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1 /*
2  * Copyright (C) 2013-2018 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 
17 #ifndef ANDROID_SERVERS_CAMERA3_STREAM_H
18 #define ANDROID_SERVERS_CAMERA3_STREAM_H
19 
20 #include <gui/Surface.h>
21 #include <utils/RefBase.h>
22 #include <utils/String8.h>
23 #include <utils/String16.h>
24 #include <utils/List.h>
25 
26 #include "hardware/camera3.h"
27 
28 #include "utils/LatencyHistogram.h"
29 #include "Camera3StreamBufferListener.h"
30 #include "Camera3StreamInterface.h"
31 
32 namespace android {
33 
34 namespace camera3 {
35 
36 /**
37  * A class for managing a single stream of input or output data from the camera
38  * device.
39  *
40  * The stream has an internal state machine to track whether it's
41  * connected/configured/etc.
42  *
43  * States:
44  *
45  *  STATE_ERROR: A serious error has occurred, stream is unusable. Outstanding
46  *    buffers may still be returned.
47  *
48  *  STATE_CONSTRUCTED: The stream is ready for configuration, but buffers cannot
49  *    be gotten yet. Not connected to any endpoint, no buffers are registered
50  *    with the HAL.
51  *
52  *  STATE_IN_CONFIG: Configuration has started, but not yet concluded. During this
53  *    time, the usage, max_buffers, and priv fields of camera3_stream returned by
54  *    startConfiguration() may be modified.
55  *
56  *  STATE_IN_RE_CONFIG: Configuration has started, and the stream has been
57  *    configured before. Need to track separately from IN_CONFIG to avoid
58  *    re-registering buffers with HAL.
59  *
60  *  STATE_CONFIGURED: Stream is configured, and has registered buffers with the
61  *    HAL (if necessary). The stream's getBuffer/returnBuffer work. The priv
62  *    pointer may still be modified.
63  *
64  *  STATE_PREPARING: The stream's buffers are being pre-allocated for use.  On
65  *    older HALs, this is done as part of configuration, but in newer HALs
66  *    buffers may be allocated at time of first use. But some use cases require
67  *    buffer allocation upfront, to minmize disruption due to lengthy allocation
68  *    duration.  In this state, only prepareNextBuffer() and cancelPrepare()
69  *    may be called.
70  *
71  *  STATE_IN_IDLE: This is a temporary state only intended to be used for input
72  *    streams and only for the case where we need to re-configure the camera device
73  *    while the input stream has an outstanding buffer. All other streams should not
74  *    be able to switch to this state. For them this is invalid and should be handled
75  *    as an unknown state.
76  *
77  * Transition table:
78  *
79  *    <none>               => STATE_CONSTRUCTED:
80  *        When constructed with valid arguments
81  *    <none>               => STATE_ERROR:
82  *        When constructed with invalid arguments
83  *    STATE_CONSTRUCTED    => STATE_IN_CONFIG:
84  *        When startConfiguration() is called
85  *    STATE_IN_CONFIG      => STATE_CONFIGURED:
86  *        When finishConfiguration() is called
87  *    STATE_IN_CONFIG      => STATE_ERROR:
88  *        When finishConfiguration() fails to allocate or register buffers.
89  *    STATE_CONFIGURED     => STATE_IN_RE_CONFIG:  *
90  *        When startConfiguration() is called again, after making sure stream is
91  *        idle with waitUntilIdle().
92  *    STATE_IN_RE_CONFIG   => STATE_CONFIGURED:
93  *        When finishConfiguration() is called.
94  *    STATE_IN_RE_CONFIG   => STATE_ERROR:
95  *        When finishConfiguration() fails to allocate or register buffers.
96  *    STATE_CONFIGURED     => STATE_CONSTRUCTED:
97  *        When disconnect() is called after making sure stream is idle with
98  *        waitUntilIdle().
99  *    STATE_CONFIGURED     => STATE_PREPARING:
100  *        When startPrepare is called before the stream has a buffer
101  *        queued back into it for the first time.
102  *    STATE_PREPARING      => STATE_CONFIGURED:
103  *        When sufficient prepareNextBuffer calls have been made to allocate
104  *        all stream buffers, or cancelPrepare is called.
105  *    STATE_CONFIGURED     => STATE_ABANDONED:
106  *        When the buffer queue of the stream is abandoned.
107  *    STATE_CONFIGURED     => STATE_IN_IDLE:
108  *        Only for an input stream which has an outstanding buffer.
109  *    STATE_IN_IDLE     => STATE_CONFIGURED:
110  *        After the internal re-configuration, the input should revert back to
111  *        the configured state.
112  *
113  * Status Tracking:
114  *    Each stream is tracked by StatusTracker as a separate component,
115  *    depending on the handed out buffer count. The state must be STATE_CONFIGURED
116  *    in order for the component to be marked.
117  *
118  *    It's marked in one of two ways:
119  *
120  *    - ACTIVE: One or more buffers have been handed out (with #getBuffer).
121  *    - IDLE: All buffers have been returned (with #returnBuffer), and their
122  *          respective release_fence(s) have been signaled. The only exception to this
123  *          rule is an input stream that moves to "STATE_IN_IDLE" during internal
124  *          re-configuration.
125  *
126  *    A typical use case is output streams. When the HAL has any buffers
127  *    dequeued, the stream is marked ACTIVE. When the HAL returns all buffers
128  *    (e.g. if no capture requests are active), the stream is marked IDLE.
129  *    In this use case, the app consumer does not affect the component status.
130  *
131  */
132 class Camera3Stream :
133         protected camera3_stream,
134         public virtual Camera3StreamInterface,
135         public virtual RefBase {
136   public:
137 
138     virtual ~Camera3Stream();
139 
140     static Camera3Stream*       cast(camera3_stream *stream);
141     static const Camera3Stream* cast(const camera3_stream *stream);
142 
143     /**
144      * Get the stream's ID
145      */
146     int              getId() const;
147 
148     /**
149      * Get the output stream set id.
150      */
151     int              getStreamSetId() const;
152 
153     /**
154      * Get the stream's dimensions and format
155      */
156     uint32_t          getWidth() const;
157     uint32_t          getHeight() const;
158     int               getFormat() const;
159     android_dataspace getDataSpace() const;
160     uint64_t          getUsage() const;
161     void              setUsage(uint64_t usage);
162     void              setFormatOverride(bool formatOverriden);
163     bool              isFormatOverridden() const;
164     int               getOriginalFormat() const;
165     void              setDataSpaceOverride(bool dataSpaceOverriden);
166     bool              isDataSpaceOverridden() const;
167     android_dataspace getOriginalDataSpace() const;
168     const String8&    physicalCameraId() const;
169 
asHalStream()170     camera3_stream*   asHalStream() override {
171         return this;
172     }
173 
174     /**
175      * Start the stream configuration process. Returns a handle to the stream's
176      * information to be passed into the HAL device's configure_streams call.
177      *
178      * Until finishConfiguration() is called, no other methods on the stream may be
179      * called. The usage and max_buffers fields of camera3_stream may be modified
180      * between start/finishConfiguration, but may not be changed after that.
181      * The priv field of camera3_stream may be modified at any time after
182      * startConfiguration.
183      *
184      * Returns NULL in case of error starting configuration.
185      */
186     camera3_stream*  startConfiguration();
187 
188     /**
189      * Check if the stream is mid-configuration (start has been called, but not
190      * finish).  Used for lazy completion of configuration.
191      */
192     bool             isConfiguring() const;
193 
194     /**
195      * Completes the stream configuration process. The stream information
196      * structure returned by startConfiguration() may no longer be modified
197      * after this call, but can still be read until the destruction of the
198      * stream.
199      *
200      * streamReconfigured: set to true when a stream is being reconfigured.
201      *
202      * Returns:
203      *   OK on a successful configuration
204      *   NO_INIT in case of a serious error from the HAL device
205      *   NO_MEMORY in case of an error registering buffers
206      *   INVALID_OPERATION in case connecting to the consumer failed or consumer
207      *       doesn't exist yet.
208      */
209     status_t         finishConfiguration(/*out*/bool* streamReconfigured = nullptr);
210 
211     /**
212      * Cancels the stream configuration process. This returns the stream to the
213      * initial state, allowing it to be configured again later.
214      * This is done if the HAL rejects the proposed combined stream configuration
215      */
216     status_t         cancelConfiguration();
217 
218     /**
219      * Determine whether the stream has already become in-use (has received
220      * a valid filled buffer), which determines if a stream can still have
221      * prepareNextBuffer called on it.
222      */
223     bool             isUnpreparable();
224 
225     /**
226      * Start stream preparation. May only be called in the CONFIGURED state,
227      * when no valid buffers have yet been returned to this stream. Prepares
228      * up to maxCount buffers, or the maximum number of buffers needed by the
229      * pipeline if maxCount is ALLOCATE_PIPELINE_MAX.
230      *
231      * If no prepartion is necessary, returns OK and does not transition to
232      * PREPARING state. Otherwise, returns NOT_ENOUGH_DATA and transitions
233      * to PREPARING.
234      *
235      * This call performs no allocation, so is quick to call.
236      *
237      * blockRequest specifies whether prepare will block upcoming capture
238      * request. This flag should only be set to false if the caller guarantees
239      * the whole buffer preparation process is done before capture request
240      * comes in.
241      *
242      * Returns:
243      *    OK if no more buffers need to be preallocated
244      *    NOT_ENOUGH_DATA if calls to prepareNextBuffer are needed to finish
245      *        buffer pre-allocation, and transitions to the PREPARING state.
246      *    NO_INIT in case of a serious error from the HAL device
247      *    INVALID_OPERATION if called when not in CONFIGURED state, or a
248      *        valid buffer has already been returned to this stream.
249      */
250     status_t         startPrepare(int maxCount, bool blockRequest);
251 
252     /**
253      * Check if the request on a stream is blocked by prepare.
254      */
255     bool             isBlockedByPrepare() const;
256 
257     /**
258      * Continue stream buffer preparation by allocating the next
259      * buffer for this stream.  May only be called in the PREPARED state.
260      *
261      * Returns OK and transitions to the CONFIGURED state if all buffers
262      * are allocated after the call concludes. Otherwise returns NOT_ENOUGH_DATA.
263      *
264      * This call allocates one buffer, which may take several milliseconds for
265      * large buffers.
266      *
267      * Returns:
268      *    OK if no more buffers need to be preallocated, and transitions
269      *        to the CONFIGURED state.
270      *    NOT_ENOUGH_DATA if more calls to prepareNextBuffer are needed to finish
271      *        buffer pre-allocation.
272      *    NO_INIT in case of a serious error from the HAL device
273      *    INVALID_OPERATION if called when not in CONFIGURED state, or a
274      *        valid buffer has already been returned to this stream.
275      */
276     status_t         prepareNextBuffer();
277 
278     /**
279      * Cancel stream preparation early. In case allocation needs to be
280      * stopped, this method transitions the stream back to the CONFIGURED state.
281      * Buffers that have been allocated with prepareNextBuffer remain that way,
282      * but a later use of prepareNextBuffer will require just as many
283      * calls as if the earlier prepare attempt had not existed.
284      *
285      * Returns:
286      *    OK if cancellation succeeded, and transitions to the CONFIGURED state
287      *    INVALID_OPERATION if not in the PREPARING state
288      *    NO_INIT in case of a serious error from the HAL device
289      */
290     status_t        cancelPrepare();
291 
292     /**
293      * Tear down memory for this stream. This frees all unused gralloc buffers
294      * allocated for this stream, but leaves it ready for operation afterward.
295      *
296      * May only be called in the CONFIGURED state, and keeps the stream in
297      * the CONFIGURED state.
298      *
299      * Returns:
300      *    OK if teardown succeeded.
301      *    INVALID_OPERATION if not in the CONFIGURED state
302      *    NO_INIT in case of a serious error from the HAL device
303      */
304     status_t       tearDown();
305 
306     /**
307      * Fill in the camera3_stream_buffer with the next valid buffer for this
308      * stream, to hand over to the HAL.
309      *
310      * Multiple surfaces could share the same HAL stream, but a request may
311      * be only for a subset of surfaces. In this case, the
312      * Camera3StreamInterface object needs the surface ID information to acquire
313      * buffers for those surfaces.
314      *
315      * This method may only be called once finishConfiguration has been called.
316      * For bidirectional streams, this method applies to the output-side
317      * buffers.
318      *
319      */
320     status_t         getBuffer(camera3_stream_buffer *buffer,
321             nsecs_t waitBufferTimeout,
322             const std::vector<size_t>& surface_ids = std::vector<size_t>());
323 
324     /**
325      * Return a buffer to the stream after use by the HAL.
326      *
327      * Multiple surfaces could share the same HAL stream, but a request may
328      * be only for a subset of surfaces. In this case, the
329      * Camera3StreamInterface object needs the surface ID information to attach
330      * buffers for those surfaces.
331      *
332      * This method may only be called for buffers provided by getBuffer().
333      * For bidirectional streams, this method applies to the output-side buffers
334      */
335     status_t         returnBuffer(const camera3_stream_buffer &buffer,
336             nsecs_t timestamp, bool timestampIncreasing,
337             const std::vector<size_t>& surface_ids = std::vector<size_t>(),
338             uint64_t frameNumber = 0);
339 
340     /**
341      * Fill in the camera3_stream_buffer with the next valid buffer for this
342      * stream, to hand over to the HAL.
343      *
344      * This method may only be called once finishConfiguration has been called.
345      * For bidirectional streams, this method applies to the input-side
346      * buffers.
347      *
348      * Normally this call will block until the handed out buffer count is less than the stream
349      * max buffer count; if respectHalLimit is set to false, this is ignored.
350      */
351     status_t         getInputBuffer(camera3_stream_buffer *buffer, bool respectHalLimit = true);
352 
353     /**
354      * Return a buffer to the stream after use by the HAL.
355      *
356      * This method may only be called for buffers provided by getBuffer().
357      * For bidirectional streams, this method applies to the input-side buffers
358      */
359     status_t         returnInputBuffer(const camera3_stream_buffer &buffer);
360 
361     // get the buffer producer of the input buffer queue.
362     // only apply to input streams.
363     status_t         getInputBufferProducer(sp<IGraphicBufferProducer> *producer);
364 
365     /**
366      * Whether any of the stream's buffers are currently in use by the HAL,
367      * including buffers that have been returned but not yet had their
368      * release fence signaled.
369      */
370     bool             hasOutstandingBuffers() const;
371 
372     /**
373      * Get number of buffers currently handed out to HAL
374      */
375     size_t           getOutstandingBuffersCount() const;
376 
377     enum {
378         TIMEOUT_NEVER = -1
379     };
380 
381     /**
382      * Set the status tracker to notify about idle transitions
383      */
384     virtual status_t setStatusTracker(sp<StatusTracker> statusTracker);
385 
386     /**
387      * Disconnect stream from its non-HAL endpoint. After this,
388      * start/finishConfiguration must be called before the stream can be used
389      * again. This cannot be called if the stream has outstanding dequeued
390      * buffers.
391      */
392     status_t         disconnect();
393 
394     /**
395      * Debug dump of the stream's state.
396      */
397     virtual void     dump(int fd, const Vector<String16> &args) const;
398 
399     /**
400      * Add a camera3 buffer listener. Adding the same listener twice has
401      * no effect.
402      */
403     void             addBufferListener(
404             wp<Camera3StreamBufferListener> listener);
405 
406     /**
407      * Remove a camera3 buffer listener. Removing the same listener twice
408      * or the listener that was never added has no effect.
409      */
410     void             removeBufferListener(
411             const sp<Camera3StreamBufferListener>& listener);
412 
413 
414     // Setting listener will remove previous listener (if exists)
415     virtual void     setBufferFreedListener(
416             wp<Camera3StreamBufferFreedListener> listener) override;
417 
418     /**
419      * Return if the buffer queue of the stream is abandoned.
420      */
421     bool             isAbandoned() const;
422 
423     /**
424      * Switch a configured stream with possibly outstanding buffers in idle
425      * state. Configuration for such streams will be skipped assuming there
426      * are no changes to the stream parameters.
427      */
428     status_t         forceToIdle();
429 
430     /**
431      * Restore a forced idle stream to configured state, marking it active
432      * in case it contains outstanding buffers.
433      */
434     status_t         restoreConfiguredState();
435 
436     /**
437      * Notify buffer stream listeners about incoming request with particular frame number.
438      */
439     void fireBufferRequestForFrameNumber(uint64_t frameNumber,
440             const CameraMetadata& settings) override;
441 
442   protected:
443     const int mId;
444     /**
445      * Stream set id, used to indicate which group of this stream belongs to for buffer sharing
446      * across multiple streams.
447      *
448      * The default value is set to CAMERA3_STREAM_SET_ID_INVALID, which indicates that this stream
449      * doesn't intend to share buffers with any other streams, and this stream will fall back to
450      * the existing BufferQueue mechanism to manage the buffer allocations and buffer circulation.
451      * When a valid stream set id is set, this stream intends to use the Camera3BufferManager to
452      * manage the buffer allocations; the BufferQueue will only handle the buffer transaction
453      * between the producer and consumer. For this case, upon successfully registration, the streams
454      * with the same stream set id will potentially share the buffers allocated by
455      * Camera3BufferManager.
456      */
457     const int mSetId;
458 
459     const String8 mName;
460     // Zero for formats with fixed buffer size for given dimensions.
461     const size_t mMaxSize;
462 
463     enum StreamState {
464         STATE_ERROR,
465         STATE_CONSTRUCTED,
466         STATE_IN_CONFIG,
467         STATE_IN_RECONFIG,
468         STATE_CONFIGURED,
469         STATE_PREPARING,
470         STATE_ABANDONED,
471         STATE_IN_IDLE
472     } mState;
473 
474     mutable Mutex mLock;
475 
476     Camera3Stream(int id, camera3_stream_type type,
477             uint32_t width, uint32_t height, size_t maxSize, int format,
478             android_dataspace dataSpace, camera3_stream_rotation_t rotation,
479             const String8& physicalCameraId, int setId);
480 
481     wp<Camera3StreamBufferFreedListener> mBufferFreedListener;
482 
483     /**
484      * Interface to be implemented by derived classes
485      */
486 
487     // getBuffer / returnBuffer implementations
488 
489     // Since camera3_stream_buffer includes a raw pointer to the stream,
490     // cast to camera3_stream*, implementations must increment the
491     // refcount of the stream manually in getBufferLocked, and decrement it in
492     // returnBufferLocked.
493     virtual status_t getBufferLocked(camera3_stream_buffer *buffer,
494             const std::vector<size_t>& surface_ids = std::vector<size_t>());
495     virtual status_t returnBufferLocked(const camera3_stream_buffer &buffer,
496             nsecs_t timestamp,
497             const std::vector<size_t>& surface_ids = std::vector<size_t>());
498     virtual status_t getInputBufferLocked(camera3_stream_buffer *buffer);
499     virtual status_t returnInputBufferLocked(
500             const camera3_stream_buffer &buffer);
501     virtual bool     hasOutstandingBuffersLocked() const = 0;
502     // Get the buffer producer of the input buffer queue. Only apply to input streams.
503     virtual status_t getInputBufferProducerLocked(sp<IGraphicBufferProducer> *producer);
504 
505     // Can return -ENOTCONN when we are already disconnected (not an error)
506     virtual status_t disconnectLocked() = 0;
507 
508     // Configure the buffer queue interface to the other end of the stream,
509     // after the HAL has provided usage and max_buffers values. After this call,
510     // the stream must be ready to produce all buffers for registration with
511     // HAL.
512     // Returns NO_INIT or DEAD_OBJECT if the queue has been abandoned.
513     virtual status_t configureQueueLocked() = 0;
514 
515     // Get the total number of buffers in the queue
516     virtual size_t   getBufferCountLocked() = 0;
517 
518     // Get handout output buffer count.
519     virtual size_t   getHandoutOutputBufferCountLocked() const = 0;
520 
521     // Get handout input buffer count.
522     virtual size_t   getHandoutInputBufferCountLocked() = 0;
523 
524     // Get the usage flags for the other endpoint, or return
525     // INVALID_OPERATION if they cannot be obtained.
526     virtual status_t getEndpointUsage(uint64_t *usage) const = 0;
527 
528     // Return whether the buffer is in the list of outstanding buffers.
529     bool isOutstandingBuffer(const camera3_stream_buffer& buffer) const;
530 
531     // Tracking for idle state
532     wp<StatusTracker> mStatusTracker;
533     // Status tracker component ID
534     int mStatusId;
535 
536     // Tracking for stream prepare - whether this stream can still have
537     // prepareNextBuffer called on it.
538     bool mStreamUnpreparable;
539 
540     uint64_t mUsage;
541 
542   private:
543     // Previously configured stream properties (post HAL override)
544     uint64_t mOldUsage;
545     uint32_t mOldMaxBuffers;
546     int mOldFormat;
547     android_dataspace mOldDataSpace;
548 
549     Condition mOutputBufferReturnedSignal;
550     Condition mInputBufferReturnedSignal;
551     static const nsecs_t kWaitForBufferDuration = 3000000000LL; // 3000 ms
552 
553     void fireBufferListenersLocked(const camera3_stream_buffer& buffer,
554             bool acquired, bool output, nsecs_t timestamp = 0, uint64_t frameNumber = 0);
555     List<wp<Camera3StreamBufferListener> > mBufferListenerList;
556 
557     status_t        cancelPrepareLocked();
558 
559     // Remove the buffer from the list of outstanding buffers.
560     void removeOutstandingBuffer(const camera3_stream_buffer& buffer);
561 
562     // Tracking for PREPARING state
563 
564     // State of buffer preallocation. Only true if either prepareNextBuffer
565     // has been called sufficient number of times, or stream configuration
566     // had to register buffers with the HAL
567     bool mPrepared;
568     bool mPrepareBlockRequest;
569 
570     Vector<camera3_stream_buffer_t> mPreparedBuffers;
571     size_t mPreparedBufferIdx;
572 
573     // Number of buffers allocated on last prepare call.
574     size_t mLastMaxCount;
575 
576     mutable Mutex mOutstandingBuffersLock;
577     // Outstanding buffers dequeued from the stream's buffer queue.
578     List<buffer_handle_t> mOutstandingBuffers;
579 
580     // Latency histogram of the wait time for handout buffer count to drop below
581     // max_buffers.
582     static const int32_t kBufferLimitLatencyBinSize = 33; //in ms
583     CameraLatencyHistogram mBufferLimitLatency;
584 
585     //Keep track of original format when the stream is created in case it gets overridden
586     bool mFormatOverridden;
587     const int mOriginalFormat;
588 
589     //Keep track of original dataSpace in case it gets overridden
590     bool mDataSpaceOverridden;
591     android_dataspace mOriginalDataSpace;
592 
593     String8 mPhysicalCameraId;
594     nsecs_t mLastTimestamp;
595 }; // class Camera3Stream
596 
597 }; // namespace camera3
598 
599 }; // namespace android
600 
601 #endif
602