal_details>This entry is private to the framework. Fill in
2258          maxRegions to have this entry be automatically populated.
2259          </hal_details>
2260        </entry>
2261        <entry name="maxRegionsAwb" type="int32" visibility="java_public"
2262               synthetic="true" hwlevel="legacy">
2263          <description>
2264          The maximum number of metering regions that can be used by the auto-white balance (AWB)
2265          routine.
2266          </description>
2267          <range>Value will be &amp;gt;= 0.
2268          </range>
2269          <details>
2270          This corresponds to the the maximum allowed number of elements in
2271          android.control.awbRegions.
2272          </details>
2273          <hal_details>This entry is private to the framework. Fill in
2274          maxRegions to have this entry be automatically populated.
2275          </hal_details>
2276        </entry>
2277        <entry name="maxRegionsAf" type="int32" visibility="java_public"
2278               synthetic="true" hwlevel="legacy">
2279          <description>
2280          The maximum number of metering regions that can be used by the auto-focus (AF) routine.
2281          </description>
2282          <range>Value will be &amp;gt;= 0. For FULL-capability devices, this
2283          value will be &amp;gt;= 1.
2284          </range>
2285          <details>
2286          This corresponds to the the maximum allowed number of elements in
2287          android.control.afRegions.
2288          </details>
2289          <hal_details>This entry is private to the framework. Fill in
2290          maxRegions to have this entry be automatically populated.
2291          </hal_details>
2292        </entry>
2293        <entry name="sceneModeOverrides" type="byte" visibility="system"
2294               container="array" hwlevel="limited">
2295          <array>
2296            <size>3</size>
2297            <size>length(availableSceneModes)</size>
2298          </array>
2299          <description>
2300          Ordered list of auto-exposure, auto-white balance, and auto-focus
2301          settings to use with each available scene mode.
2302          </description>
2303          <range>
2304          For each available scene mode, the list must contain three
2305          entries containing the android.control.aeMode,
2306          android.control.awbMode, and android.control.afMode values used
2307          by the camera device. The entry order is `(aeMode, awbMode, afMode)`
2308          where aeMode has the lowest index position.
2309          </range>
2310          <details>
2311          When a scene mode is enabled, the camera device is expected
2312          to override android.control.aeMode, android.control.awbMode,
2313          and android.control.afMode with its preferred settings for
2314          that scene mode.
2315
2316          The order of this list matches that of availableSceneModes,
2317          with 3 entries for each mode.  The overrides listed
2318          for FACE_PRIORITY and FACE_PRIORITY_LOW_LIGHT (if supported) are ignored,
2319          since for that mode the application-set android.control.aeMode,
2320          android.control.awbMode, and android.control.afMode values are
2321          used instead, matching the behavior when android.control.mode
2322          is set to AUTO. It is recommended that the FACE_PRIORITY and
2323          FACE_PRIORITY_LOW_LIGHT (if supported) overrides should be set to 0.
2324
2325          For example, if availableSceneModes contains
2326          `(FACE_PRIORITY, ACTION, NIGHT)`,  then the camera framework
2327          expects sceneModeOverrides to have 9 entries formatted like:
2328          `(0, 0, 0, ON_AUTO_FLASH, AUTO, CONTINUOUS_PICTURE,
2329          ON_AUTO_FLASH, INCANDESCENT, AUTO)`.
2330          </details>
2331          <hal_details>
2332          To maintain backward compatibility, this list will be made available
2333          in the static metadata of the camera service.  The camera service will
2334          use these values to set android.control.aeMode,
2335          android.control.awbMode, and android.control.afMode when using a scene
2336          mode other than FACE_PRIORITY and FACE_PRIORITY_LOW_LIGHT (if supported).
2337          </hal_details>
2338          <tag id="BC" />
2339        </entry>
2340      </static>
2341      <dynamic>
2342        <entry name="aePrecaptureId" type="int32" visibility="system" deprecated="true">
2343          <description>The ID sent with the latest
2344          CAMERA2_TRIGGER_PRECAPTURE_METERING call</description>
2345          <deprecation_description>
2346            Removed in camera HAL v3
2347          </deprecation_description>
2348          <details>Must be 0 if no
2349          CAMERA2_TRIGGER_PRECAPTURE_METERING trigger received yet
2350          by HAL. Always updated even if AE algorithm ignores the
2351          trigger</details>
2352        </entry>
2353        <clone entry="android.control.aeAntibandingMode" kind="controls">
2354        </clone>
2355        <clone entry="android.control.aeExposureCompensation" kind="controls">
2356        </clone>
2357        <clone entry="android.control.aeLock" kind="controls">
2358        </clone>
2359        <clone entry="android.control.aeMode" kind="controls">
2360        </clone>
2361        <clone entry="android.control.aeRegions" kind="controls">
2362        </clone>
2363        <clone entry="android.control.aeTargetFpsRange" kind="controls">
2364        </clone>
2365        <clone entry="android.control.aePrecaptureTrigger" kind="controls">
2366        </clone>
2367        <entry name="aeState" type="byte" visibility="public" enum="true"
2368               hwlevel="limited">
2369          <enum>
2370            <value>INACTIVE
2371            <notes>AE is off or recently reset.
2372
2373            When a camera device is opened, it starts in
2374            this state. This is a transient state, the camera device may skip reporting
2375            this state in capture result.</notes></value>
2376            <value>SEARCHING
2377            <notes>AE doesn't yet have a good set of control values
2378            for the current scene.
2379
2380            This is a transient state, the camera device may skip
2381            reporting this state in capture result.</notes></value>
2382            <value>CONVERGED
2383            <notes>AE has a good set of control values for the
2384            current scene.</notes></value>
2385            <value>LOCKED
2386            <notes>AE has been locked.</notes></value>
2387            <value>FLASH_REQUIRED
2388            <notes>AE has a good set of control values, but flash
2389            needs to be fired for good quality still
2390            capture.</notes></value>
2391            <value>PRECAPTURE
2392            <notes>AE has been asked to do a precapture sequence
2393            and is currently executing it.
2394
2395            Precapture can be triggered through setting
2396            android.control.aePrecaptureTrigger to START. Currently
2397            active and completed (if it causes camera device internal AE lock) precapture
2398            metering sequence can be canceled through setting
2399            android.control.aePrecaptureTrigger to CANCEL.
2400
2401            Once PRECAPTURE completes, AE will transition to CONVERGED
2402            or FLASH_REQUIRED as appropriate. This is a transient
2403            state, the camera device may skip reporting this state in
2404            capture result.</notes></value>
2405          </enum>
2406          <description>Current state of the auto-exposure (AE) algorithm.</description>
2407          <details>Switching between or enabling AE modes (android.control.aeMode) always
2408          resets the AE state to INACTIVE. Similarly, switching between android.control.mode,
2409          or android.control.sceneMode if `android.control.mode == USE_SCENE_MODE` resets all
2410          the algorithm states to INACTIVE.
2411
2412          The camera device can do several state transitions between two results, if it is
2413          allowed by the state transition table. For example: INACTIVE may never actually be
2414          seen in a result.
2415
2416          The state in the result is the state for this image (in sync with this image): if
2417          AE state becomes CONVERGED, then the image data associated with this result should
2418          be good to use.
2419
2420          Below are state transition tables for different AE modes.
2421
2422            State       | Transition Cause | New State | Notes
2423          :------------:|:----------------:|:---------:|:-----------------------:
2424          INACTIVE      |                  | INACTIVE  | Camera device auto exposure algorithm is disabled
2425
2426          When android.control.aeMode is AE_MODE_ON*:
2427
2428            State        | Transition Cause                             | New State      | Notes
2429          :-------------:|:--------------------------------------------:|:--------------:|:-----------------:
2430          INACTIVE       | Camera device initiates AE scan              | SEARCHING      | Values changing
2431          INACTIVE       | android.control.aeLock is ON                 | LOCKED         | Values locked
2432          SEARCHING      | Camera device finishes AE scan               | CONVERGED      | Good values, not changing
2433          SEARCHING      | Camera device finishes AE scan               | FLASH_REQUIRED | Converged but too dark w/o flash
2434          SEARCHING      | android.control.aeLock is ON                 | LOCKED         | Values locked
2435          CONVERGED      | Camera device initiates AE scan              | SEARCHING      | Values changing
2436          CONVERGED      | android.control.aeLock is ON                 | LOCKED         | Values locked
2437          FLASH_REQUIRED | Camera device initiates AE scan              | SEARCHING      | Values changing
2438          FLASH_REQUIRED | android.control.aeLock is ON                 | LOCKED         | Values locked
2439          LOCKED         | android.control.aeLock is OFF                | SEARCHING      | Values not good after unlock
2440          LOCKED         | android.control.aeLock is OFF                | CONVERGED      | Values good after unlock
2441          LOCKED         | android.control.aeLock is OFF                | FLASH_REQUIRED | Exposure good, but too dark
2442          PRECAPTURE     | Sequence done. android.control.aeLock is OFF | CONVERGED      | Ready for high-quality capture
2443          PRECAPTURE     | Sequence done. android.control.aeLock is ON  | LOCKED         | Ready for high-quality capture
2444          LOCKED         | aeLock is ON and aePrecaptureTrigger is START | LOCKED        | Precapture trigger is ignored when AE is already locked
2445          LOCKED         | aeLock is ON and aePrecaptureTrigger is CANCEL| LOCKED        | Precapture trigger is ignored when AE is already locked
2446          Any state (excluding LOCKED) | android.control.aePrecaptureTrigger is START | PRECAPTURE     | Start AE precapture metering sequence
2447          Any state (excluding LOCKED) | android.control.aePrecaptureTrigger is CANCEL| INACTIVE       | Currently active precapture metering sequence is canceled
2448
2449          If the camera device supports AE external flash mode (ON_EXTERNAL_FLASH is included in
2450          android.control.aeAvailableModes), android.control.aeState must be FLASH_REQUIRED after
2451          the camera device finishes AE scan and it's too dark without flash.
2452
2453          For the above table, the camera device may skip reporting any state changes that happen
2454          without application intervention (i.e. mode switch, trigger, locking). Any state that
2455          can be skipped in that manner is called a transient state.
2456
2457          For example, for above AE modes (AE_MODE_ON*), in addition to the state transitions
2458          listed in above table, it is also legal for the camera device to skip one or more
2459          transient states between two results. See below table for examples:
2460
2461            State        | Transition Cause                                            | New State      | Notes
2462          :-------------:|:-----------------------------------------------------------:|:--------------:|:-----------------:
2463          INACTIVE       | Camera device finished AE scan                              | CONVERGED      | Values are already good, transient states are skipped by camera device.
2464          Any state (excluding LOCKED) | android.control.aePrecaptureTrigger is START, sequence done | FLASH_REQUIRED | Converged but too dark w/o flash after a precapture sequence, transient states are skipped by camera device.
2465          Any state (excluding LOCKED) | android.control.aePrecaptureTrigger is START, sequence done | CONVERGED      | Converged after a precapture sequence, transient states are skipped by camera device.
2466          Any state (excluding LOCKED) | android.control.aePrecaptureTrigger is CANCEL, converged    | FLASH_REQUIRED | Converged but too dark w/o flash after a precapture sequence is canceled, transient states are skipped by camera device.
2467          Any state (excluding LOCKED) | android.control.aePrecaptureTrigger is CANCEL, converged    | CONVERGED      | Converged after a precapture sequenceis canceled, transient states are skipped by camera device.
2468          CONVERGED      | Camera device finished AE scan                              | FLASH_REQUIRED | Converged but too dark w/o flash after a new scan, transient states are skipped by camera device.
2469          FLASH_REQUIRED | Camera device finished AE scan                              | CONVERGED      | Converged after a new scan, transient states are skipped by camera device.
2470          </details>
2471        </entry>
2472        <clone entry="android.control.afMode" kind="controls">
2473        </clone>
2474        <clone entry="android.control.afRegions" kind="controls">
2475        </clone>
2476        <clone entry="android.control.afTrigger" kind="controls">
2477        </clone>
2478        <entry name="afState" type="byte" visibility="public" enum="true"
2479               hwlevel="legacy">
2480          <enum>
2481            <value>INACTIVE
2482            <notes>AF is off or has not yet tried to scan/been asked
2483            to scan.
2484
2485            When a camera device is opened, it starts in this
2486            state. This is a transient state, the camera device may
2487            skip reporting this state in capture
2488            result.</notes></value>
2489            <value>PASSIVE_SCAN
2490            <notes>AF is currently performing an AF scan initiated the
2491            camera device in a continuous autofocus mode.
2492
2493            Only used by CONTINUOUS_* AF modes. This is a transient
2494            state, the camera device may skip reporting this state in
2495            capture result.</notes></value>
2496            <value>PASSIVE_FOCUSED
2497            <notes>AF currently believes it is in focus, but may
2498            restart scanning at any time.
2499
2500            Only used by CONTINUOUS_* AF modes. This is a transient
2501            state, the camera device may skip reporting this state in
2502            capture result.</notes></value>
2503            <value>ACTIVE_SCAN
2504            <notes>AF is performing an AF scan because it was
2505            triggered by AF trigger.
2506
2507            Only used by AUTO or MACRO AF modes. This is a transient
2508            state, the camera device may skip reporting this state in
2509            capture result.</notes></value>
2510            <value>FOCUSED_LOCKED
2511            <notes>AF believes it is focused correctly and has locked
2512            focus.
2513
2514            This state is reached only after an explicit START AF trigger has been
2515            sent (android.control.afTrigger), when good focus has been obtained.
2516
2517            The lens will remain stationary until the AF mode (android.control.afMode) is changed or
2518            a new AF trigger is sent to the camera device (android.control.afTrigger).
2519            </notes></value>
2520            <value>NOT_FOCUSED_LOCKED
2521            <notes>AF has failed to focus successfully and has locked
2522            focus.
2523
2524            This state is reached only after an explicit START AF trigger has been
2525            sent (android.control.afTrigger), when good focus cannot be obtained.
2526
2527            The lens will remain stationary until the AF mode (android.control.afMode) is changed or
2528            a new AF trigger is sent to the camera device (android.control.afTrigger).
2529            </notes></value>
2530            <value>PASSIVE_UNFOCUSED
2531            <notes>AF finished a passive scan without finding focus,
2532            and may restart scanning at any time.
2533
2534            Only used by CONTINUOUS_* AF modes. This is a transient state, the camera
2535            device may skip reporting this state in capture result.
2536
2537            LEGACY camera devices do not support this state. When a passive
2538            scan has finished, it will always go to PASSIVE_FOCUSED.
2539            </notes></value>
2540          </enum>
2541          <description>Current state of auto-focus (AF) algorithm.</description>
2542          <details>
2543          Switching between or enabling AF modes (android.control.afMode) always
2544          resets the AF state to INACTIVE. Similarly, switching between android.control.mode,
2545          or android.control.sceneMode if `android.control.mode == USE_SCENE_MODE` resets all
2546          the algorithm states to INACTIVE.
2547
2548          The camera device can do several state transitions between two results, if it is
2549          allowed by the state transition table. For example: INACTIVE may never actually be
2550          seen in a result.
2551
2552          The state in the result is the state for this image (in sync with this image): if
2553          AF state becomes FOCUSED, then the image data associated with this result should
2554          be sharp.
2555
2556          Below are state transition tables for different AF modes.
2557
2558          When android.control.afMode is AF_MODE_OFF or AF_MODE_EDOF:
2559
2560            State       | Transition Cause | New State | Notes
2561          :------------:|:----------------:|:---------:|:-----------:
2562          INACTIVE      |                  | INACTIVE  | Never changes
2563
2564          When android.control.afMode is AF_MODE_AUTO or AF_MODE_MACRO:
2565
2566            State            | Transition Cause | New State          | Notes
2567          :-----------------:|:----------------:|:------------------:|:--------------:
2568          INACTIVE           | AF_TRIGGER       | ACTIVE_SCAN        | Start AF sweep, Lens now moving
2569          ACTIVE_SCAN        | AF sweep done    | FOCUSED_LOCKED     | Focused, Lens now locked
2570          ACTIVE_SCAN        | AF sweep done    | NOT_FOCUSED_LOCKED | Not focused, Lens now locked
2571          ACTIVE_SCAN        | AF_CANCEL        | INACTIVE           | Cancel/reset AF, Lens now locked
2572          FOCUSED_LOCKED     | AF_CANCEL        | INACTIVE           | Cancel/reset AF
2573          FOCUSED_LOCKED     | AF_TRIGGER       | ACTIVE_SCAN        | Start new sweep, Lens now moving
2574          NOT_FOCUSED_LOCKED | AF_CANCEL        | INACTIVE           | Cancel/reset AF
2575          NOT_FOCUSED_LOCKED | AF_TRIGGER       | ACTIVE_SCAN        | Start new sweep, Lens now moving
2576          Any state          | Mode change      | INACTIVE           |
2577
2578          For the above table, the camera device may skip reporting any state changes that happen
2579          without application intervention (i.e. mode switch, trigger, locking). Any state that
2580          can be skipped in that manner is called a transient state.
2581
2582          For example, for these AF modes (AF_MODE_AUTO and AF_MODE_MACRO), in addition to the
2583          state transitions listed in above table, it is also legal for the camera device to skip
2584          one or more transient states between two results. See below table for examples:
2585
2586            State            | Transition Cause | New State          | Notes
2587          :-----------------:|:----------------:|:------------------:|:--------------:
2588          INACTIVE           | AF_TRIGGER       | FOCUSED_LOCKED     | Focus is already good or good after a scan, lens is now locked.
2589          INACTIVE           | AF_TRIGGER       | NOT_FOCUSED_LOCKED | Focus failed after a scan, lens is now locked.
2590          FOCUSED_LOCKED     | AF_TRIGGER       | FOCUSED_LOCKED     | Focus is already good or good after a scan, lens is now locked.
2591          NOT_FOCUSED_LOCKED | AF_TRIGGER       | FOCUSED_LOCKED     | Focus is good after a scan, lens is not locked.
2592
2593
2594          When android.control.afMode is AF_MODE_CONTINUOUS_VIDEO:
2595
2596            State            | Transition Cause                    | New State          | Notes
2597          :-----------------:|:-----------------------------------:|:------------------:|:--------------:
2598          INACTIVE           | Camera device initiates new scan    | PASSIVE_SCAN       | Start AF scan, Lens now moving
2599          INACTIVE           | AF_TRIGGER                          | NOT_FOCUSED_LOCKED | AF state query, Lens now locked
2600          PASSIVE_SCAN       | Camera device completes current scan| PASSIVE_FOCUSED    | End AF scan, Lens now locked
2601          PASSIVE_SCAN       | Camera device fails current scan    | PASSIVE_UNFOCUSED  | End AF scan, Lens now locked
2602          PASSIVE_SCAN       | AF_TRIGGER                          | FOCUSED_LOCKED     | Immediate transition, if focus is good. Lens now locked
2603          PASSIVE_SCAN       | AF_TRIGGER                          | NOT_FOCUSED_LOCKED | Immediate transition, if focus is bad. Lens now locked
2604          PASSIVE_SCAN       | AF_CANCEL                           | INACTIVE           | Reset lens position, Lens now locked
2605          PASSIVE_FOCUSED    | Camera device initiates new scan    | PASSIVE_SCAN       | Start AF scan, Lens now moving
2606          PASSIVE_UNFOCUSED  | Camera device initiates new scan    | PASSIVE_SCAN       | Start AF scan, Lens now moving
2607          PASSIVE_FOCUSED    | AF_TRIGGER                          | FOCUSED_LOCKED     | Immediate transition, lens now locked
2608          PASSIVE_UNFOCUSED  | AF_TRIGGER                          | NOT_FOCUSED_LOCKED | Immediate transition, lens now locked
2609          FOCUSED_LOCKED     | AF_TRIGGER                          | FOCUSED_LOCKED     | No effect
2610          FOCUSED_LOCKED     | AF_CANCEL                           | INACTIVE           | Restart AF scan
2611          NOT_FOCUSED_LOCKED | AF_TRIGGER                          | NOT_FOCUSED_LOCKED | No effect
2612          NOT_FOCUSED_LOCKED | AF_CANCEL                           | INACTIVE           | Restart AF scan
2613
2614          When android.control.afMode is AF_MODE_CONTINUOUS_PICTURE:
2615
2616            State            | Transition Cause                     | New State          | Notes
2617          :-----------------:|:------------------------------------:|:------------------:|:--------------:
2618          INACTIVE           | Camera device initiates new scan     | PASSIVE_SCAN       | Start AF scan, Lens now moving
2619          INACTIVE           | AF_TRIGGER                           | NOT_FOCUSED_LOCKED | AF state query, Lens now locked
2620          PASSIVE_SCAN       | Camera device completes current scan | PASSIVE_FOCUSED    | End AF scan, Lens now locked
2621          PASSIVE_SCAN       | Camera device fails current scan     | PASSIVE_UNFOCUSED  | End AF scan, Lens now locked
2622          PASSIVE_SCAN       | AF_TRIGGER                           | FOCUSED_LOCKED     | Eventual transition once the focus is good. Lens now locked
2623          PASSIVE_SCAN       | AF_TRIGGER                           | NOT_FOCUSED_LOCKED | Eventual transition if cannot find focus. Lens now locked
2624          PASSIVE_SCAN       | AF_CANCEL                            | INACTIVE           | Reset lens position, Lens now locked
2625          PASSIVE_FOCUSED    | Camera device initiates new scan     | PASSIVE_SCAN       | Start AF scan, Lens now moving
2626          PASSIVE_UNFOCUSED  | Camera device initiates new scan     | PASSIVE_SCAN       | Start AF scan, Lens now moving
2627          PASSIVE_FOCUSED    | AF_TRIGGER                           | FOCUSED_LOCKED     | Immediate trans. Lens now locked
2628          PASSIVE_UNFOCUSED  | AF_TRIGGER                           | NOT_FOCUSED_LOCKED | Immediate trans. Lens now locked
2629          FOCUSED_LOCKED     | AF_TRIGGER                           | FOCUSED_LOCKED     | No effect
2630          FOCUSED_LOCKED     | AF_CANCEL                            | INACTIVE           | Restart AF scan
2631          NOT_FOCUSED_LOCKED | AF_TRIGGER                           | NOT_FOCUSED_LOCKED | No effect
2632          NOT_FOCUSED_LOCKED | AF_CANCEL                            | INACTIVE           | Restart AF scan
2633
2634          When switch between AF_MODE_CONTINUOUS_* (CAF modes) and AF_MODE_AUTO/AF_MODE_MACRO
2635          (AUTO modes), the initial INACTIVE or PASSIVE_SCAN states may be skipped by the
2636          camera device. When a trigger is included in a mode switch request, the trigger
2637          will be evaluated in the context of the new mode in the request.
2638          See below table for examples:
2639
2640            State      | Transition Cause                       | New State                                | Notes
2641          :-----------:|:--------------------------------------:|:----------------------------------------:|:--------------:
2642          any state    | CAF-->AUTO mode switch                 | INACTIVE                                 | Mode switch without trigger, initial state must be INACTIVE
2643          any state    | CAF-->AUTO mode switch with AF_TRIGGER | trigger-reachable states from INACTIVE   | Mode switch with trigger, INACTIVE is skipped
2644          any state    | AUTO-->CAF mode switch                 | passively reachable states from INACTIVE | Mode switch without trigger, passive transient state is skipped
2645          </details>
2646        </entry>
2647        <entry name="afTriggerId" type="int32" visibility="system" deprecated="true">
2648          <description>The ID sent with the latest
2649          CAMERA2_TRIGGER_AUTOFOCUS call</description>
2650          <deprecation_description>
2651            Removed in camera HAL v3
2652          </deprecation_description>
2653          <details>Must be 0 if no CAMERA2_TRIGGER_AUTOFOCUS trigger
2654          received yet by HAL. Always updated even if AF algorithm
2655          ignores the trigger</details>
2656        </entry>
2657        <clone entry="android.control.awbLock" kind="controls">
2658        </clone>
2659        <clone entry="android.control.awbMode" kind="controls">
2660        </clone>
2661        <clone entry="android.control.awbRegions" kind="controls">
2662        </clone>
2663        <clone entry="android.control.captureIntent" kind="controls">
2664        </clone>
2665        <entry name="awbState" type="byte" visibility="public" enum="true"
2666               hwlevel="limited">
2667          <enum>
2668            <value>INACTIVE
2669            <notes>AWB is not in auto mode, or has not yet started metering.
2670
2671            When a camera device is opened, it starts in this
2672            state. This is a transient state, the camera device may
2673            skip reporting this state in capture
2674            result.</notes></value>
2675            <value>SEARCHING
2676            <notes>AWB doesn't yet have a good set of control
2677            values for the current scene.
2678
2679            This is a transient state, the camera device
2680            may skip reporting this state in capture result.</notes></value>
2681            <value>CONVERGED
2682            <notes>AWB has a good set of control values for the
2683            current scene.</notes></value>
2684            <value>LOCKED
2685            <notes>AWB has been locked.
2686            </notes></value>
2687          </enum>
2688          <description>Current state of auto-white balance (AWB) algorithm.</description>
2689          <details>Switching between or enabling AWB modes (android.control.awbMode) always
2690          resets the AWB state to INACTIVE. Similarly, switching between android.control.mode,
2691          or android.control.sceneMode if `android.control.mode == USE_SCENE_MODE` resets all
2692          the algorithm states to INACTIVE.
2693
2694          The camera device can do several state transitions between two results, if it is
2695          allowed by the state transition table. So INACTIVE may never actually be seen in
2696          a result.
2697
2698          The state in the result is the state for this image (in sync with this image): if
2699          AWB state becomes CONVERGED, then the image data associated with this result should
2700          be good to use.
2701
2702          Below are state transition tables for different AWB modes.
2703
2704          When `android.control.awbMode != AWB_MODE_AUTO`:
2705
2706            State       | Transition Cause | New State | Notes
2707          :------------:|:----------------:|:---------:|:-----------------------:
2708          INACTIVE      |                  |INACTIVE   |Camera device auto white balance algorithm is disabled
2709
2710          When android.control.awbMode is AWB_MODE_AUTO:
2711
2712            State        | Transition Cause                 | New State     | Notes
2713          :-------------:|:--------------------------------:|:-------------:|:-----------------:
2714          INACTIVE       | Camera device initiates AWB scan | SEARCHING     | Values changing
2715          INACTIVE       | android.control.awbLock is ON    | LOCKED        | Values locked
2716          SEARCHING      | Camera device finishes AWB scan  | CONVERGED     | Good values, not changing
2717          SEARCHING      | android.control.awbLock is ON    | LOCKED        | Values locked
2718          CONVERGED      | Camera device initiates AWB scan | SEARCHING     | Values changing
2719          CONVERGED      | android.control.awbLock is ON    | LOCKED        | Values locked
2720          LOCKED         | android.control.awbLock is OFF   | SEARCHING     | Values not good after unlock
2721
2722          For the above table, the camera device may skip reporting any state changes that happen
2723          without application intervention (i.e. mode switch, trigger, locking). Any state that
2724          can be skipped in that manner is called a transient state.
2725
2726          For example, for this AWB mode (AWB_MODE_AUTO), in addition to the state transitions
2727          listed in above table, it is also legal for the camera device to skip one or more
2728          transient states between two results. See below table for examples:
2729
2730            State        | Transition Cause                 | New State     | Notes
2731          :-------------:|:--------------------------------:|:-------------:|:-----------------:
2732          INACTIVE       | Camera device finished AWB scan  | CONVERGED     | Values are already good, transient states are skipped by camera device.
2733          LOCKED         | android.control.awbLock is OFF   | CONVERGED     | Values good after unlock, transient states are skipped by camera device.
2734          </details>
2735        </entry>
2736        <clone entry="android.control.effectMode" kind="controls">
2737        </clone>
2738        <clone entry="android.control.mode" kind="controls">
2739        </clone>
2740        <clone entry="android.control.sceneMode" kind="controls">
2741        </clone>
2742        <clone entry="android.control.videoStabilizationMode" kind="controls">
2743        </clone>
2744      </dynamic>
2745      <static>
2746        <entry name="availableHighSpeedVideoConfigurations" type="int32" visibility="hidden"
2747               container="array" typedef="highSpeedVideoConfiguration" hwlevel="limited">
2748          <array>
2749            <size>5</size>
2750            <size>n</size>
2751          </array>
2752          <description>
2753          List of available high speed video size, fps range and max batch size configurations
2754          supported by the camera device, in the format of (width, height, fps_min, fps_max, batch_size_max).
2755          </description>
2756          <range>
2757          For each configuration, the fps_max &amp;gt;= 120fps.
2758          </range>
2759          <details>
2760          When CONSTRAINED_HIGH_SPEED_VIDEO is supported in android.request.availableCapabilities,
2761          this metadata will list the supported high speed video size, fps range and max batch size
2762          configurations. All the sizes listed in this configuration will be a subset of the sizes
2763          reported by {@link android.hardware.camera2.params.StreamConfigurationMap#getOutputSizes}
2764          for processed non-stalling formats.
2765
2766          For the high speed video use case, the application must
2767          select the video size and fps range from this metadata to configure the recording and
2768          preview streams and setup the recording requests. For example, if the application intends
2769          to do high speed recording, it can select the maximum size reported by this metadata to
2770          configure output streams. Once the size is selected, application can filter this metadata
2771          by selected size and get the supported fps ranges, and use these fps ranges to setup the
2772          recording requests. Note that for the use case of multiple output streams, application
2773          must select one unique size from this metadata to use (e.g., preview and recording streams
2774          must have the same size). Otherwise, the high speed capture session creation will fail.
2775
2776          The min and max fps will be multiple times of 30fps.
2777
2778          High speed video streaming extends significant performance pressue to camera hardware,
2779          to achieve efficient high speed streaming, the camera device may have to aggregate
2780          multiple frames together and send to camera device for processing where the request
2781          controls are same for all the frames in this batch. Max batch size indicates
2782          the max possible number of frames the camera device will group together for this high
2783          speed stream configuration. This max batch size will be used to generate a high speed
2784          recording request list by
2785          {@link android.hardware.camera2.CameraConstrainedHighSpeedCaptureSession#createHighSpeedRequestList}.
2786          The max batch size for each configuration will satisfy below conditions:
2787
2788          * Each max batch size will be a divisor of its corresponding fps_max / 30. For example,
2789          if max_fps is 300, max batch size will only be 1, 2, 5, or 10.
2790          * The camera device may choose smaller internal batch size for each configuration, but
2791          the actual batch size will be a divisor of max batch size. For example, if the max batch
2792          size is 8, the actual batch size used by camera device will only be 1, 2, 4, or 8.
2793          * The max batch size in each configuration entry must be no larger than 32.
2794
2795          The camera device doesn't have to support batch mode to achieve high speed video recording,
2796          in such case, batch_size_max will be reported as 1 in each configuration entry.
2797
2798          This fps ranges in this configuration list can only be used to create requests
2799          that are submitted to a high speed camera capture session created by
2800          {@link android.hardware.camera2.CameraDevice#createConstrainedHighSpeedCaptureSession}.
2801          The fps ranges reported in this metadata must not be used to setup capture requests for
2802          normal capture session, or it will cause request error.
2803          </details>
2804          <hal_details>
2805          All the sizes listed in this configuration will be a subset of the sizes reported by
2806          android.scaler.availableStreamConfigurations for processed non-stalling output formats.
2807          Note that for all high speed video configurations, HAL must be able to support a minimum
2808          of two streams, though the application might choose to configure just one stream.
2809
2810          The HAL may support multiple sensor modes for high speed outputs, for example, 120fps
2811          sensor mode and 120fps recording, 240fps sensor mode for 240fps recording. The application
2812          usually starts preview first, then starts recording. To avoid sensor mode switch caused
2813          stutter when starting recording as much as possible, the application may want to ensure
2814          the same sensor mode is used for preview and recording. Therefore, The HAL must advertise
2815          the variable fps range [30, fps_max] for each fixed fps range in this configuration list.
2816          For example, if the HAL advertises [120, 120] and [240, 240], the HAL must also advertise
2817          [30, 120] and [30, 240] for each configuration. In doing so, if the application intends to
2818          do 120fps recording, it can select [30, 120] to start preview, and [120, 120] to start
2819          recording. For these variable fps ranges, it's up to the HAL to decide the actual fps
2820          values that are suitable for smooth preview streaming. If the HAL sees different max_fps
2821          values that fall into different sensor modes in a sequence of requests, the HAL must
2822          switch the sensor mode as quick as possible to minimize the mode switch caused stutter.
2823          </hal_details>
2824          <tag id="V1" />
2825        </entry>
2826        <entry name="aeLockAvailable" type="byte" visibility="public" enum="true"
2827               typedef="boolean" hwlevel="legacy">
2828          <enum>
2829            <value>FALSE</value>
2830            <value>TRUE</value>
2831          </enum>
2832          <description>Whether the camera device supports android.control.aeLock</description>
2833          <details>
2834              Devices with MANUAL_SENSOR capability or BURST_CAPTURE capability will always
2835              list `true`. This includes FULL devices.
2836          </details>
2837          <tag id="BC"/>
2838        </entry>
2839        <entry name="awbLockAvailable" type="byte" visibility="public" enum="true"
2840               typedef="boolean" hwlevel="legacy">
2841          <enum>
2842            <value>FALSE</value>
2843            <value>TRUE</value>
2844          </enum>
2845          <description>Whether the camera device supports android.control.awbLock</description>
2846          <details>
2847              Devices with MANUAL_POST_PROCESSING capability or BURST_CAPTURE capability will
2848              always list `true`. This includes FULL devices.
2849          </details>
2850          <tag id="BC"/>
2851        </entry>
2852        <entry name="availableModes" type="byte" visibility="public"
2853            type_notes="List of enums (android.control.mode)." container="array"
2854            typedef="enumList" hwlevel="legacy">
2855          <array>
2856            <size>n</size>
2857          </array>
2858          <description>
2859          List of control modes for android.control.mode that are supported by this camera
2860          device.
2861          </description>
2862          <range>Any value listed in android.control.mode</range>
2863          <details>
2864              This list contains control modes that can be set for the camera device.
2865              LEGACY mode devices will always support AUTO mode. LIMITED and FULL
2866              devices will always support OFF, AUTO modes.
2867          </details>
2868        </entry>
2869        <entry name="postRawSensitivityBoostRange" type="int32" visibility="public"
2870            type_notes="Range of supported post RAW sensitivitiy boosts"
2871            container="array" typedef="rangeInt">
2872          <array>
2873            <size>2</size>
2874          </array>
2875          <description>Range of boosts for android.control.postRawSensitivityBoost supported
2876            by this camera device.
2877          </description>
2878          <units>ISO arithmetic units, the same as android.sensor.sensitivity</units>
2879          <details>
2880            Devices support post RAW sensitivity boost  will advertise
2881            android.control.postRawSensitivityBoost key for controling
2882            post RAW sensitivity boost.
2883
2884            This key will be `null` for devices that do not support any RAW format
2885            outputs. For devices that do support RAW format outputs, this key will always
2886            present, and if a device does not support post RAW sensitivity boost, it will
2887            list `(100, 100)` in this key.
2888          </details>
2889          <hal_details>
2890             This key is added in legacy HAL3.4. For legacy HAL3.3 or earlier devices, camera
2891             framework will generate this key as `(100, 100)` if device supports any of RAW output
2892             formats.  All legacy HAL3.4 and above devices should list this key if device supports
2893             any of RAW output formats.
2894          </hal_details>
2895        </entry>
2896      </static>
2897      <controls>
2898        <entry name="postRawSensitivityBoost" type="int32" visibility="public">
2899          <description>The amount of additional sensitivity boost applied to output images
2900             after RAW sensor data is captured.
2901          </description>
2902          <units>ISO arithmetic units, the same as android.sensor.sensitivity</units>
2903          <range>android.control.postRawSensitivityBoostRange</range>
2904          <details>
2905          Some camera devices support additional digital sensitivity boosting in the
2906          camera processing pipeline after sensor RAW image is captured.
2907          Such a boost will be applied to YUV/JPEG format output images but will not
2908          have effect on RAW output formats like RAW_SENSOR, RAW10, RAW12 or RAW_OPAQUE.
2909
2910          This key will be `null` for devices that do not support any RAW format
2911          outputs. For devices that do support RAW format outputs, this key will always
2912          present, and if a device does not support post RAW sensitivity boost, it will
2913          list `100` in this key.
2914
2915          If the camera device cannot apply the exact boost requested, it will reduce the
2916          boost to the nearest supported value.
2917          The final boost value used will be available in the output capture result.
2918
2919          For devices that support post RAW sensitivity boost, the YUV/JPEG output images
2920          of such device will have the total sensitivity of
2921          `android.sensor.sensitivity * android.control.postRawSensitivityBoost / 100`
2922          The sensitivity of RAW format images will always be `android.sensor.sensitivity`
2923
2924          This control is only effective if android.control.aeMode or android.control.mode is set to
2925          OFF; otherwise the auto-exposure algorithm will override this value.
2926          </details>
2927        </entry>
2928      </controls>
2929      <dynamic>
2930        <clone entry="android.control.postRawSensitivityBoost" kind="controls">
2931        </clone>
2932      </dynamic>
2933      <controls>
2934        <entry name="enableZsl" type="byte" visibility="public" enum="true" typedef="boolean">
2935          <enum>
2936            <value>FALSE
2937            <notes>Requests with android.control.captureIntent == STILL_CAPTURE must be captured
2938              after previous requests.</notes></value>
2939            <value>TRUE
2940            <notes>Requests with android.control.captureIntent == STILL_CAPTURE may or may not be
2941              captured before previous requests.</notes></value>
2942          </enum>
2943          <description>Allow camera device to enable zero-shutter-lag mode for requests with
2944            android.control.captureIntent == STILL_CAPTURE.
2945          </description>
2946          <details>
2947          If enableZsl is `true`, the camera device may enable zero-shutter-lag mode for requests with
2948          STILL_CAPTURE capture intent. The camera device may use images captured in the past to
2949          produce output images for a zero-shutter-lag request. The result metadata including the
2950          android.sensor.timestamp reflects the source frames used to produce output images.
2951          Therefore, the contents of the output images and the result metadata may be out of order
2952          compared to previous regular requests. enableZsl does not affect requests with other
2953          capture intents.
2954
2955          For example, when requests are submitted in the following order:
2956            Request A: enableZsl is ON, android.control.captureIntent is PREVIEW
2957            Request B: enableZsl is ON, android.control.captureIntent is STILL_CAPTURE
2958
2959          The output images for request B may have contents captured before the output images for
2960          request A, and the result metadata for request B may be older than the result metadata for
2961          request A.
2962
2963          Note that when enableZsl is `true`, it is not guaranteed to get output images captured in
2964          the past for requests with STILL_CAPTURE capture intent.
2965
2966          For applications targeting SDK versions O and newer, the value of enableZsl in
2967          TEMPLATE_STILL_CAPTURE template may be `true`. The value in other templates is always
2968          `false` if present.
2969
2970          For applications targeting SDK versions older than O, the value of enableZsl in all
2971          capture templates is always `false` if present.
2972
2973          For application-operated ZSL, use CAMERA3_TEMPLATE_ZERO_SHUTTER_LAG template.
2974          </details>
2975          <hal_details>
2976          It is valid for HAL to produce regular output images for requests with STILL_CAPTURE
2977          capture intent.
2978          </hal_details>
2979        </entry>
2980      </controls>
2981      <dynamic>
2982        <clone entry="android.control.enableZsl" kind="controls">
2983        </clone>
2984        <entry name="afSceneChange" type="byte" visibility="public" enum="true" hal_version="3.3">
2985          <enum>
2986            <value>NOT_DETECTED
2987            <notes>Scene change is not detected within the AF region(s).</notes></value>
2988            <value>DETECTED
2989            <notes>Scene change is detected within the AF region(s).</notes></value>
2990          </enum>
2991          <description>Whether a significant scene change is detected within the currently-set AF
2992          region(s).</description>
2993          <details>When the camera focus routine detects a change in the scene it is looking at,
2994          such as a large shift in camera viewpoint, significant motion in the scene, or a
2995          significant illumination change, this value will be set to DETECTED for a single capture
2996          result. Otherwise the value will be NOT_DETECTED. The threshold for detection is similar
2997          to what would trigger a new passive focus scan to begin in CONTINUOUS autofocus modes.
2998
2999          This key will be available if the camera device advertises this key via {@link
3000          android.hardware.camera2.CameraCharacteristics#getAvailableCaptureResultKeys|ACAMERA_REQUEST_AVAILABLE_RESULT_KEYS}.
3001          </details>
3002        </entry>
3003      </dynamic>
3004    </section>
3005    <section name="demosaic">
3006      <controls>
3007        <entry name="mode" type="byte" enum="true">
3008          <enum>
3009            <value>FAST
3010            <notes>Minimal or no slowdown of frame rate compared to
3011            Bayer RAW output.</notes></value>
3012            <value>HIGH_QUALITY
3013            <notes>Improved processing quality but the frame rate might be slowed down
3014            relative to raw output.</notes></value>
3015          </enum>
3016          <description>Controls the quality of the demosaicing
3017          processing.</description>
3018          <tag id="FUTURE" />
3019        </entry>
3020      </controls>
3021    </section>
3022    <section name="edge">
3023      <controls>
3024        <entry name="mode" type="byte" visibility="public" enum="true" hwlevel="full">
3025          <enum>
3026            <value>OFF
3027            <notes>No edge enhancement is applied.</notes></value>
3028            <value>FAST
3029            <notes>Apply edge enhancement at a quality level that does not slow down frame rate
3030            relative to sensor output. It may be the same as OFF if edge enhancement will
3031            slow down frame rate relative to sensor.</notes></value>
3032            <value>HIGH_QUALITY
3033            <notes>Apply high-quality edge enhancement, at a cost of possibly reduced output frame rate.
3034            </notes></value>
3035            <value optional="true">ZERO_SHUTTER_LAG <notes>Edge enhancement is applied at different
3036            levels for different output streams, based on resolution. Streams at maximum recording
3037            resolution (see {@link
3038            android.hardware.camera2.CameraDevice#createCaptureSession|ACameraDevice_createCaptureSession})
3039            or below have edge enhancement applied, while higher-resolution streams have no edge
3040            enhancement applied. The level of edge enhancement for low-resolution streams is tuned
3041            so that frame rate is not impacted, and the quality is equal to or better than FAST
3042            (since it is only applied to lower-resolution outputs, quality may improve from FAST).
3043
3044            This mode is intended to be used by applications operating in a zero-shutter-lag mode
3045            with YUV or PRIVATE reprocessing, where the application continuously captures
3046            high-resolution intermediate buffers into a circular buffer, from which a final image is
3047            produced via reprocessing when a user takes a picture.  For such a use case, the
3048            high-resolution buffers must not have edge enhancement applied to maximize efficiency of
3049            preview and to avoid double-applying enhancement when reprocessed, while low-resolution
3050            buffers (used for recording or preview, generally) need edge enhancement applied for
3051            reasonable preview quality.
3052
3053            This mode is guaranteed to be supported by devices that support either the
3054            YUV_REPROCESSING or PRIVATE_REPROCESSING capabilities
3055            (android.request.availableCapabilities lists either of those capabilities) and it will
3056            be the default mode for CAMERA3_TEMPLATE_ZERO_SHUTTER_LAG template.
3057            </notes></value>
3058          </enum>
3059          <description>Operation mode for edge
3060          enhancement.</description>
3061          <range>android.edge.availableEdgeModes</range>
3062          <details>Edge enhancement improves sharpness and details in the captured image. OFF means
3063          no enhancement will be applied by the camera device.
3064
3065          FAST/HIGH_QUALITY both mean camera device determined enhancement
3066          will be applied. HIGH_QUALITY mode indicates that the
3067          camera device will use the highest-quality enhancement algorithms,
3068          even if it slows down capture rate. FAST means the camera device will
3069          not slow down capture rate when applying edge enhancement. FAST may be the same as OFF if
3070          edge enhancement will slow down capture rate. Every output stream will have a similar
3071          amount of enhancement applied.
3072
3073          ZERO_SHUTTER_LAG is meant to be used by applications that maintain a continuous circular
3074          buffer of high-resolution images during preview and reprocess image(s) from that buffer
3075          into a final capture when triggered by the user. In this mode, the camera device applies
3076          edge enhancement to low-resolution streams (below maximum recording resolution) to
3077          maximize preview quality, but does not apply edge enhancement to high-resolution streams,
3078          since those will be reprocessed later if necessary.
3079
3080          For YUV_REPROCESSING, these FAST/HIGH_QUALITY modes both mean that the camera
3081          device will apply FAST/HIGH_QUALITY YUV-domain edge enhancement, respectively.
3082          The camera device may adjust its internal edge enhancement parameters for best
3083          image quality based on the android.reprocess.effectiveExposureFactor, if it is set.
3084          </details>
3085          <hal_details>
3086          For YUV_REPROCESSING The HAL can use android.reprocess.effectiveExposureFactor to
3087          adjust the internal edge enhancement reduction parameters appropriately to get the best
3088          quality images.
3089          </hal_details>
3090          <tag id="V1" />
3091          <tag id="REPROC" />
3092        </entry>
3093        <entry name="strength" type="byte">
3094          <description>Control the amount of edge enhancement
3095          applied to the images</description>
3096          <units>1-10; 10 is maximum sharpening</units>
3097          <tag id="FUTURE" />
3098        </entry>
3099      </controls>
3100      <static>
3101        <entry name="availableEdgeModes" type="byte" visibility="public"
3102               type_notes="list of enums" container="array" typedef="enumList"
3103               hwlevel="full">
3104          <array>
3105            <size>n</size>
3106          </array>
3107          <description>
3108          List of edge enhancement modes for android.edge.mode that are supported by this camera
3109          device.
3110          </description>
3111          <range>Any value listed in android.edge.mode</range>
3112          <details>
3113          Full-capability camera devices must always support OFF; camera devices that support
3114          YUV_REPROCESSING or PRIVATE_REPROCESSING will list ZERO_SHUTTER_LAG; all devices will
3115          list FAST.
3116          </details>
3117          <hal_details>
3118          HAL must support both FAST and HIGH_QUALITY if edge enhancement control is available
3119          on the camera device, but the underlying implementation can be the same for both modes.
3120          That is, if the highest quality implementation on the camera device does not slow down
3121          capture rate, then FAST and HIGH_QUALITY will generate the same output.
3122          </hal_details>
3123          <tag id="V1" />
3124          <tag id="REPROC" />
3125        </entry>
3126      </static>
3127      <dynamic>
3128        <clone entry="android.edge.mode" kind="controls">
3129          <tag id="V1" />
3130          <tag id="REPROC" />
3131        </clone>
3132      </dynamic>
3133    </section>
3134    <section name="flash">
3135      <controls>
3136        <entry name="firingPower" type="byte">
3137          <description>Power for flash firing/torch</description>
3138          <units>10 is max power; 0 is no flash. Linear</units>
3139          <range>0 - 10</range>
3140          <details>Power for snapshot may use a different scale than
3141          for torch mode. Only one entry for torch mode will be
3142          used</details>
3143          <tag id="FUTURE" />
3144        </entry>
3145        <entry name="firingTime" type="int64">
3146          <description>Firing time of flash relative to start of
3147          exposure</description>
3148          <units>nanoseconds</units>
3149          <range>0-(exposure time-flash duration)</range>
3150          <details>Clamped to (0, exposure time - flash
3151          duration).</details>
3152          <tag id="FUTURE" />
3153        </entry>
3154        <entry name="mode" type="byte" visibility="public" enum="true" hwlevel="legacy">
3155          <enum>
3156            <value>OFF
3157              <notes>
3158              Do not fire the flash for this capture.
3159              </notes>
3160            </value>
3161            <value>SINGLE
3162              <notes>
3163              If the flash is available and charged, fire flash
3164              for this capture.
3165              </notes>
3166            </value>
3167            <value>TORCH
3168              <notes>
3169              Transition flash to continuously on.
3170              </notes>
3171            </value>
3172          </enum>
3173          <description>The desired mode for for the camera device's flash control.</description>
3174          <details>
3175          This control is only effective when flash unit is available
3176          (`android.flash.info.available == true`).
3177
3178          When this control is used, the android.control.aeMode must be set to ON or OFF.
3179          Otherwise, the camera device auto-exposure related flash control (ON_AUTO_FLASH,
3180          ON_ALWAYS_FLASH, or ON_AUTO_FLASH_REDEYE) will override this control.
3181
3182          When set to OFF, the camera device will not fire flash for this capture.
3183
3184          When set to SINGLE, the camera device will fire flash regardless of the camera
3185          device's auto-exposure routine's result. When used in still capture case, this
3186          control should be used along with auto-exposure (AE) precapture metering sequence
3187          (android.control.aePrecaptureTrigger), otherwise, the image may be incorrectly exposed.
3188
3189          When set to TORCH, the flash will be on continuously. This mode can be used
3190          for use cases such as preview, auto-focus assist, still capture, or video recording.
3191
3192          The flash status will be reported by android.flash.state in the capture result metadata.
3193          </details>
3194          <tag id="BC" />
3195        </entry>
3196      </controls>
3197      <static>
3198        <namespace name="info">
3199          <entry name="available" type="byte" visibility="public" enum="true"
3200                 typedef="boolean" hwlevel="legacy">
3201            <enum>
3202              <value>FALSE</value>
3203              <value>TRUE</value>
3204            </enum>
3205            <description>Whether this camera device has a
3206            flash unit.</description>
3207            <details>
3208            Will be `false` if no flash is available.
3209
3210            If there is no flash unit, none of the flash controls do
3211            anything.</details>
3212            <tag id="BC" />
3213          </entry>
3214          <entry name="chargeDuration" type="int64">
3215            <description>Time taken before flash can fire
3216            again</description>
3217            <units>nanoseconds</units>
3218            <range>0-1e9</range>
3219            <details>1 second too long/too short for recharge? Should
3220            this be power-dependent?</details>
3221            <tag id="FUTURE" />
3222          </entry>
3223        </namespace>
3224        <entry name="colorTemperature" type="byte">
3225          <description>The x,y whitepoint of the
3226          flash</description>
3227          <units>pair of floats</units>
3228          <range>0-1 for both</range>
3229          <tag id="FUTURE" />
3230        </entry>
3231        <entry name="maxEnergy" type="byte">
3232          <description>Max energy output of the flash for a full
3233          power single flash</description>
3234          <units>lumen-seconds</units>
3235          <range>&amp;gt;= 0</range>
3236          <tag id="FUTURE" />
3237        </entry>
3238      </static>
3239      <dynamic>
3240        <clone entry="android.flash.firingPower" kind="controls">
3241        </clone>
3242        <clone entry="android.flash.firingTime" kind="controls">
3243        </clone>
3244        <clone entry="android.flash.mode" kind="controls"></clone>
3245        <entry name="state" type="byte" visibility="public" enum="true"
3246               hwlevel="limited">
3247          <enum>
3248            <value>UNAVAILABLE
3249            <notes>No flash on camera.</notes></value>
3250            <value>CHARGING
3251            <notes>Flash is charging and cannot be fired.</notes></value>
3252            <value>READY
3253            <notes>Flash is ready to fire.</notes></value>
3254            <value>FIRED
3255            <notes>Flash fired for this capture.</notes></value>
3256            <value>PARTIAL
3257            <notes>Flash partially illuminated this frame.
3258
3259            This is usually due to the next or previous frame having
3260            the flash fire, and the flash spilling into this capture
3261            due to hardware limitations.</notes></value>
3262          </enum>
3263          <description>Current state of the flash
3264          unit.</description>
3265          <details>
3266          When the camera device doesn't have flash unit
3267          (i.e. `android.flash.info.available == false`), this state will always be UNAVAILABLE.
3268          Other states indicate the current flash status.
3269
3270          In certain conditions, this will be available on LEGACY devices:
3271
3272           * Flash-less cameras always return UNAVAILABLE.
3273           * Using android.control.aeMode `==` ON_ALWAYS_FLASH
3274             will always return FIRED.
3275           * Using android.flash.mode `==` TORCH
3276             will always return FIRED.
3277
3278          In all other conditions the state will not be available on
3279          LEGACY devices (i.e. it will be `null`).
3280          </details>
3281        </entry>
3282      </dynamic>
3283    </section>
3284    <section name="hotPixel">
3285      <controls>
3286        <entry name="mode" type="byte" visibility="public" enum="true">
3287          <enum>
3288            <value>OFF
3289              <notes>
3290              No hot pixel correction is applied.
3291
3292              The frame rate must not be reduced relative to sensor raw output
3293              for this option.
3294
3295              The hotpixel map may be returned in android.statistics.hotPixelMap.
3296              </notes>
3297            </value>
3298            <value>FAST
3299              <notes>
3300              Hot pixel correction is applied, without reducing frame
3301              rate relative to sensor raw output.
3302
3303              The hotpixel map may be returned in android.statistics.hotPixelMap.
3304              </notes>
3305            </value>
3306            <value>HIGH_QUALITY
3307              <notes>
3308              High-quality hot pixel correction is applied, at a cost
3309              of possibly reduced frame rate relative to sensor raw output.
3310
3311              The hotpixel map may be returned in android.statistics.hotPixelMap.
3312              </notes>
3313            </value>
3314          </enum>
3315          <description>
3316          Operational mode for hot pixel correction.
3317          </description>
3318          <range>android.hotPixel.availableHotPixelModes</range>
3319          <details>
3320          Hotpixel correction interpolates out, or otherwise removes, pixels
3321          that do not accurately measure the incoming light (i.e. pixels that
3322          are stuck at an arbitrary value or are oversensitive).
3323          </details>
3324          <tag id="V1" />
3325          <tag id="RAW" />
3326        </entry>
3327      </controls>
3328      <static>
3329        <entry name="availableHotPixelModes" type="byte" visibility="public"
3330          type_notes="list of enums" container="array" typedef="enumList">
3331          <array>
3332            <size>n</size>
3333          </array>
3334          <description>
3335          List of hot pixel correction modes for android.hotPixel.mode that are supported by this
3336          camera device.
3337          </description>
3338          <range>Any value listed in android.hotPixel.mode</range>
3339          <details>
3340          FULL mode camera devices will always support FAST.
3341          </details>
3342          <hal_details>
3343          To avoid performance issues, there will be significantly fewer hot
3344          pixels than actual pixels on the camera sensor.
3345          HAL must support both FAST and HIGH_QUALITY if hot pixel correction control is available
3346          on the camera device, but the underlying implementation can be the same for both modes.
3347          That is, if the highest quality implementation on the camera device does not slow down
3348          capture rate, then FAST and HIGH_QUALITY will generate the same output.
3349          </hal_details>
3350          <tag id="V1" />
3351          <tag id="RAW" />
3352        </entry>
3353      </static>
3354      <dynamic>
3355        <clone entry="android.hotPixel.mode" kind="controls">
3356          <tag id="V1" />
3357          <tag id="RAW" />
3358        </clone>
3359      </dynamic>
3360    </section>
3361    <section name="jpeg">
3362      <controls>
3363        <entry name="gpsLocation" type="byte" visibility="java_public" synthetic="true"
3364        typedef="location" hwlevel="legacy">
3365          <description>
3366          A location object to use when generating image GPS metadata.
3367          </description>
3368          <details>
3369          Setting a location object in a request will include the GPS coordinates of the location
3370          into any JPEG images captured based on the request. These coordinates can then be
3371          viewed by anyone who receives the JPEG image.
3372
3373          This tag is also used for HEIC image capture.
3374          </details>
3375        </entry>
3376        <entry name="gpsCoordinates" type="double" visibility="ndk_public"
3377        type_notes="latitude, longitude, altitude. First two in degrees, the third in meters"
3378        container="array" hwlevel="legacy">
3379          <array>
3380            <size>3</size>
3381          </array>
3382          <description>GPS coordinates to include in output JPEG
3383          EXIF.</description>
3384          <range>(-180 - 180], [-90,90], [-inf, inf]</range>
3385          <details>This tag is also used for HEIC image capture.</details>
3386          <tag id="BC" />
3387        </entry>
3388        <entry name="gpsProcessingMethod" type="byte" visibility="ndk_public"
3389               typedef="string" hwlevel="legacy">
3390          <description>32 characters describing GPS algorithm to
3391          include in EXIF.</description>
3392          <units>UTF-8 null-terminated string</units>
3393          <details>This tag is also used for HEIC image capture.</details>
3394          <tag id="BC" />
3395        </entry>
3396        <entry name="gpsTimestamp" type="int64" visibility="ndk_public" hwlevel="legacy">
3397          <description>Time GPS fix was made to include in
3398          EXIF.</description>
3399          <units>UTC in seconds since January 1, 1970</units>
3400          <details>This tag is also used for HEIC image capture.</details>
3401          <tag id="BC" />
3402        </entry>
3403        <entry name="orientation" type="int32" visibility="public" hwlevel="legacy">
3404          <description>The orientation for a JPEG image.</description>
3405          <units>Degrees in multiples of 90</units>
3406          <range>0, 90, 180, 270</range>
3407          <details>
3408          The clockwise rotation angle in degrees, relative to the orientation
3409          to the camera, that the JPEG picture needs to be rotated by, to be viewed
3410          upright.
3411
3412          Camera devices may either encode this value into the JPEG EXIF header, or
3413          rotate the image data to match this orientation. When the image data is rotated,
3414          the thumbnail data will also be rotated.
3415
3416          Note that this orientation is relative to the orientation of the camera sensor, given
3417          by android.sensor.orientation.
3418
3419          To translate from the device orientation given by the Android sensor APIs for camera
3420          sensors which are not EXTERNAL, the following sample code may be used:
3421
3422              private int getJpegOrientation(CameraCharacteristics c, int deviceOrientation) {
3423                  if (deviceOrientation == android.view.OrientationEventListener.ORIENTATION_UNKNOWN) return 0;
3424                  int sensorOrientation = c.get(CameraCharacteristics.SENSOR_ORIENTATION);
3425
3426                  // Round device orientation to a multiple of 90
3427                  deviceOrientation = (deviceOrientation + 45) / 90 * 90;
3428
3429                  // Reverse device orientation for front-facing cameras
3430                  boolean facingFront = c.get(CameraCharacteristics.LENS_FACING) == CameraCharacteristics.LENS_FACING_FRONT;
3431                  if (facingFront) deviceOrientation = -deviceOrientation;
3432
3433                  // Calculate desired JPEG orientation relative to camera orientation to make
3434                  // the image upright relative to the device orientation
3435                  int jpegOrientation = (sensorOrientation + deviceOrientation + 360) % 360;
3436
3437                  return jpegOrientation;
3438              }
3439
3440          For EXTERNAL cameras the sensor orientation will always be set to 0 and the facing will
3441          also be set to EXTERNAL. The above code is not relevant in such case.
3442
3443          This tag is also used to describe the orientation of the HEIC image capture, in which
3444          case the rotation is reflected by
3445          {@link android.media.ExifInterface#TAG_ORIENTATION EXIF orientation flag}, and not by
3446          rotating the image data itself.
3447          </details>
3448          <tag id="BC" />
3449        </entry>
3450        <entry name="quality" type="byte" visibility="public" hwlevel="legacy">
3451          <description>Compression quality of the final JPEG
3452          image.</description>
3453          <range>1-100; larger is higher quality</range>
3454          <details>85-95 is typical usage range. This tag is also used to describe the quality
3455          of the HEIC image capture.</details>
3456          <tag id="BC" />
3457        </entry>
3458        <entry name="thumbnailQuality" type="byte" visibility="public" hwlevel="legacy">
3459          <description>Compression quality of JPEG
3460          thumbnail.</description>
3461          <range>1-100; larger is higher quality</range>
3462          <details>This tag is also used to describe the quality of the HEIC image capture.</details>
3463          <tag id="BC" />
3464        </entry>
3465        <entry name="thumbnailSize" type="int32" visibility="public"
3466        container="array" typedef="size" hwlevel="legacy">
3467          <array>
3468            <size>2</size>
3469          </array>
3470          <description>Resolution of embedded JPEG thumbnail.</description>
3471          <range>android.jpeg.availableThumbnailSizes</range>
3472          <details>When set to (0, 0) value, the JPEG EXIF will not contain thumbnail,
3473          but the captured JPEG will still be a valid image.
3474
3475          For best results, when issuing a request for a JPEG image, the thumbnail size selected
3476          should have the same aspect ratio as the main JPEG output.
3477
3478          If the thumbnail image aspect ratio differs from the JPEG primary image aspect
3479          ratio, the camera device creates the thumbnail by cropping it from the primary image.
3480          For example, if the primary image has 4:3 aspect ratio, the thumbnail image has
3481          16:9 aspect ratio, the primary image will be cropped vertically (letterbox) to
3482          generate the thumbnail image. The thumbnail image will always have a smaller Field
3483          Of View (FOV) than the primary image when aspect ratios differ.
3484
3485          When an android.jpeg.orientation of non-zero degree is requested,
3486          the camera device will handle thumbnail rotation in one of the following ways:
3487
3488          * Set the {@link android.media.ExifInterface#TAG_ORIENTATION EXIF orientation flag}
3489            and keep jpeg and thumbnail image data unrotated.
3490          * Rotate the jpeg and thumbnail image data and not set
3491            {@link android.media.ExifInterface#TAG_ORIENTATION EXIF orientation flag}. In this
3492            case, LIMITED or FULL hardware level devices will report rotated thumnail size in
3493            capture result, so the width and height will be interchanged if 90 or 270 degree
3494            orientation is requested. LEGACY device will always report unrotated thumbnail
3495            size.
3496
3497          The tag is also used as thumbnail size for HEIC image format capture, in which case the
3498          the thumbnail rotation is reflected by
3499          {@link android.media.ExifInterface#TAG_ORIENTATION EXIF orientation flag}, and not by
3500          rotating the thumbnail data itself.
3501          </details>
3502          <hal_details>
3503          The HAL must not squeeze or stretch the downscaled primary image to generate thumbnail.
3504          The cropping must be done on the primary jpeg image rather than the sensor pre-correction
3505          active array. The stream cropping rule specified by "S5. Cropping" in camera3.h doesn't
3506          apply to the thumbnail image cropping.
3507          </hal_details>
3508          <tag id="BC" />
3509        </entry>
3510      </controls>
3511      <static>
3512        <entry name="availableThumbnailSizes" type="int32" visibility="public"
3513        container="array" typedef="size" hwlevel="legacy">
3514          <array>
3515            <size>2</size>
3516            <size>n</size>
3517          </array>
3518          <description>List of JPEG thumbnail sizes for android.jpeg.thumbnailSize supported by this
3519          camera device.</description>
3520          <details>
3521          This list will include at least one non-zero resolution, plus `(0,0)` for indicating no
3522          thumbnail should be generated.
3523
3524          Below condiditions will be satisfied for this size list:
3525
3526          * The sizes will be sorted by increasing pixel area (width x height).
3527          If several resolutions have the same area, they will be sorted by increasing width.
3528          * The aspect ratio of the largest thumbnail size will be same as the
3529          aspect ratio of largest JPEG output size in android.scaler.availableStreamConfigurations.
3530          The largest size is defined as the size that has the largest pixel area
3531          in a given size list.
3532          * Each output JPEG size in android.scaler.availableStreamConfigurations will have at least
3533          one corresponding size that has the same aspect ratio in availableThumbnailSizes,
3534          and vice versa.
3535          * All non-`(0, 0)` sizes will have non-zero widths and heights.
3536
3537          This list is also used as supported thumbnail sizes for HEIC image format capture.
3538          </details>
3539          <tag id="BC" />
3540        </entry>
3541        <entry name="maxSize" type="int32" visibility="system">
3542          <description>Maximum size in bytes for the compressed
3543          JPEG buffer</description>
3544          <range>Must be large enough to fit any JPEG produced by
3545          the camera</range>
3546          <details>This is used for sizing the gralloc buffers for
3547          JPEG</details>
3548        </entry>
3549      </static>
3550      <dynamic>
3551        <clone entry="android.jpeg.gpsLocation" kind="controls">
3552        </clone>
3553        <clone entry="android.jpeg.gpsCoordinates" kind="controls">
3554        </clone>
3555        <clone entry="android.jpeg.gpsProcessingMethod"
3556        kind="controls"></clone>
3557        <clone entry="android.jpeg.gpsTimestamp" kind="controls">
3558        </clone>
3559        <clone entry="android.jpeg.orientation" kind="controls">
3560        </clone>
3561        <clone entry="android.jpeg.quality" kind="controls">
3562        </clone>
3563        <entry name="size" type="int32">
3564          <description>The size of the compressed JPEG image, in
3565          bytes</description>
3566          <range>&amp;gt;= 0</range>
3567          <details>If no JPEG output is produced for the request,
3568          this must be 0.
3569
3570          Otherwise, this describes the real size of the compressed
3571          JPEG image placed in the output stream.  More specifically,
3572          if android.jpeg.maxSize = 1000000, and a specific capture
3573          has android.jpeg.size = 500000, then the output buffer from
3574          the JPEG stream will be 1000000 bytes, of which the first
3575          500000 make up the real data.</details>
3576          <tag id="FUTURE" />
3577        </entry>
3578        <clone entry="android.jpeg.thumbnailQuality"
3579        kind="controls"></clone>
3580        <clone entry="android.jpeg.thumbnailSize" kind="controls">
3581        </clone>
3582      </dynamic>
3583    </section>
3584    <section name="lens">
3585      <controls>
3586        <entry name="aperture" type="float" visibility="public" hwlevel="full">
3587          <description>The desired lens aperture size, as a ratio of lens focal length to the
3588          effective aperture diameter.</description>
3589          <units>The f-number (f/N)</units>
3590          <range>android.lens.info.availableApertures</range>
3591          <details>Setting this value is only supported on the camera devices that have a variable
3592          aperture lens.
3593
3594          When this is supported and android.control.aeMode is OFF,
3595          this can be set along with android.sensor.exposureTime,
3596          android.sensor.sensitivity, and android.sensor.frameDuration
3597          to achieve manual exposure control.
3598
3599          The requested aperture value may take several frames to reach the
3600          requested value; the camera device will report the current (intermediate)
3601          aperture size in capture result metadata while the aperture is changing.
3602          While the aperture is still changing, android.lens.state will be set to MOVING.
3603
3604          When this is supported and android.control.aeMode is one of
3605          the ON modes, this will be overridden by the camera device
3606          auto-exposure algorithm, the overridden values are then provided
3607          back to the user in the corresponding result.</details>
3608          <tag id="V1" />
3609        </entry>
3610        <entry name="filterDensity" type="float" visibility="public" hwlevel="full">
3611          <description>
3612          The desired setting for the lens neutral density filter(s).
3613          </description>
3614          <units>Exposure Value (EV)</units>
3615          <range>android.lens.info.availableFilterDensities</range>
3616          <details>
3617          This control will not be supported on most camera devices.
3618
3619          Lens filters are typically used to lower the amount of light the
3620          sensor is exposed to (measured in steps of EV). As used here, an EV
3621          step is the standard logarithmic representation, which are
3622          non-negative, and inversely proportional to the amount of light
3623          hitting the sensor.  For example, setting this to 0 would result
3624          in no reduction of the incoming light, and setting this to 2 would
3625          mean that the filter is set to reduce incoming light by two stops
3626          (allowing 1/4 of the prior amount of light to the sensor).
3627
3628          It may take several frames before the lens filter density changes
3629          to the requested value. While the filter density is still changing,
3630          android.lens.state will be set to MOVING.
3631          </details>
3632          <tag id="V1" />
3633        </entry>
3634        <entry name="focalLength" type="float" visibility="public" hwlevel="legacy">
3635          <description>
3636          The desired lens focal length; used for optical zoom.
3637          </description>
3638          <units>Millimeters</units>
3639          <range>android.lens.info.availableFocalLengths</range>
3640          <details>
3641          This setting controls the physical focal length of the camera
3642          device's lens. Changing the focal length changes the field of
3643          view of the camera device, and is usually used for optical zoom.
3644
3645          Like android.lens.focusDistance and android.lens.aperture, this
3646          setting won't be applied instantaneously, and it may take several
3647          frames before the lens can change to the requested focal length.
3648          While the focal length is still changing, android.lens.state will
3649          be set to MOVING.
3650
3651          Optical zoom will not be supported on most devices.
3652          </details>
3653          <hal_details>
3654          For a logical camera device supporting both optical and digital zoom, if focalLength and
3655          cropRegion change in the same request, the camera device must make sure that the new
3656          focalLength and cropRegion take effect in the same frame. This is to make sure that there
3657          is no visible field-of-view jump during zoom. For example, if cropRegion is applied
3658          immediately, but focalLength takes more than 1 frame to take effect, the camera device
3659          will delay the cropRegion so that it's synchronized with focalLength.
3660          </hal_details>
3661          <tag id="V1" />
3662        </entry>
3663        <entry name="focusDistance" type="float" visibility="public" hwlevel="full">
3664          <description>Desired distance to plane of sharpest focus,
3665          measured from frontmost surface of the lens.</description>
3666          <units>See android.lens.info.focusDistanceCalibration for details</units>
3667          <range>&amp;gt;= 0</range>
3668          <details>
3669          This control can be used for setting manual focus, on devices that support
3670          the MANUAL_SENSOR capability and have a variable-focus lens (see
3671          android.lens.info.minimumFocusDistance).
3672
3673          A value of `0.0f` means infinity focus. The value set will be clamped to
3674          `[0.0f, android.lens.info.minimumFocusDistance]`.
3675
3676          Like android.lens.focalLength, this setting won't be applied
3677          instantaneously, and it may take several frames before the lens
3678          can move to the requested focus distance. While the lens is still moving,
3679          android.lens.state will be set to MOVING.
3680
3681          LEGACY devices support at most setting this to `0.0f`
3682          for infinity focus.
3683          </details>
3684          <tag id="BC" />
3685          <tag id="V1" />
3686        </entry>
3687        <entry name="opticalStabilizationMode" type="byte" visibility="public"
3688        enum="true" hwlevel="limited">
3689          <enum>
3690            <value>OFF
3691              <notes>Optical stabilization is unavailable.</notes>
3692            </value>
3693            <value optional="true">ON
3694              <notes>Optical stabilization is enabled.</notes>
3695            </value>
3696          </enum>
3697          <description>
3698          Sets whether the camera device uses optical image stabilization (OIS)
3699          when capturing images.
3700          </description>
3701          <range>android.lens.info.availableOpticalStabilization</range>
3702          <details>
3703          OIS is used to compensate for motion blur due to small
3704          movements of the camera during capture. Unlike digital image
3705          stabilization (android.control.videoStabilizationMode), OIS
3706          makes use of mechanical elements to stabilize the camera
3707          sensor, and thus allows for longer exposure times before
3708          camera shake becomes apparent.
3709
3710          Switching between different optical stabilization modes may take several
3711          frames to initialize, the camera device will report the current mode in
3712          capture result metadata. For example, When "ON" mode is requested, the
3713          optical stabilization modes in the first several capture results may still
3714          be "OFF", and it will become "ON" when the initialization is done.
3715
3716          If a camera device supports both OIS and digital image stabilization
3717          (android.control.videoStabilizationMode), turning both modes on may produce undesirable
3718          interaction, so it is recommended not to enable both at the same time.
3719
3720          Not all devices will support OIS; see
3721          android.lens.info.availableOpticalStabilization for
3722          available controls.
3723          </details>
3724          <tag id="V1" />
3725        </entry>
3726      </controls>
3727      <static>
3728        <namespace name="info">
3729          <entry name="availableApertures" type="float" visibility="public"
3730          container="array" hwlevel="full">
3731            <array>
3732              <size>n</size>
3733            </array>
3734            <description>List of aperture size values for android.lens.aperture that are
3735            supported by this camera device.</description>
3736            <units>The aperture f-number</units>
3737            <details>If the camera device doesn't support a variable lens aperture,
3738            this list will contain only one value, which is the fixed aperture size.
3739
3740            If the camera device supports a variable aperture, the aperture values
3741            in this list will be sorted in ascending order.</details>
3742            <tag id="V1" />
3743          </entry>
3744          <entry name="availableFilterDensities" type="float" visibility="public"
3745          container="array" hwlevel="full">
3746            <array>
3747              <size>n</size>
3748            </array>
3749            <description>
3750            List of neutral density filter values for
3751            android.lens.filterDensity that are supported by this camera device.
3752            </description>
3753            <units>Exposure value (EV)</units>
3754            <range>
3755            Values are &amp;gt;= 0
3756            </range>
3757            <details>
3758            If a neutral density filter is not supported by this camera device,
3759            this list will contain only 0. Otherwise, this list will include every
3760            filter density supported by the camera device, in ascending order.
3761            </details>
3762            <tag id="V1" />
3763          </entry>
3764          <entry name="availableFocalLengths" type="float" visibility="public"
3765          type_notes="The list of available focal lengths"
3766          container="array" hwlevel="legacy">
3767            <array>
3768              <size>n</size>
3769            </array>
3770            <description>
3771            List of focal lengths for android.lens.focalLength that are supported by this camera
3772            device.
3773            </description>
3774            <units>Millimeters</units>
3775            <range>
3776            Values are &amp;gt; 0
3777            </range>
3778            <details>
3779            If optical zoom is not supported, this list will only contain
3780            a single value corresponding to the fixed focal length of the
3781            device. Otherwise, this list will include every focal length supported
3782            by the camera device, in ascending order.
3783            </details>
3784            <tag id="BC" />
3785            <tag id="V1" />
3786          </entry>
3787          <entry name="availableOpticalStabilization" type="byte"
3788          visibility="public" type_notes="list of enums" container="array"
3789          typedef="enumList" hwlevel="limited">
3790            <array>
3791              <size>n</size>
3792            </array>
3793            <description>
3794            List of optical image stabilization (OIS) modes for
3795            android.lens.opticalStabilizationMode that are supported by this camera device.
3796            </description>
3797            <range>Any value listed in android.lens.opticalStabilizationMode</range>
3798            <details>
3799            If OIS is not supported by a given camera device, this list will
3800            contain only OFF.
3801            </details>
3802            <tag id="V1" />
3803          </entry>
3804          <entry name="hyperfocalDistance" type="float" visibility="public" optional="true"
3805                 hwlevel="limited" permission_needed="true">
3806            <description>Hyperfocal distance for this lens.</description>
3807            <units>See android.lens.info.focusDistanceCalibration for details</units>
3808            <range>If lens is fixed focus, &amp;gt;= 0. If lens has focuser unit, the value is
3809            within `(0.0f, android.lens.info.minimumFocusDistance]`</range>
3810            <details>
3811            If the lens is not fixed focus, the camera device will report this
3812            field when android.lens.info.focusDistanceCalibration is APPROXIMATE or CALIBRATED.
3813            </details>
3814          </entry>
3815          <entry name="minimumFocusDistance" type="float" visibility="public" optional="true"
3816                 hwlevel="limited" permission_needed="true">
3817            <description>Shortest distance from frontmost surface
3818            of the lens that can be brought into sharp focus.</description>
3819            <units>See android.lens.info.focusDistanceCalibration for details</units>
3820            <range>&amp;gt;= 0</range>
3821            <details>If the lens is fixed-focus, this will be
3822            0.</details>
3823            <hal_details>Mandatory for FULL devices; LIMITED devices
3824            must always set this value to 0 for fixed-focus; and may omit
3825            the minimum focus distance otherwise.
3826
3827            This field is also mandatory for all devices advertising
3828            the MANUAL_SENSOR capability.</hal_details>
3829            <tag id="V1" />
3830          </entry>
3831          <entry name="shadingMapSize" type="int32" visibility="ndk_public"
3832                 type_notes="width and height (N, M) of lens shading map provided by the camera device."
3833                 container="array" typedef="size" hwlevel="full">
3834            <array>
3835              <size>2</size>
3836            </array>
3837            <description>Dimensions of lens shading map.</description>
3838            <range>Both values &amp;gt;= 1</range>
3839            <details>
3840            The map should be on the order of 30-40 rows and columns, and
3841            must be smaller than 64x64.
3842            </details>
3843            <tag id="V1" />
3844          </entry>
3845          <entry name="focusDistanceCalibration" type="byte" visibility="public"
3846                 enum="true" hwlevel="limited">
3847            <enum>
3848              <value>UNCALIBRATED
3849                <notes>
3850                The lens focus distance is not accurate, and the units used for
3851                android.lens.focusDistance do not correspond to any physical units.
3852
3853                Setting the lens to the same focus distance on separate occasions may
3854                result in a different real focus distance, depending on factors such
3855                as the orientation of the device, the age of the focusing mechanism,
3856                and the device temperature. The focus distance value will still be
3857                in the range of `[0, android.lens.info.minimumFocusDistance]`, where 0
3858                represents the farthest focus.
3859                </notes>
3860              </value>
3861              <value>APPROXIMATE
3862                <notes>
3863                The lens focus distance is measured in diopters.
3864
3865                However, setting the lens to the same focus distance
3866                on separate occasions may result in a different real
3867                focus distance, depending on factors such as the
3868                orientation of the device, the age of the focusing
3869                mechanism, and the device temperature.
3870                </notes>
3871              </value>
3872              <value>CALIBRATED
3873                <notes>
3874                The lens focus distance is measured in diopters, and
3875                is calibrated.
3876
3877                The lens mechanism is calibrated so that setting the
3878                same focus distance is repeatable on multiple
3879                occasions with good accuracy, and the focus distance
3880                corresponds to the real physical distance to the plane
3881                of best focus.
3882                </notes>
3883              </value>
3884            </enum>
3885            <description>The lens focus distance calibration quality.</description>
3886            <details>
3887            The lens focus distance calibration quality determines the reliability of
3888            focus related metadata entries, i.e. android.lens.focusDistance,
3889            android.lens.focusRange, android.lens.info.hyperfocalDistance, and
3890            android.lens.info.minimumFocusDistance.
3891
3892            APPROXIMATE and CALIBRATED devices report the focus metadata in
3893            units of diopters (1/meter), so `0.0f` represents focusing at infinity,
3894            and increasing positive numbers represent focusing closer and closer
3895            to the camera device. The focus distance control also uses diopters
3896            on these devices.
3897
3898            UNCALIBRATED devices do not use units that are directly comparable
3899            to any real physical measurement, but `0.0f` still represents farthest
3900            focus, and android.lens.info.minimumFocusDistance represents the
3901            nearest focus the device can achieve.
3902            </details>
3903            <hal_details>
3904            For devices advertise APPROXIMATE quality or higher, diopters 0 (infinity
3905            focus) must work. When autofocus is disabled (android.control.afMode == OFF)
3906            and the lens focus distance is set to 0 diopters
3907            (android.lens.focusDistance == 0), the lens will move to focus at infinity
3908            and is stably focused at infinity even if the device tilts. It may take the
3909            lens some time to move; during the move the lens state should be MOVING and
3910            the output diopter value should be changing toward 0.
3911            </hal_details>
3912          <tag id="V1" />
3913        </entry>
3914        </namespace>
3915        <entry name="facing" type="byte" visibility="public" enum="true" hwlevel="legacy">
3916          <enum>
3917            <value>FRONT
3918            <notes>
3919              The camera device faces the same direction as the device's screen.
3920            </notes></value>
3921            <value>BACK
3922            <notes>
3923              The camera device faces the opposite direction as the device's screen.
3924            </notes></value>
3925            <value>EXTERNAL
3926            <notes>
3927              The camera device is an external camera, and has no fixed facing relative to the
3928              device's screen.
3929            </notes></value>
3930          </enum>
3931          <description>Direction the camera faces relative to
3932          device screen.</description>
3933        </entry>
3934        <entry name="poseRotation" type="float" visibility="public"
3935               container="array" permission_needed="true">
3936          <array>
3937            <size>4</size>
3938          </array>
3939          <description>
3940            The orientation of the camera relative to the sensor
3941            coordinate system.
3942          </description>
3943          <units>
3944            Quaternion coefficients
3945          </units>
3946          <details>
3947            The four coefficients that describe the quaternion
3948            rotation from the Android sensor coordinate system to a
3949            camera-aligned coordinate system where the X-axis is
3950            aligned with the long side of the image sensor, the Y-axis
3951            is aligned with the short side of the image sensor, and
3952            the Z-axis is aligned with the optical axis of the sensor.
3953
3954            To convert from the quaternion coefficients `(x,y,z,w)`
3955            to the axis of rotation `(a_x, a_y, a_z)` and rotation
3956            amount `theta`, the following formulas can be used:
3957
3958                 theta = 2 * acos(w)
3959                a_x = x / sin(theta/2)
3960                a_y = y / sin(theta/2)
3961                a_z = z / sin(theta/2)
3962
3963            To create a 3x3 rotation matrix that applies the rotation
3964            defined by this quaternion, the following matrix can be
3965            used:
3966
3967                R = [ 1 - 2y^2 - 2z^2,       2xy - 2zw,       2xz + 2yw,
3968                           2xy + 2zw, 1 - 2x^2 - 2z^2,       2yz - 2xw,
3969                           2xz - 2yw,       2yz + 2xw, 1 - 2x^2 - 2y^2 ]
3970
3971             This matrix can then be used to apply the rotation to a
3972             column vector point with
3973
3974               `p' = Rp`
3975
3976             where `p` is in the device sensor coordinate system, and
3977             `p'` is in the camera-oriented coordinate system.
3978          </details>
3979          <tag id="DEPTH" />
3980        </entry>
3981        <entry name="poseTranslation" type="float" visibility="public"
3982               container="array" permission_needed="true">
3983          <array>
3984            <size>3</size>
3985          </array>
3986          <description>Position of the camera optical center.</description>
3987          <units>Meters</units>
3988          <details>
3989            The position of the camera device's lens optical center,
3990            as a three-dimensional vector `(x,y,z)`.
3991
3992            Prior to Android P, or when android.lens.poseReference is PRIMARY_CAMERA, this position
3993            is relative to the optical center of the largest camera device facing in the same
3994            direction as this camera, in the {@link android.hardware.SensorEvent Android sensor
3995            coordinate axes}. Note that only the axis definitions are shared with the sensor
3996            coordinate system, but not the origin.
3997
3998            If this device is the largest or only camera device with a given facing, then this
3999            position will be `(0, 0, 0)`; a camera device with a lens optical center located 3 cm
4000            from the main sensor along the +X axis (to the right from the user's perspective) will
4001            report `(0.03, 0, 0)`.  Note that this means that, for many computer vision
4002            applications, the position needs to be negated to convert it to a translation from the
4003            camera to the origin.
4004
4005            To transform a pixel coordinates between two cameras facing the same direction, first
4006            the source camera android.lens.distortion must be corrected for.  Then the source
4007            camera android.lens.intrinsicCalibration needs to be applied, followed by the
4008            android.lens.poseRotation of the source camera, the translation of the source camera
4009            relative to the destination camera, the android.lens.poseRotation of the destination
4010            camera, and finally the inverse of android.lens.intrinsicCalibration of the destination
4011            camera. This obtains a radial-distortion-free coordinate in the destination camera pixel
4012            coordinates.
4013
4014            To compare this against a real image from the destination camera, the destination camera
4015            image then needs to be corrected for radial distortion before comparison or sampling.
4016
4017            When android.lens.poseReference is GYROSCOPE, then this position is relative to
4018            the center of the primary gyroscope on the device. The axis definitions are the same as
4019            with PRIMARY_CAMERA.
4020          </details>
4021          <tag id="DEPTH" />
4022        </entry>
4023      </static>
4024      <dynamic>
4025        <clone entry="android.lens.aperture" kind="controls">
4026          <tag id="V1" />
4027        </clone>
4028        <clone entry="android.lens.filterDensity" kind="controls">
4029          <tag id="V1" />
4030        </clone>
4031        <clone entry="android.lens.focalLength" kind="controls">
4032          <tag id="BC" />
4033        </clone>
4034        <clone entry="android.lens.focusDistance" kind="controls">
4035          <details>Should be zero for fixed-focus cameras</details>
4036          <tag id="BC" />
4037        </clone>
4038        <entry name="focusRange" type="float" visibility="public"
4039        type_notes="Range of scene distances that are in focus"
4040        container="array" typedef="pairFloatFloat" hwlevel="limited">
4041          <array>
4042            <size>2</size>
4043          </array>
4044          <description>The range of scene distances that are in
4045          sharp focus (depth of field).</description>
4046          <units>A pair of focus distances in diopters: (near,
4047          far); see android.lens.info.focusDistanceCalibration for details.</units>
4048          <range>&amp;gt;=0</range>
4049          <details>If variable focus not supported, can still report
4050          fixed depth of field range</details>
4051          <tag id="BC" />
4052        </entry>
4053        <clone entry="android.lens.opticalStabilizationMode"
4054        kind="controls">
4055          <tag id="V1" />
4056        </clone>
4057        <entry name="state" type="byte" visibility="public" enum="true" hwlevel="limited">
4058          <enum>
4059            <value>STATIONARY
4060              <notes>
4061              The lens parameters (android.lens.focalLength, android.lens.focusDistance,
4062              android.lens.filterDensity and android.lens.aperture) are not changing.
4063              </notes>
4064            </value>
4065            <value>MOVING
4066              <notes>
4067              One or several of the lens parameters
4068              (android.lens.focalLength, android.lens.focusDistance,
4069              android.lens.filterDensity or android.lens.aperture) is
4070              currently changing.
4071              </notes>
4072            </value>
4073          </enum>
4074          <description>Current lens status.</description>
4075          <details>
4076          For lens parameters android.lens.focalLength, android.lens.focusDistance,
4077          android.lens.filterDensity and android.lens.aperture, when changes are requested,
4078          they may take several frames to reach the requested values. This state indicates
4079          the current status of the lens parameters.
4080
4081          When the state is STATIONARY, the lens parameters are not changing. This could be
4082          either because the parameters are all fixed, or because the lens has had enough
4083          time to reach the most recently-requested values.
4084          If all these lens parameters are not changable for a camera device, as listed below:
4085
4086          * Fixed focus (`android.lens.info.minimumFocusDistance == 0`), which means
4087          android.lens.focusDistance parameter will always be 0.
4088          * Fixed focal length (android.lens.info.availableFocalLengths contains single value),
4089          which means the optical zoom is not supported.
4090          * No ND filter (android.lens.info.availableFilterDensities contains only 0).
4091          * Fixed aperture (android.lens.info.availableApertures contains single value).
4092
4093          Then this state will always be STATIONARY.
4094
4095          When the state is MOVING, it indicates that at least one of the lens parameters
4096          is changing.
4097          </details>
4098          <tag id="V1" />
4099        </entry>
4100        <clone entry="android.lens.poseRotation" kind="static">
4101        </clone>
4102        <clone entry="android.lens.poseTranslation" kind="static">
4103        </clone>
4104      </dynamic>
4105      <static>
4106        <entry name="intrinsicCalibration" type="float" visibility="public"
4107               container="array" permission_needed="true">
4108          <array>
4109            <size>5</size>
4110          </array>
4111          <description>
4112            The parameters for this camera device's intrinsic
4113            calibration.
4114          </description>
4115          <units>
4116            Pixels in the
4117            android.sensor.info.preCorrectionActiveArraySize
4118            coordinate system.
4119          </units>
4120          <details>
4121            The five calibration parameters that describe the
4122            transform from camera-centric 3D coordinates to sensor
4123            pixel coordinates:
4124
4125                [f_x, f_y, c_x, c_y, s]
4126
4127            Where `f_x` and `f_y` are the horizontal and vertical
4128            focal lengths, `[c_x, c_y]` is the position of the optical
4129            axis, and `s` is a skew parameter for the sensor plane not
4130            being aligned with the lens plane.
4131
4132            These are typically used within a transformation matrix K:
4133
4134                K = [ f_x,   s, c_x,
4135                       0, f_y, c_y,
4136                       0    0,   1 ]
4137
4138            which can then be combined with the camera pose rotation
4139            `R` and translation `t` (android.lens.poseRotation and
4140            android.lens.poseTranslation, respectively) to calculate the
4141            complete transform from world coordinates to pixel
4142            coordinates:
4143
4144                P = [ K 0   * [ R -Rt
4145                     0 1 ]      0 1 ]
4146
4147            (Note the negation of poseTranslation when mapping from camera
4148            to world coordinates, and multiplication by the rotation).
4149
4150            With `p_w` being a point in the world coordinate system
4151            and `p_s` being a point in the camera active pixel array
4152            coordinate system, and with the mapping including the
4153            homogeneous division by z:
4154
4155                 p_h = (x_h, y_h, z_h) = P p_w
4156                p_s = p_h / z_h
4157
4158            so `[x_s, y_s]` is the pixel coordinates of the world
4159            point, `z_s = 1`, and `w_s` is a measurement of disparity
4160            (depth) in pixel coordinates.
4161
4162            Note that the coordinate system for this transform is the
4163            android.sensor.info.preCorrectionActiveArraySize system,
4164            where `(0,0)` is the top-left of the
4165            preCorrectionActiveArraySize rectangle. Once the pose and
4166            intrinsic calibration transforms have been applied to a
4167            world point, then the android.lens.distortion
4168            transform needs to be applied, and the result adjusted to
4169            be in the android.sensor.info.activeArraySize coordinate
4170            system (where `(0, 0)` is the top-left of the
4171            activeArraySize rectangle), to determine the final pixel
4172            coordinate of the world point for processed (non-RAW)
4173            output buffers.
4174
4175            For camera devices, the center of pixel `(x,y)` is located at
4176            coordinate `(x + 0.5, y + 0.5)`.  So on a device with a
4177            precorrection active array of size `(10,10)`, the valid pixel
4178            indices go from `(0,0)-(9,9)`, and an perfectly-built camera would
4179            have an optical center at the exact center of the pixel grid, at
4180            coordinates `(5.0, 5.0)`, which is the top-left corner of pixel
4181            `(5,5)`.
4182          </details>
4183          <tag id="DEPTH" />
4184        </entry>
4185        <entry name="radialDistortion" type="float" visibility="public"
4186               deprecated="true" container="array" permission_needed="true">
4187          <array>
4188            <size>6</size>
4189          </array>
4190          <description>
4191            The correction coefficients to correct for this camera device's
4192            radial and tangential lens distortion.
4193          </description>
4194          <deprecation_description>
4195            This field was inconsistently defined in terms of its
4196            normalization. Use android.lens.distortion instead.
4197          </deprecation_description>
4198          <units>
4199            Unitless coefficients.
4200          </units>
4201          <details>
4202            Four radial distortion coefficients `[kappa_0, kappa_1, kappa_2,
4203            kappa_3]` and two tangential distortion coefficients
4204            `[kappa_4, kappa_5]` that can be used to correct the
4205            lens's geometric distortion with the mapping equations:
4206
4207                 x_c = x_i * ( kappa_0 + kappa_1 * r^2 + kappa_2 * r^4 + kappa_3 * r^6 ) +
4208                       kappa_4 * (2 * x_i * y_i) + kappa_5 * ( r^2 + 2 * x_i^2 )
4209                 y_c = y_i * ( kappa_0 + kappa_1 * r^2 + kappa_2 * r^4 + kappa_3 * r^6 ) +
4210                       kappa_5 * (2 * x_i * y_i) + kappa_4 * ( r^2 + 2 * y_i^2 )
4211
4212            Here, `[x_c, y_c]` are the coordinates to sample in the
4213            input image that correspond to the pixel values in the
4214            corrected image at the coordinate `[x_i, y_i]`:
4215
4216                 correctedImage(x_i, y_i) = sample_at(x_c, y_c, inputImage)
4217
4218            The pixel coordinates are defined in a normalized
4219            coordinate system related to the
4220            android.lens.intrinsicCalibration calibration fields.
4221            Both `[x_i, y_i]` and `[x_c, y_c]` have `(0,0)` at the
4222            lens optical center `[c_x, c_y]`. The maximum magnitudes
4223            of both x and y coordinates are normalized to be 1 at the
4224            edge further from the optical center, so the range
4225            for both dimensions is `-1 &lt;= x &lt;= 1`.
4226
4227            Finally, `r` represents the radial distance from the
4228            optical center, `r^2 = x_i^2 + y_i^2`, and its magnitude
4229            is therefore no larger than `|r| &lt;= sqrt(2)`.
4230
4231            The distortion model used is the Brown-Conrady model.
4232          </details>
4233          <tag id="DEPTH" />
4234        </entry>
4235      </static>
4236      <dynamic>
4237        <clone entry="android.lens.intrinsicCalibration" kind="static">
4238        </clone>
4239        <clone entry="android.lens.radialDistortion" kind="static">
4240        </clone>
4241      </dynamic>
4242      <static>
4243        <entry name="poseReference" type="byte" visibility="public" enum="true"
4244            permission_needed="true" hal_version="3.3" >
4245          <enum>
4246            <value>PRIMARY_CAMERA
4247            <notes>The value of android.lens.poseTranslation is relative to the optical center of
4248            the largest camera device facing the same direction as this camera.
4249
4250            This is the default value for API levels before Android P.
4251            </notes>
4252            </value>
4253            <value>GYROSCOPE
4254            <notes>The value of android.lens.poseTranslation is relative to the position of the
4255            primary gyroscope of this Android device.
4256            </notes>
4257            </value>
4258          </enum>
4259          <description>
4260            The origin for android.lens.poseTranslation.
4261          </description>
4262          <details>
4263            Different calibration methods and use cases can produce better or worse results
4264            depending on the selected coordinate origin.
4265          </details>
4266        </entry>
4267        <entry name="distortion" type="float" visibility="public" container="array"
4268               permission_needed="true" hal_version="3.3" >
4269          <array>
4270            <size>5</size>
4271          </array>
4272          <description>
4273            The correction coefficients to correct for this camera device's
4274            radial and tangential lens distortion.
4275
4276            Replaces the deprecated android.lens.radialDistortion field, which was
4277            inconsistently defined.
4278          </description>
4279          <units>
4280            Unitless coefficients.
4281          </units>
4282          <details>
4283            Three radial distortion coefficients `[kappa_1, kappa_2,
4284            kappa_3]` and two tangential distortion coefficients
4285            `[kappa_4, kappa_5]` that can be used to correct the
4286            lens's geometric distortion with the mapping equations:
4287
4288                 x_c = x_i * ( 1 + kappa_1 * r^2 + kappa_2 * r^4 + kappa_3 * r^6 ) +
4289                       kappa_4 * (2 * x_i * y_i) + kappa_5 * ( r^2 + 2 * x_i^2 )
4290                 y_c = y_i * ( 1 + kappa_1 * r^2 + kappa_2 * r^4 + kappa_3 * r^6 ) +
4291                       kappa_5 * (2 * x_i * y_i) + kappa_4 * ( r^2 + 2 * y_i^2 )
4292
4293            Here, `[x_c, y_c]` are the coordinates to sample in the
4294            input image that correspond to the pixel values in the
4295            corrected image at the coordinate `[x_i, y_i]`:
4296
4297                 correctedImage(x_i, y_i) = sample_at(x_c, y_c, inputImage)
4298
4299            The pixel coordinates are defined in a coordinate system
4300            related to the android.lens.intrinsicCalibration
4301            calibration fields; see that entry for details of the mapping stages.
4302            Both `[x_i, y_i]` and `[x_c, y_c]`
4303            have `(0,0)` at the lens optical center `[c_x, c_y]`, and
4304            the range of the coordinates depends on the focal length
4305            terms of the intrinsic calibration.
4306
4307            Finally, `r` represents the radial distance from the
4308            optical center, `r^2 = x_i^2 + y_i^2`.
4309
4310            The distortion model used is the Brown-Conrady model.
4311          </details>
4312          <tag id="DEPTH" />
4313        </entry>
4314      </static>
4315      <dynamic>
4316        <clone entry="android.lens.distortion" kind="static">
4317        </clone>
4318      </dynamic>
4319    </section>
4320    <section name="noiseReduction">
4321      <controls>
4322        <entry name="mode" type="byte" visibility="public" enum="true" hwlevel="full">
4323          <enum>
4324            <value>OFF
4325            <notes>No noise reduction is applied.</notes></value>
4326            <value>FAST
4327            <notes>Noise reduction is applied without reducing frame rate relative to sensor
4328            output. It may be the same as OFF if noise reduction will reduce frame rate
4329            relative to sensor.</notes></value>
4330            <value>HIGH_QUALITY
4331            <notes>High-quality noise reduction is applied, at the cost of possibly reduced frame
4332            rate relative to sensor output.</notes></value>
4333            <value optional="true">MINIMAL
4334            <notes>MINIMAL noise reduction is applied without reducing frame rate relative to
4335            sensor output. </notes></value>
4336            <value optional="true">ZERO_SHUTTER_LAG
4337
4338            <notes>Noise reduction is applied at different levels for different output streams,
4339            based on resolution. Streams at maximum recording resolution (see {@link
4340            android.hardware.camera2.CameraDevice#createCaptureSession|ACameraDevice_createCaptureSession})
4341            or below have noise reduction applied, while higher-resolution streams have MINIMAL (if
4342            supported) or no noise reduction applied (if MINIMAL is not supported.) The degree of
4343            noise reduction for low-resolution streams is tuned so that frame rate is not impacted,
4344            and the quality is equal to or better than FAST (since it is only applied to
4345            lower-resolution outputs, quality may improve from FAST).
4346
4347            This mode is intended to be used by applications operating in a zero-shutter-lag mode
4348            with YUV or PRIVATE reprocessing, where the application continuously captures
4349            high-resolution intermediate buffers into a circular buffer, from which a final image is
4350            produced via reprocessing when a user takes a picture.  For such a use case, the
4351            high-resolution buffers must not have noise reduction applied to maximize efficiency of
4352            preview and to avoid over-applying noise filtering when reprocessing, while
4353            low-resolution buffers (used for recording or preview, generally) need noise reduction
4354            applied for reasonable preview quality.
4355
4356            This mode is guaranteed to be supported by devices that support either the
4357            YUV_REPROCESSING or PRIVATE_REPROCESSING capabilities
4358            (android.request.availableCapabilities lists either of those capabilities) and it will
4359            be the default mode for CAMERA3_TEMPLATE_ZERO_SHUTTER_LAG template.
4360            </notes></value>
4361          </enum>
4362          <description>Mode of operation for the noise reduction algorithm.</description>
4363          <range>android.noiseReduction.availableNoiseReductionModes</range>
4364          <details>The noise reduction algorithm attempts to improve image quality by removing
4365          excessive noise added by the capture process, especially in dark conditions.
4366
4367          OFF means no noise reduction will be applied by the camera device, for both raw and
4368          YUV domain.
4369
4370          MINIMAL means that only sensor raw domain basic noise reduction is enabled ,to remove
4371          demosaicing or other processing artifacts. For YUV_REPROCESSING, MINIMAL is same as OFF.
4372          This mode is optional, may not be support by all devices. The application should check
4373          android.noiseReduction.availableNoiseReductionModes before using it.
4374
4375          FAST/HIGH_QUALITY both mean camera device determined noise filtering
4376          will be applied. HIGH_QUALITY mode indicates that the camera device
4377          will use the highest-quality noise filtering algorithms,
4378          even if it slows down capture rate. FAST means the camera device will not
4379          slow down capture rate when applying noise filtering. FAST may be the same as MINIMAL if
4380          MINIMAL is listed, or the same as OFF if any noise filtering will slow down capture rate.
4381          Every output stream will have a similar amount of enhancement applied.
4382
4383          ZERO_SHUTTER_LAG is meant to be used by applications that maintain a continuous circular
4384          buffer of high-resolution images during preview and reprocess image(s) from that buffer
4385          into a final capture when triggered by the user. In this mode, the camera device applies
4386          noise reduction to low-resolution streams (below maximum recording resolution) to maximize
4387          preview quality, but does not apply noise reduction to high-resolution streams, since
4388          those will be reprocessed later if necessary.
4389
4390          For YUV_REPROCESSING, these FAST/HIGH_QUALITY modes both mean that the camera device
4391          will apply FAST/HIGH_QUALITY YUV domain noise reduction, respectively. The camera device
4392          may adjust the noise reduction parameters for best image quality based on the
4393          android.reprocess.effectiveExposureFactor if it is set.
4394          </details>
4395          <hal_details>
4396          For YUV_REPROCESSING The HAL can use android.reprocess.effectiveExposureFactor to
4397          adjust the internal noise reduction parameters appropriately to get the best quality
4398          images.
4399          </hal_details>
4400          <tag id="V1" />
4401          <tag id="REPROC" />
4402        </entry>
4403        <entry name="strength" type="byte">
4404          <description>Control the amount of noise reduction
4405          applied to the images</description>
4406          <units>1-10; 10 is max noise reduction</units>
4407          <range>1 - 10</range>
4408          <tag id="FUTURE" />
4409        </entry>
4410      </controls>
4411      <static>
4412        <entry name="availableNoiseReductionModes" type="byte" visibility="public"
4413        type_notes="list of enums" container="array" typedef="enumList" hwlevel="limited">
4414          <array>
4415            <size>n</size>
4416          </array>
4417          <description>
4418          List of noise reduction modes for android.noiseReduction.mode that are supported
4419          by this camera device.
4420          </description>
4421          <range>Any value listed in android.noiseReduction.mode</range>
4422          <details>
4423          Full-capability camera devices will always support OFF and FAST.
4424
4425          Camera devices that support YUV_REPROCESSING or PRIVATE_REPROCESSING will support
4426          ZERO_SHUTTER_LAG.
4427
4428          Legacy-capability camera devices will only support FAST mode.
4429          </details>
4430          <hal_details>
4431          HAL must support both FAST and HIGH_QUALITY if noise reduction control is available
4432          on the camera device, but the underlying implementation can be the same for both modes.
4433          That is, if the highest quality implementation on the camera device does not slow down
4434          capture rate, then FAST and HIGH_QUALITY will generate the same output.
4435          </hal_details>
4436          <tag id="V1" />
4437          <tag id="REPROC" />
4438        </entry>
4439      </static>
4440      <dynamic>
4441        <clone entry="android.noiseReduction.mode" kind="controls">
4442          <tag id="V1" />
4443          <tag id="REPROC" />
4444        </clone>
4445      </dynamic>
4446    </section>
4447    <section name="quirks">
4448      <static>
4449        <entry name="meteringCropRegion" type="byte" visibility="system" deprecated="true" optional="true">
4450          <description>If set to 1, the camera service does not
4451          scale 'normalized' coordinates with respect to the crop
4452          region. This applies to metering input (a{e,f,wb}Region
4453          and output (face rectangles).</description>
4454          <deprecation_description>
4455          Not used in HALv3 or newer
4456          </deprecation_description>
4457          <details>Normalized coordinates refer to those in the
4458          (-1000,1000) range mentioned in the
4459          android.hardware.Camera API.
4460
4461          HAL implementations should instead always use and emit
4462          sensor array-relative coordinates for all region data. Does
4463          not need to be listed in static metadata. Support will be
4464          removed in future versions of camera service.</details>
4465        </entry>
4466        <entry name="triggerAfWithAuto" type="byte" visibility="system" deprecated="true" optional="true">
4467          <description>If set to 1, then the camera service always
4468          switches to FOCUS_MODE_AUTO before issuing a AF
4469          trigger.</description>
4470          <deprecation_description>
4471          Not used in HALv3 or newer
4472          </deprecation_description>
4473          <details>HAL implementations should implement AF trigger
4474          modes for AUTO, MACRO, CONTINUOUS_FOCUS, and
4475          CONTINUOUS_PICTURE modes instead of using this flag. Does
4476          not need to be listed in static metadata. Support will be
4477          removed in future versions of camera service</details>
4478        </entry>
4479        <entry name="useZslFormat" type="byte" visibility="system" deprecated="true" optional="true">
4480          <description>If set to 1, the camera service uses
4481          CAMERA2_PIXEL_FORMAT_ZSL instead of
4482          HAL_PIXEL_FORMAT_IMPLEMENTATION_DEFINED for the zero
4483          shutter lag stream</description>
4484          <deprecation_description>
4485          Not used in HALv3 or newer
4486          </deprecation_description>
4487          <details>HAL implementations should use gralloc usage flags
4488          to determine that a stream will be used for
4489          zero-shutter-lag, instead of relying on an explicit
4490          format setting. Does not need to be listed in static
4491          metadata. Support will be removed in future versions of
4492          camera service.</details>
4493        </entry>
4494        <entry name="usePartialResult" type="byte" visibility="hidden" deprecated="true" optional="true">
4495          <description>
4496          If set to 1, the HAL will always split result
4497          metadata for a single capture into multiple buffers,
4498          returned using multiple process_capture_result calls.
4499          </description>
4500          <deprecation_description>
4501          Not used in HALv3 or newer; replaced by better partials mechanism
4502          </deprecation_description>
4503          <details>
4504          Does not need to be listed in static
4505          metadata. Support for partial results will be reworked in
4506          future versions of camera service. This quirk will stop
4507          working at that point; DO NOT USE without careful
4508          consideration of future support.
4509          </details>
4510          <hal_details>
4511          Refer to `camera3_capture_result::partial_result`
4512          for information on how to implement partial results.
4513          </hal_details>
4514        </entry>
4515      </static>
4516      <dynamic>
4517        <entry name="partialResult" type="byte" visibility="hidden" deprecated="true" optional="true" enum="true" typedef="boolean">
4518          <enum>
4519            <value>FINAL
4520            <notes>The last or only metadata result buffer
4521            for this capture.</notes>
4522            </value>
4523            <value>PARTIAL
4524            <notes>A partial buffer of result metadata for this
4525            capture. More result buffers for this capture will be sent
4526            by the camera device, the last of which will be marked
4527            FINAL.</notes>
4528            </value>
4529          </enum>
4530          <description>
4531          Whether a result given to the framework is the
4532          final one for the capture, or only a partial that contains a
4533          subset of the full set of dynamic metadata
4534          values.</description>
4535          <deprecation_description>
4536          Not used in HALv3 or newer
4537          </deprecation_description>
4538          <range>Optional. Default value is FINAL.</range>
4539          <details>
4540          The entries in the result metadata buffers for a
4541          single capture may not overlap, except for this entry. The
4542          FINAL buffers must retain FIFO ordering relative to the
4543          requests that generate them, so the FINAL buffer for frame 3 must
4544          always be sent to the framework after the FINAL buffer for frame 2, and
4545          before the FINAL buffer for frame 4. PARTIAL buffers may be returned
4546          in any order relative to other frames, but all PARTIAL buffers for a given
4547          capture must arrive before the FINAL buffer for that capture. This entry may
4548          only be used by the camera device if quirks.usePartialResult is set to 1.
4549          </details>
4550          <hal_details>
4551          Refer to `camera3_capture_result::partial_result`
4552          for information on how to implement partial results.
4553          </hal_details>
4554        </entry>
4555      </dynamic>
4556    </section>
4557    <section name="request">
4558      <controls>
4559        <entry name="frameCount" type="int32" visibility="system" deprecated="true">
4560          <description>A frame counter set by the framework. Must
4561          be maintained unchanged in output frame. This value monotonically
4562          increases with every new result (that is, each new result has a unique
4563          frameCount value).
4564          </description>
4565          <deprecation_description>
4566          Not used in HALv3 or newer
4567          </deprecation_description>
4568          <units>incrementing integer</units>
4569          <range>Any int.</range>
4570        </entry>
4571        <entry name="id" type="int32" visibility="hidden">
4572          <description>An application-specified ID for the current
4573          request. Must be maintained unchanged in output
4574          frame</description>
4575          <units>arbitrary integer assigned by application</units>
4576          <range>Any int</range>
4577          <tag id="V1" />
4578        </entry>
4579        <entry name="inputStreams" type="int32" visibility="system" deprecated="true"
4580               container="array">
4581          <array>
4582            <size>n</size>
4583          </array>
4584          <description>List which camera reprocess stream is used
4585          for the source of reprocessing data.</description>
4586          <deprecation_description>
4587          Not used in HALv3 or newer
4588          </deprecation_description>
4589          <units>List of camera reprocess stream IDs</units>
4590          <range>
4591          Typically, only one entry allowed, must be a valid reprocess stream ID.
4592          </range>
4593          <details>Only meaningful when android.request.type ==
4594          REPROCESS. Ignored otherwise</details>
4595          <tag id="HAL2" />
4596        </entry>
4597        <entry name="metadataMode" type="byte" visibility="system"
4598               enum="true">
4599          <enum>
4600            <value>NONE
4601            <notes>No metadata should be produced on output, except
4602            for application-bound buffer data. If no
4603            application-bound streams exist, no frame should be
4604            placed in the output frame queue. If such streams
4605            exist, a frame should be placed on the output queue
4606            with null metadata but with the necessary output buffer
4607            information. Timestamp information should still be
4608            included with any output stream buffers</notes></value>
4609            <value>FULL
4610            <notes>All metadata should be produced. Statistics will
4611            only be produced if they are separately
4612            enabled</notes></value>
4613          </enum>
4614          <description>How much metadata to produce on
4615          output</description>
4616          <tag id="FUTURE" />
4617        </entry>
4618        <entry name="outputStreams" type="int32" visibility="system" deprecated="true"
4619               container="array">
4620          <array>
4621            <size>n</size>
4622          </array>
4623          <description>Lists which camera output streams image data
4624          from this capture must be sent to</description>
4625          <deprecation_description>
4626          Not used in HALv3 or newer
4627          </deprecation_description>
4628          <units>List of camera stream IDs</units>
4629          <range>List must only include streams that have been
4630          created</range>
4631          <details>If no output streams are listed, then the image
4632          data should simply be discarded. The image data must
4633          still be captured for metadata and statistics production,
4634          and the lens and flash must operate as requested.</details>
4635          <tag id="HAL2" />
4636        </entry>
4637        <entry name="type" type="byte" visibility="system" deprecated="true" enum="true">
4638          <enum>
4639            <value>CAPTURE
4640            <notes>Capture a new image from the imaging hardware,
4641            and process it according to the
4642            settings</notes></value>
4643            <value>REPROCESS
4644            <notes>Process previously captured data; the
4645            android.request.inputStreams parameter determines the
4646            source reprocessing stream. TODO: Mark dynamic metadata
4647            needed for reprocessing with [RP]</notes></value>
4648          </enum>
4649          <description>The type of the request; either CAPTURE or
4650          REPROCESS. For legacy HAL3, this tag is redundant.
4651          </description>
4652          <deprecation_description>
4653          Not used in HALv3 or newer
4654          </deprecation_description>
4655          <tag id="HAL2" />
4656        </entry>
4657      </controls>
4658      <static>
4659        <entry name="maxNumOutputStreams" type="int32" visibility="ndk_public"
4660               container="array" hwlevel="legacy">
4661          <array>
4662            <size>3</size>
4663          </array>
4664          <description>The maximum numbers of different types of output streams
4665          that can be configured and used simultaneously by a camera device.
4666          </description>
4667          <range>
4668          For processed (and stalling) format streams, &amp;gt;= 1.
4669
4670          For Raw format (either stalling or non-stalling) streams, &amp;gt;= 0.
4671
4672          For processed (but not stalling) format streams, &amp;gt;= 3
4673          for FULL mode devices (`android.info.supportedHardwareLevel == FULL`);
4674          &amp;gt;= 2 for LIMITED mode devices (`android.info.supportedHardwareLevel == LIMITED`).
4675          </range>
4676          <details>
4677          This is a 3 element tuple that contains the max number of output simultaneous
4678          streams for raw sensor, processed (but not stalling), and processed (and stalling)
4679          formats respectively. For example, assuming that JPEG is typically a processed and
4680          stalling stream, if max raw sensor format output stream number is 1, max YUV streams
4681          number is 3, and max JPEG stream number is 2, then this tuple should be `(1, 3, 2)`.
4682
4683          This lists the upper bound of the number of output streams supported by
4684          the camera device. Using more streams simultaneously may require more hardware and
4685          CPU resources that will consume more power. The image format for an output stream can
4686          be any supported format provided by android.scaler.availableStreamConfigurations.
4687          The formats defined in android.scaler.availableStreamConfigurations can be catergorized
4688          into the 3 stream types as below:
4689
4690          * Processed (but stalling): any non-RAW format with a stallDurations &amp;gt; 0.
4691            Typically {@link android.graphics.ImageFormat#JPEG|AIMAGE_FORMAT_JPEG JPEG format}.
4692          * Raw formats: {@link android.graphics.ImageFormat#RAW_SENSOR|AIMAGE_FORMAT_RAW16
4693            RAW_SENSOR}, {@link android.graphics.ImageFormat#RAW10|AIMAGE_FORMAT_RAW10 RAW10}, or
4694            {@link android.graphics.ImageFormat#RAW12|AIMAGE_FORMAT_RAW12 RAW12}.
4695          * Processed (but not-stalling): any non-RAW format without a stall duration.  Typically
4696            {@link android.graphics.ImageFormat#YUV_420_888|AIMAGE_FORMAT_YUV_420_888 YUV_420_888},
4697            {@link android.graphics.ImageFormat#NV21 NV21}, {@link
4698            android.graphics.ImageFormat#YV12 YV12}, or {@link
4699            android.graphics.ImageFormat#Y8|AIMAGE_FORMAT_Y8 Y8} .
4700          </details>
4701          <tag id="BC" />
4702        </entry>
4703        <entry name="maxNumOutputRaw" type="int32" visibility="java_public" synthetic="true"
4704               hwlevel="legacy">
4705          <description>The maximum numbers of different types of output streams
4706          that can be configured and used simultaneously by a camera device
4707          for any `RAW` formats.
4708          </description>
4709          <range>
4710          &amp;gt;= 0
4711          </range>
4712          <details>
4713          This value contains the max number of output simultaneous
4714          streams from the raw sensor.
4715
4716          This lists the upper bound of the number of output streams supported by
4717          the camera device. Using more streams simultaneously may require more hardware and
4718          CPU resources that will consume more power. The image format for this kind of an output stream can
4719          be any `RAW` and supported format provided by android.scaler.streamConfigurationMap.
4720
4721          In particular, a `RAW` format is typically one of:
4722
4723          * {@link android.graphics.ImageFormat#RAW_SENSOR|AIMAGE_FORMAT_RAW16 RAW_SENSOR}
4724          * {@link android.graphics.ImageFormat#RAW10|AIMAGE_FORMAT_RAW10 RAW10}
4725          * {@link android.graphics.ImageFormat#RAW12|AIMAGE_FORMAT_RAW12 RAW12}
4726
4727          LEGACY mode devices (android.info.supportedHardwareLevel `==` LEGACY)
4728          never support raw streams.
4729          </details>
4730        </entry>
4731        <entry name="maxNumOutputProc" type="int32" visibility="java_public" synthetic="true"
4732               hwlevel="legacy">
4733          <description>The maximum numbers of different types of output streams
4734          that can be configured and used simultaneously by a camera device
4735          for any processed (but not-stalling) formats.
4736          </description>
4737          <range>
4738          &amp;gt;= 3
4739          for FULL mode devices (`android.info.supportedHardwareLevel == FULL`);
4740          &amp;gt;= 2 for LIMITED mode devices (`android.info.supportedHardwareLevel == LIMITED`).
4741          </range>
4742          <details>
4743          This value contains the max number of output simultaneous
4744          streams for any processed (but not-stalling) formats.
4745
4746          This lists the upper bound of the number of output streams supported by
4747          the camera device. Using more streams simultaneously may require more hardware and
4748          CPU resources that will consume more power. The image format for this kind of an output stream can
4749          be any non-`RAW` and supported format provided by android.scaler.streamConfigurationMap.
4750
4751          Processed (but not-stalling) is defined as any non-RAW format without a stall duration.
4752          Typically:
4753
4754          * {@link android.graphics.ImageFormat#YUV_420_888|AIMAGE_FORMAT_YUV_420_888 YUV_420_888}
4755          * {@link android.graphics.ImageFormat#NV21 NV21}
4756          * {@link android.graphics.ImageFormat#YV12 YV12}
4757          * Implementation-defined formats, i.e. {@link
4758            android.hardware.camera2.params.StreamConfigurationMap#isOutputSupportedFor(Class)}
4759          * {@link android.graphics.ImageFormat#Y8|AIMAGE_FORMAT_Y8 Y8}
4760
4761          For full guarantees, query {@link
4762          android.hardware.camera2.params.StreamConfigurationMap#getOutputStallDuration} with a
4763          processed format -- it will return 0 for a non-stalling stream.
4764
4765          LEGACY devices will support at least 2 processing/non-stalling streams.
4766          </details>
4767        </entry>
4768        <entry name="maxNumOutputProcStalling" type="int32" visibility="java_public" synthetic="true"
4769               hwlevel="legacy">
4770          <description>The maximum numbers of different types of output streams
4771          that can be configured and used simultaneously by a camera device
4772          for any processed (and stalling) formats.
4773          </description>
4774          <range>
4775          &amp;gt;= 1
4776          </range>
4777          <details>
4778          This value contains the max number of output simultaneous
4779          streams for any processed (but not-stalling) formats.
4780
4781          This lists the upper bound of the number of output streams supported by
4782          the camera device. Using more streams simultaneously may require more hardware and
4783          CPU resources that will consume more power. The image format for this kind of an output stream can
4784          be any non-`RAW` and supported format provided by android.scaler.streamConfigurationMap.
4785
4786          A processed and stalling format is defined as any non-RAW format with a stallDurations
4787          &amp;gt; 0.  Typically only the {@link
4788          android.graphics.ImageFormat#JPEG|AIMAGE_FORMAT_JPEG JPEG format} is a stalling format.
4789
4790          For full guarantees, query {@link
4791          android.hardware.camera2.params.StreamConfigurationMap#getOutputStallDuration} with a
4792          processed format -- it will return a non-0 value for a stalling stream.
4793
4794          LEGACY devices will support up to 1 processing/stalling stream.
4795          </details>
4796        </entry>
4797        <entry name="maxNumReprocessStreams" type="int32" visibility="system"
4798        deprecated="true" container="array">
4799          <array>
4800            <size>1</size>
4801          </array>
4802          <description>How many reprocessing streams of any type
4803          can be allocated at the same time.</description>
4804          <deprecation_description>
4805          Not used in HALv3 or newer
4806          </deprecation_description>
4807          <range>&amp;gt;= 0</range>
4808          <details>
4809          Only used by HAL2.x.
4810
4811          When set to 0, it means no reprocess stream is supported.
4812          </details>
4813          <tag id="HAL2" />
4814        </entry>
4815        <entry name="maxNumInputStreams" type="int32" visibility="java_public" hwlevel="full">
4816          <description>
4817          The maximum numbers of any type of input streams
4818          that can be configured and used simultaneously by a camera device.
4819          </description>
4820          <range>
4821          0 or 1.
4822          </range>
4823          <details>When set to 0, it means no input stream is supported.
4824
4825          The image format for a input stream can be any supported format returned by {@link
4826          android.hardware.camera2.params.StreamConfigurationMap#getInputFormats}. When using an
4827          input stream, there must be at least one output stream configured to to receive the
4828          reprocessed images.
4829
4830          When an input stream and some output streams are used in a reprocessing request,
4831          only the input buffer will be used to produce these output stream buffers, and a
4832          new sensor image will not be captured.
4833
4834          For example, for Zero Shutter Lag (ZSL) still capture use case, the input
4835          stream image format will be PRIVATE, the associated output stream image format
4836          should be JPEG.
4837          </details>
4838          <hal_details>
4839          For the reprocessing flow and controls, see
4840          hardware/libhardware/include/hardware/camera3.h Section 10 for more details.
4841          </hal_details>
4842          <tag id="REPROC" />
4843        </entry>
4844      </static>
4845      <dynamic>
4846        <entry name="frameCount" type="int32" visibility="hidden" deprecated="true">
4847          <description>A frame counter set by the framework. This value monotonically
4848          increases with every new result (that is, each new result has a unique
4849          frameCount value).</description>
4850          <deprecation_description>
4851          Not used in HALv3 or newer
4852          </deprecation_description>
4853          <units>count of frames</units>
4854          <range>&amp;gt; 0</range>
4855          <details>Reset on release()</details>
4856        </entry>
4857        <clone entry="android.request.id" kind="controls"></clone>
4858        <clone entry="android.request.metadataMode"
4859        kind="controls"></clone>
4860        <clone entry="android.request.outputStreams"
4861        kind="controls"></clone>
4862        <entry name="pipelineDepth" type="byte" visibility="public" hwlevel="legacy">
4863          <description>Specifies the number of pipeline stages the frame went
4864          through from when it was exposed to when the final completed result
4865          was available to the framework.</description>
4866          <range>&amp;lt;= android.request.pipelineMaxDepth</range>
4867          <details>Depending on what settings are used in the request, and
4868          what streams are configured, the data may undergo less processing,
4869          and some pipeline stages skipped.
4870
4871          See android.request.pipelineMaxDepth for more details.
4872          </details>
4873          <hal_details>
4874          This value must always represent the accurate count of how many
4875          pipeline stages were actually used.
4876          </hal_details>
4877        </entry>
4878      </dynamic>
4879      <static>
4880        <entry name="pipelineMaxDepth" type="byte" visibility="public" hwlevel="legacy">
4881          <description>Specifies the number of maximum pipeline stages a frame
4882          has to go through from when it's exposed to when it's available
4883          to the framework.</description>
4884          <details>A typical minimum value for this is 2 (one stage to expose,
4885          one stage to readout) from the sensor. The ISP then usually adds
4886          its own stages to do custom HW processing. Further stages may be
4887          added by SW processing.
4888
4889          Depending on what settings are used (e.g. YUV, JPEG) and what
4890          processing is enabled (e.g. face detection), the actual pipeline
4891          depth (specified by android.request.pipelineDepth) may be less than
4892          the max pipeline depth.
4893
4894          A pipeline depth of X stages is equivalent to a pipeline latency of
4895          X frame intervals.
4896
4897          This value will normally be 8 or less, however, for high speed capture session,
4898          the max pipeline depth will be up to 8 x size of high speed capture request list.
4899          </details>
4900          <hal_details>
4901          This value should be 4 or less, expect for the high speed recording session, where the
4902          max batch sizes may be larger than 1.
4903          </hal_details>
4904        </entry>
4905        <entry name="partialResultCount" type="int32" visibility="public" optional="true">
4906          <description>Defines how many sub-components
4907          a result will be composed of.
4908          </description>
4909          <range>&amp;gt;= 1</range>
4910          <details>In order to combat the pipeline latency, partial results
4911          may be delivered to the application layer from the camera device as
4912          soon as they are available.
4913
4914          Optional; defaults to 1. A value of 1 means that partial
4915          results are not supported, and only the final TotalCaptureResult will
4916          be produced by the camera device.
4917
4918          A typical use case for this might be: after requesting an
4919          auto-focus (AF) lock the new AF state might be available 50%
4920          of the way through the pipeline.  The camera device could
4921          then immediately dispatch this state via a partial result to
4922          the application, and the rest of the metadata via later
4923          partial results.
4924          </details>
4925        </entry>
4926        <entry name="availableCapabilities" type="byte" visibility="public"
4927          enum="true" container="array" hwlevel="legacy">
4928          <array>
4929            <size>n</size>
4930          </array>
4931          <enum>
4932            <value>BACKWARD_COMPATIBLE
4933              <notes>The minimal set of capabilities that every camera
4934                device (regardless of android.info.supportedHardwareLevel)
4935                supports.
4936
4937                This capability is listed by all normal devices, and
4938                indicates that the camera device has a feature set
4939                that's comparable to the baseline requirements for the
4940                older android.hardware.Camera API.
4941
4942                Devices with the DEPTH_OUTPUT capability might not list this
4943                capability, indicating that they support only depth measurement,
4944                not standard color output.
4945              </notes>
4946            </value>
4947            <value optional="true">MANUAL_SENSOR
4948              <notes>
4949              The camera device can be manually controlled (3A algorithms such
4950              as auto-exposure, and auto-focus can be bypassed).
4951              The camera device supports basic manual control of the sensor image
4952              acquisition related stages. This means the following controls are
4953              guaranteed to be supported:
4954
4955              * Manual frame duration control
4956                  * android.sensor.frameDuration
4957                  * android.sensor.info.maxFrameDuration
4958              * Manual exposure control
4959                  * android.sensor.exposureTime
4960                  * android.sensor.info.exposureTimeRange
4961              * Manual sensitivity control
4962                  * android.sensor.sensitivity
4963                  * android.sensor.info.sensitivityRange
4964              * Manual lens control (if the lens is adjustable)
4965                  * android.lens.*
4966              * Manual flash control (if a flash unit is present)
4967                  * android.flash.*
4968              * Manual black level locking
4969                  * android.blackLevel.lock
4970              * Auto exposure lock
4971                  * android.control.aeLock
4972
4973              If any of the above 3A algorithms are enabled, then the camera
4974              device will accurately report the values applied by 3A in the
4975              result.
4976
4977              A given camera device may also support additional manual sensor controls,
4978              but this capability only covers the above list of controls.
4979
4980              If this is supported, android.scaler.streamConfigurationMap will
4981              additionally return a min frame duration that is greater than
4982              zero for each supported size-format combination.
4983
4984              For camera devices with LOGICAL_MULTI_CAMERA capability, when the underlying active
4985              physical camera switches, exposureTime, sensitivity, and lens properties may change
4986              even if AE/AF is locked. However, the overall auto exposure and auto focus experience
4987              for users will be consistent. Refer to LOGICAL_MULTI_CAMERA capability for details.
4988              </notes>
4989            </value>
4990            <value optional="true">MANUAL_POST_PROCESSING
4991              <notes>
4992              The camera device post-processing stages can be manually controlled.
4993              The camera device supports basic manual control of the image post-processing
4994              stages. This means the following controls are guaranteed to be supported:
4995
4996              * Manual tonemap control
4997                  * android.tonemap.curve
4998                  * android.tonemap.mode
4999                  * android.tonemap.maxCurvePoints
5000                  * android.tonemap.gamma
5001                  * android.tonemap.presetCurve
5002
5003              * Manual white balance control
5004                  * android.colorCorrection.transform
5005                  * android.colorCorrection.gains
5006              * Manual lens shading map control
5007                    * android.shading.mode
5008                    * android.statistics.lensShadingMapMode
5009                    * android.statistics.lensShadingMap
5010                    * android.lens.info.shadingMapSize
5011              * Manual aberration correction control (if aberration correction is supported)
5012                    * android.colorCorrection.aberrationMode
5013                    * android.colorCorrection.availableAberrationModes
5014              * Auto white balance lock
5015                    * android.control.awbLock
5016
5017              If auto white balance is enabled, then the camera device
5018              will accurately report the values applied by AWB in the result.
5019
5020              A given camera device may also support additional post-processing
5021              controls, but this capability only covers the above list of controls.
5022
5023              For camera devices with LOGICAL_MULTI_CAMERA capability, when underlying active
5024              physical camera switches, tonemap, white balance, and shading map may change even if
5025              awb is locked. However, the overall post-processing experience for users will be
5026              consistent. Refer to LOGICAL_MULTI_CAMERA capability for details.
5027              </notes>
5028            </value>
5029            <value optional="true">RAW
5030              <notes>
5031              The camera device supports outputting RAW buffers and
5032              metadata for interpreting them.
5033
5034              Devices supporting the RAW capability allow both for
5035              saving DNG files, and for direct application processing of
5036              raw sensor images.
5037
5038              * RAW_SENSOR is supported as an output format.
5039              * The maximum available resolution for RAW_SENSOR streams
5040                will match either the value in
5041                android.sensor.info.pixelArraySize or
5042                android.sensor.info.preCorrectionActiveArraySize.
5043              * All DNG-related optional metadata entries are provided
5044                by the camera device.
5045              </notes>
5046            </value>
5047            <value optional="true" ndk_hidden="true">PRIVATE_REPROCESSING
5048              <notes>
5049              The camera device supports the Zero Shutter Lag reprocessing use case.
5050
5051              * One input stream is supported, that is, `android.request.maxNumInputStreams == 1`.
5052              * {@link android.graphics.ImageFormat#PRIVATE} is supported as an output/input format,
5053                that is, {@link android.graphics.ImageFormat#PRIVATE} is included in the lists of
5054                formats returned by {@link
5055                android.hardware.camera2.params.StreamConfigurationMap#getInputFormats} and {@link
5056                android.hardware.camera2.params.StreamConfigurationMap#getOutputFormats}.
5057              * {@link android.hardware.camera2.params.StreamConfigurationMap#getValidOutputFormatsForInput}
5058                returns non empty int[] for each supported input format returned by {@link
5059                android.hardware.camera2.params.StreamConfigurationMap#getInputFormats}.
5060              * Each size returned by {@link
5061                android.hardware.camera2.params.StreamConfigurationMap#getInputSizes
5062                getInputSizes(ImageFormat.PRIVATE)} is also included in {@link
5063                android.hardware.camera2.params.StreamConfigurationMap#getOutputSizes
5064                getOutputSizes(ImageFormat.PRIVATE)}
5065              * Using {@link android.graphics.ImageFormat#PRIVATE} does not cause a frame rate drop
5066                relative to the sensor's maximum capture rate (at that resolution).
5067              * {@link android.graphics.ImageFormat#PRIVATE} will be reprocessable into both
5068                {@link android.graphics.ImageFormat#YUV_420_888} and
5069                {@link android.graphics.ImageFormat#JPEG} formats.
5070              * For a MONOCHROME camera supporting Y8 format, {@link
5071                android.graphics.ImageFormat#PRIVATE} will be reprocessable into
5072                {@link android.graphics.ImageFormat#Y8}.
5073              * The maximum available resolution for PRIVATE streams
5074                (both input/output) will match the maximum available
5075                resolution of JPEG streams.
5076              * Static metadata android.reprocess.maxCaptureStall.
5077              * Only below controls are effective for reprocessing requests and
5078                will be present in capture results, other controls in reprocess
5079                requests will be ignored by the camera device.
5080                    * android.jpeg.*
5081                    * android.noiseReduction.mode
5082                    * android.edge.mode
5083              * android.noiseReduction.availableNoiseReductionModes and
5084                android.edge.availableEdgeModes will both list ZERO_SHUTTER_LAG as a supported mode.
5085              </notes>
5086            </value>
5087            <value optional="true">READ_SENSOR_SETTINGS
5088              <notes>
5089              The camera device supports accurately reporting the sensor settings for many of
5090              the sensor controls while the built-in 3A algorithm is running.  This allows
5091              reporting of sensor settings even when these settings cannot be manually changed.
5092
5093              The values reported for the following controls are guaranteed to be available
5094              in the CaptureResult, including when 3A is enabled:
5095
5096              * Exposure control
5097                  * android.sensor.exposureTime
5098              * Sensitivity control
5099                  * android.sensor.sensitivity
5100              * Lens controls (if the lens is adjustable)
5101                  * android.lens.focusDistance
5102                  * android.lens.aperture
5103
5104              This capability is a subset of the MANUAL_SENSOR control capability, and will
5105              always be included if the MANUAL_SENSOR capability is available.
5106              </notes>
5107            </value>
5108            <value optional="true">BURST_CAPTURE
5109              <notes>
5110              The camera device supports capturing high-resolution images at &gt;= 20 frames per
5111              second, in at least the uncompressed YUV format, when post-processing settings are
5112              set to FAST. Additionally, all image resolutions less than 24 megapixels can be
5113              captured at &gt;= 10 frames per second. Here, 'high resolution' means at least 8
5114              megapixels, or the maximum resolution of the device, whichever is smaller.
5115              </notes>
5116              <sdk_notes>
5117              More specifically, this means that a size matching the camera device's active array
5118              size is listed as a supported size for the {@link
5119              android.graphics.ImageFormat#YUV_420_888} format in either {@link
5120              android.hardware.camera2.params.StreamConfigurationMap#getOutputSizes} or {@link
5121              android.hardware.camera2.params.StreamConfigurationMap#getHighResolutionOutputSizes},
5122              with a minimum frame duration for that format and size of either &lt;= 1/20 s, or
5123              &lt;= 1/10 s if the image size is less than 24 megapixels, respectively; and
5124              the android.control.aeAvailableTargetFpsRanges entry lists at least one FPS range
5125              where the minimum FPS is &gt;= 1 / minimumFrameDuration for the maximum-size
5126              YUV_420_888 format.  If that maximum size is listed in {@link
5127              android.hardware.camera2.params.StreamConfigurationMap#getHighResolutionOutputSizes},
5128              then the list of resolutions for YUV_420_888 from {@link
5129              android.hardware.camera2.params.StreamConfigurationMap#getOutputSizes} contains at
5130              least one resolution &gt;= 8 megapixels, with a minimum frame duration of &lt;= 1/20
5131              s.
5132
5133              If the device supports the {@link
5134              android.graphics.ImageFormat#RAW10|AIMAGE_FORMAT_RAW10}, {@link
5135              android.graphics.ImageFormat#RAW12|AIMAGE_FORMAT_RAW12}, {@link
5136              android.graphics.ImageFormat#Y8|AIMAGE_FORMAT_Y8}, then those can also be
5137              captured at the same rate as the maximum-size YUV_420_888 resolution is.
5138
5139              If the device supports the PRIVATE_REPROCESSING capability, then the same guarantees
5140              as for the YUV_420_888 format also apply to the {@link
5141              android.graphics.ImageFormat#PRIVATE} format.
5142
5143              In addition, the android.sync.maxLatency field is guaranted to have a value between 0
5144              and 4, inclusive. android.control.aeLockAvailable and android.control.awbLockAvailable
5145              are also guaranteed to be `true` so burst capture with these two locks ON yields
5146              consistent image output.
5147              </sdk_notes>
5148              <ndk_notes>
5149              More specifically, this means that at least one output {@link
5150              android.graphics.ImageFormat#YUV_420_888|AIMAGE_FORMAT_YUV_420_888} size listed in
5151              {@link
5152              android.hardware.camera2.params.StreamConfigurationMap|ACAMERA_SCALER_AVAILABLE_STREAM_CONFIGURATIONS}
5153              is larger or equal to the 'high resolution' defined above, and can be captured at at
5154              least 20 fps.  For the largest {@link
5155              android.graphics.ImageFormat#YUV_420_888|AIMAGE_FORMAT_YUV_420_888} size listed in
5156              {@link
5157              android.hardware.camera2.params.StreamConfigurationMap|ACAMERA_SCALER_AVAILABLE_STREAM_CONFIGURATIONS},
5158              camera device can capture this size for at least 10 frames per second if the size is
5159              less than 24 megapixels. Also the android.control.aeAvailableTargetFpsRanges entry
5160              lists at least one FPS range where the minimum FPS is &gt;= 1 / minimumFrameDuration
5161              for the largest YUV_420_888 size.
5162
5163              If the device supports the {@link
5164              android.graphics.ImageFormat#RAW10|AIMAGE_FORMAT_RAW10}, {@link
5165              android.graphics.ImageFormat#RAW12|AIMAGE_FORMAT_RAW12}, {@link
5166              android.graphics.ImageFormat#Y8|AIMAGE_FORMAT_Y8}, then those can also be
5167              captured at the same rate as the maximum-size YUV_420_888 resolution is.
5168
5169              In addition, the android.sync.maxLatency field is guaranted to have a value between 0
5170              and 4, inclusive. android.control.aeLockAvailable and android.control.awbLockAvailable
5171              are also guaranteed to be `true` so burst capture with these two locks ON yields
5172              consistent image output.
5173              </ndk_notes>
5174            </value>
5175            <value optional="true" ndk_hidden="true">YUV_REPROCESSING
5176              <notes>
5177              The camera device supports the YUV_420_888 reprocessing use case, similar as
5178              PRIVATE_REPROCESSING, This capability requires the camera device to support the
5179              following:
5180
5181              * One input stream is supported, that is, `android.request.maxNumInputStreams == 1`.
5182              * {@link android.graphics.ImageFormat#YUV_420_888} is supported as an output/input
5183                format, that is, YUV_420_888 is included in the lists of formats returned by {@link
5184                android.hardware.camera2.params.StreamConfigurationMap#getInputFormats} and {@link
5185                android.hardware.camera2.params.StreamConfigurationMap#getOutputFormats}.
5186              * {@link
5187                android.hardware.camera2.params.StreamConfigurationMap#getValidOutputFormatsForInput}
5188                returns non-empty int[] for each supported input format returned by {@link
5189                android.hardware.camera2.params.StreamConfigurationMap#getInputFormats}.
5190              * Each size returned by {@link
5191                android.hardware.camera2.params.StreamConfigurationMap#getInputSizes
5192                getInputSizes(YUV_420_888)} is also included in {@link
5193                android.hardware.camera2.params.StreamConfigurationMap#getOutputSizes
5194                getOutputSizes(YUV_420_888)}
5195              * Using {@link android.graphics.ImageFormat#YUV_420_888} does not cause a frame rate
5196                drop relative to the sensor's maximum capture rate (at that resolution).
5197              * {@link android.graphics.ImageFormat#YUV_420_888} will be reprocessable into both
5198                {@link android.graphics.ImageFormat#YUV_420_888} and {@link
5199                android.graphics.ImageFormat#JPEG} formats.
5200              * The maximum available resolution for {@link
5201                android.graphics.ImageFormat#YUV_420_888} streams (both input/output) will match the
5202                maximum available resolution of {@link android.graphics.ImageFormat#JPEG} streams.
5203              * For a MONOCHROME camera with Y8 format support, all the requirements mentioned
5204                above for YUV_420_888 apply for Y8 format as well.
5205              * Static metadata android.reprocess.maxCaptureStall.
5206              * Only the below controls are effective for reprocessing requests and will be present
5207                in capture results. The reprocess requests are from the original capture results
5208                that are associated with the intermediate {@link
5209                android.graphics.ImageFormat#YUV_420_888} output buffers.  All other controls in the
5210                reprocess requests will be ignored by the camera device.
5211                    * android.jpeg.*
5212                    * android.noiseReduction.mode
5213                    * android.edge.mode
5214                    * android.reprocess.effectiveExposureFactor
5215              * android.noiseReduction.availableNoiseReductionModes and
5216                android.edge.availableEdgeModes will both list ZERO_SHUTTER_LAG as a supported mode.
5217              </notes>
5218            </value>
5219            <value optional="true">DEPTH_OUTPUT
5220              <notes>
5221              The camera device can produce depth measurements from its field of view.
5222
5223              This capability requires the camera device to support the following:
5224
5225              * {@link android.graphics.ImageFormat#DEPTH16|AIMAGE_FORMAT_DEPTH16} is supported as
5226                an output format.
5227              * {@link
5228                android.graphics.ImageFormat#DEPTH_POINT_CLOUD|AIMAGE_FORMAT_DEPTH_POINT_CLOUD} is
5229                optionally supported as an output format.
5230              * This camera device, and all camera devices with the same android.lens.facing, will
5231                list the following calibration metadata entries in both {@link
5232                android.hardware.camera2.CameraCharacteristics|ACameraManager_getCameraCharacteristics}
5233                and {@link
5234                android.hardware.camera2.CaptureResult|ACameraCaptureSession_captureCallback_result}:
5235                  - android.lens.poseTranslation
5236                  - android.lens.poseRotation
5237                  - android.lens.intrinsicCalibration
5238                  - android.lens.distortion
5239              * The android.depth.depthIsExclusive entry is listed by this device.
5240              * As of Android P, the android.lens.poseReference entry is listed by this device.
5241              * A LIMITED camera with only the DEPTH_OUTPUT capability does not have to support
5242                normal YUV_420_888, Y8, JPEG, and PRIV-format outputs. It only has to support the
5243                DEPTH16 format.
5244
5245              Generally, depth output operates at a slower frame rate than standard color capture,
5246              so the DEPTH16 and DEPTH_POINT_CLOUD formats will commonly have a stall duration that
5247              should be accounted for (see {@link
5248              android.hardware.camera2.params.StreamConfigurationMap#getOutputStallDuration|ACAMERA_DEPTH_AVAILABLE_DEPTH_STALL_DURATIONS}).
5249              On a device that supports both depth and color-based output, to enable smooth preview,
5250              using a repeating burst is recommended, where a depth-output target is only included
5251              once every N frames, where N is the ratio between preview output rate and depth output
5252              rate, including depth stall time.
5253              </notes>
5254            </value>
5255            <value optional="true" ndk_hidden="true">CONSTRAINED_HIGH_SPEED_VIDEO
5256              <notes>
5257              The device supports constrained high speed video recording (frame rate >=120fps) use
5258              case. The camera device will support high speed capture session created by {@link
5259              android.hardware.camera2.CameraDevice#createConstrainedHighSpeedCaptureSession}, which
5260              only accepts high speed request lists created by {@link
5261              android.hardware.camera2.CameraConstrainedHighSpeedCaptureSession#createHighSpeedRequestList}.
5262
5263              A camera device can still support high speed video streaming by advertising the high
5264              speed FPS ranges in android.control.aeAvailableTargetFpsRanges. For this case, all
5265              normal capture request per frame control and synchronization requirements will apply
5266              to the high speed fps ranges, the same as all other fps ranges. This capability
5267              describes the capability of a specialized operating mode with many limitations (see
5268              below), which is only targeted at high speed video recording.
5269
5270              The supported high speed video sizes and fps ranges are specified in {@link
5271              android.hardware.camera2.params.StreamConfigurationMap#getHighSpeedVideoFpsRanges}.
5272              To get desired output frame rates, the application is only allowed to select video
5273              size and FPS range combinations provided by {@link
5274              android.hardware.camera2.params.StreamConfigurationMap#getHighSpeedVideoSizes}.  The
5275              fps range can be controlled via android.control.aeTargetFpsRange.
5276
5277              In this capability, the camera device will override aeMode, awbMode, and afMode to
5278              ON, AUTO, and CONTINUOUS_VIDEO, respectively. All post-processing block mode
5279              controls will be overridden to be FAST. Therefore, no manual control of capture
5280              and post-processing parameters is possible. All other controls operate the
5281              same as when android.control.mode == AUTO. This means that all other
5282              android.control.* fields continue to work, such as
5283
5284              * android.control.aeTargetFpsRange
5285              * android.control.aeExposureCompensation
5286              * android.control.aeLock
5287              * android.control.awbLock
5288              * android.control.effectMode
5289              * android.control.aeRegions
5290              * android.control.afRegions
5291              * android.control.awbRegions
5292              * android.control.afTrigger
5293              * android.control.aePrecaptureTrigger
5294
5295              Outside of android.control.*, the following controls will work:
5296
5297              * android.flash.mode (TORCH mode only, automatic flash for still capture will not
5298              work since aeMode is ON)
5299              * android.lens.opticalStabilizationMode (if it is supported)
5300              * android.scaler.cropRegion
5301              * android.statistics.faceDetectMode (if it is supported)
5302
5303              For high speed recording use case, the actual maximum supported frame rate may
5304              be lower than what camera can output, depending on the destination Surfaces for
5305              the image data. For example, if the destination surface is from video encoder,
5306              the application need check if the video encoder is capable of supporting the
5307              high frame rate for a given video size, or it will end up with lower recording
5308              frame rate. If the destination surface is from preview window, the actual preview frame
5309              rate will be bounded by the screen refresh rate.
5310
5311              The camera device will only support up to 2 high speed simultaneous output surfaces
5312              (preview and recording surfaces) in this mode. Above controls will be effective only
5313              if all of below conditions are true:
5314
5315              * The application creates a camera capture session with no more than 2 surfaces via
5316              {@link
5317              android.hardware.camera2.CameraDevice#createConstrainedHighSpeedCaptureSession}. The
5318              targeted surfaces must be preview surface (either from {@link
5319              android.view.SurfaceView} or {@link android.graphics.SurfaceTexture}) or recording
5320              surface(either from {@link android.media.MediaRecorder#getSurface} or {@link
5321              android.media.MediaCodec#createInputSurface}).
5322              * The stream sizes are selected from the sizes reported by
5323              {@link android.hardware.camera2.params.StreamConfigurationMap#getHighSpeedVideoSizes}.
5324              * The FPS ranges are selected from {@link
5325              android.hardware.camera2.params.StreamConfigurationMap#getHighSpeedVideoFpsRanges}.
5326
5327              When above conditions are NOT satistied,
5328              {@link android.hardware.camera2.CameraDevice#createConstrainedHighSpeedCaptureSession}
5329              will fail.
5330
5331              Switching to a FPS range that has different maximum FPS may trigger some camera device
5332              reconfigurations, which may introduce extra latency. It is recommended that
5333              the application avoids unnecessary maximum target FPS changes as much as possible
5334              during high speed streaming.
5335              </notes>
5336            </value>
5337            <value optional="true" hal_version="3.3" >MOTION_TRACKING
5338              <notes>
5339              The camera device supports the MOTION_TRACKING value for
5340              android.control.captureIntent, which limits maximum exposure time to 20 ms.
5341
5342              This limits the motion blur of capture images, resulting in better image tracking
5343              results for use cases such as image stabilization or augmented reality.
5344              </notes>
5345            </value>
5346            <value optional="true" hal_version="3.3">LOGICAL_MULTI_CAMERA
5347              <notes>
5348              The camera device is a logical camera backed by two or more physical cameras.
5349
5350              In API level 28, the physical cameras must also be exposed to the application via
5351              {@link android.hardware.camera2.CameraManager#getCameraIdList}.
5352
5353              Starting from API level 29, some or all physical cameras may not be independently
5354              exposed to the application, in which case the physical camera IDs will not be
5355              available in {@link android.hardware.camera2.CameraManager#getCameraIdList}. But the
5356              application can still query the physical cameras' characteristics by calling
5357              {@link android.hardware.camera2.CameraManager#getCameraCharacteristics}. Additionally,
5358              if a physical camera is hidden from camera ID list, the mandatory stream combinations
5359              for that physical camera must be supported through the logical camera using physical
5360              streams.
5361
5362              Combinations of logical and physical streams, or physical streams from different
5363              physical cameras are not guaranteed. However, if the camera device supports
5364              {@link CameraDevice#isSessionConfigurationSupported|ACameraDevice_isSessionConfigurationSupported},
5365              application must be able to query whether a stream combination involving physical
5366              streams is supported by calling
5367              {@link CameraDevice#isSessionConfigurationSupported|ACameraDevice_isSessionConfigurationSupported}.
5368
5369              Camera application shouldn't assume that there are at most 1 rear camera and 1 front
5370              camera in the system. For an application that switches between front and back cameras,
5371              the recommendation is to switch between the first rear camera and the first front
5372              camera in the list of supported camera devices.
5373
5374              This capability requires the camera device to support the following:
5375
5376              * The IDs of underlying physical cameras are returned via
5377                {@link android.hardware.camera2.CameraCharacteristics#getPhysicalCameraIds}.
5378              * This camera device must list static metadata
5379                android.logicalMultiCamera.sensorSyncType in
5380                {@link android.hardware.camera2.CameraCharacteristics}.
5381              * The underlying physical cameras' static metadata must list the following entries,
5382                so that the application can correlate pixels from the physical streams:
5383                  - android.lens.poseReference
5384                  - android.lens.poseRotation
5385                  - android.lens.poseTranslation
5386                  - android.lens.intrinsicCalibration
5387                  - android.lens.distortion
5388              * The SENSOR_INFO_TIMESTAMP_SOURCE of the logical device and physical devices must be
5389                the same.
5390              * The logical camera must be LIMITED or higher device.
5391
5392              A logical camera device's dynamic metadata may contain
5393              android.logicalMultiCamera.activePhysicalId to notify the application of the current
5394              active physical camera Id. An active physical camera is the physical camera from which
5395              the logical camera's main image data outputs (YUV or RAW) and metadata come from.
5396              In addition, this serves as an indication which physical camera is used to output to
5397              a RAW stream, or in case only physical cameras support RAW, which physical RAW stream
5398              the application should request.
5399
5400              Logical camera's static metadata tags below describe the default active physical
5401              camera. An active physical camera is default if it's used when application directly
5402              uses requests built from a template. All templates will default to the same active
5403              physical camera.
5404
5405                - android.sensor.info.sensitivityRange
5406                - android.sensor.info.colorFilterArrangement
5407                - android.sensor.info.exposureTimeRange
5408                - android.sensor.info.maxFrameDuration
5409                - android.sensor.info.physicalSize
5410                - android.sensor.info.whiteLevel
5411                - android.sensor.info.lensShadingApplied
5412                - android.sensor.referenceIlluminant1
5413                - android.sensor.referenceIlluminant2
5414                - android.sensor.calibrationTransform1
5415                - android.sensor.calibrationTransform2
5416                - android.sensor.colorTransform1
5417                - android.sensor.colorTransform2
5418                - android.sensor.forwardMatrix1
5419                - android.sensor.forwardMatrix2
5420                - android.sensor.blackLevelPattern
5421                - android.sensor.maxAnalogSensitivity
5422                - android.sensor.opticalBlackRegions
5423                - android.sensor.availableTestPatternModes
5424                - android.lens.info.hyperfocalDistance
5425                - android.lens.info.minimumFocusDistance
5426                - android.lens.info.focusDistanceCalibration
5427                - android.lens.poseRotation
5428                - android.lens.poseTranslation
5429                - android.lens.intrinsicCalibration
5430                - android.lens.poseReference
5431                - android.lens.distortion
5432
5433              The field of view of all non-RAW physical streams must be the same or as close as
5434              possible to that of non-RAW logical streams. If the requested FOV is outside of the
5435              range supported by the physical camera, the physical stream for that physical camera
5436              will use either the maximum or minimum scaler crop region, depending on which one is
5437              closer to the requested FOV. For example, for a logical camera with wide-tele lens
5438              configuration where the wide lens is the default, if the logical camera's crop region
5439              is set to maximum, the physical stream for the tele lens will be configured to its
5440              maximum crop region. On the other hand, if the logical camera has a normal-wide lens
5441              configuration where the normal lens is the default, when the logical camera's crop
5442              region is set to maximum, the FOV of the logical streams will be that of the normal
5443              lens. The FOV of the physical streams for the wide lens will be the same as the
5444              logical stream, by making the crop region smaller than its active array size to
5445              compensate for the smaller focal length.
5446
5447              Even if the underlying physical cameras have different RAW characteristics (such as
5448              size or CFA pattern), a logical camera can still advertise RAW capability. In this
5449              case, when the application configures a RAW stream, the camera device will make sure
5450              the active physical camera will remain active to ensure consistent RAW output
5451              behavior, and not switch to other physical cameras.
5452
5453              The capture request and result metadata tags required for backward compatible camera
5454              functionalities will be solely based on the logical camera capabiltity. On the other
5455              hand, the use of manual capture controls (sensor or post-processing) with a
5456              logical camera may result in unexpected behavior when the HAL decides to switch
5457              between physical cameras with different characteristics under the hood. For example,
5458              when the application manually sets exposure time and sensitivity while zooming in,
5459              the brightness of the camera images may suddenly change because HAL switches from one
5460              physical camera to the other.
5461              </notes>
5462            </value>
5463            <value optional="true" hal_version="3.3" >MONOCHROME
5464              <notes>
5465              The camera device is a monochrome camera that doesn't contain a color filter array,
5466              and for YUV_420_888 stream, the pixel values on U and V planes are all 128.
5467
5468              A MONOCHROME camera must support the guaranteed stream combinations required for
5469              its device level and capabilities. Additionally, if the monochrome camera device
5470              supports Y8 format, all mandatory stream combination requirements related to {@link
5471              android.graphics.ImageFormat#YUV_420_888|AIMAGE_FORMAT_YUV_420_888 YUV_420_888} apply
5472              to {@link android.graphics.ImageFormat#Y8|AIMAGE_FORMAT_Y8 Y8} as well. There are no
5473              mandatory stream combination requirements with regard to
5474              {@link android.graphics.ImageFormat#Y8|AIMAGE_FORMAT_Y8 Y8} for Bayer camera devices.
5475
5476              Starting from Android Q, the SENSOR_INFO_COLOR_FILTER_ARRANGEMENT of a MONOCHROME
5477              camera will be either MONO or NIR.
5478              </notes>
5479            </value>
5480            <value optional="true" hal_version="3.4" >SECURE_IMAGE_DATA
5481              <notes>
5482                The camera device is capable of writing image data into a region of memory
5483                inaccessible to Android userspace or the Android kernel, and only accessible to
5484                trusted execution environments (TEE).
5485              </notes>
5486            </value>
5487
5488
5489          </enum>
5490          <description>List of capabilities that this camera device
5491          advertises as fully supporting.</description>
5492          <details>
5493          A capability is a contract that the camera device makes in order
5494          to be able to satisfy one or more use cases.
5495
5496          Listing a capability guarantees that the whole set of features
5497          required to support a common use will all be available.
5498
5499          Using a subset of the functionality provided by an unsupported
5500          capability may be possible on a specific camera device implementation;
5501          to do this query each of android.request.availableRequestKeys,
5502          android.request.availableResultKeys,
5503          android.request.availableCharacteristicsKeys.
5504
5505          The following capabilities are guaranteed to be available on
5506          android.info.supportedHardwareLevel `==` FULL devices:
5507
5508          * MANUAL_SENSOR
5509          * MANUAL_POST_PROCESSING
5510
5511          Other capabilities may be available on either FULL or LIMITED
5512          devices, but the application should query this key to be sure.
5513          </details>
5514          <hal_details>
5515          Additional constraint details per-capability will be available
5516          in the Compatibility Test Suite.
5517
5518          Minimum baseline requirements required for the
5519          BACKWARD_COMPATIBLE capability are not explicitly listed.
5520          Instead refer to "BC" tags and the camera CTS tests in the
5521          android.hardware.camera2.cts package.
5522
5523          Listed controls that can be either request or result (e.g.
5524          android.sensor.exposureTime) must be available both in the
5525          request and the result in order to be considered to be
5526          capability-compliant.
5527
5528          For example, if the HAL claims to support MANUAL control,
5529          then exposure time must be configurable via the request _and_
5530          the actual exposure applied must be available via
5531          the result.
5532
5533          If MANUAL_SENSOR is omitted, the HAL may choose to omit the
5534          android.scaler.availableMinFrameDurations static property entirely.
5535
5536          For PRIVATE_REPROCESSING and YUV_REPROCESSING capabilities, see
5537          hardware/libhardware/include/hardware/camera3.h Section 10 for more information.
5538
5539          Devices that support the MANUAL_SENSOR capability must support the
5540          CAMERA3_TEMPLATE_MANUAL template defined in camera3.h.
5541
5542          Devices that support the PRIVATE_REPROCESSING capability or the
5543          YUV_REPROCESSING capability must support the
5544          CAMERA3_TEMPLATE_ZERO_SHUTTER_LAG template defined in camera3.h.
5545
5546          For DEPTH_OUTPUT, the depth-format keys
5547          android.depth.availableDepthStreamConfigurations,
5548          android.depth.availableDepthMinFrameDurations,
5549          android.depth.availableDepthStallDurations must be available, in
5550          addition to the other keys explicitly mentioned in the DEPTH_OUTPUT
5551          enum notes. The entry android.depth.maxDepthSamples must be available
5552          if the DEPTH_POINT_CLOUD format is supported (HAL pixel format BLOB, dataspace
5553          DEPTH).
5554
5555          For a camera device with LOGICAL_MULTI_CAMERA capability, it should operate in the
5556          same way as a physical camera device based on its hardware level and capabilities.
5557          It's recommended that its feature set is superset of that of individual physical cameras.
5558
5559          * In camera1 API, to maintain application compatibility, for each camera facing, there
5560          may be one or more {logical_camera_id, physical_camera_1_id, physical_camera_2_id, ...}
5561          combinations, where logical_camera_id is composed of physical_camera_N_id, camera
5562          framework will only advertise one camera id
5563          (within the combinations for the particular facing) that is frontmost in the HAL
5564          published camera id list.
5565          For example, if HAL advertises 6 back facing camera IDs (ID0 to ID5), among which ID4
5566          and ID5 are logical cameras backed by ID0+ID1 and ID2+ID3 respectively. In this case,
5567          only ID0 will be available for camera1 API to use.
5568
5569          * Camera HAL is strongly recommended to advertise camera devices with best feature,
5570          power, performance, and latency tradeoffs at the front of the camera id list.
5571
5572          * Camera HAL may switch between physical cameras depending on focalLength or cropRegion.
5573          If physical cameras have different sizes, HAL must maintain a single logical camera
5574          activeArraySize/pixelArraySize/preCorrectionActiveArraySize, and must do proper mapping
5575          between logical camera and underlying physical cameras for all related metadata tags,
5576          such as crop region, 3A regions, and intrinsicCalibration.
5577
5578          * Starting from HIDL ICameraDevice version 3.5, camera HAL must support
5579          isStreamCombinationSupported for application to query whether a particular logical and
5580          physical streams combination are supported.
5581
5582          A MONOCHROME camera device must also advertise BACKWARD_COMPATIBLE capability, and must
5583          not advertise MANUAL_POST_PROCESSING capability.
5584
5585          * To maintain backward compatibility, the camera device must support all
5586          BACKWARD_COMPATIBLE required keys. The android.control.awbAvailableModes key only contains
5587          AUTO, and android.control.awbState are either CONVERGED or LOCKED depending on
5588          android.control.awbLock.
5589
5590          * android.colorCorrection.mode, android.colorCorrection.transform, and
5591          android.colorCorrection.gains must not be in available request and result keys.
5592          As a result, the camera device cannot be a FULL device. However, the HAL can
5593          still advertise other individual capabilites.
5594
5595          * If the device supports tonemap control, only android.tonemap.curveRed is used.
5596          CurveGreen and curveBlue are no-ops.
5597
5598          In Android API level 28, a MONOCHROME camera device must not have RAW capability. From
5599          API level 29, a camera is allowed to have both MONOCHROME and RAW capabilities.
5600          </hal_details>
5601        </entry>
5602        <entry name="availableRequestKeys" type="int32" visibility="ndk_public"
5603               container="array" hwlevel="legacy">
5604          <array>
5605            <size>n</size>
5606          </array>
5607          <description>A list of all keys that the camera device has available
5608          to use with {@link android.hardware.camera2.CaptureRequest|ACaptureRequest}.</description>
5609
5610          <details>Attempting to set a key into a CaptureRequest that is not
5611          listed here will result in an invalid request and will be rejected
5612          by the camera device.
5613
5614          This field can be used to query the feature set of a camera device
5615          at a more granular level than capabilities. This is especially
5616          important for optional keys that are not listed under any capability
5617          in android.request.availableCapabilities.
5618          </details>
5619          <hal_details>
5620          Vendor tags can be listed here. Vendor tag metadata should also
5621          use the extensions C api (refer to camera3.h for more details).
5622
5623          Setting/getting vendor tags will be checked against the metadata
5624          vendor extensions API and not against this field.
5625
5626          The HAL must not consume any request tags that are not listed either
5627          here or in the vendor tag list.
5628
5629          The public camera2 API will always make the vendor tags visible
5630          via
5631          {@link android.hardware.camera2.CameraCharacteristics#getAvailableCaptureRequestKeys}.
5632          </hal_details>
5633        </entry>
5634        <entry name="availableResultKeys" type="int32" visibility="ndk_public"
5635               container="array" hwlevel="legacy">
5636          <array>
5637            <size>n</size>
5638          </array>
5639          <description>A list of all keys that the camera device has available to use with {@link
5640          android.hardware.camera2.CaptureResult|ACameraCaptureSession_captureCallback_result}.
5641          </description>
5642
5643          <details>Attempting to get a key from a CaptureResult that is not
5644          listed here will always return a `null` value. Getting a key from
5645          a CaptureResult that is listed here will generally never return a `null`
5646          value.
5647
5648          The following keys may return `null` unless they are enabled:
5649
5650          * android.statistics.lensShadingMap (non-null iff android.statistics.lensShadingMapMode == ON)
5651
5652          (Those sometimes-null keys will nevertheless be listed here
5653          if they are available.)
5654
5655          This field can be used to query the feature set of a camera device
5656          at a more granular level than capabilities. This is especially
5657          important for optional keys that are not listed under any capability
5658          in android.request.availableCapabilities.
5659          </details>
5660          <hal_details>
5661          Tags listed here must always have an entry in the result metadata,
5662          even if that size is 0 elements. Only array-type tags (e.g. lists,
5663          matrices, strings) are allowed to have 0 elements.
5664
5665          Vendor tags can be listed here. Vendor tag metadata should also
5666          use the extensions C api (refer to camera3.h for more details).
5667
5668          Setting/getting vendor tags will be checked against the metadata
5669          vendor extensions API and not against this field.
5670
5671          The HAL must not produce any result tags that are not listed either
5672          here or in the vendor tag list.
5673
5674          The public camera2 API will always make the vendor tags visible via {@link
5675          android.hardware.camera2.CameraCharacteristics#getAvailableCaptureResultKeys}.
5676          </hal_details>
5677        </entry>
5678        <entry name="availableCharacteristicsKeys" type="int32" visibility="ndk_public"
5679               container="array" hwlevel="legacy">
5680          <array>
5681            <size>n</size>
5682          </array>
5683          <description>A list of all keys that the camera device has available to use with {@link
5684          android.hardware.camera2.CameraCharacteristics|ACameraManager_getCameraCharacteristics}.
5685          </description>
5686          <details>This entry follows the same rules as
5687          android.request.availableResultKeys (except that it applies for
5688          CameraCharacteristics instead of CaptureResult). See above for more
5689          details.
5690          </details>
5691          <hal_details>
5692          Keys listed here must always have an entry in the static info metadata,
5693          even if that size is 0 elements. Only array-type tags (e.g. lists,
5694          matrices, strings) are allowed to have 0 elements.
5695
5696          Vendor tags can listed here. Vendor tag metadata should also use
5697          the extensions C api (refer to camera3.h for more details).
5698
5699          Setting/getting vendor tags will be checked against the metadata
5700          vendor extensions API and not against this field.
5701
5702          The HAL must not have any tags in its static info that are not listed
5703          either here or in the vendor tag list.
5704
5705          The public camera2 API will always make the vendor tags visible
5706          via {@link android.hardware.camera2.CameraCharacteristics#getKeys}.
5707          </hal_details>
5708        </entry>
5709        <entry name="availableSessionKeys" type="int32" visibility="ndk_public"
5710               container="array" hwlevel="legacy" hal_version="3.3">
5711          <array>
5712            <size>n</size>
5713          </array>
5714          <description>A subset of the available request keys that the camera device
5715          can pass as part of the capture session initialization.</description>
5716
5717          <details> This is a subset of android.request.availableRequestKeys which
5718          contains a list of keys that are difficult to apply per-frame and
5719          can result in unexpected delays when modified during the capture session
5720          lifetime. Typical examples include parameters that require a
5721          time-consuming hardware re-configuration or internal camera pipeline
5722          change. For performance reasons we advise clients to pass their initial
5723          values as part of
5724          {@link SessionConfiguration#setSessionParameters|ACameraDevice_createCaptureSessionWithSessionParameters}.
5725          Once the camera capture session is enabled it is also recommended to avoid
5726          changing them from their initial values set in
5727          {@link SessionConfiguration#setSessionParameters|ACameraDevice_createCaptureSessionWithSessionParameters}.
5728          Control over session parameters can still be exerted in capture requests
5729          but clients should be aware and expect delays during their application.
5730          An example usage scenario could look like this:
5731
5732          * The camera client starts by quering the session parameter key list via
5733            {@link android.hardware.camera2.CameraCharacteristics#getAvailableSessionKeys|ACameraManager_getCameraCharacteristics}.
5734          * Before triggering the capture session create sequence, a capture request
5735            must be built via
5736            {@link CameraDevice#createCaptureRequest|ACameraDevice_createCaptureRequest}
5737            using an appropriate template matching the particular use case.
5738          * The client should go over the list of session parameters and check
5739            whether some of the keys listed matches with the parameters that
5740            they intend to modify as part of the first capture request.
5741          * If there is no such match, the capture request can be  passed
5742            unmodified to
5743            {@link SessionConfiguration#setSessionParameters|ACameraDevice_createCaptureSessionWithSessionParameters}.
5744          * If matches do exist, the client should update the respective values
5745            and pass the request to
5746            {@link SessionConfiguration#setSessionParameters|ACameraDevice_createCaptureSessionWithSessionParameters}.
5747          * After the capture session initialization completes the session parameter
5748            key list can continue to serve as reference when posting or updating
5749            further requests. As mentioned above further changes to session
5750            parameters should ideally be avoided, if updates are necessary
5751            however clients could expect a delay/glitch during the
5752            parameter switch.
5753
5754          </details>
5755          <hal_details>
5756          If android.control.aeTargetFpsRange is part of the session parameters and constrained high
5757          speed mode is enabled, then only modifications of the maximum framerate value will be
5758          monitored by the framework and can trigger camera re-configuration. For more information
5759          about framerate ranges during constrained high speed sessions see
5760          {@link android.hardware.camera2.CameraDevice#createConstrainedHighSpeedCaptureSession}.
5761          Vendor tags can be listed here. Vendor tag metadata should also
5762          use the extensions C api (refer to
5763          android.hardware.camera.device.V3_4.StreamConfiguration.sessionParams for more details).
5764
5765          Setting/getting vendor tags will be checked against the metadata
5766          vendor extensions API and not against this field.
5767
5768          The HAL must not consume any request tags in the session parameters that
5769          are not listed either here or in the vendor tag list.
5770
5771          The public camera2 API will always make the vendor tags visible
5772          via
5773          {@link android.hardware.camera2.CameraCharacteristics#getAvailableSessionKeys}.
5774          </hal_details>
5775        </entry>
5776        <entry name="availablePhysicalCameraRequestKeys" type="int32" visibility="ndk_public"
5777               container="array" hwlevel="limited" hal_version="3.3">
5778          <array>
5779            <size>n</size>
5780          </array>
5781          <description>A subset of the available request keys that can be overridden for
5782          physical devices backing a logical multi-camera.</description>
5783          <details>
5784          This is a subset of android.request.availableRequestKeys which contains a list
5785          of keys that can be overridden using {@link CaptureRequest.Builder#setPhysicalCameraKey}.
5786          The respective value of such request key can be obtained by calling
5787          {@link CaptureRequest.Builder#getPhysicalCameraKey}. Capture requests that contain
5788          individual physical device requests must be built via
5789          {@link android.hardware.camera2.CameraDevice#createCaptureRequest(int, Set)}.
5790          </details>
5791          <hal_details>
5792          Vendor tags can be listed here. Vendor tag metadata should also
5793          use the extensions C api (refer to
5794          android.hardware.camera.device.V3_4.CaptureRequest.physicalCameraSettings for more
5795          details).
5796
5797          Setting/getting vendor tags will be checked against the metadata
5798          vendor extensions API and not against this field.
5799
5800          The HAL must not consume any request tags in the session parameters that
5801          are not listed either here or in the vendor tag list.
5802
5803          There should be no overlap between this set of keys and the available session keys
5804          {@link android.hardware.camera2.CameraCharacteristics#getAvailableSessionKeys} along
5805          with any other controls that can have impact on the dual-camera sync.
5806
5807          The public camera2 API will always make the vendor tags visible
5808          via
5809          {@link android.hardware.camera2.CameraCharacteristics#getAvailablePhysicalCameraRequestKeys}.
5810          </hal_details>
5811        </entry>
5812        <entry name="characteristicKeysNeedingPermission" type="int32" visibility="hidden"
5813               container="array" hwlevel="legacy" hal_version="3.4">
5814          <array>
5815            <size>n</size>
5816          </array>
5817          <description>A list of camera characteristics keys that are only available
5818          in case the camera client has camera permission.</description>
5819
5820          <details>The entry contains a subset of
5821          {@link android.hardware.camera2.CameraCharacteristics#getKeys} that require camera clients
5822          to acquire the {@link android.Manifest.permission#CAMERA} permission before calling
5823          {@link android.hardware.camera2.CameraManager#getCameraCharacteristics}. If the
5824          permission is not held by the camera client, then the values of the repsective properties
5825          will not be present in {@link android.hardware.camera2.CameraCharacteristics}.
5826          </details>
5827          <hal_details>
5828          Do not set this property directly, camera service will overwrite any previous values.
5829          </hal_details>
5830        </entry>
5831      </static>
5832    </section>
5833    <section name="scaler">
5834      <controls>
5835        <entry name="cropRegion" type="int32" visibility="public"
5836               container="array" typedef="rectangle" hwlevel="legacy">
5837          <array>
5838            <size>4</size>
5839          </array>
5840          <description>The desired region of the sensor to read out for this capture.</description>
5841          <units>Pixel coordinates relative to
5842          android.sensor.info.activeArraySize or
5843          android.sensor.info.preCorrectionActiveArraySize depending on distortion correction
5844          capability and mode</units>
5845          <details>
5846            This control can be used to implement digital zoom.
5847
5848            For devices not supporting android.distortionCorrection.mode control, the coordinate
5849            system always follows that of android.sensor.info.activeArraySize, with `(0, 0)` being
5850            the top-left pixel of the active array.
5851
5852            For devices supporting android.distortionCorrection.mode control, the coordinate
5853            system depends on the mode being set.
5854            When the distortion correction mode is OFF, the coordinate system follows
5855            android.sensor.info.preCorrectionActiveArraySize, with
5856            `(0, 0)` being the top-left pixel of the pre-correction active array.
5857            When the distortion correction mode is not OFF, the coordinate system follows
5858            android.sensor.info.activeArraySize, with
5859            `(0, 0)` being the top-left pixel of the active array.
5860
5861            Output streams use this rectangle to produce their output,
5862            cropping to a smaller region if necessary to maintain the
5863            stream's aspect ratio, then scaling the sensor input to
5864            match the output's configured resolution.
5865
5866            The crop region is applied after the RAW to other color
5867            space (e.g. YUV) conversion. Since raw streams
5868            (e.g. RAW16) don't have the conversion stage, they are not
5869            croppable. The crop region will be ignored by raw streams.
5870
5871            For non-raw streams, any additional per-stream cropping will
5872            be done to maximize the final pixel area of the stream.
5873
5874            For example, if the crop region is set to a 4:3 aspect
5875            ratio, then 4:3 streams will use the exact crop
5876            region. 16:9 streams will further crop vertically
5877            (letterbox).
5878
5879            Conversely, if the crop region is set to a 16:9, then 4:3
5880            outputs will crop horizontally (pillarbox), and 16:9
5881            streams will match exactly. These additional crops will
5882            be centered within the crop region.
5883
5884            If the coordinate system is android.sensor.info.activeArraySize, the width and height
5885            of the crop region cannot be set to be smaller than
5886            `floor( activeArraySize.width / android.scaler.availableMaxDigitalZoom )` and
5887            `floor( activeArraySize.height / android.scaler.availableMaxDigitalZoom )`, respectively.
5888
5889            If the coordinate system is android.sensor.info.preCorrectionActiveArraySize, the width
5890            and height of the crop region cannot be set to be smaller than
5891            `floor( preCorrectionActiveArraySize.width / android.scaler.availableMaxDigitalZoom )`
5892            and
5893            `floor( preCorrectionActiveArraySize.height / android.scaler.availableMaxDigitalZoom )`,
5894            respectively.
5895
5896            The camera device may adjust the crop region to account
5897            for rounding and other hardware requirements; the final
5898            crop region used will be included in the output capture
5899            result.
5900          </details>
5901          <ndk_details>
5902            The data representation is int[4], which maps to (left, top, width, height).
5903          </ndk_details>
5904          <hal_details>
5905            The output streams must maintain square pixels at all
5906            times, no matter what the relative aspect ratios of the
5907            crop region and the stream are.  Negative values for
5908            corner are allowed for raw output if full pixel array is
5909            larger than active pixel array. Width and height may be
5910            rounded to nearest larger supportable width, especially
5911            for raw output, where only a few fixed scales may be
5912            possible.
5913
5914            For a set of output streams configured, if the sensor output is cropped to a smaller
5915            size than pre-correction active array size, the HAL need follow below cropping rules:
5916
5917            * The HAL need handle the cropRegion as if the sensor crop size is the effective
5918            pre-correction active array size. More specifically, the HAL must transform the request
5919            cropRegion from android.sensor.info.preCorrectionActiveArraySize to the sensor cropped
5920            pixel area size in this way:
5921                1. Translate the requested cropRegion w.r.t., the left top corner of the sensor
5922                cropped pixel area by (tx, ty),
5923                where `ty = sensorCrop.top * (sensorCrop.height / preCorrectionActiveArraySize.height)`
5924                and `tx = sensorCrop.left * (sensorCrop.width / preCorrectionActiveArraySize.width)`.
5925                The (sensorCrop.top, sensorCrop.left) is the coordinate based off the
5926                android.sensor.info.activeArraySize.
5927                2. Scale the width and height of requested cropRegion with scaling factor of
5928                sensorCrop.width/preCorrectionActiveArraySize.width and sensorCrop.height/preCorrectionActiveArraySize.height
5929                respectively.
5930            Once this new cropRegion is calculated, the HAL must use this region to crop the image
5931            with regard to the sensor crop size (effective pre-correction active array size). The
5932            HAL still need follow the general cropping rule for this new cropRegion and effective
5933            pre-correction active array size.
5934
5935            * The HAL must report the cropRegion with regard to android.sensor.info.preCorrectionActiveArraySize.
5936            The HAL need convert the new cropRegion generated above w.r.t., full pre-correction
5937            active array size. The reported cropRegion may be slightly different with the requested
5938            cropRegion since the HAL may adjust the crop region to account for rounding, conversion
5939            error, or other hardware limitations.
5940
5941            HAL2.x uses only (x, y, width)
5942          </hal_details>
5943          <tag id="BC" />
5944        </entry>
5945      </controls>
5946      <static>
5947        <entry name="availableFormats" type="int32"
5948        visibility="hidden" deprecated="true" enum="true"
5949        container="array" typedef="imageFormat">
5950          <array>
5951            <size>n</size>
5952          </array>
5953          <enum>
5954            <value optional="true" id="0x20">RAW16
5955              <notes>
5956              RAW16 is a standard, cross-platform format for raw image
5957              buffers with 16-bit pixels.
5958
5959              Buffers of this format are typically expected to have a
5960              Color Filter Array (CFA) layout, which is given in
5961              android.sensor.info.colorFilterArrangement. Sensors with
5962              CFAs that are not representable by a format in
5963              android.sensor.info.colorFilterArrangement should not
5964              use this format.
5965
5966              Buffers of this format will also follow the constraints given for
5967              RAW_OPAQUE buffers, but with relaxed performance constraints.
5968
5969              This format is intended to give users access to the full contents
5970              of the buffers coming directly from the image sensor prior to any
5971              cropping or scaling operations, and all coordinate systems for
5972              metadata used for this format are relative to the size of the
5973              active region of the image sensor before any geometric distortion
5974              correction has been applied (i.e.
5975              android.sensor.info.preCorrectionActiveArraySize). Supported
5976              dimensions for this format are limited to the full dimensions of
5977              the sensor (e.g. either android.sensor.info.pixelArraySize or
5978              android.sensor.info.preCorrectionActiveArraySize will be the
5979              only supported output size).
5980
5981              See android.scaler.availableInputOutputFormatsMap for
5982              the full set of performance guarantees.
5983              </notes>
5984            </value>
5985            <value optional="true" id="0x24">RAW_OPAQUE
5986              <notes>
5987              RAW_OPAQUE (or
5988              {@link android.graphics.ImageFormat#RAW_PRIVATE RAW_PRIVATE}
5989              as referred in public API) is a format for raw image buffers
5990              coming from an image sensor.
5991
5992              The actual structure of buffers of this format is
5993              platform-specific, but must follow several constraints:
5994
5995              1. No image post-processing operations may have been applied to
5996              buffers of this type. These buffers contain raw image data coming
5997              directly from the image sensor.
5998              1. If a buffer of this format is passed to the camera device for
5999              reprocessing, the resulting images will be identical to the images
6000              produced if the buffer had come directly from the sensor and was
6001              processed with the same settings.
6002
6003              The intended use for this format is to allow access to the native
6004              raw format buffers coming directly from the camera sensor without
6005              any additional conversions or decrease in framerate.
6006
6007              See android.scaler.availableInputOutputFormatsMap for the full set of
6008              performance guarantees.
6009              </notes>
6010            </value>
6011            <value optional="true" id="0x32315659">YV12
6012              <notes>YCrCb 4:2:0 Planar</notes>
6013            </value>
6014            <value optional="true" id="0x11">YCrCb_420_SP
6015              <notes>NV21</notes>
6016            </value>
6017            <value id="0x22">IMPLEMENTATION_DEFINED
6018              <notes>System internal format, not application-accessible</notes>
6019            </value>
6020            <value id="0x23">YCbCr_420_888
6021              <notes>Flexible YUV420 Format</notes>
6022            </value>
6023            <value id="0x21">BLOB
6024              <notes>JPEG format</notes>
6025            </value>
6026            <value id="0x25" hal_version="3.4">RAW10
6027              <notes>RAW10</notes>
6028            </value>
6029            <value id="0x26" hal_version="3.4">RAW12
6030              <notes>RAW12</notes>
6031            </value>
6032            <value id="0x20203859" hal_version="3.4">Y8
6033              <notes>Y8</notes>
6034            </value>
6035          </enum>
6036          <description>The list of image formats that are supported by this
6037          camera device for output streams.</description>
6038          <deprecation_description>
6039          Not used in HALv3 or newer
6040          </deprecation_description>
6041          <details>
6042          All camera devices will support JPEG and YUV_420_888 formats.
6043
6044          When set to YUV_420_888, application can access the YUV420 data directly.
6045          </details>
6046          <hal_details>
6047          These format values are from HAL_PIXEL_FORMAT_* in
6048          system/core/include/system/graphics.h.
6049
6050          When IMPLEMENTATION_DEFINED is used, the platform
6051          gralloc module will select a format based on the usage flags provided
6052          by the camera HAL device and the other endpoint of the stream. It is
6053          usually used by preview and recording streams, where the application doesn't
6054          need access the image data.
6055
6056          YCbCr_420_888 format must be supported by the HAL. When an image stream
6057          needs CPU/application direct access, this format will be used. For a MONOCHROME
6058          camera device, the pixel value of Cb and Cr planes is 128.
6059
6060          The BLOB format must be supported by the HAL. This is used for the JPEG stream.
6061
6062          A RAW_OPAQUE buffer should contain only pixel data. It is strongly
6063          recommended that any information used by the camera device when
6064          processing images is fully expressed by the result metadata
6065          for that image buffer.
6066          </hal_details>
6067          <tag id="BC" />
6068        </entry>
6069        <entry name="availableJpegMinDurations" type="int64" visibility="hidden" deprecated="true"
6070        container="array">
6071          <array>
6072            <size>n</size>
6073          </array>
6074          <description>The minimum frame duration that is supported
6075          for each resolution in android.scaler.availableJpegSizes.
6076          </description>
6077          <deprecation_description>
6078          Not used in HALv3 or newer
6079          </deprecation_description>
6080          <units>Nanoseconds</units>
6081          <range>TODO: Remove property.</range>
6082          <details>
6083          This corresponds to the minimum steady-state frame duration when only
6084          that JPEG stream is active and captured in a burst, with all
6085          processing (typically in android.*.mode) set to FAST.
6086
6087          When multiple streams are configured, the minimum
6088          frame duration will be &amp;gt;= max(individual stream min
6089          durations)</details>
6090          <tag id="BC" />
6091        </entry>
6092        <entry name="availableJpegSizes" type="int32" visibility="hidden"
6093        deprecated="true" container="array" typedef="size">
6094          <array>
6095            <size>n</size>
6096            <size>2</size>
6097          </array>
6098          <description>The JPEG resolutions that are supported by this camera device.</description>
6099          <deprecation_description>
6100          Not used in HALv3 or newer
6101          </deprecation_description>
6102          <range>TODO: Remove property.</range>
6103          <details>
6104          The resolutions are listed as `(width, height)` pairs. All camera devices will support
6105          sensor maximum resolution (defined by android.sensor.info.activeArraySize).
6106          </details>
6107          <hal_details>
6108          The HAL must include sensor maximum resolution
6109          (defined by android.sensor.info.activeArraySize),
6110          and should include half/quarter of sensor maximum resolution.
6111          </hal_details>
6112          <tag id="BC" />
6113        </entry>
6114        <entry name="availableMaxDigitalZoom" type="float" visibility="public"
6115              hwlevel="legacy">
6116          <description>The maximum ratio between both active area width
6117          and crop region width, and active area height and
6118          crop region height, for android.scaler.cropRegion.
6119          </description>
6120          <units>Zoom scale factor</units>
6121          <range>&amp;gt;=1</range>
6122          <details>
6123          This represents the maximum amount of zooming possible by
6124          the camera device, or equivalently, the minimum cropping
6125          window size.
6126
6127          Crop regions that have a width or height that is smaller
6128          than this ratio allows will be rounded up to the minimum
6129          allowed size by the camera device.
6130          </details>
6131          <tag id="BC" />
6132        </entry>
6133        <entry name="availableProcessedMinDurations" type="int64" visibility="hidden" deprecated="true"
6134        container="array">
6135          <array>
6136            <size>n</size>
6137          </array>
6138          <description>For each available processed output size (defined in
6139          android.scaler.availableProcessedSizes), this property lists the
6140          minimum supportable frame duration for that size.
6141          </description>
6142          <deprecation_description>
6143          Not used in HALv3 or newer
6144          </deprecation_description>
6145          <units>Nanoseconds</units>
6146          <details>
6147          This should correspond to the frame duration when only that processed
6148          stream is active, with all processing (typically in android.*.mode)
6149          set to FAST.
6150
6151          When multiple streams are configured, the minimum frame duration will
6152          be &amp;gt;= max(individual stream min durations).
6153          </details>
6154          <tag id="BC" />
6155        </entry>
6156        <entry name="availableProcessedSizes" type="int32" visibility="hidden"
6157        deprecated="true" container="array" typedef="size">
6158          <array>
6159            <size>n</size>
6160            <size>2</size>
6161          </array>
6162          <description>The resolutions available for use with
6163          processed output streams, such as YV12, NV12, and
6164          platform opaque YUV/RGB streams to the GPU or video
6165          encoders.</description>
6166          <deprecation_description>
6167          Not used in HALv3 or newer
6168          </deprecation_description>
6169          <details>
6170          The resolutions are listed as `(width, height)` pairs.
6171
6172          For a given use case, the actual maximum supported resolution
6173          may be lower than what is listed here, depending on the destination
6174          Surface for the image data. For example, for recording video,
6175          the video encoder chosen may have a maximum size limit (e.g. 1080p)
6176          smaller than what the camera (e.g. maximum resolution is 3264x2448)
6177          can provide.
6178
6179          Please reference the documentation for the image data destination to
6180          check if it limits the maximum size for image data.
6181          </details>
6182          <hal_details>
6183          For FULL capability devices (`android.info.supportedHardwareLevel == FULL`),
6184          the HAL must include all JPEG sizes listed in android.scaler.availableJpegSizes
6185          and each below resolution if it is smaller than or equal to the sensor
6186          maximum resolution (if they are not listed in JPEG sizes already):
6187
6188          * 240p (320 x 240)
6189          * 480p (640 x 480)
6190          * 720p (1280 x 720)
6191          * 1080p (1920 x 1080)
6192
6193          For LIMITED capability devices (`android.info.supportedHardwareLevel == LIMITED`),
6194          the HAL only has to list up to the maximum video size supported by the devices.
6195          </hal_details>
6196          <tag id="BC" />
6197        </entry>
6198        <entry name="availableRawMinDurations" type="int64" deprecated="true"
6199        container="array">
6200          <array>
6201            <size>n</size>
6202          </array>
6203          <description>
6204          For each available raw output size (defined in
6205          android.scaler.availableRawSizes), this property lists the minimum
6206          supportable frame duration for that size.
6207          </description>
6208          <deprecation_description>
6209          Not used in HALv3 or newer
6210          </deprecation_description>
6211          <units>Nanoseconds</units>
6212          <details>
6213          Should correspond to the frame duration when only the raw stream is
6214          active.
6215
6216          When multiple streams are configured, the minimum
6217          frame duration will be &amp;gt;= max(individual stream min
6218          durations)</details>
6219          <tag id="BC" />
6220        </entry>
6221        <entry name="availableRawSizes" type="int32" deprecated="true"
6222        container="array" typedef="size">
6223          <array>
6224            <size>n</size>
6225            <size>2</size>
6226          </array>
6227          <description>The resolutions available for use with raw
6228          sensor output streams, listed as width,
6229          height</description>
6230          <deprecation_description>
6231          Not used in HALv3 or newer
6232          </deprecation_description>
6233        </entry>
6234      </static>
6235      <dynamic>
6236        <clone entry="android.scaler.cropRegion" kind="controls">
6237        </clone>
6238      </dynamic>
6239      <static>
6240        <entry name="availableInputOutputFormatsMap" type="int32" visibility="hidden"
6241          typedef="reprocessFormatsMap">
6242          <description>The mapping of image formats that are supported by this
6243          camera device for input streams, to their corresponding output formats.
6244          </description>
6245          <details>
6246          All camera devices with at least 1
6247          android.request.maxNumInputStreams will have at least one
6248          available input format.
6249
6250          The camera device will support the following map of formats,
6251          if its dependent capability (android.request.availableCapabilities) is supported:
6252
6253            Input Format                                    | Output Format                                     | Capability
6254          :-------------------------------------------------|:--------------------------------------------------|:----------
6255          {@link android.graphics.ImageFormat#PRIVATE}      | {@link android.graphics.ImageFormat#JPEG}         | PRIVATE_REPROCESSING
6256          {@link android.graphics.ImageFormat#PRIVATE}      | {@link android.graphics.ImageFormat#YUV_420_888}  | PRIVATE_REPROCESSING
6257          {@link android.graphics.ImageFormat#YUV_420_888}  | {@link android.graphics.ImageFormat#JPEG}         | YUV_REPROCESSING
6258          {@link android.graphics.ImageFormat#YUV_420_888}  | {@link android.graphics.ImageFormat#YUV_420_888}  | YUV_REPROCESSING
6259
6260          PRIVATE refers to a device-internal format that is not directly application-visible.  A
6261          PRIVATE input surface can be acquired by {@link android.media.ImageReader#newInstance}
6262          with {@link android.graphics.ImageFormat#PRIVATE} as the format.
6263
6264          For a PRIVATE_REPROCESSING-capable camera device, using the PRIVATE format as either input
6265          or output will never hurt maximum frame rate (i.e.  {@link
6266          android.hardware.camera2.params.StreamConfigurationMap#getOutputStallDuration
6267          getOutputStallDuration(ImageFormat.PRIVATE, size)} is always 0),
6268
6269          Attempting to configure an input stream with output streams not
6270          listed as available in this map is not valid.
6271
6272          Additionally, if the camera device is MONOCHROME with Y8 support, it will also support
6273          the following map of formats if its dependent capability
6274          (android.request.availableCapabilities) is supported:
6275
6276            Input Format                                    | Output Format                                     | Capability
6277          :-------------------------------------------------|:--------------------------------------------------|:----------
6278          {@link android.graphics.ImageFormat#PRIVATE}      | {@link android.graphics.ImageFormat#Y8}           | PRIVATE_REPROCESSING
6279          {@link android.graphics.ImageFormat#Y8}           | {@link android.graphics.ImageFormat#JPEG}         | YUV_REPROCESSING
6280          {@link android.graphics.ImageFormat#Y8}           | {@link android.graphics.ImageFormat#Y8}           | YUV_REPROCESSING
6281
6282          </details>
6283          <hal_details>
6284          For the formats, see `system/core/include/system/graphics.h` for a definition
6285          of the image format enumerations. The PRIVATE format refers to the
6286          HAL_PIXEL_FORMAT_IMPLEMENTATION_DEFINED format. The HAL could determine
6287          the actual format by using the gralloc usage flags.
6288          For ZSL use case in particular, the HAL could choose appropriate format (partially
6289          processed YUV or RAW based format) by checking the format and GRALLOC_USAGE_HW_CAMERA_ZSL.
6290          See camera3.h for more details.
6291
6292          This value is encoded as a variable-size array-of-arrays.
6293          The inner array always contains `[format, length, ...]` where
6294          `...` has `length` elements. An inner array is followed by another
6295          inner array if the total metadata entry size hasn't yet been exceeded.
6296
6297          A code sample to read/write this encoding (with a device that
6298          supports reprocessing IMPLEMENTATION_DEFINED to YUV_420_888, and JPEG,
6299          and reprocessing YUV_420_888 to YUV_420_888 and JPEG):
6300
6301              // reading
6302              int32_t* contents = &amp;entry.i32[0];
6303              for (size_t i = 0; i &lt; entry.count; ) {
6304                  int32_t format = contents[i++];
6305                  int32_t length = contents[i++];
6306                  int32_t output_formats[length];
6307                  memcpy(&amp;output_formats[0], &amp;contents[i],
6308                         length * sizeof(int32_t));
6309                  i += length;
6310              }
6311
6312              // writing (static example, PRIVATE_REPROCESSING + YUV_REPROCESSING)
6313              int32_t[] contents = {
6314                IMPLEMENTATION_DEFINED, 2, YUV_420_888, BLOB,
6315                YUV_420_888, 2, YUV_420_888, BLOB,
6316              };
6317              update_camera_metadata_entry(metadata, index, &amp;contents[0],
6318                    sizeof(contents)/sizeof(contents[0]), &amp;updated_entry);
6319
6320          If the HAL claims to support any of the capabilities listed in the
6321          above details, then it must also support all the input-output
6322          combinations listed for that capability. It can optionally support
6323          additional formats if it so chooses.
6324          </hal_details>
6325          <tag id="REPROC" />
6326        </entry>
6327        <entry name="availableStreamConfigurations" type="int32" visibility="ndk_public"
6328               enum="true" container="array" typedef="streamConfiguration" hwlevel="legacy">
6329          <array>
6330            <size>n</size>
6331            <size>4</size>
6332          </array>
6333          <enum>
6334            <value>OUTPUT</value>
6335            <value>INPUT</value>
6336          </enum>
6337          <description>The available stream configurations that this
6338          camera device supports
6339          (i.e. format, width, height, output/input stream).
6340          </description>
6341          <details>
6342          The configurations are listed as `(format, width, height, input?)`
6343          tuples.
6344
6345          For a given use case, the actual maximum supported resolution
6346          may be lower than what is listed here, depending on the destination
6347          Surface for the image data. For example, for recording video,
6348          the video encoder chosen may have a maximum size limit (e.g. 1080p)
6349          smaller than what the camera (e.g. maximum resolution is 3264x2448)
6350          can provide.
6351
6352          Please reference the documentation for the image data destination to
6353          check if it limits the maximum size for image data.
6354
6355          Not all output formats may be supported in a configuration with
6356          an input stream of a particular format. For more details, see
6357          android.scaler.availableInputOutputFormatsMap.
6358
6359          The following table describes the minimum required output stream
6360          configurations based on the hardware level
6361          (android.info.supportedHardwareLevel):
6362
6363          Format         | Size                                         | Hardware Level | Notes
6364          :-------------:|:--------------------------------------------:|:--------------:|:--------------:
6365          JPEG           | android.sensor.info.activeArraySize          | Any            |
6366          JPEG           | 1920x1080 (1080p)                            | Any            | if 1080p &lt;= activeArraySize
6367          JPEG           | 1280x720 (720)                               | Any            | if 720p &lt;= activeArraySize
6368          JPEG           | 640x480 (480p)                               | Any            | if 480p &lt;= activeArraySize
6369          JPEG           | 320x240 (240p)                               | Any            | if 240p &lt;= activeArraySize
6370          YUV_420_888    | all output sizes available for JPEG          | FULL           |
6371          YUV_420_888    | all output sizes available for JPEG, up to the maximum video size | LIMITED        |
6372          IMPLEMENTATION_DEFINED | same as YUV_420_888                  | Any            |
6373
6374          Refer to android.request.availableCapabilities for additional
6375          mandatory stream configurations on a per-capability basis.
6376
6377          Exception on 176x144 (QCIF) resolution: camera devices usually have a fixed capability for
6378          downscaling from larger resolution to smaller, and the QCIF resolution sometimes is not
6379          fully supported due to this limitation on devices with high-resolution image sensors.
6380          Therefore, trying to configure a QCIF resolution stream together with any other
6381          stream larger than 1920x1080 resolution (either width or height) might not be supported,
6382          and capture session creation will fail if it is not.
6383
6384          </details>
6385          <hal_details>
6386          It is recommended (but not mandatory) to also include half/quarter
6387          of sensor maximum resolution for JPEG formats (regardless of hardware
6388          level).
6389
6390          (The following is a rewording of the above required table):
6391
6392          For JPEG format, the sizes may be restricted by below conditions:
6393
6394          * The HAL may choose the aspect ratio of each Jpeg size to be one of well known ones
6395          (e.g. 4:3, 16:9, 3:2 etc.). If the sensor maximum resolution
6396          (defined by android.sensor.info.activeArraySize) has an aspect ratio other than these,
6397          it does not have to be included in the supported JPEG sizes.
6398          * Some hardware JPEG encoders may have pixel boundary alignment requirements, such as
6399          the dimensions being a multiple of 16.
6400
6401          Therefore, the maximum JPEG size may be smaller than sensor maximum resolution.
6402          However, the largest JPEG size must be as close as possible to the sensor maximum
6403          resolution given above constraints. It is required that after aspect ratio adjustments,
6404          additional size reduction due to other issues must be less than 3% in area. For example,
6405          if the sensor maximum resolution is 3280x2464, if the maximum JPEG size has aspect
6406          ratio 4:3, the JPEG encoder alignment requirement is 16, the maximum JPEG size will be
6407          3264x2448.
6408
6409          For FULL capability devices (`android.info.supportedHardwareLevel == FULL`),
6410          the HAL must include all YUV_420_888 sizes that have JPEG sizes listed
6411          here as output streams.
6412
6413          It must also include each below resolution if it is smaller than or
6414          equal to the sensor maximum resolution (for both YUV_420_888 and JPEG
6415          formats), as output streams:
6416
6417          * 240p (320 x 240)
6418          * 480p (640 x 480)
6419          * 720p (1280 x 720)
6420          * 1080p (1920 x 1080)
6421
6422          For LIMITED capability devices
6423          (`android.info.supportedHardwareLevel == LIMITED`),
6424          the HAL only has to list up to the maximum video size
6425          supported by the device.
6426
6427          Regardless of hardware level, every output resolution available for
6428          YUV_420_888 must also be available for IMPLEMENTATION_DEFINED.
6429
6430          This supercedes the following fields, which are now deprecated:
6431
6432          * availableFormats
6433          * available[Processed,Raw,Jpeg]Sizes
6434          </hal_details>
6435        </entry>
6436        <entry name="availableMinFrameDurations" type="int64" visibility="ndk_public"
6437               container="array" typedef="streamConfigurationDuration" hwlevel="legacy">
6438          <array>
6439            <size>4</size>
6440            <size>n</size>
6441          </array>
6442          <description>This lists the minimum frame duration for each
6443          format/size combination.
6444          </description>
6445          <units>(format, width, height, ns) x n</units>
6446          <details>
6447          This should correspond to the frame duration when only that
6448          stream is active, with all processing (typically in android.*.mode)
6449          set to either OFF or FAST.
6450
6451          When multiple streams are used in a request, the minimum frame
6452          duration will be max(individual stream min durations).
6453
6454          The minimum frame duration of a stream (of a particular format, size)
6455          is the same regardless of whether the stream is input or output.
6456
6457          See android.sensor.frameDuration and
6458          android.scaler.availableStallDurations for more details about
6459          calculating the max frame rate.
6460          </details>
6461          <tag id="V1" />
6462        </entry>
6463        <entry name="availableStallDurations" type="int64" visibility="ndk_public"
6464               container="array" typedef="streamConfigurationDuration" hwlevel="legacy">
6465          <array>
6466            <size>4</size>
6467            <size>n</size>
6468          </array>
6469          <description>This lists the maximum stall duration for each
6470          output format/size combination.
6471          </description>
6472          <units>(format, width, height, ns) x n</units>
6473          <details>
6474          A stall duration is how much extra time would get added
6475          to the normal minimum frame duration for a repeating request
6476          that has streams with non-zero stall.
6477
6478          For example, consider JPEG captures which have the following
6479          characteristics:
6480
6481          * JPEG streams act like processed YUV streams in requests for which
6482          they are not included; in requests in which they are directly
6483          referenced, they act as JPEG streams. This is because supporting a
6484          JPEG stream requires the underlying YUV data to always be ready for
6485          use by a JPEG encoder, but the encoder will only be used (and impact
6486          frame duration) on requests that actually reference a JPEG stream.
6487          * The JPEG processor can run concurrently to the rest of the camera
6488          pipeline, but cannot process more than 1 capture at a time.
6489
6490          In other words, using a repeating YUV request would result
6491          in a steady frame rate (let's say it's 30 FPS). If a single
6492          JPEG request is submitted periodically, the frame rate will stay
6493          at 30 FPS (as long as we wait for the previous JPEG to return each
6494          time). If we try to submit a repeating YUV + JPEG request, then
6495          the frame rate will drop from 30 FPS.
6496
6497          In general, submitting a new request with a non-0 stall time
6498          stream will _not_ cause a frame rate drop unless there are still
6499          outstanding buffers for that stream from previous requests.
6500
6501          Submitting a repeating request with streams (call this `S`)
6502          is the same as setting the minimum frame duration from
6503          the normal minimum frame duration corresponding to `S`, added with
6504          the maximum stall duration for `S`.
6505
6506          If interleaving requests with and without a stall duration,
6507          a request will stall by the maximum of the remaining times
6508          for each can-stall stream with outstanding buffers.
6509
6510          This means that a stalling request will not have an exposure start
6511          until the stall has completed.
6512
6513          This should correspond to the stall duration when only that stream is
6514          active, with all processing (typically in android.*.mode) set to FAST
6515          or OFF. Setting any of the processing modes to HIGH_QUALITY
6516          effectively results in an indeterminate stall duration for all
6517          streams in a request (the regular stall calculation rules are
6518          ignored).
6519
6520          The following formats may always have a stall duration:
6521
6522          * {@link android.graphics.ImageFormat#JPEG|AIMAGE_FORMAT_JPEG}
6523          * {@link android.graphics.ImageFormat#RAW_SENSOR|AIMAGE_FORMAT_RAW16}
6524
6525          The following formats will never have a stall duration:
6526
6527          * {@link android.graphics.ImageFormat#YUV_420_888|AIMAGE_FORMAT_YUV_420_888}
6528          * {@link android.graphics.ImageFormat#RAW10|AIMAGE_FORMAT_RAW10}
6529          * {@link android.graphics.ImageFormat#RAW12|AIMAGE_FORMAT_RAW12}
6530          * {@link android.graphics.ImageFormat#Y8|AIMAGE_FORMAT_Y8}
6531
6532          All other formats may or may not have an allowed stall duration on
6533          a per-capability basis; refer to android.request.availableCapabilities
6534          for more details.
6535
6536          See android.sensor.frameDuration for more information about
6537          calculating the max frame rate (absent stalls).
6538          </details>
6539          <hal_details>
6540          If possible, it is recommended that all non-JPEG formats
6541          (such as RAW16) should not have a stall duration. RAW10, RAW12, RAW_OPAQUE
6542          and IMPLEMENTATION_DEFINED must not have stall durations.
6543          </hal_details>
6544          <tag id="V1" />
6545        </entry>
6546        <entry name="streamConfigurationMap" type="int32" visibility="java_public"
6547               synthetic="true" typedef="streamConfigurationMap"
6548               hwlevel="legacy">
6549          <description>The available stream configurations that this
6550          camera device supports; also includes the minimum frame durations
6551          and the stall durations for each format/size combination.
6552          </description>
6553          <details>
6554          All camera devices will support sensor maximum resolution (defined by
6555          android.sensor.info.activeArraySize) for the JPEG format.
6556
6557          For a given use case, the actual maximum supported resolution
6558          may be lower than what is listed here, depending on the destination
6559          Surface for the image data. For example, for recording video,
6560          the video encoder chosen may have a maximum size limit (e.g. 1080p)
6561          smaller than what the camera (e.g. maximum resolution is 3264x2448)
6562          can provide.
6563
6564          Please reference the documentation for the image data destination to
6565          check if it limits the maximum size for image data.
6566
6567          The following table describes the minimum required output stream
6568          configurations based on the hardware level
6569          (android.info.supportedHardwareLevel):
6570
6571          Format                                             | Size                                         | Hardware Level | Notes
6572          :-------------------------------------------------:|:--------------------------------------------:|:--------------:|:--------------:
6573          {@link android.graphics.ImageFormat#JPEG}          | android.sensor.info.activeArraySize (*1)     | Any            |
6574          {@link android.graphics.ImageFormat#JPEG}          | 1920x1080 (1080p)                            | Any            | if 1080p &lt;= activeArraySize
6575          {@link android.graphics.ImageFormat#JPEG}          | 1280x720 (720p)                               | Any            | if 720p &lt;= activeArraySize
6576          {@link android.graphics.ImageFormat#JPEG}          | 640x480 (480p)                               | Any            | if 480p &lt;= activeArraySize
6577          {@link android.graphics.ImageFormat#JPEG}          | 320x240 (240p)                               | Any            | if 240p &lt;= activeArraySize
6578          {@link android.graphics.ImageFormat#YUV_420_888}   | all output sizes available for JPEG          | FULL           |
6579          {@link android.graphics.ImageFormat#YUV_420_888}   | all output sizes available for JPEG, up to the maximum video size | LIMITED        |
6580          {@link android.graphics.ImageFormat#PRIVATE}       | same as YUV_420_888                          | Any            |
6581
6582          Refer to android.request.availableCapabilities and {@link
6583          android.hardware.camera2.CameraDevice#createCaptureSession} for additional mandatory
6584          stream configurations on a per-capability basis.
6585
6586          *1: For JPEG format, the sizes may be restricted by below conditions:
6587
6588          * The HAL may choose the aspect ratio of each Jpeg size to be one of well known ones
6589          (e.g. 4:3, 16:9, 3:2 etc.). If the sensor maximum resolution
6590          (defined by android.sensor.info.activeArraySize) has an aspect ratio other than these,
6591          it does not have to be included in the supported JPEG sizes.
6592          * Some hardware JPEG encoders may have pixel boundary alignment requirements, such as
6593          the dimensions being a multiple of 16.
6594          Therefore, the maximum JPEG size may be smaller than sensor maximum resolution.
6595          However, the largest JPEG size will be as close as possible to the sensor maximum
6596          resolution given above constraints. It is required that after aspect ratio adjustments,
6597          additional size reduction due to other issues must be less than 3% in area. For example,
6598          if the sensor maximum resolution is 3280x2464, if the maximum JPEG size has aspect
6599          ratio 4:3, and the JPEG encoder alignment requirement is 16, the maximum JPEG size will be
6600          3264x2448.
6601
6602          Exception on 176x144 (QCIF) resolution: camera devices usually have a fixed capability on
6603          downscaling from larger resolution to smaller ones, and the QCIF resolution can sometimes
6604          not be fully supported due to this limitation on devices with high-resolution image
6605          sensors. Therefore, trying to configure a QCIF resolution stream together with any other
6606          stream larger than 1920x1080 resolution (either width or height) might not be supported,
6607          and capture session creation will fail if it is not.
6608
6609          </details>
6610          <hal_details>
6611          Do not set this property directly
6612          (it is synthetic and will not be available at the HAL layer);
6613          set the android.scaler.availableStreamConfigurations instead.
6614
6615          Not all output formats may be supported in a configuration with
6616          an input stream of a particular format. For more details, see
6617          android.scaler.availableInputOutputFormatsMap.
6618
6619          It is recommended (but not mandatory) to also include half/quarter
6620          of sensor maximum resolution for JPEG formats (regardless of hardware
6621          level).
6622
6623          (The following is a rewording of the above required table):
6624
6625          The HAL must include sensor maximum resolution (defined by
6626          android.sensor.info.activeArraySize).
6627
6628          For FULL capability devices (`android.info.supportedHardwareLevel == FULL`),
6629          the HAL must include all YUV_420_888 sizes that have JPEG sizes listed
6630          here as output streams.
6631
6632          It must also include each below resolution if it is smaller than or
6633          equal to the sensor maximum resolution (for both YUV_420_888 and JPEG
6634          formats), as output streams:
6635
6636          * 240p (320 x 240)
6637          * 480p (640 x 480)
6638          * 720p (1280 x 720)
6639          * 1080p (1920 x 1080)
6640
6641          For LIMITED capability devices
6642          (`android.info.supportedHardwareLevel == LIMITED`),
6643          the HAL only has to list up to the maximum video size
6644          supported by the device.
6645
6646          Regardless of hardware level, every output resolution available for
6647          YUV_420_888 must also be available for IMPLEMENTATION_DEFINED.
6648
6649          This supercedes the following fields, which are now deprecated:
6650
6651          * availableFormats
6652          * available[Processed,Raw,Jpeg]Sizes
6653          </hal_details>
6654        </entry>
6655        <entry name="croppingType" type="byte" visibility="public" enum="true"
6656               hwlevel="legacy">
6657          <enum>
6658            <value>CENTER_ONLY
6659              <notes>
6660                The camera device only supports centered crop regions.
6661              </notes>
6662            </value>
6663            <value>FREEFORM
6664              <notes>
6665                The camera device supports arbitrarily chosen crop regions.
6666              </notes>
6667            </value>
6668          </enum>
6669          <description>The crop type that this camera device supports.</description>
6670          <details>
6671          When passing a non-centered crop region (android.scaler.cropRegion) to a camera
6672          device that only supports CENTER_ONLY cropping, the camera device will move the
6673          crop region to the center of the sensor active array (android.sensor.info.activeArraySize)
6674          and keep the crop region width and height unchanged. The camera device will return the
6675          final used crop region in metadata result android.scaler.cropRegion.
6676
6677          Camera devices that support FREEFORM cropping will support any crop region that
6678          is inside of the active array. The camera device will apply the same crop region and
6679          return the final used crop region in capture result metadata android.scaler.cropRegion.
6680
6681          LEGACY capability devices will only support CENTER_ONLY cropping.
6682          </details>
6683        </entry>
6684        <entry name="availableRecommendedStreamConfigurations" type="int32" visibility="ndk_public"
6685            optional="true" enum="true" container="array" typedef="recommendedStreamConfiguration"
6686            hal_version="3.4">
6687          <array>
6688            <size>n</size>
6689            <size>5</size>
6690          </array>
6691          <enum>
6692            <value id="0x0">PREVIEW
6693            <notes>
6694                Preview must only include non-stalling processed stream configurations with
6695                output formats like
6696                {@link android.graphics.ImageFormat#YUV_420_888|AIMAGE_FORMAT_YUV_420_888},
6697                {@link android.graphics.ImageFormat#PRIVATE|AIMAGE_FORMAT_PRIVATE}, etc.
6698            </notes>
6699            </value>
6700            <value id="0x1">RECORD
6701            <notes>
6702                Video record must include stream configurations that match the advertised
6703                supported media profiles {@link android.media.CamcorderProfile} with
6704                IMPLEMENTATION_DEFINED format.
6705            </notes>
6706            </value>
6707            <value id="0x2">VIDEO_SNAPSHOT
6708            <notes>
6709                Video snapshot must include stream configurations at least as big as
6710                the maximum RECORD resolutions and only with
6711                {@link android.graphics.ImageFormat#JPEG|AIMAGE_FORMAT_JPEG JPEG output format}.
6712                Additionally the configurations shouldn't cause preview glitches and also be able to
6713                run at 30 fps.
6714            </notes>
6715            </value>
6716            <value id="0x3">SNAPSHOT
6717            <notes>
6718                Recommended snapshot stream configurations must include at least one with
6719                size close to android.sensor.info.activeArraySize and
6720                {@link android.graphics.ImageFormat#JPEG|AIMAGE_FORMAT_JPEG JPEG output format}.
6721                Taking into account restrictions on aspect ratio, alignment etc. the area of the
6722                maximum suggested size shouldn’t be less than 97% of the sensor array size area.
6723            </notes>
6724            </value>
6725            <value id="0x4">ZSL
6726            <notes>
6727                If supported, recommended input stream configurations must only be advertised with
6728                ZSL along with other processed and/or stalling output formats.
6729            </notes>
6730            </value>
6731            <value id="0x5">RAW
6732            <notes>
6733                If supported, recommended raw stream configurations must only include RAW based
6734                output formats.
6735            </notes>
6736            </value>
6737            <value id="0x6">LOW_LATENCY_SNAPSHOT
6738            <notes>
6739                If supported, the recommended low latency stream configurations must have
6740                end-to-end latency that does not exceed 200 ms. under standard operating conditions
6741                (reasonable light levels, not loaded system) and using template
6742                TEMPLATE_STILL_CAPTURE. This is primarily for listing configurations for the
6743                {@link android.graphics.ImageFormat#JPEG|AIMAGE_FORMAT_JPEG JPEG output format}
6744                however other supported output formats can be added as well.
6745            </notes>
6746            </value>
6747            <value id="0x7">PUBLIC_END
6748            </value>
6749            <value id="0x18">VENDOR_START
6750            <notes>
6751                Vendor defined use cases. These depend on the vendor implementation.
6752            </notes>
6753            </value>
6754          </enum>
6755          <description>Recommended stream configurations for common client use cases.
6756          </description>
6757          <details>Optional subset of the android.scaler.availableStreamConfigurations that contains
6758          similar tuples listed as
6759          (i.e. width, height, format, output/input stream, usecase bit field).
6760          Camera devices will be able to suggest particular stream configurations which are
6761          power and performance efficient for specific use cases. For more information about
6762          retrieving the suggestions see
6763          {@link android.hardware.camera2.CameraCharacteristics#getRecommendedStreamConfigurationMap}.
6764          </details>
6765          <ndk_details>
6766          The data representation is int[5], which maps to
6767          (width, height, format, output/input stream, usecase bit field). The array can be
6768          parsed using the following pseudo code:
6769
6770          struct StreamConfiguration {
6771          int32_t format;
6772          int32_t width;
6773          int32_t height;
6774          int32_t isInput; };
6775
6776          void getPreferredStreamConfigurations(
6777              int32_t *array, size_t count, int32_t usecaseId,
6778              Vector &lt; StreamConfiguration &gt; * scs) {
6779              const size_t STREAM_CONFIGURATION_SIZE = 5;
6780              const size_t STREAM_WIDTH_OFFSET = 0;
6781              const size_t STREAM_HEIGHT_OFFSET = 1;
6782              const size_t STREAM_FORMAT_OFFSET = 2;
6783              const size_t STREAM_IS_INPUT_OFFSET = 3;
6784              const size_t STREAM_USECASE_BITMAP_OFFSET = 4;
6785
6786              for (size_t i = 0; i &lt; count; i+= STREAM_CONFIGURATION_SIZE) {
6787                  int32_t width = array[i + STREAM_WIDTH_OFFSET];
6788                  int32_t height = array[i + STREAM_HEIGHT_OFFSET];
6789                  int32_t format = array[i + STREAM_FORMAT_OFFSET];
6790                  int32_t isInput = array[i + STREAM_IS_INPUT_OFFSET];
6791                  int32_t supportedUsecases = array[i + STREAM_USECASE_BITMAP_OFFSET];
6792                  if (supportedUsecases &amp; (1 &lt;&lt; usecaseId)) {
6793                      StreamConfiguration sc = {format, width, height, isInput};
6794                      scs->add(sc);
6795                  }
6796              }
6797          }
6798
6799          </ndk_details>
6800          <hal_details>
6801          There are some requirements that need to be considered regarding the usecases and the
6802          suggested configurations:
6803
6804          * If android.scaler.availableRecommendedStreamConfigurations is set, then recommended
6805          stream configurations must be present for all mandatory usecases PREVIEW,
6806          SNAPSHOT, RECORD, VIDEO_SNAPSHOT. ZSL and RAW are
6807          required depending on device capabilities see android.request.availableCapabilities.
6808          * Non-existing usecases and non-vendor usecases within the range
6809          (RAW : VENDOR_START] are prohibited as well as stream configurations not
6810          present in the exhaustive android.scaler.availableStreamConfigurations list.
6811
6812          For example, in case the camera device supports only 4K and 1080p and both resolutions are
6813          recommended for the mandatory usecases except preview which can run efficiently only
6814          on 1080p. The array may look like this:
6815
6816          [3840, 2160, HAL_PIXEL_FORMAT_IMPLEMENTATION_DEFINED,
6817           ANDROID_SCALER_AVAILABLE_STREAM_CONFIGURATIONS_OUTPUT,
6818           (1&lt;&lt; ANDROID_SCALER_AVAILABLE_RECOMMENDED_STREAM_CONFIGURATIONS_RECORD |
6819           1&lt;&lt; ANDROID_SCALER_AVAILABLE_RECOMMENDED_STREAM_CONFIGURATIONS_SNAPSHOT |
6820           1&lt;&lt; ANDROID_SCALER_AVAILABLE_RECOMMENDED_STREAM_CONFIGURATIONS_VIDEO_SNAPSHOT),
6821
6822           1920, 1080, HAL_PIXEL_FORMAT_IMPLEMENTATION_DEFINED,
6823           ANDROID_SCALER_AVAILABLE_STREAM_CONFIGURATIONS_OUTPUT,
6824           (1&lt;&lt; ANDROID_SCALER_AVAILABLE_RECOMMENDED_STREAM_CONFIGURATIONS_PREVIEW |
6825           1&lt;&lt; ANDROID_SCALER_AVAILABLE_RECOMMENDED_STREAM_CONFIGURATIONS_RECORD |
6826           1&lt;&lt; ANDROID_SCALER_AVAILABLE_RECOMMENDED_STREAM_CONFIGURATIONS_SNAPSHOT |
6827           1&lt;&lt; ANDROID_SCALER_AVAILABLE_RECOMMENDED_STREAM_CONFIGURATIONS_VIDEO_SNAPSHOT)]
6828
6829          </hal_details>
6830        </entry>
6831        <entry name="availableRecommendedInputOutputFormatsMap" type="int32" visibility="ndk_public"
6832          optional="true" typedef="reprocessFormatsMap" hal_version="3.4">
6833          <description>Recommended mappings of image formats that are supported by this
6834          camera device for input streams, to their corresponding output formats.
6835          </description>
6836          <details>
6837          This is a recommended subset of the complete list of mappings found in
6838          android.scaler.availableInputOutputFormatsMap. The same requirements apply here as well.
6839          The list however doesn't need to contain all available and supported mappings. Instead of
6840          this developers must list only recommended and efficient entries.
6841          If set, the information will be available in the ZERO_SHUTTER_LAG recommended stream
6842          configuration see
6843          {@link android.hardware.camera2.CameraCharacteristics#getRecommendedStreamConfigurationMap}.
6844          </details>
6845          <hal_details>
6846          For a code sample of the required data encoding please check
6847          android.scaler.availableInputOutputFormatsMap.
6848          </hal_details>
6849          <tag id="REPROC" />
6850        </entry>
6851        <entry name="mandatoryStreamCombinations" type="int32" visibility="java_public"
6852          synthetic="true" container="array" typedef="mandatoryStreamCombination" hwlevel="limited">
6853          <array>
6854            <size>n</size>
6855          </array>
6856          <description>
6857          An array of mandatory stream combinations generated according to the camera device
6858          {@link android.hardware.camera2.CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL}
6859          and {@link android.hardware.camera2.CameraCharacteristics#REQUEST_AVAILABLE_CAPABILITIES}.
6860          This is an app-readable conversion of the mandatory stream combination
6861          {@link android.hardware.camera2.CameraDevice#createCaptureSession tables}.
6862          </description>
6863          <details>
6864          The array of
6865          {@link android.hardware.camera2.params.MandatoryStreamCombination combinations} is
6866          generated according to the documented
6867          {@link android.hardware.camera2.CameraDevice#createCaptureSession guideline} based on
6868          specific device level and capabilities.
6869          Clients can use the array as a quick reference to find an appropriate camera stream
6870          combination.
6871          As per documentation, the stream combinations with given PREVIEW, RECORD and
6872          MAXIMUM resolutions and anything smaller from the list given by
6873          {@link android.hardware.camera2.params.StreamConfigurationMap#getOutputSizes} are
6874          guaranteed to work.
6875          For a physical camera not independently exposed in
6876          {@link android.hardware.camera2.CameraManager#getCameraIdList}, the mandatory stream
6877          combinations for that physical camera Id are also generated, so that the application can
6878          configure them as physical streams via the logical camera.
6879          The mandatory stream combination array will be {@code null} in case the device is not
6880          backward compatible.
6881          </details>
6882          <hal_details>
6883          Do not set this property directly
6884          (it is synthetic and will not be available at the HAL layer).
6885          </hal_details>
6886        </entry>
6887      </static>
6888    </section>
6889    <section name="sensor">
6890      <controls>
6891        <entry name="exposureTime" type="int64" visibility="public" hwlevel="full">
6892          <description>Duration each pixel is exposed to
6893          light.</description>
6894          <units>Nanoseconds</units>
6895          <range>android.sensor.info.exposureTimeRange</range>
6896          <details>If the sensor can't expose this exact duration, it will shorten the
6897          duration exposed to the nearest possible value (rather than expose longer).
6898          The final exposure time used will be available in the output capture result.
6899
6900          This control is only effective if android.control.aeMode or android.control.mode is set to
6901          OFF; otherwise the auto-exposure algorithm will override this value.
6902          </details>
6903          <tag id="V1" />
6904        </entry>
6905        <entry name="frameDuration" type="int64" visibility="public" hwlevel="full">
6906          <description>Duration from start of frame exposure to
6907          start of next frame exposure.</description>
6908          <units>Nanoseconds</units>
6909          <range>See android.sensor.info.maxFrameDuration, {@link
6910          android.hardware.camera2.params.StreamConfigurationMap|ACAMERA_SCALER_AVAILABLE_MIN_FRAME_DURATIONS}.
6911          The duration is capped to `max(duration, exposureTime + overhead)`.</range>
6912          <details>
6913          The maximum frame rate that can be supported by a camera subsystem is
6914          a function of many factors:
6915
6916          * Requested resolutions of output image streams
6917          * Availability of binning / skipping modes on the imager
6918          * The bandwidth of the imager interface
6919          * The bandwidth of the various ISP processing blocks
6920
6921          Since these factors can vary greatly between different ISPs and
6922          sensors, the camera abstraction tries to represent the bandwidth
6923          restrictions with as simple a model as possible.
6924
6925          The model presented has the following characteristics:
6926
6927          * The image sensor is always configured to output the smallest
6928          resolution possible given the application's requested output stream
6929          sizes.  The smallest resolution is defined as being at least as large
6930          as the largest requested output stream size; the camera pipeline must
6931          never digitally upsample sensor data when the crop region covers the
6932          whole sensor. In general, this means that if only small output stream
6933          resolutions are configured, the sensor can provide a higher frame
6934          rate.
6935          * Since any request may use any or all the currently configured
6936          output streams, the sensor and ISP must be configured to support
6937          scaling a single capture to all the streams at the same time.  This
6938          means the camera pipeline must be ready to produce the largest
6939          requested output size without any delay.  Therefore, the overall
6940          frame rate of a given configured stream set is governed only by the
6941          largest requested stream resolution.
6942          * Using more than one output stream in a request does not affect the
6943          frame duration.
6944          * Certain format-streams may need to do additional background processing
6945          before data is consumed/produced by that stream. These processors
6946          can run concurrently to the rest of the camera pipeline, but
6947          cannot process more than 1 capture at a time.
6948
6949          The necessary information for the application, given the model above, is provided via
6950          {@link
6951          android.hardware.camera2.params.StreamConfigurationMap#getOutputMinFrameDuration|ACAMERA_SCALER_AVAILABLE_MIN_FRAME_DURATIONS}.
6952          These are used to determine the maximum frame rate / minimum frame duration that is
6953          possible for a given stream configuration.
6954
6955          Specifically, the application can use the following rules to
6956          determine the minimum frame duration it can request from the camera
6957          device:
6958
6959          1. Let the set of currently configured input/output streams be called `S`.
6960          1. Find the minimum frame durations for each stream in `S`, by looking it up in {@link
6961          android.hardware.camera2.params.StreamConfigurationMap#getOutputMinFrameDuration|ACAMERA_SCALER_AVAILABLE_MIN_FRAME_DURATIONS}
6962          (with its respective size/format). Let this set of frame durations be called `F`.
6963          1. For any given request `R`, the minimum frame duration allowed for `R` is the maximum
6964          out of all values in `F`. Let the streams used in `R` be called `S_r`.
6965
6966          If none of the streams in `S_r` have a stall time (listed in {@link
6967          android.hardware.camera2.params.StreamConfigurationMap#getOutputStallDuration|ACAMERA_SCALER_AVAILABLE_STALL_DURATIONS}
6968          using its respective size/format), then the frame duration in `F` determines the steady
6969          state frame rate that the application will get if it uses `R` as a repeating request. Let
6970          this special kind of request be called `Rsimple`.
6971
6972          A repeating request `Rsimple` can be _occasionally_ interleaved by a single capture of a
6973          new request `Rstall` (which has at least one in-use stream with a non-0 stall time) and if
6974          `Rstall` has the same minimum frame duration this will not cause a frame rate loss if all
6975          buffers from the previous `Rstall` have already been delivered.
6976
6977          For more details about stalling, see {@link
6978          android.hardware.camera2.params.StreamConfigurationMap#getOutputStallDuration|ACAMERA_SCALER_AVAILABLE_STALL_DURATIONS}.
6979
6980          This control is only effective if android.control.aeMode or android.control.mode is set to
6981          OFF; otherwise the auto-exposure algorithm will override this value.
6982          </details>
6983          <hal_details>
6984          For more details about stalling, see
6985          android.scaler.availableStallDurations.
6986          </hal_details>
6987          <tag id="V1" />
6988        </entry>
6989        <entry name="sensitivity" type="int32" visibility="public" hwlevel="full">
6990          <description>The amount of gain applied to sensor data
6991          before processing.</description>
6992          <units>ISO arithmetic units</units>
6993          <range>android.sensor.info.sensitivityRange</range>
6994          <details>
6995          The sensitivity is the standard ISO sensitivity value,
6996          as defined in ISO 12232:2006.
6997
6998          The sensitivity must be within android.sensor.info.sensitivityRange, and
6999          if if it less than android.sensor.maxAnalogSensitivity, the camera device
7000          is guaranteed to use only analog amplification for applying the gain.
7001
7002          If the camera device cannot apply the exact sensitivity
7003          requested, it will reduce the gain to the nearest supported
7004          value. The final sensitivity used will be available in the
7005          output capture result.
7006
7007          This control is only effective if android.control.aeMode or android.control.mode is set to
7008          OFF; otherwise the auto-exposure algorithm will override this value.
7009          </details>
7010          <hal_details>ISO 12232:2006 REI method is acceptable.</hal_details>
7011          <tag id="V1" />
7012        </entry>
7013      </controls>
7014      <static>
7015        <namespace name="info">
7016          <entry name="activeArraySize" type="int32" visibility="public"
7017          type_notes="Four ints defining the active pixel rectangle"
7018          container="array" typedef="rectangle" hwlevel="legacy">
7019            <array>
7020              <size>4</size>
7021            </array>
7022            <description>
7023            The area of the image sensor which corresponds to active pixels after any geometric
7024            distortion correction has been applied.
7025            </description>
7026            <units>Pixel coordinates on the image sensor</units>
7027            <details>
7028            This is the rectangle representing the size of the active region of the sensor (i.e.
7029            the region that actually receives light from the scene) after any geometric correction
7030            has been applied, and should be treated as the maximum size in pixels of any of the
7031            image output formats aside from the raw formats.
7032
7033            This rectangle is defined relative to the full pixel array; (0,0) is the top-left of
7034            the full pixel array, and the size of the full pixel array is given by
7035            android.sensor.info.pixelArraySize.
7036
7037            The coordinate system for most other keys that list pixel coordinates, including
7038            android.scaler.cropRegion, is defined relative to the active array rectangle given in
7039            this field, with `(0, 0)` being the top-left of this rectangle.
7040
7041            The active array may be smaller than the full pixel array, since the full array may
7042            include black calibration pixels or other inactive regions.
7043
7044            For devices that do not support android.distortionCorrection.mode control, the active
7045            array must be the same as android.sensor.info.preCorrectionActiveArraySize.
7046
7047            For devices that support android.distortionCorrection.mode control, the active array must
7048            be enclosed by android.sensor.info.preCorrectionActiveArraySize. The difference between
7049            pre-correction active array and active array accounts for scaling or cropping caused
7050            by lens geometric distortion correction.
7051
7052            In general, application should always refer to active array size for controls like
7053            metering regions or crop region. Two exceptions are when the application is dealing with
7054            RAW image buffers (RAW_SENSOR, RAW10, RAW12 etc), or when application explicitly set
7055            android.distortionCorrection.mode to OFF. In these cases, application should refer
7056            to android.sensor.info.preCorrectionActiveArraySize.
7057            </details>
7058            <ndk_details>
7059            The data representation is `int[4]`, which maps to `(left, top, width, height)`.
7060            </ndk_details>
7061            <hal_details>
7062            This array contains `(xmin, ymin, width, height)`. The `(xmin, ymin)` must be
7063            &amp;gt;= `(0,0)`.
7064            The `(width, height)` must be &amp;lt;= `android.sensor.info.pixelArraySize`.
7065            </hal_details>
7066            <tag id="RAW" />
7067          </entry>
7068          <entry name="sensitivityRange" type="int32" visibility="public"
7069          type_notes="Range of supported sensitivities"
7070          container="array" typedef="rangeInt"
7071          hwlevel="full">
7072            <array>
7073              <size>2</size>
7074            </array>
7075            <description>Range of sensitivities for android.sensor.sensitivity supported by this
7076            camera device.</description>
7077            <range>Min &lt;= 100, Max &amp;gt;= 800</range>
7078            <details>
7079              The values are the standard ISO sensitivity values,
7080              as defined in ISO 12232:2006.
7081            </details>
7082
7083            <tag id="BC" />
7084            <tag id="V1" />
7085          </entry>
7086          <entry name="colorFilterArrangement" type="byte" visibility="public" enum="true"
7087            hwlevel="full">
7088            <enum>
7089              <value>RGGB</value>
7090              <value>GRBG</value>
7091              <value>GBRG</value>
7092              <value>BGGR</value>
7093              <value>RGB
7094              <notes>Sensor is not Bayer; output has 3 16-bit
7095              values for each pixel, instead of just 1 16-bit value
7096              per pixel.</notes></value>
7097              <value hal_version="3.4">MONO
7098              <notes>Sensor doesn't have any Bayer color filter.
7099              Such sensor captures visible light in monochrome. The exact weighting and
7100              wavelengths captured is not specified, but generally only includes the visible
7101              frequencies. This value implies a MONOCHROME camera.</notes></value>
7102              <value hal_version="3.4">NIR
7103              <notes>Sensor has a near infrared filter capturing light with wavelength between
7104              roughly 750nm and 1400nm, and the same filter covers the whole sensor array. This
7105              value implies a MONOCHROME camera.</notes></value>
7106            </enum>
7107            <description>The arrangement of color filters on sensor;
7108            represents the colors in the top-left 2x2 section of
7109            the sensor, in reading order, for a Bayer camera, or the
7110            light spectrum it captures for MONOCHROME camera.
7111            </description>
7112            <hal_details>
7113            Starting from Android Q, the colorFilterArrangement for a MONOCHROME camera must be
7114            single color patterns, such as MONO or NIR.
7115            </hal_details>
7116            <tag id="RAW" />
7117          </entry>
7118          <entry name="exposureTimeRange" type="int64" visibility="public"
7119                 type_notes="nanoseconds" container="array" typedef="rangeLong"
7120                 hwlevel="full">
7121            <array>
7122              <size>2</size>
7123            </array>
7124            <description>The range of image exposure times for android.sensor.exposureTime supported
7125            by this camera device.
7126            </description>
7127            <units>Nanoseconds</units>
7128            <range>The minimum exposure time will be less than 100 us. For FULL
7129            capability devices (android.info.supportedHardwareLevel == FULL),
7130            the maximum exposure time will be greater than 100ms.</range>
7131            <hal_details>For FULL capability devices (android.info.supportedHardwareLevel == FULL),
7132            The maximum of the range SHOULD be at least 1 second (1e9), MUST be at least
7133            100ms.
7134            </hal_details>
7135            <tag id="V1" />
7136          </entry>
7137          <entry name="maxFrameDuration" type="int64" visibility="public"
7138                 hwlevel="full">
7139            <description>The maximum possible frame duration (minimum frame rate) for
7140            android.sensor.frameDuration that is supported this camera device.</description>
7141            <units>Nanoseconds</units>
7142            <range>For FULL capability devices
7143            (android.info.supportedHardwareLevel == FULL), at least 100ms.
7144            </range>
7145            <details>Attempting to use frame durations beyond the maximum will result in the frame
7146            duration being clipped to the maximum. See that control for a full definition of frame
7147            durations.
7148
7149            Refer to {@link
7150            android.hardware.camera2.params.StreamConfigurationMap#getOutputMinFrameDuration|ACAMERA_SCALER_AVAILABLE_MIN_FRAME_DURATIONS}
7151            for the minimum frame duration values.
7152            </details>
7153            <hal_details>
7154            For FULL capability devices (android.info.supportedHardwareLevel == FULL),
7155            The maximum of the range SHOULD be at least
7156            1 second (1e9), MUST be at least 100ms (100e6).
7157
7158            android.sensor.info.maxFrameDuration must be greater or
7159            equal to the android.sensor.info.exposureTimeRange max
7160            value (since exposure time overrides frame duration).
7161
7162            Available minimum frame durations for JPEG must be no greater
7163            than that of the YUV_420_888/IMPLEMENTATION_DEFINED
7164            minimum frame durations (for that respective size).
7165
7166            Since JPEG processing is considered offline and can take longer than
7167            a single uncompressed capture, refer to
7168            android.scaler.availableStallDurations
7169            for details about encoding this scenario.
7170            </hal_details>
7171            <tag id="V1" />
7172          </entry>
7173          <entry name="physicalSize" type="float" visibility="public"
7174          type_notes="width x height"
7175          container="array" typedef="sizeF" hwlevel="legacy">
7176            <array>
7177              <size>2</size>
7178            </array>
7179            <description>The physical dimensions of the full pixel
7180            array.</description>
7181            <units>Millimeters</units>
7182            <details>This is the physical size of the sensor pixel
7183            array defined by android.sensor.info.pixelArraySize.
7184            </details>
7185            <hal_details>Needed for FOV calculation for old API</hal_details>
7186            <tag id="V1" />
7187            <tag id="BC" />
7188          </entry>
7189          <entry name="pixelArraySize" type="int32" visibility="public"
7190          container="array" typedef="size" hwlevel="legacy">
7191            <array>
7192              <size>2</size>
7193            </array>
7194            <description>Dimensions of the full pixel array, possibly
7195            including black calibration pixels.</description>
7196            <units>Pixels</units>
7197            <details>The pixel count of the full pixel array of the image sensor, which covers
7198            android.sensor.info.physicalSize area.  This represents the full pixel dimensions of
7199            the raw buffers produced by this sensor.
7200
7201            If a camera device supports raw sensor formats, either this or
7202            android.sensor.info.preCorrectionActiveArraySize is the maximum dimensions for the raw
7203            output formats listed in {@link
7204            android.hardware.camera2.params.StreamConfigurationMap|ACAMERA_SCALER_AVAILABLE_STREAM_CONFIGURATIONS}
7205            (this depends on whether or not the image sensor returns buffers containing pixels that
7206            are not part of the active array region for blacklevel calibration or other purposes).
7207
7208            Some parts of the full pixel array may not receive light from the scene,
7209            or be otherwise inactive.  The android.sensor.info.preCorrectionActiveArraySize key
7210            defines the rectangle of active pixels that will be included in processed image
7211            formats.
7212            </details>
7213            <tag id="RAW" />
7214            <tag id="BC" />
7215          </entry>
7216          <entry name="whiteLevel" type="int32" visibility="public">
7217            <description>
7218            Maximum raw value output by sensor.
7219            </description>
7220            <range>&amp;gt; 255 (8-bit output)</range>
7221            <details>
7222            This specifies the fully-saturated encoding level for the raw
7223            sample values from the sensor.  This is typically caused by the
7224            sensor becoming highly non-linear or clipping. The minimum for
7225            each channel is specified by the offset in the
7226            android.sensor.blackLevelPattern key.
7227
7228            The white level is typically determined either by sensor bit depth
7229            (8-14 bits is expected), or by the point where the sensor response
7230            becomes too non-linear to be useful.  The default value for this is
7231            maximum representable value for a 16-bit raw sample (2^16 - 1).
7232
7233            The white level values of captured images may vary for different
7234            capture settings (e.g., android.sensor.sensitivity). This key
7235            represents a coarse approximation for such case. It is recommended
7236            to use android.sensor.dynamicWhiteLevel for captures when supported
7237            by the camera device, which provides more accurate white level values.
7238            </details>
7239            <hal_details>
7240            The full bit depth of the sensor must be available in the raw data,
7241            so the value for linear sensors should not be significantly lower
7242            than maximum raw value supported, i.e. 2^(sensor bits per pixel).
7243            </hal_details>
7244            <tag id="RAW" />
7245          </entry>
7246          <entry name="timestampSource" type="byte" visibility="public"
7247                 enum="true" hwlevel="legacy">
7248            <enum>
7249              <value>UNKNOWN
7250                <notes>
7251                Timestamps from android.sensor.timestamp are in nanoseconds and monotonic,
7252                but can not be compared to timestamps from other subsystems
7253                (e.g. accelerometer, gyro etc.), or other instances of the same or different
7254                camera devices in the same system. Timestamps between streams and results for
7255                a single camera instance are comparable, and the timestamps for all buffers
7256                and the result metadata generated by a single capture are identical.
7257                </notes>
7258              </value>
7259              <value>REALTIME
7260                <notes>
7261                Timestamps from android.sensor.timestamp are in the same timebase as
7262                {@link android.os.SystemClock#elapsedRealtimeNanos},
7263                and they can be compared to other timestamps using that base.
7264                </notes>
7265              </value>
7266            </enum>
7267            <description>The time base source for sensor capture start timestamps.</description>
7268            <details>
7269            The timestamps provided for captures are always in nanoseconds and monotonic, but
7270            may not based on a time source that can be compared to other system time sources.
7271
7272            This characteristic defines the source for the timestamps, and therefore whether they
7273            can be compared against other system time sources/timestamps.
7274            </details>
7275            <hal_details>
7276            For camera devices implement UNKNOWN, the camera framework expects that the timestamp
7277            source to be SYSTEM_TIME_MONOTONIC. For camera devices implement REALTIME, the camera
7278            framework expects that the timestamp source to be SYSTEM_TIME_BOOTTIME. See
7279            system/core/include/utils/Timers.h for the definition of SYSTEM_TIME_MONOTONIC and
7280            SYSTEM_TIME_BOOTTIME. Note that HAL must follow above expectation; otherwise video
7281            recording might suffer unexpected behavior.
7282
7283            Also, camera devices which implement REALTIME must pass the ITS sensor fusion test which
7284            tests the alignment between camera timestamps and gyro sensor timestamps.
7285            </hal_details>
7286          <tag id="V1" />
7287        </entry>
7288        <entry name="lensShadingApplied" type="byte" visibility="public" enum="true"
7289               typedef="boolean">
7290          <enum>
7291            <value>FALSE</value>
7292            <value>TRUE</value>
7293          </enum>
7294          <description>Whether the RAW images output from this camera device are subject to
7295          lens shading correction.</description>
7296          <details>
7297          If TRUE, all images produced by the camera device in the RAW image formats will
7298          have lens shading correction already applied to it. If FALSE, the images will
7299          not be adjusted for lens shading correction.
7300          See android.request.maxNumOutputRaw for a list of RAW image formats.
7301
7302          This key will be `null` for all devices do not report this information.
7303          Devices with RAW capability will always report this information in this key.
7304          </details>
7305        </entry>
7306        <entry name="preCorrectionActiveArraySize" type="int32" visibility="public"
7307          type_notes="Four ints defining the active pixel rectangle" container="array"
7308          typedef="rectangle" hwlevel="legacy">
7309            <array>
7310              <size>4</size>
7311            </array>
7312            <description>
7313            The area of the image sensor which corresponds to active pixels prior to the
7314            application of any geometric distortion correction.
7315            </description>
7316            <units>Pixel coordinates on the image sensor</units>
7317            <details>
7318            This is the rectangle representing the size of the active region of the sensor (i.e.
7319            the region that actually receives light from the scene) before any geometric correction
7320            has been applied, and should be treated as the active region rectangle for any of the
7321            raw formats.  All metadata associated with raw processing (e.g. the lens shading
7322            correction map, and radial distortion fields) treats the top, left of this rectangle as
7323            the origin, (0,0).
7324
7325            The size of this region determines the maximum field of view and the maximum number of
7326            pixels that an image from this sensor can contain, prior to the application of
7327            geometric distortion correction. The effective maximum pixel dimensions of a
7328            post-distortion-corrected image is given by the android.sensor.info.activeArraySize
7329            field, and the effective maximum field of view for a post-distortion-corrected image
7330            can be calculated by applying the geometric distortion correction fields to this
7331            rectangle, and cropping to the rectangle given in android.sensor.info.activeArraySize.
7332
7333            E.g. to calculate position of a pixel, (x,y), in a processed YUV output image with the
7334            dimensions in android.sensor.info.activeArraySize given the position of a pixel,
7335            (x', y'), in the raw pixel array with dimensions give in
7336            android.sensor.info.pixelArraySize:
7337
7338            1. Choose a pixel (x', y') within the active array region of the raw buffer given in
7339            android.sensor.info.preCorrectionActiveArraySize, otherwise this pixel is considered
7340            to be outside of the FOV, and will not be shown in the processed output image.
7341            1. Apply geometric distortion correction to get the post-distortion pixel coordinate,
7342            (x_i, y_i). When applying geometric correction metadata, note that metadata for raw
7343            buffers is defined relative to the top, left of the
7344            android.sensor.info.preCorrectionActiveArraySize rectangle.
7345            1. If the resulting corrected pixel coordinate is within the region given in
7346            android.sensor.info.activeArraySize, then the position of this pixel in the
7347            processed output image buffer is `(x_i - activeArray.left, y_i - activeArray.top)`,
7348            when the top, left coordinate of that buffer is treated as (0, 0).
7349
7350            Thus, for pixel x',y' = (25, 25) on a sensor where android.sensor.info.pixelArraySize
7351            is (100,100), android.sensor.info.preCorrectionActiveArraySize is (10, 10, 100, 100),
7352            android.sensor.info.activeArraySize is (20, 20, 80, 80), and the geometric distortion
7353            correction doesn't change the pixel coordinate, the resulting pixel selected in
7354            pixel coordinates would be x,y = (25, 25) relative to the top,left of the raw buffer
7355            with dimensions given in android.sensor.info.pixelArraySize, and would be (5, 5)
7356            relative to the top,left of post-processed YUV output buffer with dimensions given in
7357            android.sensor.info.activeArraySize.
7358
7359            The currently supported fields that correct for geometric distortion are:
7360
7361            1. android.lens.distortion.
7362
7363            If the camera device doesn't support geometric distortion correction, or all of the
7364            geometric distortion fields are no-ops, this rectangle will be the same as the
7365            post-distortion-corrected rectangle given in android.sensor.info.activeArraySize.
7366
7367            This rectangle is defined relative to the full pixel array; (0,0) is the top-left of
7368            the full pixel array, and the size of the full pixel array is given by
7369            android.sensor.info.pixelArraySize.
7370
7371            The pre-correction active array may be smaller than the full pixel array, since the
7372            full array may include black calibration pixels or other inactive regions.
7373            </details>
7374            <ndk_details>
7375            The data representation is `int[4]`, which maps to `(left, top, width, height)`.
7376            </ndk_details>
7377            <hal_details>
7378            This array contains `(xmin, ymin, width, height)`. The `(xmin, ymin)` must be
7379            &amp;gt;= `(0,0)`.
7380            The `(width, height)` must be &amp;lt;= `android.sensor.info.pixelArraySize`.
7381
7382            If omitted by the HAL implementation, the camera framework will assume that this is
7383            the same as the post-correction active array region given in
7384            android.sensor.info.activeArraySize.
7385            </hal_details>
7386            <tag id="RAW" />
7387          </entry>
7388        </namespace>
7389        <entry name="referenceIlluminant1" type="byte" visibility="public"
7390               enum="true" permission_needed="true" >
7391          <enum>
7392            <value id="1">DAYLIGHT</value>
7393            <value id="2">FLUORESCENT</value>
7394            <value id="3">TUNGSTEN
7395              <notes>Incandescent light</notes>
7396            </value>
7397            <value id="4">FLASH</value>
7398            <value id="9">FINE_WEATHER</value>
7399            <value id="10">CLOUDY_WEATHER</value>
7400            <value id="11">SHADE</value>
7401            <value id="12">DAYLIGHT_FLUORESCENT
7402              <notes>D 5700 - 7100K</notes>
7403            </value>
7404            <value id="13">DAY_WHITE_FLUORESCENT
7405              <notes>N 4600 - 5400K</notes>
7406            </value>
7407            <value id="14">COOL_WHITE_FLUORESCENT
7408              <notes>W 3900 - 4500K</notes>
7409            </value>
7410            <value id="15">WHITE_FLUORESCENT
7411              <notes>WW 3200 - 3700K</notes>
7412            </value>
7413            <value id="17">STANDARD_A</value>
7414            <value id="18">STANDARD_B</value>
7415            <value id="19">STANDARD_C</value>
7416            <value id="20">D55</value>
7417            <value id="21">D65</value>
7418            <value id="22">D75</value>
7419            <value id="23">D50</value>
7420            <value id="24">ISO_STUDIO_TUNGSTEN</value>
7421          </enum>
7422          <description>
7423          The standard reference illuminant used as the scene light source when
7424          calculating the android.sensor.colorTransform1,
7425          android.sensor.calibrationTransform1, and
7426          android.sensor.forwardMatrix1 matrices.
7427          </description>
7428          <details>
7429          The values in this key correspond to the values defined for the
7430          EXIF LightSource tag. These illuminants are standard light sources
7431          that are often used calibrating camera devices.
7432
7433          If this key is present, then android.sensor.colorTransform1,
7434          android.sensor.calibrationTransform1, and
7435          android.sensor.forwardMatrix1 will also be present.
7436
7437          Some devices may choose to provide a second set of calibration
7438          information for improved quality, including
7439          android.sensor.referenceIlluminant2 and its corresponding matrices.
7440
7441          Starting from Android Q, this key will not be present for a MONOCHROME camera, even if
7442          the camera device has RAW capability.
7443          </details>
7444          <hal_details>
7445          The first reference illuminant (android.sensor.referenceIlluminant1)
7446          and corresponding matrices must be present to support the RAW capability
7447          and DNG output.
7448
7449          When producing raw images with a color profile that has only been
7450          calibrated against a single light source, it is valid to omit
7451          android.sensor.referenceIlluminant2 along with the
7452          android.sensor.colorTransform2, android.sensor.calibrationTransform2,
7453          and android.sensor.forwardMatrix2 matrices.
7454
7455          If only android.sensor.referenceIlluminant1 is included, it should be
7456          chosen so that it is representative of typical scene lighting.  In
7457          general, D50 or DAYLIGHT will be chosen for this case.
7458
7459          If both android.sensor.referenceIlluminant1 and
7460          android.sensor.referenceIlluminant2 are included, they should be
7461          chosen to represent the typical range of scene lighting conditions.
7462          In general, low color temperature illuminant such as Standard-A will
7463          be chosen for the first reference illuminant and a higher color
7464          temperature illuminant such as D65 will be chosen for the second
7465          reference illuminant.
7466          </hal_details>
7467          <tag id="RAW" />
7468        </entry>
7469        <entry name="referenceIlluminant2" type="byte" visibility="public"
7470        permission_needed="true" >
7471          <description>
7472          The standard reference illuminant used as the scene light source when
7473          calculating the android.sensor.colorTransform2,
7474          android.sensor.calibrationTransform2, and
7475          android.sensor.forwardMatrix2 matrices.
7476          </description>
7477          <range>Any value listed in android.sensor.referenceIlluminant1</range>
7478          <details>
7479          See android.sensor.referenceIlluminant1 for more details.
7480
7481          If this key is present, then android.sensor.colorTransform2,
7482          android.sensor.calibrationTransform2, and
7483          android.sensor.forwardMatrix2 will also be present.
7484
7485          Starting from Android Q, this key will not be present for a MONOCHROME camera, even if
7486          the camera device has RAW capability.
7487          </details>
7488          <tag id="RAW" />
7489        </entry>
7490        <entry name="calibrationTransform1" type="rational"
7491        visibility="public" optional="true"
7492        type_notes="3x3 matrix in row-major-order" container="array"
7493        typedef="colorSpaceTransform" permission_needed="true" >
7494          <array>
7495            <size>3</size>
7496            <size>3</size>
7497          </array>
7498          <description>
7499          A per-device calibration transform matrix that maps from the
7500          reference sensor colorspace to the actual device sensor colorspace.
7501          </description>
7502          <details>
7503          This matrix is used to correct for per-device variations in the
7504          sensor colorspace, and is used for processing raw buffer data.
7505
7506          The matrix is expressed as a 3x3 matrix in row-major-order, and
7507          contains a per-device calibration transform that maps colors
7508          from reference sensor color space (i.e. the "golden module"
7509          colorspace) into this camera device's native sensor color
7510          space under the first reference illuminant
7511          (android.sensor.referenceIlluminant1).
7512
7513          Starting from Android Q, this key will not be present for a MONOCHROME camera, even if
7514          the camera device has RAW capability.
7515          </details>
7516          <tag id="RAW" />
7517        </entry>
7518        <entry name="calibrationTransform2" type="rational"
7519        visibility="public" optional="true"
7520        type_notes="3x3 matrix in row-major-order" container="array"
7521        typedef="colorSpaceTransform" permission_needed="true" >
7522          <array>
7523            <size>3</size>
7524            <size>3</size>
7525          </array>
7526          <description>
7527          A per-device calibration transform matrix that maps from the
7528          reference sensor colorspace to the actual device sensor colorspace
7529          (this is the colorspace of the raw buffer data).
7530          </description>
7531          <details>
7532          This matrix is used to correct for per-device variations in the
7533          sensor colorspace, and is used for processing raw buffer data.
7534
7535          The matrix is expressed as a 3x3 matrix in row-major-order, and
7536          contains a per-device calibration transform that maps colors
7537          from reference sensor color space (i.e. the "golden module"
7538          colorspace) into this camera device's native sensor color
7539          space under the second reference illuminant
7540          (android.sensor.referenceIlluminant2).
7541
7542          This matrix will only be present if the second reference
7543          illuminant is present.
7544
7545          Starting from Android Q, this key will not be present for a MONOCHROME camera, even if
7546          the camera device has RAW capability.
7547          </details>
7548          <tag id="RAW" />
7549        </entry>
7550        <entry name="colorTransform1" type="rational"
7551        visibility="public" optional="true"
7552        type_notes="3x3 matrix in row-major-order" container="array"
7553        typedef="colorSpaceTransform" permission_needed="true" >
7554          <array>
7555            <size>3</size>
7556            <size>3</size>
7557          </array>
7558          <description>
7559          A matrix that transforms color values from CIE XYZ color space to
7560          reference sensor color space.
7561          </description>
7562          <details>
7563          This matrix is used to convert from the standard CIE XYZ color
7564          space to the reference sensor colorspace, and is used when processing
7565          raw buffer data.
7566
7567          The matrix is expressed as a 3x3 matrix in row-major-order, and
7568          contains a color transform matrix that maps colors from the CIE
7569          XYZ color space to the reference sensor color space (i.e. the
7570          "golden module" colorspace) under the first reference illuminant
7571          (android.sensor.referenceIlluminant1).
7572
7573          The white points chosen in both the reference sensor color space
7574          and the CIE XYZ colorspace when calculating this transform will
7575          match the standard white point for the first reference illuminant
7576          (i.e. no chromatic adaptation will be applied by this transform).
7577
7578          Starting from Android Q, this key will not be present for a MONOCHROME camera, even if
7579          the camera device has RAW capability.
7580          </details>
7581          <tag id="RAW" />
7582        </entry>
7583        <entry name="colorTransform2" type="rational"
7584        visibility="public" optional="true"
7585        type_notes="3x3 matrix in row-major-order" container="array"
7586        typedef="colorSpaceTransform" permission_needed="true" >
7587          <array>
7588            <size>3</size>
7589            <size>3</size>
7590          </array>
7591          <description>
7592          A matrix that transforms color values from CIE XYZ color space to
7593          reference sensor color space.
7594          </description>
7595          <details>
7596          This matrix is used to convert from the standard CIE XYZ color
7597          space to the reference sensor colorspace, and is used when processing
7598          raw buffer data.
7599
7600          The matrix is expressed as a 3x3 matrix in row-major-order, and
7601          contains a color transform matrix that maps colors from the CIE
7602          XYZ color space to the reference sensor color space (i.e. the
7603          "golden module" colorspace) under the second reference illuminant
7604          (android.sensor.referenceIlluminant2).
7605
7606          The white points chosen in both the reference sensor color space
7607          and the CIE XYZ colorspace when calculating this transform will
7608          match the standard white point for the second reference illuminant
7609          (i.e. no chromatic adaptation will be applied by this transform).
7610
7611          This matrix will only be present if the second reference
7612          illuminant is present.
7613
7614          Starting from Android Q, this key will not be present for a MONOCHROME camera, even if
7615          the camera device has RAW capability.
7616          </details>
7617          <tag id="RAW" />
7618        </entry>
7619        <entry name="forwardMatrix1" type="rational"
7620        visibility="public" optional="true"
7621        type_notes="3x3 matrix in row-major-order" container="array"
7622        typedef="colorSpaceTransform" permission_needed="true" >
7623          <array>
7624            <size>3</size>
7625            <size>3</size>
7626          </array>
7627          <description>
7628          A matrix that transforms white balanced camera colors from the reference
7629          sensor colorspace to the CIE XYZ colorspace with a D50 whitepoint.
7630          </description>
7631          <details>
7632          This matrix is used to convert to the standard CIE XYZ colorspace, and
7633          is used when processing raw buffer data.
7634
7635          This matrix is expressed as a 3x3 matrix in row-major-order, and contains
7636          a color transform matrix that maps white balanced colors from the
7637          reference sensor color space to the CIE XYZ color space with a D50 white
7638          point.
7639
7640          Under the first reference illuminant (android.sensor.referenceIlluminant1)
7641          this matrix is chosen so that the standard white point for this reference
7642          illuminant in the reference sensor colorspace is mapped to D50 in the
7643          CIE XYZ colorspace.
7644
7645          Starting from Android Q, this key will not be present for a MONOCHROME camera, even if
7646          the camera device has RAW capability.
7647          </details>
7648          <tag id="RAW" />
7649        </entry>
7650        <entry name="forwardMatrix2" type="rational"
7651        visibility="public" optional="true"
7652        type_notes="3x3 matrix in row-major-order" container="array"
7653        typedef="colorSpaceTransform" permission_needed="true" >
7654          <array>
7655            <size>3</size>
7656            <size>3</size>
7657          </array>
7658          <description>
7659          A matrix that transforms white balanced camera colors from the reference
7660          sensor colorspace to the CIE XYZ colorspace with a D50 whitepoint.
7661          </description>
7662          <details>
7663          This matrix is used to convert to the standard CIE XYZ colorspace, and
7664          is used when processing raw buffer data.
7665
7666          This matrix is expressed as a 3x3 matrix in row-major-order, and contains
7667          a color transform matrix that maps white balanced colors from the
7668          reference sensor color space to the CIE XYZ color space with a D50 white
7669          point.
7670
7671          Under the second reference illuminant (android.sensor.referenceIlluminant2)
7672          this matrix is chosen so that the standard white point for this reference
7673          illuminant in the reference sensor colorspace is mapped to D50 in the
7674          CIE XYZ colorspace.
7675
7676          This matrix will only be present if the second reference
7677          illuminant is present.
7678
7679          Starting from Android Q, this key will not be present for a MONOCHROME camera, even if
7680          the camera device has RAW capability.
7681          </details>
7682          <tag id="RAW" />
7683        </entry>
7684        <entry name="baseGainFactor" type="rational"
7685        optional="true">
7686          <description>Gain factor from electrons to raw units when
7687          ISO=100</description>
7688          <tag id="FUTURE" />
7689        </entry>
7690        <entry name="blackLevelPattern" type="int32" visibility="public"
7691        optional="true" type_notes="2x2 raw count block" container="array"
7692        typedef="blackLevelPattern">
7693          <array>
7694            <size>4</size>
7695          </array>
7696          <description>
7697          A fixed black level offset for each of the color filter arrangement
7698          (CFA) mosaic channels.
7699          </description>
7700          <range>&amp;gt;= 0 for each.</range>
7701          <details>
7702          This key specifies the zero light value for each of the CFA mosaic
7703          channels in the camera sensor.  The maximal value output by the
7704          sensor is represented by the value in android.sensor.info.whiteLevel.
7705
7706          The values are given in the same order as channels listed for the CFA
7707          layout key (see android.sensor.info.colorFilterArrangement), i.e. the
7708          nth value given corresponds to the black level offset for the nth
7709          color channel listed in the CFA.
7710
7711          The black level values of captured images may vary for different
7712          capture settings (e.g., android.sensor.sensitivity). This key
7713          represents a coarse approximation for such case. It is recommended to
7714          use android.sensor.dynamicBlackLevel or use pixels from
7715          android.sensor.opticalBlackRegions directly for captures when
7716          supported by the camera device, which provides more accurate black
7717          level values. For raw capture in particular, it is recommended to use
7718          pixels from android.sensor.opticalBlackRegions to calculate black
7719          level values for each frame.
7720
7721          For a MONOCHROME camera device, all of the 2x2 channels must have the same values.
7722          </details>
7723          <hal_details>
7724          The values are given in row-column scan order, with the first value
7725          corresponding to the element of the CFA in row=0, column=0.
7726          </hal_details>
7727          <tag id="RAW" />
7728        </entry>
7729        <entry name="maxAnalogSensitivity" type="int32" visibility="public"
7730               optional="true" hwlevel="full">
7731          <description>Maximum sensitivity that is implemented
7732          purely through analog gain.</description>
7733          <details>For android.sensor.sensitivity values less than or
7734          equal to this, all applied gain must be analog. For
7735          values above this, the gain applied can be a mix of analog and
7736          digital.</details>
7737          <tag id="V1" />
7738          <tag id="FULL" />
7739        </entry>
7740        <entry name="orientation" type="int32" visibility="public"
7741               hwlevel="legacy">
7742          <description>Clockwise angle through which the output image needs to be rotated to be
7743          upright on the device screen in its native orientation.
7744          </description>
7745          <units>Degrees of clockwise rotation; always a multiple of
7746          90</units>
7747          <range>0, 90, 180, 270</range>
7748          <details>
7749          Also defines the direction of rolling shutter readout, which is from top to bottom in
7750          the sensor's coordinate system.
7751          </details>
7752          <tag id="BC" />
7753        </entry>
7754        <entry name="profileHueSatMapDimensions" type="int32"
7755        visibility="system" optional="true"
7756        type_notes="Number of samples for hue, saturation, and value"
7757        container="array">
7758          <array>
7759            <size>3</size>
7760          </array>
7761          <description>
7762          The number of input samples for each dimension of
7763          android.sensor.profileHueSatMap.
7764          </description>
7765          <range>
7766          Hue &amp;gt;= 1,
7767          Saturation &amp;gt;= 2,
7768          Value &amp;gt;= 1
7769          </range>
7770          <details>
7771          The number of input samples for the hue, saturation, and value
7772          dimension of android.sensor.profileHueSatMap. The order of the
7773          dimensions given is hue, saturation, value; where hue is the 0th
7774          element.
7775          </details>
7776          <tag id="RAW" />
7777        </entry>
7778      </static>
7779      <dynamic>
7780        <clone entry="android.sensor.exposureTime" kind="controls">
7781        </clone>
7782        <clone entry="android.sensor.frameDuration"
7783        kind="controls"></clone>
7784        <clone entry="android.sensor.sensitivity" kind="controls">
7785        </clone>
7786        <entry name="timestamp" type="int64" visibility="public"
7787               hwlevel="legacy">
7788          <description>Time at start of exposure of first
7789          row of the image sensor active array, in nanoseconds.</description>
7790          <units>Nanoseconds</units>
7791          <range>&amp;gt; 0</range>
7792          <details>The timestamps are also included in all image
7793          buffers produced for the same capture, and will be identical
7794          on all the outputs.
7795
7796          When android.sensor.info.timestampSource `==` UNKNOWN,
7797          the timestamps measure time since an unspecified starting point,
7798          and are monotonically increasing. They can be compared with the
7799          timestamps for other captures from the same camera device, but are
7800          not guaranteed to be comparable to any other time source.
7801
7802          When android.sensor.info.timestampSource `==` REALTIME, the
7803          timestamps measure time in the same timebase as {@link
7804          android.os.SystemClock#elapsedRealtimeNanos}, and they can
7805          be compared to other timestamps from other subsystems that
7806          are using that base.
7807
7808          For reprocessing, the timestamp will match the start of exposure of
7809          the input image, i.e. {@link CaptureResult#SENSOR_TIMESTAMP the
7810          timestamp} in the TotalCaptureResult that was used to create the
7811          reprocess capture request.
7812          </details>
7813          <hal_details>
7814          All timestamps must be in reference to the kernel's
7815          CLOCK_BOOTTIME monotonic clock, which properly accounts for
7816          time spent asleep. This allows for synchronization with
7817          sensors that continue to operate while the system is
7818          otherwise asleep.
7819
7820          If android.sensor.info.timestampSource `==` REALTIME,
7821          The timestamp must be synchronized with the timestamps from other
7822          sensor subsystems that are using the same timebase.
7823
7824          For reprocessing, the input image's start of exposure can be looked up
7825          with android.sensor.timestamp from the metadata included in the
7826          capture request.
7827          </hal_details>
7828          <tag id="BC" />
7829        </entry>
7830        <entry name="temperature" type="float"
7831        optional="true">
7832          <description>The temperature of the sensor, sampled at the time
7833          exposure began for this frame.
7834
7835          The thermal diode being queried should be inside the sensor PCB, or
7836          somewhere close to it.
7837          </description>
7838
7839          <units>Celsius</units>
7840          <range>Optional. This value is missing if no temperature is available.</range>
7841          <tag id="FUTURE" />
7842        </entry>
7843        <entry name="neutralColorPoint" type="rational" visibility="public"
7844        optional="true" container="array">
7845          <array>
7846            <size>3</size>
7847          </array>
7848          <description>
7849          The estimated camera neutral color in the native sensor colorspace at
7850          the time of capture.
7851          </description>
7852          <details>
7853          This value gives the neutral color point encoded as an RGB value in the
7854          native sensor color space.  The neutral color point indicates the
7855          currently estimated white point of the scene illumination.  It can be
7856          used to interpolate between the provided color transforms when
7857          processing raw sensor data.
7858
7859          The order of the values is R, G, B; where R is in the lowest index.
7860
7861          Starting from Android Q, this key will not be present for a MONOCHROME camera, even if
7862          the camera device has RAW capability.
7863          </details>
7864          <tag id="RAW" />
7865        </entry>
7866        <entry name="noiseProfile" type="double" visibility="public"
7867        optional="true" type_notes="Pairs of noise model coefficients"
7868        container="array" typedef="pairDoubleDouble">
7869          <array>
7870            <size>2</size>
7871            <size>CFA Channels</size>
7872          </array>
7873          <description>
7874          Noise model coefficients for each CFA mosaic channel.
7875          </description>
7876          <details>
7877          This key contains two noise model coefficients for each CFA channel
7878          corresponding to the sensor amplification (S) and sensor readout
7879          noise (O).  These are given as pairs of coefficients for each channel
7880          in the same order as channels listed for the CFA layout key
7881          (see android.sensor.info.colorFilterArrangement).  This is
7882          represented as an array of Pair&amp;lt;Double, Double&amp;gt;, where
7883          the first member of the Pair at index n is the S coefficient and the
7884          second member is the O coefficient for the nth color channel in the CFA.
7885
7886          These coefficients are used in a two parameter noise model to describe
7887          the amount of noise present in the image for each CFA channel.  The
7888          noise model used here is:
7889
7890          N(x) = sqrt(Sx + O)
7891
7892          Where x represents the recorded signal of a CFA channel normalized to
7893          the range [0, 1], and S and O are the noise model coeffiecients for
7894          that channel.
7895
7896          A more detailed description of the noise model can be found in the
7897          Adobe DNG specification for the NoiseProfile tag.
7898
7899          For a MONOCHROME camera, there is only one color channel. So the noise model coefficients
7900          will only contain one S and one O.
7901
7902          </details>
7903          <hal_details>
7904          For a CFA layout of RGGB, the list of coefficients would be given as
7905          an array of doubles S0,O0,S1,O1,..., where S0 and O0 are the coefficients
7906          for the red channel, S1 and O1 are the coefficients for the first green
7907          channel, etc.
7908          </hal_details>
7909          <tag id="RAW" />
7910        </entry>
7911        <entry name="profileHueSatMap" type="float"
7912        visibility="system" optional="true"
7913        type_notes="Mapping for hue, saturation, and value"
7914        container="array">
7915          <array>
7916            <size>hue_samples</size>
7917            <size>saturation_samples</size>
7918            <size>value_samples</size>
7919            <size>3</size>
7920          </array>
7921          <description>
7922          A mapping containing a hue shift, saturation scale, and value scale
7923          for each pixel.
7924          </description>
7925          <units>
7926          The hue shift is given in degrees; saturation and value scale factors are
7927          unitless and are between 0 and 1 inclusive
7928          </units>
7929          <details>
7930          hue_samples, saturation_samples, and value_samples are given in
7931          android.sensor.profileHueSatMapDimensions.
7932
7933          Each entry of this map contains three floats corresponding to the
7934          hue shift, saturation scale, and value scale, respectively; where the
7935          hue shift has the lowest index. The map entries are stored in the key
7936          in nested loop order, with the value divisions in the outer loop, the
7937          hue divisions in the middle loop, and the saturation divisions in the
7938          inner loop. All zero input saturation entries are required to have a
7939          value scale factor of 1.0.
7940          </details>
7941          <tag id="RAW" />
7942        </entry>
7943        <entry name="profileToneCurve" type="float"
7944        visibility="system" optional="true"
7945        type_notes="Samples defining a spline for a tone-mapping curve"
7946        container="array">
7947          <array>
7948            <size>samples</size>
7949            <size>2</size>
7950          </array>
7951          <description>
7952          A list of x,y samples defining a tone-mapping curve for gamma adjustment.
7953          </description>
7954          <range>
7955          Each sample has an input range of `[0, 1]` and an output range of
7956          `[0, 1]`.  The first sample is required to be `(0, 0)`, and the last
7957          sample is required to be `(1, 1)`.
7958          </range>
7959          <details>
7960          This key contains a default tone curve that can be applied while
7961          processing the image as a starting point for user adjustments.
7962          The curve is specified as a list of value pairs in linear gamma.
7963          The curve is interpolated using a cubic spline.
7964          </details>
7965          <tag id="RAW" />
7966        </entry>
7967        <entry name="greenSplit" type="float" visibility="public" optional="true">
7968          <description>
7969          The worst-case divergence between Bayer green channels.
7970          </description>
7971          <range>
7972          &amp;gt;= 0
7973          </range>
7974          <details>
7975          This value is an estimate of the worst case split between the
7976          Bayer green channels in the red and blue rows in the sensor color
7977          filter array.
7978
7979          The green split is calculated as follows:
7980
7981          1. A 5x5 pixel (or larger) window W within the active sensor array is
7982          chosen. The term 'pixel' here is taken to mean a group of 4 Bayer
7983          mosaic channels (R, Gr, Gb, B).  The location and size of the window
7984          chosen is implementation defined, and should be chosen to provide a
7985          green split estimate that is both representative of the entire image
7986          for this camera sensor, and can be calculated quickly.
7987          1. The arithmetic mean of the green channels from the red
7988          rows (mean_Gr) within W is computed.
7989          1. The arithmetic mean of the green channels from the blue
7990          rows (mean_Gb) within W is computed.
7991          1. The maximum ratio R of the two means is computed as follows:
7992          `R = max((mean_Gr + 1)/(mean_Gb + 1), (mean_Gb + 1)/(mean_Gr + 1))`
7993
7994          The ratio R is the green split divergence reported for this property,
7995          which represents how much the green channels differ in the mosaic
7996          pattern.  This value is typically used to determine the treatment of
7997          the green mosaic channels when demosaicing.
7998
7999          The green split value can be roughly interpreted as follows:
8000
8001          * R &amp;lt; 1.03 is a negligible split (&amp;lt;3% divergence).
8002          * 1.20 &amp;lt;= R &amp;gt;= 1.03 will require some software
8003          correction to avoid demosaic errors (3-20% divergence).
8004          * R &amp;gt; 1.20 will require strong software correction to produce
8005          a usuable image (&amp;gt;20% divergence).
8006
8007          Starting from Android Q, this key will not be present for a MONOCHROME camera, even if
8008          the camera device has RAW capability.
8009          </details>
8010          <hal_details>
8011          The green split given may be a static value based on prior
8012          characterization of the camera sensor using the green split
8013          calculation method given here over a large, representative, sample
8014          set of images.  Other methods of calculation that produce equivalent
8015          results, and can be interpreted in the same manner, may be used.
8016          </hal_details>
8017          <tag id="RAW" />
8018        </entry>
8019      </dynamic>
8020      <controls>
8021        <entry name="testPatternData" type="int32" visibility="public" optional="true" container="array">
8022          <array>
8023            <size>4</size>
8024          </array>
8025          <description>
8026            A pixel `[R, G_even, G_odd, B]` that supplies the test pattern
8027            when android.sensor.testPatternMode is SOLID_COLOR.
8028          </description>
8029          <details>
8030          Each color channel is treated as an unsigned 32-bit integer.
8031          The camera device then uses the most significant X bits
8032          that correspond to how many bits are in its Bayer raw sensor
8033          output.
8034
8035          For example, a sensor with RAW10 Bayer output would use the
8036          10 most significant bits from each color channel.
8037          </details>
8038          <hal_details>
8039          </hal_details>
8040        </entry>
8041        <entry name="testPatternMode" type="int32" visibility="public" optional="true"
8042          enum="true">
8043          <enum>
8044            <value>OFF
8045              <notes>No test pattern mode is used, and the camera
8046              device returns captures from the image sensor.
8047
8048              This is the default if the key is not set.</notes>
8049            </value>
8050            <value>SOLID_COLOR
8051              <notes>
8052              Each pixel in `[R, G_even, G_odd, B]` is replaced by its
8053              respective color channel provided in
8054              android.sensor.testPatternData.
8055
8056              For example:
8057
8058                  android.testPatternData = [0, 0xFFFFFFFF, 0xFFFFFFFF, 0]
8059
8060              All green pixels are 100% green. All red/blue pixels are black.
8061
8062                  android.testPatternData = [0xFFFFFFFF, 0, 0xFFFFFFFF, 0]
8063
8064              All red pixels are 100% red. Only the odd green pixels
8065              are 100% green. All blue pixels are 100% black.
8066              </notes>
8067            </value>
8068            <value>COLOR_BARS
8069              <notes>
8070              All pixel data is replaced with an 8-bar color pattern.
8071
8072              The vertical bars (left-to-right) are as follows:
8073
8074              * 100% white
8075              * yellow
8076              * cyan
8077              * green
8078              * magenta
8079              * red
8080              * blue
8081              * black
8082
8083              In general the image would look like the following:
8084
8085                 W Y C G M R B K
8086                 W Y C G M R B K
8087                 W Y C G M R B K
8088                 W Y C G M R B K
8089                 W Y C G M R B K
8090                 . . . . . . . .
8091                 . . . . . . . .
8092                 . . . . . . . .
8093
8094                 (B = Blue, K = Black)
8095
8096             Each bar should take up 1/8 of the sensor pixel array width.
8097             When this is not possible, the bar size should be rounded
8098             down to the nearest integer and the pattern can repeat
8099             on the right side.
8100
8101             Each bar's height must always take up the full sensor
8102             pixel array height.
8103
8104             Each pixel in this test pattern must be set to either
8105             0% intensity or 100% intensity.
8106             </notes>
8107            </value>
8108            <value>COLOR_BARS_FADE_TO_GRAY
8109              <notes>
8110              The test pattern is similar to COLOR_BARS, except that
8111              each bar should start at its specified color at the top,
8112              and fade to gray at the bottom.
8113
8114              Furthermore each bar is further subdivided into a left and
8115              right half. The left half should have a smooth gradient,
8116              and the right half should have a quantized gradient.
8117
8118              In particular, the right half's should consist of blocks of the
8119              same color for 1/16th active sensor pixel array width.
8120
8121              The least significant bits in the quantized gradient should
8122              be copied from the most significant bits of the smooth gradient.
8123
8124              The height of each bar should always be a multiple of 128.
8125              When this is not the case, the pattern should repeat at the bottom
8126              of the image.
8127              </notes>
8128            </value>
8129            <value>PN9
8130              <notes>
8131              All pixel data is replaced by a pseudo-random sequence
8132              generated from a PN9 512-bit sequence (typically implemented
8133              in hardware with a linear feedback shift register).
8134
8135              The generator should be reset at the beginning of each frame,
8136              and thus each subsequent raw frame with this test pattern should
8137              be exactly the same as the last.
8138              </notes>
8139            </value>
8140            <value id="256">CUSTOM1
8141              <notes>The first custom test pattern. All custom patterns that are
8142              available only on this camera device are at least this numeric
8143              value.
8144
8145              All of the custom test patterns will be static
8146              (that is the raw image must not vary from frame to frame).
8147              </notes>
8148            </value>
8149          </enum>
8150          <description>When enabled, the sensor sends a test pattern instead of
8151          doing a real exposure from the camera.
8152          </description>
8153          <range>android.sensor.availableTestPatternModes</range>
8154          <details>
8155          When a test pattern is enabled, all manual sensor controls specified
8156          by android.sensor.* will be ignored. All other controls should
8157          work as normal.
8158
8159          For example, if manual flash is enabled, flash firing should still
8160          occur (and that the test pattern remain unmodified, since the flash
8161          would not actually affect it).
8162
8163          Defaults to OFF.
8164          </details>
8165          <hal_details>
8166          All test patterns are specified in the Bayer domain.
8167
8168          The HAL may choose to substitute test patterns from the sensor
8169          with test patterns from on-device memory. In that case, it should be
8170          indistinguishable to the ISP whether the data came from the
8171          sensor interconnect bus (such as CSI2) or memory.
8172          </hal_details>
8173        </entry>
8174      </controls>
8175      <dynamic>
8176        <clone entry="android.sensor.testPatternData" kind="controls">
8177        </clone>
8178        <clone entry="android.sensor.testPatternMode" kind="controls">
8179        </clone>
8180      </dynamic>
8181      <static>
8182        <entry name="availableTestPatternModes" type="int32" visibility="public" optional="true"
8183          type_notes="list of enums" container="array">
8184          <array>
8185            <size>n</size>
8186          </array>
8187          <description>List of sensor test pattern modes for android.sensor.testPatternMode
8188          supported by this camera device.
8189          </description>
8190          <range>Any value listed in android.sensor.testPatternMode</range>
8191          <details>
8192            Defaults to OFF, and always includes OFF if defined.
8193          </details>
8194          <hal_details>
8195            All custom modes must be >= CUSTOM1.
8196          </hal_details>
8197        </entry>
8198      </static>
8199      <dynamic>
8200        <entry name="rollingShutterSkew" type="int64" visibility="public" hwlevel="limited">
8201          <description>Duration between the start of first row exposure
8202          and the start of last row exposure.</description>
8203          <units>Nanoseconds</units>
8204          <range> &amp;gt;= 0 and &amp;lt;
8205          {@link android.hardware.camera2.params.StreamConfigurationMap#getOutputMinFrameDuration}.</range>
8206          <details>
8207          This is the exposure time skew between the first and last
8208          row exposure start times. The first row and the last row are
8209          the first and last rows inside of the
8210          android.sensor.info.activeArraySize.
8211
8212          For typical camera sensors that use rolling shutters, this is also equivalent
8213          to the frame readout time.
8214          </details>
8215          <hal_details>
8216          The HAL must report `0` if the sensor is using global shutter, where all pixels begin
8217          exposure at the same time.
8218          </hal_details>
8219          <tag id="V1" />
8220        </entry>
8221      </dynamic>
8222      <static>
8223        <entry name="opticalBlackRegions" type="int32" visibility="public" optional="true"
8224          container="array" typedef="rectangle">
8225          <array>
8226            <size>4</size>
8227            <size>num_regions</size>
8228          </array>
8229          <description>List of disjoint rectangles indicating the sensor
8230          optically shielded black pixel regions.
8231          </description>
8232          <details>
8233            In most camera sensors, the active array is surrounded by some
8234            optically shielded pixel areas. By blocking light, these pixels
8235            provides a reliable black reference for black level compensation
8236            in active array region.
8237
8238            This key provides a list of disjoint rectangles specifying the
8239            regions of optically shielded (with metal shield) black pixel
8240            regions if the camera device is capable of reading out these black
8241            pixels in the output raw images. In comparison to the fixed black
8242            level values reported by android.sensor.blackLevelPattern, this key
8243            may provide a more accurate way for the application to calculate
8244            black level of each captured raw images.
8245
8246            When this key is reported, the android.sensor.dynamicBlackLevel and
8247            android.sensor.dynamicWhiteLevel will also be reported.
8248          </details>
8249          <ndk_details>
8250            The data representation is `int[4]`, which maps to `(left, top, width, height)`.
8251          </ndk_details>
8252          <hal_details>
8253            This array contains (xmin, ymin, width, height). The (xmin, ymin)
8254            must be &amp;gt;= (0,0) and &amp;lt;=
8255            android.sensor.info.pixelArraySize. The (width, height) must be
8256            &amp;lt;= android.sensor.info.pixelArraySize. Each region must be
8257            outside the region reported by
8258            android.sensor.info.preCorrectionActiveArraySize.
8259
8260            The HAL must report minimal number of disjoint regions for the
8261            optically shielded back pixel regions. For example, if a region can
8262            be covered by one rectangle, the HAL must not split this region into
8263            multiple rectangles.
8264          </hal_details>
8265        </entry>
8266      </static>
8267      <dynamic>
8268        <entry name="dynamicBlackLevel" type="float" visibility="public"
8269        optional="true" type_notes="2x2 raw count block" container="array">
8270          <array>
8271            <size>4</size>
8272          </array>
8273          <description>
8274          A per-frame dynamic black level offset for each of the color filter
8275          arrangement (CFA) mosaic channels.
8276          </description>
8277          <range>&amp;gt;= 0 for each.</range>
8278          <details>
8279          Camera sensor black levels may vary dramatically for different
8280          capture settings (e.g. android.sensor.sensitivity). The fixed black
8281          level reported by android.sensor.blackLevelPattern may be too
8282          inaccurate to represent the actual value on a per-frame basis. The
8283          camera device internal pipeline relies on reliable black level values
8284          to process the raw images appropriately. To get the best image
8285          quality, the camera device may choose to estimate the per frame black
8286          level values either based on optically shielded black regions
8287          (android.sensor.opticalBlackRegions) or its internal model.
8288
8289          This key reports the camera device estimated per-frame zero light
8290          value for each of the CFA mosaic channels in the camera sensor. The
8291          android.sensor.blackLevelPattern may only represent a coarse
8292          approximation of the actual black level values. This value is the
8293          black level used in camera device internal image processing pipeline
8294          and generally more accurate than the fixed black level values.
8295          However, since they are estimated values by the camera device, they
8296          may not be as accurate as the black level values calculated from the
8297          optical black pixels reported by android.sensor.opticalBlackRegions.
8298
8299          The values are given in the same order as channels listed for the CFA
8300          layout key (see android.sensor.info.colorFilterArrangement), i.e. the
8301          nth value given corresponds to the black level offset for the nth
8302          color channel listed in the CFA.
8303
8304          For a MONOCHROME camera, all of the 2x2 channels must have the same values.
8305
8306          This key will be available if android.sensor.opticalBlackRegions is available or the
8307          camera device advertises this key via {@link
8308          android.hardware.camera2.CameraCharacteristics#getAvailableCaptureResultKeys|ACAMERA_REQUEST_AVAILABLE_RESULT_KEYS}.
8309          </details>
8310          <hal_details>
8311          The values are given in row-column scan order, with the first value
8312          corresponding to the element of the CFA in row=0, column=0.
8313          </hal_details>
8314          <tag id="RAW" />
8315        </entry>
8316        <entry name="dynamicWhiteLevel" type="int32" visibility="public"
8317        optional="true" >
8318          <description>
8319          Maximum raw value output by sensor for this frame.
8320          </description>
8321          <range> &amp;gt;= 0</range>
8322          <details>
8323          Since the android.sensor.blackLevelPattern may change for different
8324          capture settings (e.g., android.sensor.sensitivity), the white
8325          level will change accordingly. This key is similar to
8326          android.sensor.info.whiteLevel, but specifies the camera device
8327          estimated white level for each frame.
8328
8329          This key will be available if android.sensor.opticalBlackRegions is
8330          available or the camera device advertises this key via
8331          {@link android.hardware.camera2.CameraCharacteristics#getAvailableCaptureRequestKeys|ACAMERA_REQUEST_AVAILABLE_RESULT_KEYS}.
8332          </details>
8333          <hal_details>
8334          The full bit depth of the sensor must be available in the raw data,
8335          so the value for linear sensors should not be significantly lower
8336          than maximum raw value supported, i.e. 2^(sensor bits per pixel).
8337          </hal_details>
8338          <tag id="RAW" />
8339        </entry>
8340      </dynamic>
8341      <static>
8342        <entry name="opaqueRawSize" type="int32" visibility="system" container="array">
8343          <array>
8344            <size>n</size>
8345            <size>3</size>
8346          </array>
8347          <description>Size in bytes for all the listed opaque RAW buffer sizes</description>
8348          <range>Must be large enough to fit the opaque RAW of corresponding size produced by
8349          the camera</range>
8350          <details>
8351          This configurations are listed as `(width, height, size_in_bytes)` tuples.
8352          This is used for sizing the gralloc buffers for opaque RAW buffers.
8353          All RAW_OPAQUE output stream configuration listed in
8354          android.scaler.availableStreamConfigurations will have a corresponding tuple in
8355          this key.
8356          </details>
8357          <hal_details>
8358          This key is added in legacy HAL3.4.
8359
8360          For legacy HAL3.4 or above: devices advertising RAW_OPAQUE format output must list this
8361          key.  For legacy HAL3.3 or earlier devices: if RAW_OPAQUE ouput is advertised, camera
8362          framework will derive this key by assuming each pixel takes two bytes and no padding bytes
8363          between rows.
8364          </hal_details>
8365        </entry>
8366      </static>
8367    </section>
8368    <section name="shading">
8369      <controls>
8370        <entry name="mode" type="byte" visibility="public" enum="true" hwlevel="full">
8371          <enum>
8372            <value>OFF
8373            <notes>No lens shading correction is applied.</notes></value>
8374            <value>FAST
8375            <notes>Apply lens shading corrections, without slowing
8376            frame rate relative to sensor raw output</notes></value>
8377            <value>HIGH_QUALITY
8378            <notes>Apply high-quality lens shading correction, at the
8379            cost of possibly reduced frame rate.</notes></value>
8380          </enum>
8381          <description>Quality of lens shading correction applied
8382          to the image data.</description>
8383          <range>android.shading.availableModes</range>
8384          <details>
8385          When set to OFF mode, no lens shading correction will be applied by the
8386          camera device, and an identity lens shading map data will be provided
8387          if `android.statistics.lensShadingMapMode == ON`. For example, for lens
8388          shading map with size of `[ 4, 3 ]`,
8389          the output android.statistics.lensShadingCorrectionMap for this case will be an identity
8390          map shown below:
8391
8392              [ 1.0, 1.0, 1.0, 1.0,  1.0, 1.0, 1.0, 1.0,
8393               1.0, 1.0, 1.0, 1.0,  1.0, 1.0, 1.0, 1.0,
8394               1.0, 1.0, 1.0, 1.0,  1.0, 1.0, 1.0, 1.0,
8395               1.0, 1.0, 1.0, 1.0,  1.0, 1.0, 1.0, 1.0,
8396               1.0, 1.0, 1.0, 1.0,  1.0, 1.0, 1.0, 1.0,
8397               1.0, 1.0, 1.0, 1.0,  1.0, 1.0, 1.0, 1.0 ]
8398
8399          When set to other modes, lens shading correction will be applied by the camera
8400          device. Applications can request lens shading map data by setting
8401          android.statistics.lensShadingMapMode to ON, and then the camera device will provide lens
8402          shading map data in android.statistics.lensShadingCorrectionMap; the returned shading map
8403          data will be the one applied by the camera device for this capture request.
8404
8405          The shading map data may depend on the auto-exposure (AE) and AWB statistics, therefore
8406          the reliability of the map data may be affected by the AE and AWB algorithms. When AE and
8407          AWB are in AUTO modes(android.control.aeMode `!=` OFF and android.control.awbMode `!=`
8408          OFF), to get best results, it is recommended that the applications wait for the AE and AWB
8409          to be converged before using the returned shading map data.
8410          </details>
8411        </entry>
8412        <entry name="strength" type="byte">
8413          <description>Control the amount of shading correction
8414          applied to the images</description>
8415          <units>unitless: 1-10; 10 is full shading
8416          compensation</units>
8417          <tag id="FUTURE" />
8418        </entry>
8419      </controls>
8420      <dynamic>
8421        <clone entry="android.shading.mode" kind="controls">
8422        </clone>
8423      </dynamic>
8424      <static>
8425        <entry name="availableModes" type="byte" visibility="public"
8426            type_notes="List of enums (android.shading.mode)." container="array"
8427            typedef="enumList" hwlevel="legacy">
8428          <array>
8429            <size>n</size>
8430          </array>
8431          <description>
8432          List of lens shading modes for android.shading.mode that are supported by this camera device.
8433          </description>
8434          <range>Any value listed in android.shading.mode</range>
8435          <details>
8436              This list contains lens shading modes that can be set for the camera device.
8437              Camera devices that support the MANUAL_POST_PROCESSING capability will always
8438              list OFF and FAST mode. This includes all FULL level devices.
8439              LEGACY devices will always only support FAST mode.
8440          </details>
8441          <hal_details>
8442            HAL must support both FAST and HIGH_QUALITY if lens shading correction control is
8443            available on the camera device, but the underlying implementation can be the same for
8444            both modes. That is, if the highest quality implementation on the camera device does not
8445            slow down capture rate, then FAST and HIGH_QUALITY will generate the same output.
8446          </hal_details>
8447        </entry>
8448      </static>
8449    </section>
8450    <section name="statistics">
8451      <controls>
8452        <entry name="faceDetectMode" type="byte" visibility="public" enum="true"
8453               hwlevel="legacy">
8454          <enum>
8455            <value>OFF
8456            <notes>Do not include face detection statistics in capture
8457            results.</notes></value>
8458            <value optional="true">SIMPLE
8459            <notes>Return face rectangle and confidence values only.
8460            </notes></value>
8461            <value optional="true">FULL
8462            <notes>Return all face
8463            metadata.
8464
8465            In this mode, face rectangles, scores, landmarks, and face IDs are all valid.
8466            </notes></value>
8467          </enum>
8468          <description>Operating mode for the face detector
8469          unit.</description>
8470          <range>android.statistics.info.availableFaceDetectModes</range>
8471          <details>Whether face detection is enabled, and whether it
8472          should output just the basic fields or the full set of
8473          fields.</details>
8474          <hal_details>
8475            SIMPLE mode must fill in android.statistics.faceRectangles and
8476            android.statistics.faceScores.
8477            FULL mode must also fill in android.statistics.faceIds, and
8478            android.statistics.faceLandmarks.
8479          </hal_details>
8480          <tag id="BC" />
8481        </entry>
8482        <entry name="histogramMode" type="byte" enum="true" typedef="boolean">
8483          <enum>
8484            <value>OFF</value>
8485            <value>ON</value>
8486          </enum>
8487          <description>Operating mode for histogram
8488          generation</description>
8489          <tag id="FUTURE" />
8490        </entry>
8491        <entry name="sharpnessMapMode" type="byte" enum="true" typedef="boolean">
8492          <enum>
8493            <value>OFF</value>
8494            <value>ON</value>
8495          </enum>
8496          <description>Operating mode for sharpness map
8497          generation</description>
8498          <tag id="FUTURE" />
8499        </entry>
8500        <entry name="hotPixelMapMode" type="byte" visibility="public" enum="true"
8501        typedef="boolean">
8502          <enum>
8503            <value>OFF
8504            <notes>Hot pixel map production is disabled.
8505            </notes></value>
8506            <value>ON
8507            <notes>Hot pixel map production is enabled.
8508            </notes></value>
8509          </enum>
8510          <description>
8511          Operating mode for hot pixel map generation.
8512          </description>
8513          <range>android.statistics.info.availableHotPixelMapModes</range>
8514          <details>
8515          If set to `true`, a hot pixel map is returned in android.statistics.hotPixelMap.
8516          If set to `false`, no hot pixel map will be returned.
8517          </details>
8518          <tag id="V1" />
8519          <tag id="RAW" />
8520        </entry>
8521      </controls>
8522      <static>
8523        <namespace name="info">
8524          <entry name="availableFaceDetectModes" type="byte"
8525                 visibility="public"
8526                 type_notes="List of enums from android.statistics.faceDetectMode"
8527                 container="array"
8528                 typedef="enumList"
8529                 hwlevel="legacy">
8530            <array>
8531              <size>n</size>
8532            </array>
8533            <description>List of face detection modes for android.statistics.faceDetectMode that are
8534            supported by this camera device.
8535            </description>
8536            <range>Any value listed in android.statistics.faceDetectMode</range>
8537            <details>OFF is always supported.
8538            </details>
8539          </entry>
8540          <entry name="histogramBucketCount" type="int32">
8541            <description>Number of histogram buckets
8542            supported</description>
8543            <range>&amp;gt;= 64</range>
8544            <tag id="FUTURE" />
8545          </entry>
8546          <entry name="maxFaceCount" type="int32" visibility="public" hwlevel="legacy">
8547            <description>The maximum number of simultaneously detectable
8548            faces.</description>
8549            <range>0 for cameras without available face detection; otherwise:
8550            `&gt;=4` for LIMITED or FULL hwlevel devices or
8551            `&gt;0` for LEGACY devices.</range>
8552            <tag id="BC" />
8553          </entry>
8554          <entry name="maxHistogramCount" type="int32">
8555            <description>Maximum value possible for a histogram
8556            bucket</description>
8557            <tag id="FUTURE" />
8558          </entry>
8559          <entry name="maxSharpnessMapValue" type="int32">
8560            <description>Maximum value possible for a sharpness map
8561            region.</description>
8562            <tag id="FUTURE" />
8563          </entry>
8564          <entry name="sharpnessMapSize" type="int32"
8565          type_notes="width x height" container="array" typedef="size">
8566            <array>
8567              <size>2</size>
8568            </array>
8569            <description>Dimensions of the sharpness
8570            map</description>
8571            <range>Must be at least 32 x 32</range>
8572            <tag id="FUTURE" />
8573          </entry>
8574          <entry name="availableHotPixelMapModes" type="byte" visibility="public"
8575                 type_notes="list of enums" container="array" typedef="boolean">
8576            <array>
8577              <size>n</size>
8578            </array>
8579            <description>
8580            List of hot pixel map output modes for android.statistics.hotPixelMapMode that are
8581            supported by this camera device.
8582            </description>
8583            <range>Any value listed in android.statistics.hotPixelMapMode</range>
8584            <details>
8585            If no hotpixel map output is available for this camera device, this will contain only
8586            `false`.
8587
8588            ON is always supported on devices with the RAW capability.
8589            </details>
8590            <tag id="V1" />
8591            <tag id="RAW" />
8592          </entry>
8593          <entry name="availableLensShadingMapModes" type="byte" visibility="public"
8594                 type_notes="list of enums" container="array" typedef="enumList">
8595            <array>
8596              <size>n</size>
8597            </array>
8598            <description>
8599            List of lens shading map output modes for android.statistics.lensShadingMapMode that
8600            are supported by this camera device.
8601            </description>
8602            <range>Any value listed in android.statistics.lensShadingMapMode</range>
8603            <details>
8604            If no lens shading map output is available for this camera device, this key will
8605            contain only OFF.
8606
8607            ON is always supported on devices with the RAW capability.
8608            LEGACY mode devices will always only support OFF.
8609            </details>
8610          </entry>
8611          <entry name="availableOisDataModes" type="byte" visibility="public"
8612                 type_notes="list of enums" container="array" typedef="enumList" hal_version="3.3">
8613            <array>
8614              <size>n</size>
8615            </array>
8616            <description>
8617            List of OIS data output modes for android.statistics.oisDataMode that
8618            are supported by this camera device.
8619            </description>
8620            <range>Any value listed in android.statistics.oisDataMode</range>
8621            <details>
8622            If no OIS data output is available for this camera device, this key will
8623            contain only OFF.
8624            </details>
8625          </entry>
8626        </namespace>
8627      </static>
8628      <dynamic>
8629        <clone entry="android.statistics.faceDetectMode"
8630               kind="controls"></clone>
8631        <entry name="faceIds" type="int32" visibility="ndk_public"
8632               container="array" hwlevel="legacy">
8633          <array>
8634            <size>n</size>
8635          </array>
8636          <description>List of unique IDs for detected faces.</description>
8637          <details>
8638          Each detected face is given a unique ID that is valid for as long as the face is visible
8639          to the camera device.  A face that leaves the field of view and later returns may be
8640          assigned a new ID.
8641
8642          Only available if android.statistics.faceDetectMode == FULL</details>
8643          <tag id="BC" />
8644        </entry>
8645        <entry name="faceLandmarks" type="int32" visibility="ndk_public"
8646               type_notes="(leftEyeX, leftEyeY, rightEyeX, rightEyeY, mouthX, mouthY)"
8647               container="array" hwlevel="legacy">
8648          <array>
8649            <size>n</size>
8650            <size>6</size>
8651          </array>
8652          <description>List of landmarks for detected
8653          faces.</description>
8654          <details>
8655            For devices not supporting android.distortionCorrection.mode control, the coordinate
8656            system always follows that of android.sensor.info.activeArraySize, with `(0, 0)` being
8657            the top-left pixel of the active array.
8658
8659            For devices supporting android.distortionCorrection.mode control, the coordinate
8660            system depends on the mode being set.
8661            When the distortion correction mode is OFF, the coordinate system follows
8662            android.sensor.info.preCorrectionActiveArraySize, with
8663            `(0, 0)` being the top-left pixel of the pre-correction active array.
8664            When the distortion correction mode is not OFF, the coordinate system follows
8665            android.sensor.info.activeArraySize, with
8666            `(0, 0)` being the top-left pixel of the active array.
8667
8668            Only available if android.statistics.faceDetectMode == FULL</details>
8669          <hal_details>
8670            HAL must always report face landmarks in the coordinate system of pre-correction
8671            active array.
8672          </hal_details>
8673          <tag id="BC" />
8674        </entry>
8675        <entry name="faceRectangles" type="int32" visibility="ndk_public"
8676               type_notes="(xmin, ymin, xmax, ymax). (0,0) is top-left of active pixel area"
8677               container="array" typedef="rectangle" hwlevel="legacy">
8678          <array>
8679            <size>n</size>
8680            <size>4</size>
8681          </array>
8682          <description>List of the bounding rectangles for detected
8683          faces.</description>
8684          <details>
8685            For devices not supporting android.distortionCorrection.mode control, the coordinate
8686            system always follows that of android.sensor.info.activeArraySize, with `(0, 0)` being
8687            the top-left pixel of the active array.
8688
8689            For devices supporting android.distortionCorrection.mode control, the coordinate
8690            system depends on the mode being set.
8691            When the distortion correction mode is OFF, the coordinate system follows
8692            android.sensor.info.preCorrectionActiveArraySize, with
8693            `(0, 0)` being the top-left pixel of the pre-correction active array.
8694            When the distortion correction mode is not OFF, the coordinate system follows
8695            android.sensor.info.activeArraySize, with
8696            `(0, 0)` being the top-left pixel of the active array.
8697
8698            Only available if android.statistics.faceDetectMode != OFF</details>
8699          <ndk_details>
8700            The data representation is `int[4]`, which maps to `(left, top, right, bottom)`.
8701          </ndk_details>
8702          <hal_details>
8703            HAL must always report face rectangles in the coordinate system of pre-correction
8704            active array.
8705          </hal_details>
8706          <tag id="BC" />
8707        </entry>
8708        <entry name="faceScores" type="byte" visibility="ndk_public"
8709               container="array" hwlevel="legacy">
8710          <array>
8711            <size>n</size>
8712          </array>
8713          <description>List of the face confidence scores for
8714          detected faces</description>
8715          <range>1-100</range>
8716          <details>Only available if android.statistics.faceDetectMode != OFF.
8717          </details>
8718          <hal_details>
8719          The value should be meaningful (for example, setting 100 at
8720          all times is illegal).</hal_details>
8721          <tag id="BC" />
8722        </entry>
8723        <entry name="faces" type="int32" visibility="java_public" synthetic="true"
8724               container="array" typedef="face" hwlevel="legacy">
8725          <array>
8726            <size>n</size>
8727          </array>
8728          <description>List of the faces detected through camera face detection
8729          in this capture.</description>
8730          <details>
8731          Only available if android.statistics.faceDetectMode `!=` OFF.
8732          </details>
8733        </entry>
8734        <entry name="histogram" type="int32"
8735        type_notes="count of pixels for each color channel that fall into each histogram bucket, scaled to be between 0 and maxHistogramCount"
8736        container="array">
8737          <array>
8738            <size>n</size>
8739            <size>3</size>
8740          </array>
8741          <description>A 3-channel histogram based on the raw
8742          sensor data</description>
8743          <details>The k'th bucket (0-based) covers the input range
8744          (with w = android.sensor.info.whiteLevel) of [ k * w/N,
8745          (k + 1) * w / N ). If only a monochrome sharpness map is
8746          supported, all channels should have the same data</details>
8747          <tag id="FUTURE" />
8748        </entry>
8749        <clone entry="android.statistics.histogramMode"
8750        kind="controls"></clone>
8751        <entry name="sharpnessMap" type="int32"
8752        type_notes="estimated sharpness for each region of the input image. Normalized to be between 0 and maxSharpnessMapValue. Higher values mean sharper (better focused)"
8753        container="array">
8754          <array>
8755            <size>n</size>
8756            <size>m</size>
8757            <size>3</size>
8758          </array>
8759          <description>A 3-channel sharpness map, based on the raw
8760          sensor data</description>
8761          <details>If only a monochrome sharpness map is supported,
8762          all channels should have the same data</details>
8763          <tag id="FUTURE" />
8764        </entry>
8765        <clone entry="android.statistics.sharpnessMapMode"
8766               kind="controls"></clone>
8767        <entry name="lensShadingCorrectionMap" type="byte" visibility="java_public"
8768               typedef="lensShadingMap" hwlevel="full">
8769          <description>The shading map is a low-resolution floating-point map
8770          that lists the coefficients used to correct for vignetting, for each
8771          Bayer color channel.</description>
8772          <range>Each gain factor is &amp;gt;= 1</range>
8773          <details>
8774          The map provided here is the same map that is used by the camera device to
8775          correct both color shading and vignetting for output non-RAW images.
8776
8777          When there is no lens shading correction applied to RAW
8778          output images (android.sensor.info.lensShadingApplied `==`
8779          false), this map is the complete lens shading correction
8780          map; when there is some lens shading correction applied to
8781          the RAW output image (android.sensor.info.lensShadingApplied
8782          `==` true), this map reports the remaining lens shading
8783          correction map that needs to be applied to get shading
8784          corrected images that match the camera device's output for
8785          non-RAW formats.
8786
8787          For a complete shading correction map, the least shaded
8788          section of the image will have a gain factor of 1; all
8789          other sections will have gains above 1.
8790
8791          When android.colorCorrection.mode = TRANSFORM_MATRIX, the map
8792          will take into account the colorCorrection settings.
8793
8794          The shading map is for the entire active pixel array, and is not
8795          affected by the crop region specified in the request. Each shading map
8796          entry is the value of the shading compensation map over a specific
8797          pixel on the sensor.  Specifically, with a (N x M) resolution shading
8798          map, and an active pixel array size (W x H), shading map entry
8799          (x,y) ϵ (0 ... N-1, 0 ... M-1) is the value of the shading map at
8800          pixel ( ((W-1)/(N-1)) * x, ((H-1)/(M-1)) * y) for the four color channels.
8801          The map is assumed to be bilinearly interpolated between the sample points.
8802
8803          The channel order is [R, Geven, Godd, B], where Geven is the green
8804          channel for the even rows of a Bayer pattern, and Godd is the odd rows.
8805          The shading map is stored in a fully interleaved format.
8806
8807          The shading map will generally have on the order of 30-40 rows and columns,
8808          and will be smaller than 64x64.
8809
8810          As an example, given a very small map defined as:
8811
8812              width,height = [ 4, 3 ]
8813              values =
8814              [ 1.3, 1.2, 1.15, 1.2,  1.2, 1.2, 1.15, 1.2,
8815                  1.1, 1.2, 1.2, 1.2,  1.3, 1.2, 1.3, 1.3,
8816                1.2, 1.2, 1.25, 1.1,  1.1, 1.1, 1.1, 1.0,
8817                  1.0, 1.0, 1.0, 1.0,  1.2, 1.3, 1.25, 1.2,
8818                1.3, 1.2, 1.2, 1.3,   1.2, 1.15, 1.1, 1.2,
8819                  1.2, 1.1, 1.0, 1.2,  1.3, 1.15, 1.2, 1.3 ]
8820
8821          The low-resolution scaling map images for each channel are
8822          (displayed using nearest-neighbor interpolation):
8823
8824          ![Red lens shading map](android.statistics.lensShadingMap/red_shading.png)
8825          ![Green (even rows) lens shading map](android.statistics.lensShadingMap/green_e_shading.png)
8826          ![Green (odd rows) lens shading map](android.statistics.lensShadingMap/green_o_shading.png)
8827          ![Blue lens shading map](android.statistics.lensShadingMap/blue_shading.png)
8828
8829          As a visualization only, inverting the full-color map to recover an
8830          image of a gray wall (using bicubic interpolation for visual quality) as captured by the sensor gives:
8831
8832          ![Image of a uniform white wall (inverse shading map)](android.statistics.lensShadingMap/inv_shading.png)
8833
8834          For a MONOCHROME camera, all of the 2x2 channels must have the same values. An example
8835          shading map for such a camera is defined as:
8836
8837              android.lens.info.shadingMapSize = [ 4, 3 ]
8838              android.statistics.lensShadingMap =
8839              [ 1.3, 1.3, 1.3, 1.3,  1.2, 1.2, 1.2, 1.2,
8840                  1.1, 1.1, 1.1, 1.1,  1.3, 1.3, 1.3, 1.3,
8841                1.2, 1.2, 1.2, 1.2,  1.1, 1.1, 1.1, 1.1,
8842                  1.0, 1.0, 1.0, 1.0,  1.2, 1.2, 1.2, 1.2,
8843                1.3, 1.3, 1.3, 1.3,   1.2, 1.2, 1.2, 1.2,
8844                  1.2, 1.2, 1.2, 1.2,  1.3, 1.3, 1.3, 1.3 ]
8845
8846          </details>
8847        </entry>
8848        <entry name="lensShadingMap" type="float" visibility="ndk_public"
8849               type_notes="2D array of float gain factors per channel to correct lens shading"
8850               container="array" hwlevel="full">
8851          <array>
8852            <size>4</size>
8853            <size>n</size>
8854            <size>m</size>
8855          </array>
8856          <description>The shading map is a low-resolution floating-point map
8857          that lists the coefficients used to correct for vignetting and color shading,
8858          for each Bayer color channel of RAW image data.</description>
8859          <range>Each gain factor is &amp;gt;= 1</range>
8860          <details>
8861          The map provided here is the same map that is used by the camera device to
8862          correct both color shading and vignetting for output non-RAW images.
8863
8864          When there is no lens shading correction applied to RAW
8865          output images (android.sensor.info.lensShadingApplied `==`
8866          false), this map is the complete lens shading correction
8867          map; when there is some lens shading correction applied to
8868          the RAW output image (android.sensor.info.lensShadingApplied
8869          `==` true), this map reports the remaining lens shading
8870          correction map that needs to be applied to get shading
8871          corrected images that match the camera device's output for
8872          non-RAW formats.
8873
8874          For a complete shading correction map, the least shaded
8875          section of the image will have a gain factor of 1; all
8876          other sections will have gains above 1.
8877
8878          When android.colorCorrection.mode = TRANSFORM_MATRIX, the map
8879          will take into account the colorCorrection settings.
8880
8881          The shading map is for the entire active pixel array, and is not
8882          affected by the crop region specified in the request. Each shading map
8883          entry is the value of the shading compensation map over a specific
8884          pixel on the sensor.  Specifically, with a (N x M) resolution shading
8885          map, and an active pixel array size (W x H), shading map entry
8886          (x,y) ϵ (0 ... N-1, 0 ... M-1) is the value of the shading map at
8887          pixel ( ((W-1)/(N-1)) * x, ((H-1)/(M-1)) * y) for the four color channels.
8888          The map is assumed to be bilinearly interpolated between the sample points.
8889
8890          For a Bayer camera, the channel order is [R, Geven, Godd, B], where Geven is
8891          the green channel for the even rows of a Bayer pattern, and Godd is the odd rows.
8892          The shading map is stored in a fully interleaved format, and its size
8893          is provided in the camera static metadata by android.lens.info.shadingMapSize.
8894
8895          The shading map will generally have on the order of 30-40 rows and columns,
8896          and will be smaller than 64x64.
8897
8898          As an example, given a very small map for a Bayer camera defined as:
8899
8900              android.lens.info.shadingMapSize = [ 4, 3 ]
8901              android.statistics.lensShadingMap =
8902              [ 1.3, 1.2, 1.15, 1.2,  1.2, 1.2, 1.15, 1.2,
8903                  1.1, 1.2, 1.2, 1.2,  1.3, 1.2, 1.3, 1.3,
8904                1.2, 1.2, 1.25, 1.1,  1.1, 1.1, 1.1, 1.0,
8905                  1.0, 1.0, 1.0, 1.0,  1.2, 1.3, 1.25, 1.2,
8906                1.3, 1.2, 1.2, 1.3,   1.2, 1.15, 1.1, 1.2,
8907                  1.2, 1.1, 1.0, 1.2,  1.3, 1.15, 1.2, 1.3 ]
8908
8909          The low-resolution scaling map images for each channel are
8910          (displayed using nearest-neighbor interpolation):
8911
8912          ![Red lens shading map](android.statistics.lensShadingMap/red_shading.png)
8913          ![Green (even rows) lens shading map](android.statistics.lensShadingMap/green_e_shading.png)
8914          ![Green (odd rows) lens shading map](android.statistics.lensShadingMap/green_o_shading.png)
8915          ![Blue lens shading map](android.statistics.lensShadingMap/blue_shading.png)
8916
8917          As a visualization only, inverting the full-color map to recover an
8918          image of a gray wall (using bicubic interpolation for visual quality)
8919          as captured by the sensor gives:
8920
8921          ![Image of a uniform white wall (inverse shading map)](android.statistics.lensShadingMap/inv_shading.png)
8922
8923          For a MONOCHROME camera, all of the 2x2 channels must have the same values. An example
8924          shading map for such a camera is defined as:
8925
8926              android.lens.info.shadingMapSize = [ 4, 3 ]
8927              android.statistics.lensShadingMap =
8928              [ 1.3, 1.3, 1.3, 1.3,  1.2, 1.2, 1.2, 1.2,
8929                  1.1, 1.1, 1.1, 1.1,  1.3, 1.3, 1.3, 1.3,
8930                1.2, 1.2, 1.2, 1.2,  1.1, 1.1, 1.1, 1.1,
8931                  1.0, 1.0, 1.0, 1.0,  1.2, 1.2, 1.2, 1.2,
8932                1.3, 1.3, 1.3, 1.3,   1.2, 1.2, 1.2, 1.2,
8933                  1.2, 1.2, 1.2, 1.2,  1.3, 1.3, 1.3, 1.3 ]
8934
8935          Note that the RAW image data might be subject to lens shading
8936          correction not reported on this map. Query
8937          android.sensor.info.lensShadingApplied to see if RAW image data has subject
8938          to lens shading correction. If android.sensor.info.lensShadingApplied
8939          is TRUE, the RAW image data is subject to partial or full lens shading
8940          correction. In the case full lens shading correction is applied to RAW
8941          images, the gain factor map reported in this key will contain all 1.0 gains.
8942          In other words, the map reported in this key is the remaining lens shading
8943          that needs to be applied on the RAW image to get images without lens shading
8944          artifacts. See android.request.maxNumOutputRaw for a list of RAW image
8945          formats.
8946          </details>
8947          <hal_details>
8948          The lens shading map calculation may depend on exposure and white balance statistics.
8949          When AE and AWB are in AUTO modes
8950          (android.control.aeMode `!=` OFF and android.control.awbMode `!=` OFF), the HAL
8951          may have all the information it need to generate most accurate lens shading map. When
8952          AE or AWB are in manual mode
8953          (android.control.aeMode `==` OFF or android.control.awbMode `==` OFF), the shading map
8954          may be adversely impacted by manual exposure or white balance parameters. To avoid
8955          generating unreliable shading map data, the HAL may choose to lock the shading map with
8956          the latest known good map generated when the AE and AWB are in AUTO modes.
8957          </hal_details>
8958        </entry>
8959        <entry name="predictedColorGains" type="float"
8960               visibility="hidden"
8961               deprecated="true"
8962               optional="true"
8963               type_notes="A 1D array of floats for 4 color channel gains"
8964               container="array">
8965          <array>
8966            <size>4</size>
8967          </array>
8968          <description>The best-fit color channel gains calculated
8969          by the camera device's statistics units for the current output frame.
8970          </description>
8971          <deprecation_description>
8972          Never fully implemented or specified; do not use
8973          </deprecation_description>
8974          <details>
8975          This may be different than the gains used for this frame,
8976          since statistics processing on data from a new frame
8977          typically completes after the transform has already been
8978          applied to that frame.
8979
8980          The 4 channel gains are defined in Bayer domain,
8981          see android.colorCorrection.gains for details.
8982
8983          This value should always be calculated by the auto-white balance (AWB) block,
8984          regardless of the android.control.* current values.
8985          </details>
8986        </entry>
8987        <entry name="predictedColorTransform" type="rational"
8988               visibility="hidden"
8989               deprecated="true"
8990               optional="true"
8991               type_notes="3x3 rational matrix in row-major order"
8992               container="array">
8993          <array>
8994            <size>3</size>
8995            <size>3</size>
8996          </array>
8997          <description>The best-fit color transform matrix estimate
8998          calculated by the camera device's statistics units for the current
8999          output frame.</description>
9000          <deprecation_description>
9001          Never fully implemented or specified; do not use
9002          </deprecation_description>
9003          <details>The camera device will provide the estimate from its
9004          statistics unit on the white balance transforms to use
9005          for the next frame. These are the values the camera device believes
9006          are the best fit for the current output frame. This may
9007          be different than the transform used for this frame, since
9008          statistics processing on data from a new frame typically
9009          completes after the transform has already been applied to
9010          that frame.
9011
9012          These estimates must be provided for all frames, even if
9013          capture settings and color transforms are set by the application.
9014
9015          This value should always be calculated by the auto-white balance (AWB) block,
9016          regardless of the android.control.* current values.
9017          </details>
9018        </entry>
9019        <entry name="sceneFlicker" type="byte" visibility="public" enum="true"
9020               hwlevel="full">
9021          <enum>
9022            <value>NONE
9023            <notes>The camera device does not detect any flickering illumination
9024            in the current scene.</notes></value>
9025            <value>50HZ
9026            <notes>The camera device detects illumination flickering at 50Hz
9027            in the current scene.</notes></value>
9028            <value>60HZ
9029            <notes>The camera device detects illumination flickering at 60Hz
9030            in the current scene.</notes></value>
9031          </enum>
9032          <description>The camera device estimated scene illumination lighting
9033          frequency.</description>
9034          <details>
9035          Many light sources, such as most fluorescent lights, flicker at a rate
9036          that depends on the local utility power standards. This flicker must be
9037          accounted for by auto-exposure routines to avoid artifacts in captured images.
9038          The camera device uses this entry to tell the application what the scene
9039          illuminant frequency is.
9040
9041          When manual exposure control is enabled
9042          (`android.control.aeMode == OFF` or `android.control.mode ==
9043          OFF`), the android.control.aeAntibandingMode doesn't perform
9044          antibanding, and the application can ensure it selects
9045          exposure times that do not cause banding issues by looking
9046          into this metadata field. See
9047          android.control.aeAntibandingMode for more details.
9048
9049          Reports NONE if there doesn't appear to be flickering illumination.
9050          </details>
9051        </entry>
9052        <clone entry="android.statistics.hotPixelMapMode" kind="controls">
9053        </clone>
9054        <entry name="hotPixelMap" type="int32" visibility="public"
9055        type_notes="list of coordinates based on android.sensor.pixelArraySize"
9056        container="array" typedef="point">
9057          <array>
9058            <size>2</size>
9059            <size>n</size>
9060          </array>
9061          <description>
9062          List of `(x, y)` coordinates of hot/defective pixels on the sensor.
9063          </description>
9064          <range>
9065          n &lt;= number of pixels on the sensor.
9066          The `(x, y)` coordinates must be bounded by
9067          android.sensor.info.pixelArraySize.
9068          </range>
9069          <details>
9070          A coordinate `(x, y)` must lie between `(0, 0)`, and
9071          `(width - 1, height - 1)` (inclusive), which are the top-left and
9072          bottom-right of the pixel array, respectively. The width and
9073          height dimensions are given in android.sensor.info.pixelArraySize.
9074          This may include hot pixels that lie outside of the active array
9075          bounds given by android.sensor.info.activeArraySize.
9076          </details>
9077          <hal_details>
9078          A hotpixel map contains the coordinates of pixels on the camera
9079          sensor that do report valid values (usually due to defects in
9080          the camera sensor). This includes pixels that are stuck at certain
9081          values, or have a response that does not accuractly encode the
9082          incoming light from the scene.
9083
9084          To avoid performance issues, there should be significantly fewer hot
9085          pixels than actual pixels on the camera sensor.
9086          </hal_details>
9087          <tag id="V1" />
9088          <tag id="RAW" />
9089        </entry>
9090      </dynamic>
9091      <controls>
9092        <entry name="lensShadingMapMode" type="byte" visibility="public" enum="true" hwlevel="full">
9093          <enum>
9094            <value>OFF
9095            <notes>Do not include a lens shading map in the capture result.</notes></value>
9096            <value>ON
9097            <notes>Include a lens shading map in the capture result.</notes></value>
9098          </enum>
9099          <description>Whether the camera device will output the lens
9100          shading map in output result metadata.</description>
9101          <range>android.statistics.info.availableLensShadingMapModes</range>
9102          <details>When set to ON,
9103          android.statistics.lensShadingMap will be provided in
9104          the output result metadata.
9105
9106          ON is always supported on devices with the RAW capability.
9107          </details>
9108          <tag id="RAW" />
9109        </entry>
9110      </controls>
9111      <dynamic>
9112        <clone entry="android.statistics.lensShadingMapMode" kind="controls">
9113        </clone>
9114      </dynamic>
9115      <controls>
9116        <entry name="oisDataMode" type="byte" visibility="public" enum="true" hal_version="3.3">
9117          <enum>
9118            <value>OFF
9119            <notes>Do not include OIS data in the capture result.</notes></value>
9120            <value>ON
9121            <notes>Include OIS data in the capture result.</notes>
9122            <sdk_notes>android.statistics.oisSamples provides OIS sample data in the
9123            output result metadata.
9124            </sdk_notes>
9125            <ndk_notes>android.statistics.oisTimestamps, android.statistics.oisXShifts,
9126            and android.statistics.oisYShifts provide OIS data in the output result metadata.
9127            </ndk_notes>
9128            </value>
9129          </enum>
9130          <description>A control for selecting whether optical stabilization (OIS) position
9131          information is included in output result metadata.</description>
9132          <range>android.statistics.info.availableOisDataModes</range>
9133          <details>
9134          Since optical image stabilization generally involves motion much faster than the duration
9135          of individualq image exposure, multiple OIS samples can be included for a single capture
9136          result. For example, if the OIS reporting operates at 200 Hz, a typical camera operating
9137          at 30fps may have 6-7 OIS samples per capture result. This information can be combined
9138          with the rolling shutter skew to account for lens motion during image exposure in
9139          post-processing algorithms.
9140          </details>
9141        </entry>
9142      </controls>
9143      <dynamic>
9144        <clone entry="android.statistics.oisDataMode" kind="controls">
9145        </clone>
9146        <entry name="oisTimestamps" type="int64" visibility="ndk_public" container="array" hal_version="3.3">
9147          <array>
9148            <size>n</size>
9149          </array>
9150          <description>
9151          An array of timestamps of OIS samples, in nanoseconds.
9152          </description>
9153          <units>nanoseconds</units>
9154          <details>
9155          The array contains the timestamps of OIS samples. The timestamps are in the same
9156          timebase as and comparable to android.sensor.timestamp.
9157          </details>
9158        </entry>
9159        <entry name="oisXShifts" type="float" visibility="ndk_public" container="array" hal_version="3.3">
9160          <array>
9161            <size>n</size>
9162          </array>
9163          <description>
9164          An array of shifts of OIS samples, in x direction.
9165          </description>
9166          <units>Pixels in active array.</units>
9167          <details>
9168          The array contains the amount of shifts in x direction, in pixels, based on OIS samples.
9169          A positive value is a shift from left to right in the pre-correction active array
9170          coordinate system. For example, if the optical center is (1000, 500) in pre-correction
9171          active array coordinates, a shift of (3, 0) puts the new optical center at (1003, 500).
9172
9173          The number of shifts must match the number of timestamps in
9174          android.statistics.oisTimestamps.
9175
9176          The OIS samples are not affected by whether lens distortion correction is enabled (on
9177          supporting devices). They are always reported in pre-correction active array coordinates,
9178          since the scaling of OIS shifts would depend on the specific spot on the sensor the shift
9179          is needed.
9180          </details>
9181        </entry>
9182        <entry name="oisYShifts" type="float" visibility="ndk_public" container="array" hal_version="3.3">
9183          <array>
9184            <size>n</size>
9185          </array>
9186          <description>
9187          An array of shifts of OIS samples, in y direction.
9188          </description>
9189          <units>Pixels in active array.</units>
9190          <details>
9191          The array contains the amount of shifts in y direction, in pixels, based on OIS samples.
9192          A positive value is a shift from top to bottom in pre-correction active array coordinate
9193          system. For example, if the optical center is (1000, 500) in active array coordinates, a
9194          shift of (0, 5) puts the new optical center at (1000, 505).
9195
9196          The number of shifts must match the number of timestamps in
9197          android.statistics.oisTimestamps.
9198
9199          The OIS samples are not affected by whether lens distortion correction is enabled (on
9200          supporting devices). They are always reported in pre-correction active array coordinates,
9201          since the scaling of OIS shifts would depend on the specific spot on the sensor the shift
9202          is needed.
9203          </details>
9204        </entry>
9205        <entry name="oisSamples" type="float" visibility="java_public" synthetic="true"
9206               container="array" typedef="oisSample" hal_version="3.3">
9207          <array>
9208            <size>n</size>
9209          </array>
9210          <description>
9211          An array of optical stabilization (OIS) position samples.
9212          </description>
9213          <details>
9214          Each OIS sample contains the timestamp and the amount of shifts in x and y direction,
9215          in pixels, of the OIS sample.
9216
9217          A positive value for a shift in x direction is a shift from left to right in the
9218          pre-correction active array coordinate system. For example, if the optical center is
9219          (1000, 500) in pre-correction active array coordinates, a shift of (3, 0) puts the new
9220          optical center at (1003, 500).
9221
9222          A positive value for a shift in y direction is a shift from top to bottom in
9223          pre-correction active array coordinate system. For example, if the optical center is
9224          (1000, 500) in active array coordinates, a shift of (0, 5) puts the new optical center at
9225          (1000, 505).
9226
9227          The OIS samples are not affected by whether lens distortion correction is enabled (on
9228          supporting devices). They are always reported in pre-correction active array coordinates,
9229          since the scaling of OIS shifts would depend on the specific spot on the sensor the shift
9230          is needed.
9231          </details>
9232        </entry>
9233      </dynamic>
9234    </section>
9235    <section name="tonemap">
9236      <controls>
9237        <entry name="curveBlue" type="float" visibility="ndk_public"
9238        type_notes="1D array of float pairs (P_IN, P_OUT). The maximum number of pairs is specified by android.tonemap.maxCurvePoints."
9239        container="array" hwlevel="full">
9240          <array>
9241            <size>n</size>
9242            <size>2</size>
9243          </array>
9244          <description>Tonemapping / contrast / gamma curve for the blue
9245          channel, to use when android.tonemap.mode is
9246          CONTRAST_CURVE.</description>
9247          <details>See android.tonemap.curveRed for more details.</details>
9248        </entry>
9249        <entry name="curveGreen" type="float" visibility="ndk_public"
9250        type_notes="1D array of float pairs (P_IN, P_OUT). The maximum number of pairs is specified by android.tonemap.maxCurvePoints."
9251        container="array" hwlevel="full">
9252          <array>
9253            <size>n</size>
9254            <size>2</size>
9255          </array>
9256          <description>Tonemapping / contrast / gamma curve for the green
9257          channel, to use when android.tonemap.mode is
9258          CONTRAST_CURVE.</description>
9259          <details>See android.tonemap.curveRed for more details.</details>
9260        </entry>
9261        <entry name="curveRed" type="float" visibility="ndk_public"
9262        type_notes="1D array of float pairs (P_IN, P_OUT). The maximum number of pairs is specified by android.tonemap.maxCurvePoints."
9263        container="array" hwlevel="full">
9264          <array>
9265            <size>n</size>
9266            <size>2</size>
9267          </array>
9268          <description>Tonemapping / contrast / gamma curve for the red
9269          channel, to use when android.tonemap.mode is
9270          CONTRAST_CURVE.</description>
9271          <range>0-1 on both input and output coordinates, normalized
9272          as a floating-point value such that 0 == black and 1 == white.
9273          </range>
9274          <details>
9275          Each channel's curve is defined by an array of control points:
9276
9277              android.tonemap.curveRed =
9278                [ P0in, P0out, P1in, P1out, P2in, P2out, P3in, P3out, ..., PNin, PNout ]
9279              2 &lt;= N &lt;= android.tonemap.maxCurvePoints
9280
9281          These are sorted in order of increasing `Pin`; it is
9282          required that input values 0.0 and 1.0 are included in the list to
9283          define a complete mapping. For input values between control points,
9284          the camera device must linearly interpolate between the control
9285          points.
9286
9287          Each curve can have an independent number of points, and the number
9288          of points can be less than max (that is, the request doesn't have to
9289          always provide a curve with number of points equivalent to
9290          android.tonemap.maxCurvePoints).
9291
9292          For devices with MONOCHROME capability, all three channels must have the same set of
9293          control points.
9294
9295          A few examples, and their corresponding graphical mappings; these
9296          only specify the red channel and the precision is limited to 4
9297          digits, for conciseness.
9298
9299          Linear mapping:
9300
9301              android.tonemap.curveRed = [ 0, 0, 1.0, 1.0 ]
9302
9303          ![Linear mapping curve](android.tonemap.curveRed/linear_tonemap.png)
9304
9305          Invert mapping:
9306
9307              android.tonemap.curveRed = [ 0, 1.0, 1.0, 0 ]
9308
9309          ![Inverting mapping curve](android.tonemap.curveRed/inverse_tonemap.png)
9310
9311          Gamma 1/2.2 mapping, with 16 control points:
9312
9313              android.tonemap.curveRed = [
9314                0.0000, 0.0000, 0.0667, 0.2920, 0.1333, 0.4002, 0.2000, 0.4812,
9315                0.2667, 0.5484, 0.3333, 0.6069, 0.4000, 0.6594, 0.4667, 0.7072,
9316                0.5333, 0.7515, 0.6000, 0.7928, 0.6667, 0.8317, 0.7333, 0.8685,
9317                0.8000, 0.9035, 0.8667, 0.9370, 0.9333, 0.9691, 1.0000, 1.0000 ]
9318
9319          ![Gamma = 1/2.2 tonemapping curve](android.tonemap.curveRed/gamma_tonemap.png)
9320
9321          Standard sRGB gamma mapping, per IEC 61966-2-1:1999, with 16 control points:
9322
9323              android.tonemap.curveRed = [
9324                0.0000, 0.0000, 0.0667, 0.2864, 0.1333, 0.4007, 0.2000, 0.4845,
9325                0.2667, 0.5532, 0.3333, 0.6125, 0.4000, 0.6652, 0.4667, 0.7130,
9326                0.5333, 0.7569, 0.6000, 0.7977, 0.6667, 0.8360, 0.7333, 0.8721,
9327                0.8000, 0.9063, 0.8667, 0.9389, 0.9333, 0.9701, 1.0000, 1.0000 ]
9328
9329          ![sRGB tonemapping curve](android.tonemap.curveRed/srgb_tonemap.png)
9330        </details>
9331        <hal_details>
9332          For good quality of mapping, at least 128 control points are
9333          preferred.
9334
9335          A typical use case of this would be a gamma-1/2.2 curve, with as many
9336          control points used as are available.
9337        </hal_details>
9338        </entry>
9339        <entry name="curve" type="float" visibility="java_public" synthetic="true"
9340               typedef="tonemapCurve"
9341               hwlevel="full">
9342          <description>Tonemapping / contrast / gamma curve to use when android.tonemap.mode
9343          is CONTRAST_CURVE.</description>
9344          <details>
9345          The tonemapCurve consist of three curves for each of red, green, and blue
9346          channels respectively. The following example uses the red channel as an
9347          example. The same logic applies to green and blue channel.
9348          Each channel's curve is defined by an array of control points:
9349
9350              curveRed =
9351                [ P0(in, out), P1(in, out), P2(in, out), P3(in, out), ..., PN(in, out) ]
9352              2 &lt;= N &lt;= android.tonemap.maxCurvePoints
9353
9354          These are sorted in order of increasing `Pin`; it is always
9355          guaranteed that input values 0.0 and 1.0 are included in the list to
9356          define a complete mapping. For input values between control points,
9357          the camera device must linearly interpolate between the control
9358          points.
9359
9360          Each curve can have an independent number of points, and the number
9361          of points can be less than max (that is, the request doesn't have to
9362          always provide a curve with number of points equivalent to
9363          android.tonemap.maxCurvePoints).
9364
9365          For devices with MONOCHROME capability, all three channels must have the same set of
9366          control points.
9367
9368          A few examples, and their corresponding graphical mappings; these
9369          only specify the red channel and the precision is limited to 4
9370          digits, for conciseness.
9371
9372          Linear mapping:
9373
9374              curveRed = [ (0, 0), (1.0, 1.0) ]
9375
9376          ![Linear mapping curve](android.tonemap.curveRed/linear_tonemap.png)
9377
9378          Invert mapping:
9379
9380              curveRed = [ (0, 1.0), (1.0, 0) ]
9381
9382          ![Inverting mapping curve](android.tonemap.curveRed/inverse_tonemap.png)
9383
9384          Gamma 1/2.2 mapping, with 16 control points:
9385
9386              curveRed = [
9387                (0.0000, 0.0000), (0.0667, 0.2920), (0.1333, 0.4002), (0.2000, 0.4812),
9388                (0.2667, 0.5484), (0.3333, 0.6069), (0.4000, 0.6594), (0.4667, 0.7072),
9389                (0.5333, 0.7515), (0.6000, 0.7928), (0.6667, 0.8317), (0.7333, 0.8685),
9390                (0.8000, 0.9035), (0.8667, 0.9370), (0.9333, 0.9691), (1.0000, 1.0000) ]
9391
9392          ![Gamma = 1/2.2 tonemapping curve](android.tonemap.curveRed/gamma_tonemap.png)
9393
9394          Standard sRGB gamma mapping, per IEC 61966-2-1:1999, with 16 control points:
9395
9396              curveRed = [
9397                (0.0000, 0.0000), (0.0667, 0.2864), (0.1333, 0.4007), (0.2000, 0.4845),
9398                (0.2667, 0.5532), (0.3333, 0.6125), (0.4000, 0.6652), (0.4667, 0.7130),
9399                (0.5333, 0.7569), (0.6000, 0.7977), (0.6667, 0.8360), (0.7333, 0.8721),
9400                (0.8000, 0.9063), (0.8667, 0.9389), (0.9333, 0.9701), (1.0000, 1.0000) ]
9401
9402          ![sRGB tonemapping curve](android.tonemap.curveRed/srgb_tonemap.png)
9403        </details>
9404        <hal_details>
9405            This entry is created by the framework from the curveRed, curveGreen and
9406            curveBlue entries.
9407        </hal_details>
9408        </entry>
9409        <entry name="mode" type="byte" visibility="public" enum="true"
9410               hwlevel="full">
9411          <enum>
9412            <value>CONTRAST_CURVE
9413              <notes>Use the tone mapping curve specified in
9414              the android.tonemap.curve* entries.
9415
9416              All color enhancement and tonemapping must be disabled, except
9417              for applying the tonemapping curve specified by
9418              android.tonemap.curve.
9419
9420              Must not slow down frame rate relative to raw
9421              sensor output.
9422              </notes>
9423            </value>
9424            <value>FAST
9425              <notes>
9426              Advanced gamma mapping and color enhancement may be applied, without
9427              reducing frame rate compared to raw sensor output.
9428              </notes>
9429            </value>
9430            <value>HIGH_QUALITY
9431              <notes>
9432              High-quality gamma mapping and color enhancement will be applied, at
9433              the cost of possibly reduced frame rate compared to raw sensor output.
9434              </notes>
9435            </value>
9436            <value>GAMMA_VALUE
9437              <notes>
9438              Use the gamma value specified in android.tonemap.gamma to peform
9439              tonemapping.
9440
9441              All color enhancement and tonemapping must be disabled, except
9442              for applying the tonemapping curve specified by android.tonemap.gamma.
9443
9444              Must not slow down frame rate relative to raw sensor output.
9445              </notes>
9446            </value>
9447            <value>PRESET_CURVE
9448              <notes>
9449              Use the preset tonemapping curve specified in
9450              android.tonemap.presetCurve to peform tonemapping.
9451
9452              All color enhancement and tonemapping must be disabled, except
9453              for applying the tonemapping curve specified by
9454              android.tonemap.presetCurve.
9455
9456              Must not slow down frame rate relative to raw sensor output.
9457              </notes>
9458            </value>
9459          </enum>
9460          <description>High-level global contrast/gamma/tonemapping control.
9461          </description>
9462          <range>android.tonemap.availableToneMapModes</range>
9463          <details>
9464          When switching to an application-defined contrast curve by setting
9465          android.tonemap.mode to CONTRAST_CURVE, the curve is defined
9466          per-channel with a set of `(in, out)` points that specify the
9467          mapping from input high-bit-depth pixel value to the output
9468          low-bit-depth value.  Since the actual pixel ranges of both input
9469          and output may change depending on the camera pipeline, the values
9470          are specified by normalized floating-point numbers.
9471
9472          More-complex color mapping operations such as 3D color look-up
9473          tables, selective chroma enhancement, or other non-linear color
9474          transforms will be disabled when android.tonemap.mode is
9475          CONTRAST_CURVE.
9476
9477          When using either FAST or HIGH_QUALITY, the camera device will
9478          emit its own tonemap curve in android.tonemap.curve.
9479          These values are always available, and as close as possible to the
9480          actually used nonlinear/nonglobal transforms.
9481
9482          If a request is sent with CONTRAST_CURVE with the camera device's
9483          provided curve in FAST or HIGH_QUALITY, the image's tonemap will be
9484          roughly the same.</details>
9485        </entry>
9486      </controls>
9487      <static>
9488        <entry name="maxCurvePoints" type="int32" visibility="public"
9489               hwlevel="full">
9490          <description>Maximum number of supported points in the
9491            tonemap curve that can be used for android.tonemap.curve.
9492          </description>
9493          <details>
9494          If the actual number of points provided by the application (in android.tonemap.curve*) is
9495          less than this maximum, the camera device will resample the curve to its internal
9496          representation, using linear interpolation.
9497
9498          The output curves in the result metadata may have a different number
9499          of points than the input curves, and will represent the actual
9500          hardware curves used as closely as possible when linearly interpolated.
9501          </details>
9502          <hal_details>
9503          This value must be at least 64. This should be at least 128.
9504          </hal_details>
9505        </entry>
9506        <entry name="availableToneMapModes" type="byte" visibility="public"
9507        type_notes="list of enums" container="array" typedef="enumList" hwlevel="full">
9508          <array>
9509            <size>n</size>
9510          </array>
9511          <description>
9512          List of tonemapping modes for android.tonemap.mode that are supported by this camera
9513          device.
9514          </description>
9515          <range>Any value listed in android.tonemap.mode</range>
9516          <details>
9517          Camera devices that support the MANUAL_POST_PROCESSING capability will always contain
9518          at least one of below mode combinations:
9519
9520          * CONTRAST_CURVE, FAST and HIGH_QUALITY
9521          * GAMMA_VALUE, PRESET_CURVE, FAST and HIGH_QUALITY
9522
9523          This includes all FULL level devices.
9524          </details>
9525          <hal_details>
9526            HAL must support both FAST and HIGH_QUALITY if automatic tonemap control is available
9527            on the camera device, but the underlying implementation can be the same for both modes.
9528            That is, if the highest quality implementation on the camera device does not slow down
9529            capture rate, then FAST and HIGH_QUALITY will generate the same output.
9530          </hal_details>
9531        </entry>
9532      </static>
9533      <dynamic>
9534        <clone entry="android.tonemap.curveBlue" kind="controls">
9535        </clone>
9536        <clone entry="android.tonemap.curveGreen" kind="controls">
9537        </clone>
9538        <clone entry="android.tonemap.curveRed" kind="controls">
9539        </clone>
9540        <clone entry="android.tonemap.curve" kind="controls">
9541        </clone>
9542        <clone entry="android.tonemap.mode" kind="controls">
9543        </clone>
9544      </dynamic>
9545      <controls>
9546        <entry name="gamma" type="float" visibility="public">
9547          <description> Tonemapping curve to use when android.tonemap.mode is
9548          GAMMA_VALUE
9549          </description>
9550          <details>
9551          The tonemap curve will be defined the following formula:
9552          * OUT = pow(IN, 1.0 / gamma)
9553          where IN and OUT is the input pixel value scaled to range [0.0, 1.0],
9554          pow is the power function and gamma is the gamma value specified by this
9555          key.
9556
9557          The same curve will be applied to all color channels. The camera device
9558          may clip the input gamma value to its supported range. The actual applied
9559          value will be returned in capture result.
9560
9561          The valid range of gamma value varies on different devices, but values
9562          within [1.0, 5.0] are guaranteed not to be clipped.
9563          </details>
9564        </entry>
9565        <entry name="presetCurve" type="byte" visibility="public" enum="true">
9566          <enum>
9567            <value>SRGB
9568              <notes>Tonemapping curve is defined by sRGB</notes>
9569            </value>
9570            <value>REC709
9571              <notes>Tonemapping curve is defined by ITU-R BT.709</notes>
9572            </value>
9573          </enum>
9574          <description> Tonemapping curve to use when android.tonemap.mode is
9575          PRESET_CURVE
9576          </description>
9577          <details>
9578          The tonemap curve will be defined by specified standard.
9579
9580          sRGB (approximated by 16 control points):
9581
9582          ![sRGB tonemapping curve](android.tonemap.curveRed/srgb_tonemap.png)
9583
9584          Rec. 709 (approximated by 16 control points):
9585
9586          ![Rec. 709 tonemapping curve](android.tonemap.curveRed/rec709_tonemap.png)
9587
9588          Note that above figures show a 16 control points approximation of preset
9589          curves. Camera devices may apply a different approximation to the curve.
9590          </details>
9591        </entry>
9592      </controls>
9593      <dynamic>
9594        <clone entry="android.tonemap.gamma" kind="controls">
9595        </clone>
9596        <clone entry="android.tonemap.presetCurve" kind="controls">
9597        </clone>
9598      </dynamic>
9599    </section>
9600    <section name="led">
9601      <controls>
9602        <entry name="transmit" type="byte" visibility="hidden" optional="true"
9603               enum="true" typedef="boolean">
9604          <enum>
9605            <value>OFF</value>
9606            <value>ON</value>
9607          </enum>
9608          <description>This LED is nominally used to indicate to the user
9609          that the camera is powered on and may be streaming images back to the
9610          Application Processor. In certain rare circumstances, the OS may
9611          disable this when video is processed locally and not transmitted to
9612          any untrusted applications.
9613
9614          In particular, the LED *must* always be on when the data could be
9615          transmitted off the device. The LED *should* always be on whenever
9616          data is stored locally on the device.
9617
9618          The LED *may* be off if a trusted application is using the data that
9619          doesn't violate the above rules.
9620          </description>
9621        </entry>
9622      </controls>
9623      <dynamic>
9624        <clone entry="android.led.transmit" kind="controls"></clone>
9625      </dynamic>
9626      <static>
9627        <entry name="availableLeds" type="byte" visibility="hidden" optional="true"
9628               enum="true"
9629               container="array">
9630          <array>
9631            <size>n</size>
9632          </array>
9633          <enum>
9634            <value>TRANSMIT
9635              <notes>android.led.transmit control is used.</notes>
9636            </value>
9637          </enum>
9638          <description>A list of camera LEDs that are available on this system.
9639          </description>
9640        </entry>
9641      </static>
9642    </section>
9643    <section name="info">
9644      <static>
9645        <entry name="supportedHardwareLevel" type="byte" visibility="public"
9646               enum="true" hwlevel="legacy">
9647          <enum>
9648            <value>
9649              LIMITED
9650              <notes>
9651              This camera device does not have enough capabilities to qualify as a `FULL` device or
9652              better.
9653
9654              Only the stream configurations listed in the `LEGACY` and `LIMITED` tables in the
9655              {@link android.hardware.camera2.CameraDevice#createCaptureSession|ACameraDevice_createCaptureSession
9656              createCaptureSession} documentation are guaranteed to be supported.
9657
9658              All `LIMITED` devices support the `BACKWARDS_COMPATIBLE` capability, indicating basic
9659              support for color image capture. The only exception is that the device may
9660              alternatively support only the `DEPTH_OUTPUT` capability, if it can only output depth
9661              measurements and not color images.
9662
9663              `LIMITED` devices and above require the use of android.control.aePrecaptureTrigger
9664              to lock exposure metering (and calculate flash power, for cameras with flash) before
9665              capturing a high-quality still image.
9666
9667              A `LIMITED` device that only lists the `BACKWARDS_COMPATIBLE` capability is only
9668              required to support full-automatic operation and post-processing (`OFF` is not
9669              supported for android.control.aeMode, android.control.afMode, or
9670              android.control.awbMode)
9671
9672              Additional capabilities may optionally be supported by a `LIMITED`-level device, and
9673              can be checked for in android.request.availableCapabilities.
9674              </notes>
9675            </value>
9676            <value>
9677              FULL
9678              <notes>
9679              This camera device is capable of supporting advanced imaging applications.
9680
9681              The stream configurations listed in the `FULL`, `LEGACY` and `LIMITED` tables in the
9682              {@link android.hardware.camera2.CameraDevice#createCaptureSession|ACameraDevice_createCaptureSession
9683              createCaptureSession} documentation are guaranteed to be supported.
9684
9685              A `FULL` device will support below capabilities:
9686
9687              * `BURST_CAPTURE` capability (android.request.availableCapabilities contains
9688                `BURST_CAPTURE`)
9689              * Per frame control (android.sync.maxLatency `==` PER_FRAME_CONTROL)
9690              * Manual sensor control (android.request.availableCapabilities contains `MANUAL_SENSOR`)
9691              * Manual post-processing control (android.request.availableCapabilities contains
9692                `MANUAL_POST_PROCESSING`)
9693              * The required exposure time range defined in android.sensor.info.exposureTimeRange
9694              * The required maxFrameDuration defined in android.sensor.info.maxFrameDuration
9695
9696              Note:
9697              Pre-API level 23, FULL devices also supported arbitrary cropping region
9698              (android.scaler.croppingType `== FREEFORM`); this requirement was relaxed in API level
9699              23, and `FULL` devices may only support `CENTERED` cropping.
9700              </notes>
9701            </value>
9702            <value>
9703              LEGACY
9704              <notes>
9705              This camera device is running in backward compatibility mode.
9706
9707              Only the stream configurations listed in the `LEGACY` table in the {@link
9708              android.hardware.camera2.CameraDevice#createCaptureSession|ACameraDevice_createCaptureSession
9709              createCaptureSession} documentation are supported.
9710
9711              A `LEGACY` device does not support per-frame control, manual sensor control, manual
9712              post-processing, arbitrary cropping regions, and has relaxed performance constraints.
9713              No additional capabilities beyond `BACKWARD_COMPATIBLE` will ever be listed by a
9714              `LEGACY` device in android.request.availableCapabilities.
9715
9716              In addition, the android.control.aePrecaptureTrigger is not functional on `LEGACY`
9717              devices. Instead, every request that includes a JPEG-format output target is treated
9718              as triggering a still capture, internally executing a precapture trigger.  This may
9719              fire the flash for flash power metering during precapture, and then fire the flash
9720              for the final capture, if a flash is available on the device and the AE mode is set to
9721              enable the flash.
9722
9723              Devices that initially shipped with Android version {@link
9724              android.os.Build.VERSION_CODES#Q Q} or newer will not include any LEGACY-level devices.
9725              </notes>
9726            </value>
9727            <value>
9728              3
9729              <notes>
9730              This camera device is capable of YUV reprocessing and RAW data capture, in addition to
9731              FULL-level capabilities.
9732
9733              The stream configurations listed in the `LEVEL_3`, `RAW`, `FULL`, `LEGACY` and
9734              `LIMITED` tables in the {@link
9735              android.hardware.camera2.CameraDevice#createCaptureSession|ACameraDevice_createCaptureSession
9736              createCaptureSession} documentation are guaranteed to be supported.
9737
9738              The following additional capabilities are guaranteed to be supported:
9739
9740              * `YUV_REPROCESSING` capability (android.request.availableCapabilities contains
9741                `YUV_REPROCESSING`)
9742              * `RAW` capability (android.request.availableCapabilities contains
9743                `RAW`)
9744              </notes>
9745            </value>
9746            <value hal_version="3.3">
9747              EXTERNAL
9748              <notes>
9749              This camera device is backed by an external camera connected to this Android device.
9750
9751              The device has capability identical to a LIMITED level device, with the following
9752              exceptions:
9753
9754              * The device may not report lens/sensor related information such as
9755                  - android.lens.focalLength
9756                  - android.lens.info.hyperfocalDistance
9757                  - android.sensor.info.physicalSize
9758                  - android.sensor.info.whiteLevel
9759                  - android.sensor.blackLevelPattern
9760                  - android.sensor.info.colorFilterArrangement
9761                  - android.sensor.rollingShutterSkew
9762              * The device will report 0 for android.sensor.orientation
9763              * The device has less guarantee on stable framerate, as the framerate partly depends
9764                on the external camera being used.
9765              </notes>
9766            </value>
9767          </enum>
9768          <description>
9769          Generally classifies the overall set of the camera device functionality.
9770          </description>
9771          <details>
9772          The supported hardware level is a high-level description of the camera device's
9773          capabilities, summarizing several capabilities into one field.  Each level adds additional
9774          features to the previous one, and is always a strict superset of the previous level.
9775          The ordering is `LEGACY &lt; LIMITED &lt; FULL &lt; LEVEL_3`.
9776
9777          Starting from `LEVEL_3`, the level enumerations are guaranteed to be in increasing
9778          numerical value as well. To check if a given device is at least at a given hardware level,
9779          the following code snippet can be used:
9780
9781              // Returns true if the device supports the required hardware level, or better.
9782              boolean isHardwareLevelSupported(CameraCharacteristics c, int requiredLevel) {
9783                  final int[] sortedHwLevels = {
9784                      CameraCharacteristics.INFO_SUPPORTED_HARDWARE_LEVEL_LEGACY,
9785                      CameraCharacteristics.INFO_SUPPORTED_HARDWARE_LEVEL_EXTERNAL,
9786                      CameraCharacteristics.INFO_SUPPORTED_HARDWARE_LEVEL_LIMITED,
9787                      CameraCharacteristics.INFO_SUPPORTED_HARDWARE_LEVEL_FULL,
9788                      CameraCharacteristics.INFO_SUPPORTED_HARDWARE_LEVEL_3
9789                  };
9790                  int deviceLevel = c.get(CameraCharacteristics.INFO_SUPPORTED_HARDWARE_LEVEL);
9791                  if (requiredLevel == deviceLevel) {
9792                      return true;
9793                  }
9794
9795                  for (int sortedlevel : sortedHwLevels) {
9796                      if (sortedlevel == requiredLevel) {
9797                          return true;
9798                      } else if (sortedlevel == deviceLevel) {
9799                          return false;
9800                      }
9801                  }
9802                  return false; // Should never reach here
9803              }
9804
9805          At a high level, the levels are:
9806
9807          * `LEGACY` devices operate in a backwards-compatibility mode for older
9808            Android devices, and have very limited capabilities.
9809          * `LIMITED` devices represent the
9810            baseline feature set, and may also include additional capabilities that are
9811            subsets of `FULL`.
9812          * `FULL` devices additionally support per-frame manual control of sensor, flash, lens and
9813            post-processing settings, and image capture at a high rate.
9814          * `LEVEL_3` devices additionally support YUV reprocessing and RAW image capture, along
9815            with additional output stream configurations.
9816          * `EXTERNAL` devices are similar to `LIMITED` devices with exceptions like some sensor or
9817            lens information not reported or less stable framerates.
9818
9819          See the individual level enums for full descriptions of the supported capabilities.  The
9820          android.request.availableCapabilities entry describes the device's capabilities at a
9821          finer-grain level, if needed. In addition, many controls have their available settings or
9822          ranges defined in individual entries from {@link
9823          android.hardware.camera2.CameraCharacteristics|ACameraManager_getCameraCharacteristics}.
9824
9825          Some features are not part of any particular hardware level or capability and must be
9826          queried separately. These include:
9827
9828          * Calibrated timestamps (android.sensor.info.timestampSource `==` REALTIME)
9829          * Precision lens control (android.lens.info.focusDistanceCalibration `==` CALIBRATED)
9830          * Face detection (android.statistics.info.availableFaceDetectModes)
9831          * Optical or electrical image stabilization
9832            (android.lens.info.availableOpticalStabilization,
9833             android.control.availableVideoStabilizationModes)
9834
9835          </details>
9836          <hal_details>
9837          A camera HALv3 device can implement one of three possible operational modes; LIMITED,
9838          FULL, and LEVEL_3.
9839
9840          FULL support or better is expected from new higher-end devices. Limited
9841          mode has hardware requirements roughly in line with those for a camera HAL device v1
9842          implementation, and is expected from older or inexpensive devices. Each level is a strict
9843          superset of the previous level, and they share the same essential operational flow.
9844
9845          For full details refer to "S3. Operational Modes" in camera3.h
9846
9847          Camera HAL3+ must not implement LEGACY mode. It is there for backwards compatibility in
9848          the `android.hardware.camera2` user-facing API only on legacy HALv1 devices, and is
9849          implemented by the camera framework code.
9850
9851          EXTERNAL level devices have lower peformance bar in CTS since the peformance might depend
9852          on the external camera being used and is not fully controlled by the device manufacturer.
9853          The ITS test suite is exempted for the same reason.
9854          </hal_details>
9855        </entry>
9856        <entry name="version" type="byte" visibility="public" typedef="string" hal_version="3.3">
9857          <description>
9858              A short string for manufacturer version information about the camera device, such as
9859              ISP hardware, sensors, etc.
9860          </description>
9861          <details>
9862              This can be used in {@link android.media.ExifInterface#TAG_IMAGE_DESCRIPTION TAG_IMAGE_DESCRIPTION}
9863              in jpeg EXIF. This key may be absent if no version information is available on the
9864              device.
9865          </details>
9866          <hal_details>
9867              The string must consist of only alphanumeric characters, punctuation, and
9868              whitespace, i.e. it must match regular expression "[\p{Alnum}\p{Punct}\p{Space}]*".
9869              It must not exceed 256 characters.
9870          </hal_details>
9871        </entry>
9872        <entry name="supportedBufferManagementVersion" type="byte" visibility="system"
9873               enum="true" hal_version="3.4">
9874          <enum>
9875            <value>
9876              HIDL_DEVICE_3_5
9877              <notes>
9878              This camera device supports and opts in to the buffer management APIs provided by
9879              HIDL ICameraDevice version 3.5.
9880              </notes>
9881            </value>
9882          </enum>
9883          <description>
9884              The version of buffer management API this camera device supports and opts into.
9885          </description>
9886          <details>
9887              When this key is not present, camera framework will interact with this camera device
9888              without any buffer management HAL API. When this key is present and camera framework
9889              supports the buffer management API version, camera framework will interact with camera
9890              HAL using such version of buffer management API.
9891          </details>
9892        </entry>
9893      </static>
9894    </section>
9895    <section name="blackLevel">
9896      <controls>
9897        <entry name="lock" type="byte" visibility="public" enum="true"
9898               typedef="boolean" hwlevel="full">
9899          <enum>
9900            <value>OFF</value>
9901            <value>ON</value>
9902          </enum>
9903          <description> Whether black-level compensation is locked
9904          to its current values, or is free to vary.</description>
9905          <details>When set to `true` (ON), the values used for black-level
9906          compensation will not change until the lock is set to
9907          `false` (OFF).
9908
9909          Since changes to certain capture parameters (such as
9910          exposure time) may require resetting of black level
9911          compensation, the camera device must report whether setting
9912          the black level lock was successful in the output result
9913          metadata.
9914
9915          For example, if a sequence of requests is as follows:
9916
9917          * Request 1: Exposure = 10ms, Black level lock = OFF
9918          * Request 2: Exposure = 10ms, Black level lock = ON
9919          * Request 3: Exposure = 10ms, Black level lock = ON
9920          * Request 4: Exposure = 20ms, Black level lock = ON
9921          * Request 5: Exposure = 20ms, Black level lock = ON
9922          * Request 6: Exposure = 20ms, Black level lock = ON
9923
9924          And the exposure change in Request 4 requires the camera
9925          device to reset the black level offsets, then the output
9926          result metadata is expected to be:
9927
9928          * Result 1: Exposure = 10ms, Black level lock = OFF
9929          * Result 2: Exposure = 10ms, Black level lock = ON
9930          * Result 3: Exposure = 10ms, Black level lock = ON
9931          * Result 4: Exposure = 20ms, Black level lock = OFF
9932          * Result 5: Exposure = 20ms, Black level lock = ON
9933          * Result 6: Exposure = 20ms, Black level lock = ON
9934
9935          This indicates to the application that on frame 4, black
9936          levels were reset due to exposure value changes, and pixel
9937          values may not be consistent across captures.
9938
9939          The camera device will maintain the lock to the extent
9940          possible, only overriding the lock to OFF when changes to
9941          other request parameters require a black level recalculation
9942          or reset.
9943          </details>
9944          <hal_details>
9945          If for some reason black level locking is no longer possible
9946          (for example, the analog gain has changed, which forces
9947          black level offsets to be recalculated), then the HAL must
9948          override this request (and it must report 'OFF' when this
9949          does happen) until the next capture for which locking is
9950          possible again.</hal_details>
9951          <tag id="HAL2" />
9952        </entry>
9953      </controls>
9954      <dynamic>
9955        <clone entry="android.blackLevel.lock"
9956          kind="controls">
9957          <details>
9958            Whether the black level offset was locked for this frame.  Should be
9959            ON if android.blackLevel.lock was ON in the capture request, unless
9960            a change in other capture settings forced the camera device to
9961            perform a black level reset.
9962          </details>
9963        </clone>
9964      </dynamic>
9965    </section>
9966    <section name="sync">
9967      <dynamic>
9968        <entry name="frameNumber" type="int64" visibility="ndk_public"
9969               enum="true" hwlevel="legacy">
9970          <enum>
9971            <value id="-1">CONVERGING
9972              <notes>
9973              The current result is not yet fully synchronized to any request.
9974
9975              Synchronization is in progress, and reading metadata from this
9976              result may include a mix of data that have taken effect since the
9977              last synchronization time.
9978
9979              In some future result, within android.sync.maxLatency frames,
9980              this value will update to the actual frame number frame number
9981              the result is guaranteed to be synchronized to (as long as the
9982              request settings remain constant).
9983            </notes>
9984            </value>
9985            <value id="-2">UNKNOWN
9986              <notes>
9987              The current result's synchronization status is unknown.
9988
9989              The result may have already converged, or it may be in
9990              progress.  Reading from this result may include some mix
9991              of settings from past requests.
9992
9993              After a settings change, the new settings will eventually all
9994              take effect for the output buffers and results. However, this
9995              value will not change when that happens. Altering settings
9996              rapidly may provide outcomes using mixes of settings from recent
9997              requests.
9998
9999              This value is intended primarily for backwards compatibility with
10000              the older camera implementations (for android.hardware.Camera).
10001            </notes>
10002            </value>
10003          </enum>
10004          <description>The frame number corresponding to the last request
10005          with which the output result (metadata + buffers) has been fully
10006          synchronized.</description>
10007          <range>Either a non-negative value corresponding to a
10008          `frame_number`, or one of the two enums (CONVERGING / UNKNOWN).
10009          </range>
10010          <details>
10011          When a request is submitted to the camera device, there is usually a
10012          delay of several frames before the controls get applied. A camera
10013          device may either choose to account for this delay by implementing a
10014          pipeline and carefully submit well-timed atomic control updates, or
10015          it may start streaming control changes that span over several frame
10016          boundaries.
10017
10018          In the latter case, whenever a request's settings change relative to
10019          the previous submitted request, the full set of changes may take
10020          multiple frame durations to fully take effect. Some settings may
10021          take effect sooner (in less frame durations) than others.
10022
10023          While a set of control changes are being propagated, this value
10024          will be CONVERGING.
10025
10026          Once it is fully known that a set of control changes have been
10027          finished propagating, and the resulting updated control settings
10028          have been read back by the camera device, this value will be set
10029          to a non-negative frame number (corresponding to the request to
10030          which the results have synchronized to).
10031
10032          Older camera device implementations may not have a way to detect
10033          when all camera controls have been applied, and will always set this
10034          value to UNKNOWN.
10035
10036          FULL capability devices will always have this value set to the
10037          frame number of the request corresponding to this result.
10038
10039          _Further details_:
10040
10041          * Whenever a request differs from the last request, any future
10042          results not yet returned may have this value set to CONVERGING (this
10043          could include any in-progress captures not yet returned by the camera
10044          device, for more details see pipeline considerations below).
10045          * Submitting a series of multiple requests that differ from the
10046          previous request (e.g. r1, r2, r3 s.t. r1 != r2 != r3)
10047          moves the new synchronization frame to the last non-repeating
10048          request (using the smallest frame number from the contiguous list of
10049          repeating requests).
10050          * Submitting the same request repeatedly will not change this value
10051          to CONVERGING, if it was already a non-negative value.
10052          * When this value changes to non-negative, that means that all of the
10053          metadata controls from the request have been applied, all of the
10054          metadata controls from the camera device have been read to the
10055          updated values (into the result), and all of the graphics buffers
10056          corresponding to this result are also synchronized to the request.
10057
10058          _Pipeline considerations_:
10059
10060          Submitting a request with updated controls relative to the previously
10061          submitted requests may also invalidate the synchronization state
10062          of all the results corresponding to currently in-flight requests.
10063
10064          In other words, results for this current request and up to
10065          android.request.pipelineMaxDepth prior requests may have their
10066          android.sync.frameNumber change to CONVERGING.
10067          </details>
10068          <hal_details>
10069          Using UNKNOWN here is illegal unless android.sync.maxLatency
10070          is also UNKNOWN.
10071
10072          FULL capability devices should simply set this value to the
10073          `frame_number` of the request this result corresponds to.
10074          </hal_details>
10075          <tag id="V1" />
10076        </entry>
10077      </dynamic>
10078      <static>
10079        <entry name="maxLatency" type="int32" visibility="public" enum="true"
10080               hwlevel="legacy">
10081          <enum>
10082            <value id="0">PER_FRAME_CONTROL
10083              <notes>
10084              Every frame has the requests immediately applied.
10085
10086              Changing controls over multiple requests one after another will
10087              produce results that have those controls applied atomically
10088              each frame.
10089
10090              All FULL capability devices will have this as their maxLatency.
10091              </notes>
10092            </value>
10093            <value id="-1">UNKNOWN
10094              <notes>
10095              Each new frame has some subset (potentially the entire set)
10096              of the past requests applied to the camera settings.
10097
10098              By submitting a series of identical requests, the camera device
10099              will eventually have the camera settings applied, but it is
10100              unknown when that exact point will be.
10101
10102              All LEGACY capability devices will have this as their maxLatency.
10103              </notes>
10104            </value>
10105          </enum>
10106          <description>
10107          The maximum number of frames that can occur after a request
10108          (different than the previous) has been submitted, and before the
10109          result's state becomes synchronized.
10110          </description>
10111          <units>Frame counts</units>
10112          <range>A positive value, PER_FRAME_CONTROL, or UNKNOWN.</range>
10113          <details>
10114          This defines the maximum distance (in number of metadata results),
10115          between the frame number of the request that has new controls to apply
10116          and the frame number of the result that has all the controls applied.
10117
10118          In other words this acts as an upper boundary for how many frames
10119          must occur before the camera device knows for a fact that the new
10120          submitted camera settings have been applied in outgoing frames.
10121          </details>
10122          <hal_details>
10123          For example if maxLatency was 2,
10124
10125              initial request = X (repeating)
10126              request1 = X
10127              request2 = Y
10128              request3 = Y
10129              request4 = Y
10130
10131              where requestN has frameNumber N, and the first of the repeating
10132              initial request's has frameNumber F (and F &lt; 1).
10133
10134              initial result = X' + { android.sync.frameNumber == F }
10135              result1 = X' + { android.sync.frameNumber == F }
10136              result2 = X' + { android.sync.frameNumber == CONVERGING }
10137              result3 = X' + { android.sync.frameNumber == CONVERGING }
10138              result4 = X' + { android.sync.frameNumber == 2 }
10139
10140              where resultN has frameNumber N.
10141
10142          Since `result4` has a `frameNumber == 4` and
10143          `android.sync.frameNumber == 2`, the distance is clearly
10144          `4 - 2 = 2`.
10145
10146          Use `frame_count` from camera3_request_t instead of
10147          android.request.frameCount or
10148          `{@link android.hardware.camera2.CaptureResult#getFrameNumber}`.
10149
10150          LIMITED devices are strongly encouraged to use a non-negative
10151          value. If UNKNOWN is used here then app developers do not have a way
10152          to know when sensor settings have been applied.
10153          </hal_details>
10154          <tag id="V1" />
10155        </entry>
10156      </static>
10157    </section>
10158    <section name="reprocess">
10159      <controls>
10160        <entry name="effectiveExposureFactor" type="float" visibility="java_public" hwlevel="limited">
10161            <description>
10162            The amount of exposure time increase factor applied to the original output
10163            frame by the application processing before sending for reprocessing.
10164            </description>
10165            <units>Relative exposure time increase factor.</units>
10166            <range> &amp;gt;= 1.0</range>
10167            <details>
10168            This is optional, and will be supported if the camera device supports YUV_REPROCESSING
10169            capability (android.request.availableCapabilities contains YUV_REPROCESSING).
10170
10171            For some YUV reprocessing use cases, the application may choose to filter the original
10172            output frames to effectively reduce the noise to the same level as a frame that was
10173            captured with longer exposure time. To be more specific, assuming the original captured
10174            images were captured with a sensitivity of S and an exposure time of T, the model in
10175            the camera device is that the amount of noise in the image would be approximately what
10176            would be expected if the original capture parameters had been a sensitivity of
10177            S/effectiveExposureFactor and an exposure time of T*effectiveExposureFactor, rather
10178            than S and T respectively. If the captured images were processed by the application
10179            before being sent for reprocessing, then the application may have used image processing
10180            algorithms and/or multi-frame image fusion to reduce the noise in the
10181            application-processed images (input images). By using the effectiveExposureFactor
10182            control, the application can communicate to the camera device the actual noise level
10183            improvement in the application-processed image. With this information, the camera
10184            device can select appropriate noise reduction and edge enhancement parameters to avoid
10185            excessive noise reduction (android.noiseReduction.mode) and insufficient edge
10186            enhancement (android.edge.mode) being applied to the reprocessed frames.
10187
10188            For example, for multi-frame image fusion use case, the application may fuse
10189            multiple output frames together to a final frame for reprocessing. When N image are
10190            fused into 1 image for reprocessing, the exposure time increase factor could be up to
10191            square root of N (based on a simple photon shot noise model). The camera device will
10192            adjust the reprocessing noise reduction and edge enhancement parameters accordingly to
10193            produce the best quality images.
10194
10195            This is relative factor, 1.0 indicates the application hasn't processed the input
10196            buffer in a way that affects its effective exposure time.
10197
10198            This control is only effective for YUV reprocessing capture request. For noise
10199            reduction reprocessing, it is only effective when `android.noiseReduction.mode != OFF`.
10200            Similarly, for edge enhancement reprocessing, it is only effective when
10201            `android.edge.mode != OFF`.
10202            </details>
10203          <tag id="REPROC" />
10204        </entry>
10205      </controls>
10206      <dynamic>
10207      <clone entry="android.reprocess.effectiveExposureFactor" kind="controls">
10208      </clone>
10209      </dynamic>
10210      <static>
10211        <entry name="maxCaptureStall" type="int32" visibility="java_public" hwlevel="limited">
10212          <description>
10213          The maximal camera capture pipeline stall (in unit of frame count) introduced by a
10214          reprocess capture request.
10215          </description>
10216          <units>Number of frames.</units>
10217          <range> &amp;lt;= 4</range>
10218          <details>
10219          The key describes the maximal interference that one reprocess (input) request
10220          can introduce to the camera simultaneous streaming of regular (output) capture
10221          requests, including repeating requests.
10222
10223          When a reprocessing capture request is submitted while a camera output repeating request
10224          (e.g. preview) is being served by the camera device, it may preempt the camera capture
10225          pipeline for at least one frame duration so that the camera device is unable to process
10226          the following capture request in time for the next sensor start of exposure boundary.
10227          When this happens, the application may observe a capture time gap (longer than one frame
10228          duration) between adjacent capture output frames, which usually exhibits as preview
10229          glitch if the repeating request output targets include a preview surface. This key gives
10230          the worst-case number of frame stall introduced by one reprocess request with any kind of
10231          formats/sizes combination.
10232
10233          If this key reports 0, it means a reprocess request doesn't introduce any glitch to the
10234          ongoing camera repeating request outputs, as if this reprocess request is never issued.
10235
10236          This key is supported if the camera device supports PRIVATE or YUV reprocessing (
10237          i.e. android.request.availableCapabilities contains PRIVATE_REPROCESSING or
10238          YUV_REPROCESSING).
10239          </details>
10240          <tag id="REPROC" />
10241        </entry>
10242      </static>
10243    </section>
10244    <section name="depth">
10245      <static>
10246        <entry name="maxDepthSamples" type="int32" visibility="system" hwlevel="limited">
10247          <description>Maximum number of points that a depth point cloud may contain.
10248          </description>
10249          <details>
10250            If a camera device supports outputting depth range data in the form of a depth point
10251            cloud ({@link android.graphics.ImageFormat#DEPTH_POINT_CLOUD}), this is the maximum
10252            number of points an output buffer may contain.
10253
10254            Any given buffer may contain between 0 and maxDepthSamples points, inclusive.
10255            If output in the depth point cloud format is not supported, this entry will
10256            not be defined.
10257          </details>
10258          <tag id="DEPTH" />
10259        </entry>
10260        <entry name="availableDepthStreamConfigurations" type="int32" visibility="ndk_public"
10261               enum="true" container="array" typedef="streamConfiguration" hwlevel="limited">
10262          <array>
10263            <size>n</size>
10264            <size>4</size>
10265          </array>
10266          <enum>
10267            <value>OUTPUT</value>
10268            <value>INPUT</value>
10269          </enum>
10270          <description>The available depth dataspace stream
10271          configurations that this camera device supports
10272          (i.e. format, width, height, output/input stream).
10273          </description>
10274          <details>
10275            These are output stream configurations for use with
10276            dataSpace HAL_DATASPACE_DEPTH. The configurations are
10277            listed as `(format, width, height, input?)` tuples.
10278
10279            Only devices that support depth output for at least
10280            the HAL_PIXEL_FORMAT_Y16 dense depth map may include
10281            this entry.
10282
10283            A device that also supports the HAL_PIXEL_FORMAT_BLOB
10284            sparse depth point cloud must report a single entry for
10285            the format in this list as `(HAL_PIXEL_FORMAT_BLOB,
10286            android.depth.maxDepthSamples, 1, OUTPUT)` in addition to
10287            the entries for HAL_PIXEL_FORMAT_Y16.
10288          </details>
10289          <tag id="DEPTH" />
10290        </entry>
10291        <entry name="availableDepthMinFrameDurations" type="int64" visibility="ndk_public"
10292               container="array" typedef="streamConfigurationDuration" hwlevel="limited">
10293          <array>
10294            <size>4</size>
10295            <size>n</size>
10296          </array>
10297          <description>This lists the minimum frame duration for each
10298          format/size combination for depth output formats.
10299          </description>
10300          <units>(format, width, height, ns) x n</units>
10301          <details>
10302          This should correspond to the frame duration when only that
10303          stream is active, with all processing (typically in android.*.mode)
10304          set to either OFF or FAST.
10305
10306          When multiple streams are used in a request, the minimum frame
10307          duration will be max(individual stream min durations).
10308
10309          The minimum frame duration of a stream (of a particular format, size)
10310          is the same regardless of whether the stream is input or output.
10311
10312          See android.sensor.frameDuration and
10313          android.scaler.availableStallDurations for more details about
10314          calculating the max frame rate.
10315          </details>
10316          <tag id="DEPTH" />
10317        </entry>
10318        <entry name="availableDepthStallDurations" type="int64" visibility="ndk_public"
10319               container="array" typedef="streamConfigurationDuration" hwlevel="limited">
10320          <array>
10321            <size>4</size>
10322            <size>n</size>
10323          </array>
10324          <description>This lists the maximum stall duration for each
10325          output format/size combination for depth streams.
10326          </description>
10327          <units>(format, width, height, ns) x n</units>
10328          <details>
10329          A stall duration is how much extra time would get added
10330          to the normal minimum frame duration for a repeating request
10331          that has streams with non-zero stall.
10332
10333          This functions similarly to
10334          android.scaler.availableStallDurations for depth
10335          streams.
10336
10337          All depth output stream formats may have a nonzero stall
10338          duration.
10339          </details>
10340          <tag id="DEPTH" />
10341        </entry>
10342        <entry name="depthIsExclusive" type="byte" visibility="public"
10343               enum="true" typedef="boolean" hwlevel="limited">
10344          <enum>
10345            <value>FALSE</value>
10346            <value>TRUE</value>
10347          </enum>
10348          <description>Indicates whether a capture request may target both a
10349          DEPTH16 / DEPTH_POINT_CLOUD output, and normal color outputs (such as
10350          YUV_420_888, JPEG, or RAW) simultaneously.
10351          </description>
10352          <details>
10353          If TRUE, including both depth and color outputs in a single
10354          capture request is not supported. An application must interleave color
10355          and depth requests.  If FALSE, a single request can target both types
10356          of output.
10357
10358          Typically, this restriction exists on camera devices that
10359          need to emit a specific pattern or wavelength of light to
10360          measure depth values, which causes the color image to be
10361          corrupted during depth measurement.
10362          </details>
10363        </entry>
10364        <entry name="availableRecommendedDepthStreamConfigurations" type="int32"
10365            visibility="ndk_public" optional="true" container="array"
10366            typedef="recommendedStreamConfiguration" hal_version="3.4">
10367          <array>
10368            <size>n</size>
10369            <size>5</size>
10370          </array>
10371          <description>Recommended depth stream configurations for common client use cases.
10372          </description>
10373          <details>Optional subset of the android.depth.availableDepthStreamConfigurations that
10374          contains similar tuples listed as
10375          (i.e. width, height, format, output/input stream, usecase bit field).
10376          Camera devices will be able to suggest particular depth stream configurations which are
10377          power and performance efficient for specific use cases. For more information about
10378          retrieving the suggestions see
10379          {@link android.hardware.camera2.CameraCharacteristics#getRecommendedStreamConfigurationMap}.
10380          </details>
10381          <ndk_details>
10382          For data representation please refer to
10383          android.scaler.availableRecommendedStreamConfigurations
10384          </ndk_details>
10385          <hal_details>
10386          Recommended depth configurations are expected to be declared with SNAPSHOT and/or
10387          ZSL if supported by the device.
10388          For additional details on how to declare recommended stream configurations, check
10389          android.scaler.availableRecommendedStreamConfigurations.
10390          For additional requirements on depth streams please consider
10391          android.depth.availableDepthStreamConfigurations.
10392          </hal_details>
10393        </entry>
10394        <entry name="availableDynamicDepthStreamConfigurations" type="int32" visibility="ndk_public"
10395               enum="true" container="array" typedef="streamConfiguration" hal_version="3.4">
10396          <array>
10397            <size>n</size>
10398            <size>4</size>
10399          </array>
10400          <enum>
10401            <value>OUTPUT</value>
10402            <value>INPUT</value>
10403          </enum>
10404          <description>The available dynamic depth dataspace stream
10405          configurations that this camera device supports
10406          (i.e. format, width, height, output/input stream).
10407          </description>
10408          <details>
10409            These are output stream configurations for use with
10410            dataSpace DYNAMIC_DEPTH. The configurations are
10411            listed as `(format, width, height, input?)` tuples.
10412
10413            Only devices that support depth output for at least
10414            the HAL_PIXEL_FORMAT_Y16 dense depth map along with
10415            HAL_PIXEL_FORMAT_BLOB with the same size or size with
10416            the same aspect ratio can have dynamic depth dataspace
10417            stream configuration. android.depth.depthIsExclusive also
10418            needs to be set to FALSE.
10419          </details>
10420          <hal_details>
10421            Do not set this property directly.
10422            It is populated by camera framework and must not be set
10423            at the HAL layer.
10424          </hal_details>
10425          <tag id="DEPTH" />
10426        </entry>
10427        <entry name="availableDynamicDepthMinFrameDurations" type="int64" visibility="ndk_public"
10428               container="array" typedef="streamConfigurationDuration" hal_version="3.4">
10429          <array>
10430            <size>4</size>
10431            <size>n</size>
10432          </array>
10433          <description>This lists the minimum frame duration for each
10434          format/size combination for dynamic depth output streams.
10435          </description>
10436          <units>(format, width, height, ns) x n</units>
10437          <details>
10438          This should correspond to the frame duration when only that
10439          stream is active, with all processing (typically in android.*.mode)
10440          set to either OFF or FAST.
10441
10442          When multiple streams are used in a request, the minimum frame
10443          duration will be max(individual stream min durations).
10444
10445          The minimum frame duration of a stream (of a particular format, size)
10446          is the same regardless of whether the stream is input or output.
10447          </details>
10448          <hal_details>
10449            Do not set this property directly.
10450            It is populated by camera framework and must not be set
10451            at the HAL layer.
10452          </hal_details>
10453          <tag id="DEPTH" />
10454        </entry>
10455        <entry name="availableDynamicDepthStallDurations" type="int64" visibility="ndk_public"
10456               container="array" typedef="streamConfigurationDuration" hal_version="3.4">
10457          <array>
10458            <size>4</size>
10459            <size>n</size>
10460          </array>
10461          <description>This lists the maximum stall duration for each
10462          output format/size combination for dynamic depth streams.
10463          </description>
10464          <units>(format, width, height, ns) x n</units>
10465          <details>
10466          A stall duration is how much extra time would get added
10467          to the normal minimum frame duration for a repeating request
10468          that has streams with non-zero stall.
10469
10470          All dynamic depth output streams may have a nonzero stall
10471          duration.
10472          </details>
10473          <hal_details>
10474            Do not set this property directly.
10475            It is populated by camera framework and must not be set
10476            at the HAL layer.
10477          </hal_details>
10478          <tag id="DEPTH" />
10479        </entry>
10480      </static>
10481    </section>
10482    <section name="logicalMultiCamera">
10483      <static>
10484        <entry name="physicalIds" type="byte" visibility="ndk_public"
10485               container="array" hwlevel="limited" hal_version="3.3">
10486          <array>
10487            <size>n</size>
10488          </array>
10489          <description>String containing the ids of the underlying physical cameras.
10490          </description>
10491          <units>UTF-8 null-terminated string</units>
10492          <details>
10493            For a logical camera, this is concatenation of all underlying physical camera IDs.
10494            The null terminator for physical camera ID must be preserved so that the whole string
10495            can be tokenized using '\0' to generate list of physical camera IDs.
10496
10497            For example, if the physical camera IDs of the logical camera are "2" and "3", the
10498            value of this tag will be ['2', '\0', '3', '\0'].
10499
10500            The number of physical camera IDs must be no less than 2.
10501          </details>
10502          <tag id="LOGICALCAMERA" />
10503        </entry>
10504        <entry name="sensorSyncType" type="byte" visibility="public"
10505               enum="true" hwlevel="limited" hal_version="3.3">
10506          <enum>
10507            <value>APPROXIMATE
10508              <notes>
10509              A software mechanism is used to synchronize between the physical cameras. As a result,
10510              the timestamp of an image from a physical stream is only an approximation of the
10511              image sensor start-of-exposure time.
10512              </notes>
10513            </value>
10514            <value>CALIBRATED
10515              <notes>
10516              The camera device supports frame timestamp synchronization at the hardware level,
10517              and the timestamp of a physical stream image accurately reflects its
10518              start-of-exposure time.
10519              </notes>
10520            </value>
10521          </enum>
10522          <description>The accuracy of frame timestamp synchronization between physical cameras</description>
10523          <details>
10524          The accuracy of the frame timestamp synchronization determines the physical cameras'
10525          ability to start exposure at the same time. If the sensorSyncType is CALIBRATED,
10526          the physical camera sensors usually run in master-slave mode so that their shutter
10527          time is synchronized. For APPROXIMATE sensorSyncType, the camera sensors usually run in
10528          master-master mode, and there could be offset between their start of exposure.
10529
10530          In both cases, all images generated for a particular capture request still carry the same
10531          timestamps, so that they can be used to look up the matching frame number and
10532          onCaptureStarted callback.
10533
10534          This tag is only applicable if the logical camera device supports concurrent physical
10535          streams from different physical cameras.
10536          </details>
10537          <tag id="LOGICALCAMERA" />
10538        </entry>
10539      </static>
10540      <dynamic>
10541      <entry name="activePhysicalId" type="byte" visibility="public"
10542             typedef="string" hal_version="3.4">
10543        <description>String containing the ID of the underlying active physical camera.
10544        </description>
10545        <units>UTF-8 null-terminated string</units>
10546        <details>
10547          The ID of the active physical camera that's backing the logical camera. All camera
10548          streams and metadata that are not physical camera specific will be originating from this
10549          physical camera.
10550
10551          For a logical camera made up of physical cameras where each camera's lenses have
10552          different characteristics, the camera device may choose to switch between the physical
10553          cameras when application changes FOCAL_LENGTH or SCALER_CROP_REGION.
10554          At the time of lens switch, this result metadata reflects the new active physical camera
10555          ID.
10556
10557          This key will be available if the camera device advertises this key via {@link
10558          android.hardware.camera2.CameraCharacteristics#getAvailableCaptureResultKeys|ACAMERA_REQUEST_AVAILABLE_RESULT_KEYS}.
10559          When available, this must be one of valid physical IDs backing this logical multi-camera.
10560          If this key is not available for a logical multi-camera, the camera device implementation
10561          may still switch between different active physical cameras based on use case, but the
10562          current active physical camera information won't be available to the application.
10563        </details>
10564        <hal_details>
10565          Staring from HIDL ICameraDevice version 3.5, the tag must be available in the capture
10566          result metadata to indicate current active physical camera ID.
10567        </hal_details>
10568        <tag id="LOGICALCAMERA" />
10569      </entry>
10570    </dynamic>
10571    </section>
10572    <section name="distortionCorrection">
10573      <controls>
10574        <entry name="mode" type="byte" visibility="public" enum="true" hal_version="3.3">
10575          <enum>
10576            <value>OFF
10577            <notes>No distortion correction is applied.</notes></value>
10578            <value>FAST <notes>Lens distortion correction is applied without reducing frame rate
10579            relative to sensor output. It may be the same as OFF if distortion correction would
10580            reduce frame rate relative to sensor.</notes></value>
10581            <value>HIGH_QUALITY <notes>High-quality distortion correction is applied, at the cost of
10582            possibly reduced frame rate relative to sensor output.</notes></value>
10583          </enum>
10584          <description>Mode of operation for the lens distortion correction block.</description>
10585          <range>android.distortionCorrection.availableModes</range>
10586          <details>The lens distortion correction block attempts to improve image quality by fixing
10587          radial, tangential, or other geometric aberrations in the camera device's optics.  If
10588          available, the android.lens.distortion field documents the lens's distortion parameters.
10589
10590          OFF means no distortion correction is done.
10591
10592          FAST/HIGH_QUALITY both mean camera device determined distortion correction will be
10593          applied. HIGH_QUALITY mode indicates that the camera device will use the highest-quality
10594          correction algorithms, even if it slows down capture rate. FAST means the camera device
10595          will not slow down capture rate when applying correction. FAST may be the same as OFF if
10596          any correction at all would slow down capture rate.  Every output stream will have a
10597          similar amount of enhancement applied.
10598
10599          The correction only applies to processed outputs such as YUV, Y8, JPEG, or DEPTH16; it is
10600          not applied to any RAW output.
10601
10602          This control will be on by default on devices that support this control. Applications
10603          disabling distortion correction need to pay extra attention with the coordinate system of
10604          metering regions, crop region, and face rectangles. When distortion correction is OFF,
10605          metadata coordinates follow the coordinate system of
10606          android.sensor.info.preCorrectionActiveArraySize. When distortion is not OFF, metadata
10607          coordinates follow the coordinate system of android.sensor.info.activeArraySize.  The
10608          camera device will map these metadata fields to match the corrected image produced by the
10609          camera device, for both capture requests and results.  However, this mapping is not very
10610          precise, since rectangles do not generally map to rectangles when corrected.  Only linear
10611          scaling between the active array and precorrection active array coordinates is
10612          performed. Applications that require precise correction of metadata need to undo that
10613          linear scaling, and apply a more complete correction that takes into the account the app's
10614          own requirements.
10615
10616          The full list of metadata that is affected in this way by distortion correction is:
10617
10618          * android.control.afRegions
10619          * android.control.aeRegions
10620          * android.control.awbRegions
10621          * android.scaler.cropRegion
10622          * android.statistics.faces
10623          </details>
10624        </entry>
10625      </controls>
10626      <static>
10627        <entry name="availableModes" type="byte" visibility="public"
10628        type_notes="list of enums" container="array" typedef="enumList" hal_version="3.3">
10629          <array>
10630            <size>n</size>
10631          </array>
10632          <description>
10633          List of distortion correction modes for android.distortionCorrection.mode that are
10634          supported by this camera device.
10635          </description>
10636          <range>Any value listed in android.distortionCorrection.mode</range>
10637          <details>
10638            No device is required to support this API; such devices will always list only 'OFF'.
10639            All devices that support this API will list both FAST and HIGH_QUALITY.
10640          </details>
10641          <hal_details>
10642          HAL must support both FAST and HIGH_QUALITY if distortion correction is available
10643          on the camera device, but the underlying implementation can be the same for both modes.
10644          That is, if the highest quality implementation on the camera device does not slow down
10645          capture rate, then FAST and HIGH_QUALITY will generate the same output.
10646          </hal_details>
10647          <tag id="V1" />
10648          <tag id="REPROC" />
10649        </entry>
10650      </static>
10651      <dynamic>
10652        <clone entry="android.distortionCorrection.mode" kind="controls" hal_version="3.3">
10653        </clone>
10654      </dynamic>
10655    </section>
10656    <section name="heic">
10657      <static>
10658        <namespace name="info">
10659          <entry name="supported" type="byte" visibility="system" enum="true"
10660                 typedef="boolean" hwlevel="limited" hal_version="3.4">
10661            <enum>
10662              <value>FALSE</value>
10663              <value>TRUE</value>
10664            </enum>
10665            <description>Whether this camera device can support identical set of stream combinations
10666            involving HEIC image format, compared to the
10667            {@link android.hardware.camera2.CameraDevice#createCaptureSession table of combinations}
10668            involving JPEG image format required for the device's hardware level and capabilities.
10669            </description>
10670            <details>
10671            All the static, control and dynamic metadata tags related to JPEG apply to HEIC formats
10672            as well. For example, the same android.jpeg.orientation and android.jpeg.quality are
10673            used to control the orientation and quality of the HEIC image. Configuring JPEG and
10674            HEIC streams at the same time is not supported.
10675
10676            If a camera device supports HEIC format (ISO/IEC 23008-12), not only does it
10677            support the existing mandatory stream
10678            {@link android.hardware.camera2.CameraDevice#createCaptureSession combinations}
10679            required for the device's hardware level and capabilities, it also supports swapping
10680            each JPEG stream with HEIC stream in all guaranteed combinations.
10681
10682            For every HEIC stream configured by the application, the camera framework sets up 2
10683            internal streams with camera HAL:
10684
10685            * A YUV_420_888 or IMPLEMENTATION_DEFINED HAL stream as input to HEIC or HEVC encoder.
10686            * A BLOB stream with JPEG_APPS_SEGMENTS dataspace to extract application markers
10687            including EXIF and thumbnail to be saved in HEIF container.
10688
10689            A camera device can output HEIC format to the application if and only if:
10690
10691            * The system contains a HEIC or HEVC encoder with constant quality mode, and
10692            * This tag is set to TRUE, meaning that camera HAL supports replacing JPEG streams in
10693            all mandatory stream combinations with a [YUV_420_888/IMPLEMENTATION_DEFINED stream +
10694            JPEG_APPS_SEGMENT BLOB stream] combo.
10695
10696            As an example, if the camera device's hardware level is LIMITED, and it supports HEIC,
10697            in addition to the required stream combinations, HAL must support below stream
10698            combinations as well:
10699
10700            * IMPLEMENTATION_DEFINED/YUV_420_888 MAXIMUM + JPEG_SEGMENTS_BLOB,
10701            * PRIV PREVIEW + IMPLEMENTATION_DEFINED/YUV_420_888 MAXIMUM + JPEG_SEGMENTS_BLOB,
10702            * YUV PREVIEW + IMPLEMENTATION_DEFINED/YUV_420_888 MAXIMUM + JPEG_SEGMENTS_BLOB,
10703            * PRIV PREVIEW + YUV PREVIEW + IMPLEMENTATION_DEFINED/YUV_420_888 MAXIMUM +
10704            JPEG_SEGMENTS_BLOB
10705
10706            The selection logic between YUV_420_888 and IMPLEMENTATION_DEFINED for HAL internal
10707            stream is as follows:
10708
10709                if (HEIC encoder exists and supports the size) {
10710                    use IMPLEMENTATION_DEFINED with GRALLOC_USAGE_HW_IMAGE_ENCODER usage flag;
10711                } else {
10712                    // HVC encoder exists
10713                    if (size is less than framework predefined tile size) {
10714                        use IMPLEMENTATINO_DEFINED with GRALLOC_USAGE_HW_VIDEO_ENCODER usage flag;
10715                    } else {
10716                        use YUV_420_888;
10717                    }
10718                }
10719          </details>
10720          <tag id="HEIC" />
10721          </entry>
10722          <entry name="maxJpegAppSegmentsCount" type="byte" visibility="system"
10723                 hwlevel="limited" hal_version="3.4">
10724            <description>The maximum number of Jpeg APP segments supported by the camera HAL device.
10725            </description>
10726            <details>
10727            The camera framework will use this value to derive the size of the BLOB buffer with
10728            JPEG_APP_SEGMENTS dataspace, with each APP segment occupying at most 64K bytes. If the
10729            value of this tag is n, the size of the framework allocated buffer will be:
10730
10731                n * (2 + 0xFFFF) + sizeof(struct CameraBlob)
10732
10733            where 2 is number of bytes for APP marker, 0xFFFF is the maximum size per APP segment
10734            (including segment size).
10735
10736            The value of this tag must be at least 1, and APP1 marker (0xFFE1) segment must be the
10737            first segment stored in the JPEG_APPS_SEGMENTS BLOB buffer. APP1 segment stores EXIF and
10738            thumbnail.
10739
10740            Since media encoder embeds the orientation in the metadata of the output image, to be
10741            consistent between main image and thumbnail, camera HAL must not rotate the thumbnail
10742            image data based on android.jpeg.orientation. The framework will write the orientation
10743            into EXIF and HEIC container.
10744
10745            APP1 segment is followed immediately by one or multiple APP2 segments, and APPn
10746            segments. After the HAL fills and returns the JPEG_APP_SEGMENTS buffer, the camera
10747            framework modifies the APP1 segment by filling in the EXIF tags that are related to
10748            main image bitstream and the tags that can be derived from capture result metadata,
10749            before saving them into the HEIC container.
10750
10751            The value of this tag must not be more than 16.
10752            </details>
10753            <tag id="HEIC" />
10754          </entry>
10755        </namespace>
10756
10757        <entry name="availableHeicStreamConfigurations" type="int32" visibility="ndk_public"
10758            enum="true" container="array" typedef="streamConfiguration"
10759            hwlevel="limited" hal_version="3.4">
10760          <array>
10761            <size>n</size>
10762            <size>4</size>
10763          </array>
10764          <enum>
10765            <value>OUTPUT</value>
10766            <value>INPUT</value>
10767          </enum>
10768          <description>The available HEIC (ISO/IEC 23008-12) stream
10769          configurations that this camera device supports
10770          (i.e. format, width, height, output/input stream).
10771          </description>
10772          <details>
10773          The configurations are listed as `(format, width, height, input?)` tuples.
10774
10775          If the camera device supports HEIC image format, it will support identical set of stream
10776          combinations involving HEIC image format, compared to the combinations involving JPEG
10777          image format as required by the device's hardware level and capabilities.
10778
10779          All the static, control, and dynamic metadata tags related to JPEG apply to HEIC formats.
10780          Configuring JPEG and HEIC streams at the same time is not supported.
10781          </details>
10782          <ndk_details>
10783          All the configuration tuples `(format, width, height, input?)` will contain
10784          AIMAGE_FORMAT_HEIC format as OUTPUT only.
10785          </ndk_details>
10786          <hal_details>
10787          These are output stream configurations for use with dataSpace HAL_DATASPACE_HEIF.
10788
10789          Do not set this property directly. It is populated by camera framework and must not be
10790          set by the HAL layer.
10791          </hal_details>
10792         <tag id="HEIC" />
10793        </entry>
10794        <entry name="availableHeicMinFrameDurations" type="int64" visibility="ndk_public"
10795               container="array" typedef="streamConfigurationDuration" hwlevel="limited"
10796               hal_version="3.4">
10797          <array>
10798            <size>4</size>
10799            <size>n</size>
10800          </array>
10801          <description>This lists the minimum frame duration for each
10802          format/size combination for HEIC output formats.
10803          </description>
10804          <units>(format, width, height, ns) x n</units>
10805          <details>
10806          This should correspond to the frame duration when only that
10807          stream is active, with all processing (typically in android.*.mode)
10808          set to either OFF or FAST.
10809
10810          When multiple streams are used in a request, the minimum frame
10811          duration will be max(individual stream min durations).
10812
10813          See android.sensor.frameDuration and
10814          android.scaler.availableStallDurations for more details about
10815          calculating the max frame rate.
10816          </details>
10817          <hal_details>
10818          Do not set this property directly. It is populated by camera framework and must not be
10819          set by the HAL layer.
10820          </hal_details>
10821          <tag id="HEIC" />
10822        </entry>
10823        <entry name="availableHeicStallDurations" type="int64" visibility="ndk_public"
10824               container="array" typedef="streamConfigurationDuration" hwlevel="limited"
10825               hal_version="3.4">
10826          <array>
10827            <size>4</size>
10828            <size>n</size>
10829          </array>
10830          <description>This lists the maximum stall duration for each
10831          output format/size combination for HEIC streams.
10832          </description>
10833          <units>(format, width, height, ns) x n</units>
10834          <details>
10835          A stall duration is how much extra time would get added
10836          to the normal minimum frame duration for a repeating request
10837          that has streams with non-zero stall.
10838
10839          This functions similarly to
10840          android.scaler.availableStallDurations for HEIC
10841          streams.
10842
10843          All HEIC output stream formats may have a nonzero stall
10844          duration.
10845          </details>
10846          <hal_details>
10847          Do not set this property directly. It is populated by camera framework and must not be
10848          set by the HAL layer.
10849          </hal_details>
10850          <tag id="HEIC" />
10851        </entry>
10852      </static>
10853    </section>
10854  </namespace>
10855</metadata>
10856