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1 /*
2  * Copyright (C) 2010 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 
18 #include <binder/AppOpsManager.h>
19 #include <binder/IServiceManager.h>
20 #include <gui/Sensor.h>
21 #include <hardware/sensors.h>
22 #include <log/log.h>
23 #include <utils/Errors.h>
24 #include <utils/String8.h>
25 #include <utils/Flattenable.h>
26 
27 #include <inttypes.h>
28 #include <stdint.h>
29 #include <sys/types.h>
30 #include <sys/limits.h>
31 
32 // ----------------------------------------------------------------------------
33 namespace android {
34 // ----------------------------------------------------------------------------
35 
Sensor(const char * name)36 Sensor::Sensor(const char * name) :
37         mName(name), mHandle(0), mType(0),
38         mMinValue(0), mMaxValue(0), mResolution(0),
39         mPower(0), mMinDelay(0), mVersion(0), mFifoReservedEventCount(0),
40         mFifoMaxEventCount(0), mRequiredAppOp(0),
41         mMaxDelay(0), mFlags(0) {
42 }
43 
Sensor(struct sensor_t const * hwSensor,int halVersion)44 Sensor::Sensor(struct sensor_t const* hwSensor, int halVersion) :
45         Sensor(*hwSensor, uuid_t(), halVersion) {
46 }
47 
Sensor(struct sensor_t const & hwSensor,const uuid_t & uuid,int halVersion)48 Sensor::Sensor(struct sensor_t const& hwSensor, const uuid_t& uuid, int halVersion) {
49     mName = hwSensor.name;
50     mVendor = hwSensor.vendor;
51     mVersion = hwSensor.version;
52     mHandle = hwSensor.handle;
53     mType = hwSensor.type;
54     mMinValue = 0;                      // FIXME: minValue
55     mMaxValue = hwSensor.maxRange;     // FIXME: maxValue
56     mResolution = hwSensor.resolution;
57     mPower = hwSensor.power;
58     mMinDelay = hwSensor.minDelay;
59     mFlags = 0;
60     mUuid = uuid;
61 
62     // Set fifo event count zero for older devices which do not support batching. Fused
63     // sensors also have their fifo counts set to zero.
64     if (halVersion > SENSORS_DEVICE_API_VERSION_1_0) {
65         mFifoReservedEventCount = hwSensor.fifoReservedEventCount;
66         mFifoMaxEventCount = hwSensor.fifoMaxEventCount;
67     } else {
68         mFifoReservedEventCount = 0;
69         mFifoMaxEventCount = 0;
70     }
71 
72     if (halVersion >= SENSORS_DEVICE_API_VERSION_1_3) {
73         if (hwSensor.maxDelay > INT_MAX) {
74             // Max delay is declared as a 64 bit integer for 64 bit architectures. But it should
75             // always fit in a 32 bit integer, log error and cap it to INT_MAX.
76             ALOGE("Sensor maxDelay overflow error %s %" PRId64, mName.string(),
77                   static_cast<int64_t>(hwSensor.maxDelay));
78             mMaxDelay = INT_MAX;
79         } else {
80             mMaxDelay = static_cast<int32_t>(hwSensor.maxDelay);
81         }
82     } else {
83         // For older hals set maxDelay to 0.
84         mMaxDelay = 0;
85     }
86 
87     // Ensure existing sensors have correct string type, required permissions and reporting mode.
88     // Set reportingMode for all android defined sensor types, set wake-up flag only for proximity
89     // sensor, significant motion, tilt, pick_up gesture, wake gesture and glance gesture on older
90     // HALs. Newer HALs can define both wake-up and non wake-up proximity sensors.
91     // All the OEM defined defined sensors have flags set to whatever is provided by the HAL.
92     switch (mType) {
93     case SENSOR_TYPE_ACCELEROMETER:
94         mStringType = SENSOR_STRING_TYPE_ACCELEROMETER;
95         mFlags |= SENSOR_FLAG_CONTINUOUS_MODE;
96         break;
97     case SENSOR_TYPE_AMBIENT_TEMPERATURE:
98         mStringType = SENSOR_STRING_TYPE_AMBIENT_TEMPERATURE;
99         mFlags |= SENSOR_FLAG_ON_CHANGE_MODE;
100         break;
101     case SENSOR_TYPE_GAME_ROTATION_VECTOR:
102         mStringType = SENSOR_STRING_TYPE_GAME_ROTATION_VECTOR;
103         mFlags |= SENSOR_FLAG_CONTINUOUS_MODE;
104         break;
105     case SENSOR_TYPE_GEOMAGNETIC_ROTATION_VECTOR:
106         mStringType = SENSOR_STRING_TYPE_GEOMAGNETIC_ROTATION_VECTOR;
107         mFlags |= SENSOR_FLAG_CONTINUOUS_MODE;
108         break;
109     case SENSOR_TYPE_GRAVITY:
110         mStringType = SENSOR_STRING_TYPE_GRAVITY;
111         mFlags |= SENSOR_FLAG_CONTINUOUS_MODE;
112         break;
113     case SENSOR_TYPE_GYROSCOPE:
114         mStringType = SENSOR_STRING_TYPE_GYROSCOPE;
115         mFlags |= SENSOR_FLAG_CONTINUOUS_MODE;
116         break;
117     case SENSOR_TYPE_GYROSCOPE_UNCALIBRATED:
118         mStringType = SENSOR_STRING_TYPE_GYROSCOPE_UNCALIBRATED;
119         mFlags |= SENSOR_FLAG_CONTINUOUS_MODE;
120         break;
121     case SENSOR_TYPE_HEART_RATE: {
122         mStringType = SENSOR_STRING_TYPE_HEART_RATE;
123         mRequiredPermission = SENSOR_PERMISSION_BODY_SENSORS;
124         AppOpsManager appOps;
125         mRequiredAppOp = appOps.permissionToOpCode(String16(SENSOR_PERMISSION_BODY_SENSORS));
126         mFlags |= SENSOR_FLAG_ON_CHANGE_MODE;
127         } break;
128     case SENSOR_TYPE_LIGHT:
129         mStringType = SENSOR_STRING_TYPE_LIGHT;
130         mFlags |= SENSOR_FLAG_ON_CHANGE_MODE;
131         break;
132     case SENSOR_TYPE_LINEAR_ACCELERATION:
133         mStringType = SENSOR_STRING_TYPE_LINEAR_ACCELERATION;
134         mFlags |= SENSOR_FLAG_CONTINUOUS_MODE;
135         break;
136     case SENSOR_TYPE_MAGNETIC_FIELD:
137         mStringType = SENSOR_STRING_TYPE_MAGNETIC_FIELD;
138         mFlags |= SENSOR_FLAG_CONTINUOUS_MODE;
139         break;
140     case SENSOR_TYPE_MAGNETIC_FIELD_UNCALIBRATED:
141         mStringType = SENSOR_STRING_TYPE_MAGNETIC_FIELD_UNCALIBRATED;
142         mFlags |= SENSOR_FLAG_CONTINUOUS_MODE;
143         break;
144     case SENSOR_TYPE_ORIENTATION:
145         mStringType = SENSOR_STRING_TYPE_ORIENTATION;
146         mFlags |= SENSOR_FLAG_CONTINUOUS_MODE;
147         break;
148     case SENSOR_TYPE_PRESSURE:
149         mStringType = SENSOR_STRING_TYPE_PRESSURE;
150         mFlags |= SENSOR_FLAG_CONTINUOUS_MODE;
151         break;
152     case SENSOR_TYPE_PROXIMITY:
153         mStringType = SENSOR_STRING_TYPE_PROXIMITY;
154         mFlags |= SENSOR_FLAG_ON_CHANGE_MODE;
155         if (halVersion < SENSORS_DEVICE_API_VERSION_1_3) {
156             mFlags |= SENSOR_FLAG_WAKE_UP;
157         }
158         break;
159     case SENSOR_TYPE_RELATIVE_HUMIDITY:
160         mStringType = SENSOR_STRING_TYPE_RELATIVE_HUMIDITY;
161         mFlags |= SENSOR_FLAG_ON_CHANGE_MODE;
162         break;
163     case SENSOR_TYPE_ROTATION_VECTOR:
164         mStringType = SENSOR_STRING_TYPE_ROTATION_VECTOR;
165         mFlags |= SENSOR_FLAG_CONTINUOUS_MODE;
166         break;
167     case SENSOR_TYPE_SIGNIFICANT_MOTION:
168         mStringType = SENSOR_STRING_TYPE_SIGNIFICANT_MOTION;
169         mFlags |= SENSOR_FLAG_ONE_SHOT_MODE;
170         if (halVersion < SENSORS_DEVICE_API_VERSION_1_3) {
171             mFlags |= SENSOR_FLAG_WAKE_UP;
172         }
173         break;
174     case SENSOR_TYPE_STEP_COUNTER:
175         mStringType = SENSOR_STRING_TYPE_STEP_COUNTER;
176         mFlags |= SENSOR_FLAG_ON_CHANGE_MODE;
177         break;
178     case SENSOR_TYPE_STEP_DETECTOR:
179         mStringType = SENSOR_STRING_TYPE_STEP_DETECTOR;
180         mFlags |= SENSOR_FLAG_SPECIAL_REPORTING_MODE;
181         break;
182     case SENSOR_TYPE_TEMPERATURE:
183         mStringType = SENSOR_STRING_TYPE_TEMPERATURE;
184         mFlags |= SENSOR_FLAG_ON_CHANGE_MODE;
185         break;
186     case SENSOR_TYPE_TILT_DETECTOR:
187         mStringType = SENSOR_STRING_TYPE_TILT_DETECTOR;
188         mFlags |= SENSOR_FLAG_SPECIAL_REPORTING_MODE;
189         if (halVersion < SENSORS_DEVICE_API_VERSION_1_3) {
190             mFlags |= SENSOR_FLAG_WAKE_UP;
191         }
192         break;
193     case SENSOR_TYPE_WAKE_GESTURE:
194         mStringType = SENSOR_STRING_TYPE_WAKE_GESTURE;
195         mFlags |= SENSOR_FLAG_ONE_SHOT_MODE;
196         if (halVersion < SENSORS_DEVICE_API_VERSION_1_3) {
197             mFlags |= SENSOR_FLAG_WAKE_UP;
198         }
199         break;
200     case SENSOR_TYPE_GLANCE_GESTURE:
201         mStringType = SENSOR_STRING_TYPE_GLANCE_GESTURE;
202         mFlags |= SENSOR_FLAG_ONE_SHOT_MODE;
203         if (halVersion < SENSORS_DEVICE_API_VERSION_1_3) {
204             mFlags |= SENSOR_FLAG_WAKE_UP;
205         }
206         break;
207     case SENSOR_TYPE_PICK_UP_GESTURE:
208         mStringType = SENSOR_STRING_TYPE_PICK_UP_GESTURE;
209         mFlags |= SENSOR_FLAG_ONE_SHOT_MODE;
210         if (halVersion < SENSORS_DEVICE_API_VERSION_1_3) {
211             mFlags |= SENSOR_FLAG_WAKE_UP;
212         }
213         break;
214     case SENSOR_TYPE_WRIST_TILT_GESTURE:
215         mStringType = SENSOR_STRING_TYPE_WRIST_TILT_GESTURE;
216         mFlags |= SENSOR_FLAG_SPECIAL_REPORTING_MODE;
217         if (halVersion < SENSORS_DEVICE_API_VERSION_1_3) {
218             mFlags |= SENSOR_FLAG_WAKE_UP;
219         }
220         break;
221     case SENSOR_TYPE_DYNAMIC_SENSOR_META:
222         mStringType = SENSOR_STRING_TYPE_DYNAMIC_SENSOR_META;
223         mFlags = SENSOR_FLAG_SPECIAL_REPORTING_MODE; // special trigger and non-wake up
224         break;
225     case SENSOR_TYPE_POSE_6DOF:
226         mStringType = SENSOR_STRING_TYPE_POSE_6DOF;
227         mFlags |= SENSOR_FLAG_CONTINUOUS_MODE;
228         break;
229     case SENSOR_TYPE_STATIONARY_DETECT:
230         mStringType = SENSOR_STRING_TYPE_STATIONARY_DETECT;
231         mFlags |= SENSOR_FLAG_ONE_SHOT_MODE;
232         if (halVersion < SENSORS_DEVICE_API_VERSION_1_3) {
233             mFlags |= SENSOR_FLAG_WAKE_UP;
234         }
235         break;
236     case SENSOR_TYPE_MOTION_DETECT:
237         mStringType = SENSOR_STRING_TYPE_MOTION_DETECT;
238         mFlags |= SENSOR_FLAG_ONE_SHOT_MODE;
239         if (halVersion < SENSORS_DEVICE_API_VERSION_1_3) {
240             mFlags |= SENSOR_FLAG_WAKE_UP;
241         }
242         break;
243     case SENSOR_TYPE_HEART_BEAT:
244         mStringType = SENSOR_STRING_TYPE_HEART_BEAT;
245         mFlags |= SENSOR_FLAG_SPECIAL_REPORTING_MODE;
246         break;
247     default:
248         // Only pipe the stringType, requiredPermission and flags for custom sensors.
249         if (halVersion > SENSORS_DEVICE_API_VERSION_1_0 && hwSensor.stringType) {
250             mStringType = hwSensor.stringType;
251         }
252         if (halVersion > SENSORS_DEVICE_API_VERSION_1_0 && hwSensor.requiredPermission) {
253             mRequiredPermission = hwSensor.requiredPermission;
254             if (!strcmp(mRequiredPermission, SENSOR_PERMISSION_BODY_SENSORS)) {
255                 AppOpsManager appOps;
256                 mRequiredAppOp = appOps.permissionToOpCode(String16(SENSOR_PERMISSION_BODY_SENSORS));
257             }
258         }
259 
260         if (halVersion >= SENSORS_DEVICE_API_VERSION_1_3) {
261             mFlags = static_cast<uint32_t>(hwSensor.flags);
262         } else {
263             // This is an OEM defined sensor on an older HAL. Use minDelay to determine the
264             // reporting mode of the sensor.
265             if (mMinDelay > 0) {
266                 mFlags |= SENSOR_FLAG_CONTINUOUS_MODE;
267             } else if (mMinDelay == 0) {
268                 mFlags |= SENSOR_FLAG_ON_CHANGE_MODE;
269             } else if (mMinDelay < 0) {
270                 mFlags |= SENSOR_FLAG_ONE_SHOT_MODE;
271             }
272         }
273         break;
274     }
275 
276     if (halVersion >= SENSORS_DEVICE_API_VERSION_1_3) {
277         // Wake-up flag of HAL 1.3 and above is set here
278         mFlags |= (hwSensor.flags & SENSOR_FLAG_WAKE_UP);
279 
280         // Log error if the reporting mode is not as expected, but respect HAL setting.
281         int actualReportingMode = (hwSensor.flags & REPORTING_MODE_MASK) >> REPORTING_MODE_SHIFT;
282         int expectedReportingMode = (mFlags & REPORTING_MODE_MASK) >> REPORTING_MODE_SHIFT;
283         if (actualReportingMode != expectedReportingMode) {
284             ALOGE("Reporting Mode incorrect: sensor %s handle=%#010" PRIx32 " type=%" PRId32 " "
285                    "actual=%d expected=%d",
286                    mName.string(), mHandle, mType, actualReportingMode, expectedReportingMode);
287         }
288     }
289 
290     // Feature flags
291     // Set DYNAMIC_SENSOR_MASK and ADDITIONAL_INFO_MASK flag here. Compatible with HAL 1_3.
292     if (halVersion >= SENSORS_DEVICE_API_VERSION_1_3) {
293         mFlags |= (hwSensor.flags & (DYNAMIC_SENSOR_MASK | ADDITIONAL_INFO_MASK));
294     }
295     // Set DATA_INJECTION flag here. Defined in HAL 1_4.
296     if (halVersion >= SENSORS_DEVICE_API_VERSION_1_4) {
297         mFlags |= (hwSensor.flags & DATA_INJECTION_MASK);
298     }
299 
300     if (mRequiredPermission.length() > 0) {
301         // If the sensor is protected by a permission we need to know if it is
302         // a runtime one to determine whether we can use the permission cache.
303         sp<IBinder> binder = defaultServiceManager()->getService(String16("permission"));
304         if (binder != 0) {
305             sp<IPermissionController> permCtrl = interface_cast<IPermissionController>(binder);
306             mRequiredPermissionRuntime = permCtrl->isRuntimePermission(
307                     String16(mRequiredPermission));
308         }
309     }
310 }
311 
~Sensor()312 Sensor::~Sensor() {
313 }
314 
getName() const315 const String8& Sensor::getName() const {
316     return mName;
317 }
318 
getVendor() const319 const String8& Sensor::getVendor() const {
320     return mVendor;
321 }
322 
getHandle() const323 int32_t Sensor::getHandle() const {
324     return mHandle;
325 }
326 
getType() const327 int32_t Sensor::getType() const {
328     return mType;
329 }
330 
getMinValue() const331 float Sensor::getMinValue() const {
332     return mMinValue;
333 }
334 
getMaxValue() const335 float Sensor::getMaxValue() const {
336     return mMaxValue;
337 }
338 
getResolution() const339 float Sensor::getResolution() const {
340     return mResolution;
341 }
342 
getPowerUsage() const343 float Sensor::getPowerUsage() const {
344     return mPower;
345 }
346 
getMinDelay() const347 int32_t Sensor::getMinDelay() const {
348     return mMinDelay;
349 }
350 
getMinDelayNs() const351 nsecs_t Sensor::getMinDelayNs() const {
352     return getMinDelay() * 1000;
353 }
354 
getVersion() const355 int32_t Sensor::getVersion() const {
356     return mVersion;
357 }
358 
getFifoReservedEventCount() const359 uint32_t Sensor::getFifoReservedEventCount() const {
360     return mFifoReservedEventCount;
361 }
362 
getFifoMaxEventCount() const363 uint32_t Sensor::getFifoMaxEventCount() const {
364     return mFifoMaxEventCount;
365 }
366 
getStringType() const367 const String8& Sensor::getStringType() const {
368     return mStringType;
369 }
370 
getRequiredPermission() const371 const String8& Sensor::getRequiredPermission() const {
372     return mRequiredPermission;
373 }
374 
isRequiredPermissionRuntime() const375 bool Sensor::isRequiredPermissionRuntime() const {
376     return mRequiredPermissionRuntime;
377 }
378 
getRequiredAppOp() const379 int32_t Sensor::getRequiredAppOp() const {
380     return mRequiredAppOp;
381 }
382 
getMaxDelay() const383 int32_t Sensor::getMaxDelay() const {
384     return mMaxDelay;
385 }
386 
getFlags() const387 uint32_t Sensor::getFlags() const {
388     return mFlags;
389 }
390 
isWakeUpSensor() const391 bool Sensor::isWakeUpSensor() const {
392     return (mFlags & SENSOR_FLAG_WAKE_UP) != 0;
393 }
394 
isDynamicSensor() const395 bool Sensor::isDynamicSensor() const {
396     return (mFlags & SENSOR_FLAG_DYNAMIC_SENSOR) != 0;
397 }
398 
hasAdditionalInfo() const399 bool Sensor::hasAdditionalInfo() const {
400     return (mFlags & SENSOR_FLAG_ADDITIONAL_INFO) != 0;
401 }
402 
getReportingMode() const403 int32_t Sensor::getReportingMode() const {
404     return ((mFlags & REPORTING_MODE_MASK) >> REPORTING_MODE_SHIFT);
405 }
406 
getUuid() const407 const Sensor::uuid_t& Sensor::getUuid() const {
408     return mUuid;
409 }
410 
setId(int32_t id)411 void Sensor::setId(int32_t id) {
412     mUuid.i64[0] = id;
413     mUuid.i64[1] = 0;
414 }
415 
getId() const416 int32_t Sensor::getId() const {
417     return int32_t(mUuid.i64[0]);
418 }
419 
getFlattenedSize() const420 size_t Sensor::getFlattenedSize() const {
421     size_t fixedSize =
422             sizeof(mVersion) + sizeof(mHandle) + sizeof(mType) +
423             sizeof(mMinValue) + sizeof(mMaxValue) + sizeof(mResolution) +
424             sizeof(mPower) + sizeof(mMinDelay) + sizeof(mFifoMaxEventCount) +
425             sizeof(mFifoMaxEventCount) + sizeof(mRequiredPermissionRuntime) +
426             sizeof(mRequiredAppOp) + sizeof(mMaxDelay) + sizeof(mFlags) + sizeof(mUuid);
427 
428     size_t variableSize =
429             sizeof(uint32_t) + FlattenableUtils::align<4>(mName.length()) +
430             sizeof(uint32_t) + FlattenableUtils::align<4>(mVendor.length()) +
431             sizeof(uint32_t) + FlattenableUtils::align<4>(mStringType.length()) +
432             sizeof(uint32_t) + FlattenableUtils::align<4>(mRequiredPermission.length());
433 
434     return fixedSize + variableSize;
435 }
436 
flatten(void * buffer,size_t size) const437 status_t Sensor::flatten(void* buffer, size_t size) const {
438     if (size < getFlattenedSize()) {
439         return NO_MEMORY;
440     }
441 
442     flattenString8(buffer, size, mName);
443     flattenString8(buffer, size, mVendor);
444     FlattenableUtils::write(buffer, size, mVersion);
445     FlattenableUtils::write(buffer, size, mHandle);
446     FlattenableUtils::write(buffer, size, mType);
447     FlattenableUtils::write(buffer, size, mMinValue);
448     FlattenableUtils::write(buffer, size, mMaxValue);
449     FlattenableUtils::write(buffer, size, mResolution);
450     FlattenableUtils::write(buffer, size, mPower);
451     FlattenableUtils::write(buffer, size, mMinDelay);
452     FlattenableUtils::write(buffer, size, mFifoReservedEventCount);
453     FlattenableUtils::write(buffer, size, mFifoMaxEventCount);
454     flattenString8(buffer, size, mStringType);
455     flattenString8(buffer, size, mRequiredPermission);
456     FlattenableUtils::write(buffer, size, mRequiredPermissionRuntime);
457     FlattenableUtils::write(buffer, size, mRequiredAppOp);
458     FlattenableUtils::write(buffer, size, mMaxDelay);
459     FlattenableUtils::write(buffer, size, mFlags);
460     if (mUuid.i64[1] != 0) {
461         // We should never hit this case with our current API, but we
462         // could via a careless API change.  If that happens,
463         // this code will keep us from leaking our UUID (while probably
464         // breaking dynamic sensors).  See b/29547335.
465         ALOGW("Sensor with UUID being flattened; sending 0.  Expect "
466               "bad dynamic sensor behavior");
467         uuid_t tmpUuid;  // default constructor makes this 0.
468         FlattenableUtils::write(buffer, size, tmpUuid);
469     } else {
470         FlattenableUtils::write(buffer, size, mUuid);
471     }
472     return NO_ERROR;
473 }
474 
unflatten(void const * buffer,size_t size)475 status_t Sensor::unflatten(void const* buffer, size_t size) {
476     if (!unflattenString8(buffer, size, mName)) {
477         return NO_MEMORY;
478     }
479     if (!unflattenString8(buffer, size, mVendor)) {
480         return NO_MEMORY;
481     }
482 
483     size_t fixedSize1 =
484             sizeof(mVersion) + sizeof(mHandle) + sizeof(mType) + sizeof(mMinValue) +
485             sizeof(mMaxValue) + sizeof(mResolution) + sizeof(mPower) + sizeof(mMinDelay) +
486             sizeof(mFifoMaxEventCount) + sizeof(mFifoMaxEventCount);
487     if (size < fixedSize1) {
488         return NO_MEMORY;
489     }
490 
491     FlattenableUtils::read(buffer, size, mVersion);
492     FlattenableUtils::read(buffer, size, mHandle);
493     FlattenableUtils::read(buffer, size, mType);
494     FlattenableUtils::read(buffer, size, mMinValue);
495     FlattenableUtils::read(buffer, size, mMaxValue);
496     FlattenableUtils::read(buffer, size, mResolution);
497     FlattenableUtils::read(buffer, size, mPower);
498     FlattenableUtils::read(buffer, size, mMinDelay);
499     FlattenableUtils::read(buffer, size, mFifoReservedEventCount);
500     FlattenableUtils::read(buffer, size, mFifoMaxEventCount);
501 
502     if (!unflattenString8(buffer, size, mStringType)) {
503         return NO_MEMORY;
504     }
505     if (!unflattenString8(buffer, size, mRequiredPermission)) {
506         return NO_MEMORY;
507     }
508 
509     size_t fixedSize2 =
510             sizeof(mRequiredPermissionRuntime) + sizeof(mRequiredAppOp) + sizeof(mMaxDelay) +
511             sizeof(mFlags) + sizeof(mUuid);
512     if (size < fixedSize2) {
513         return NO_MEMORY;
514     }
515 
516     FlattenableUtils::read(buffer, size, mRequiredPermissionRuntime);
517     FlattenableUtils::read(buffer, size, mRequiredAppOp);
518     FlattenableUtils::read(buffer, size, mMaxDelay);
519     FlattenableUtils::read(buffer, size, mFlags);
520     FlattenableUtils::read(buffer, size, mUuid);
521     return NO_ERROR;
522 }
523 
flattenString8(void * & buffer,size_t & size,const String8 & string8)524 void Sensor::flattenString8(void*& buffer, size_t& size,
525         const String8& string8) {
526     uint32_t len = static_cast<uint32_t>(string8.length());
527     FlattenableUtils::write(buffer, size, len);
528     memcpy(static_cast<char*>(buffer), string8.string(), len);
529     FlattenableUtils::advance(buffer, size, FlattenableUtils::align<4>(len));
530 }
531 
unflattenString8(void const * & buffer,size_t & size,String8 & outputString8)532 bool Sensor::unflattenString8(void const*& buffer, size_t& size, String8& outputString8) {
533     uint32_t len;
534     if (size < sizeof(len)) {
535         return false;
536     }
537     FlattenableUtils::read(buffer, size, len);
538     if (size < len) {
539         return false;
540     }
541     outputString8.setTo(static_cast<char const*>(buffer), len);
542     FlattenableUtils::advance(buffer, size, FlattenableUtils::align<4>(len));
543     return true;
544 }
545 
546 // ----------------------------------------------------------------------------
547 }; // namespace android
548