1 /*
2  * Copyright (C) 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 #define LOG_TAG "CamComm1.0-Exif"
18 #define ATRACE_TAG ATRACE_TAG_CAMERA
19 //#define LOG_NDEBUG 0
20 
21 #include <android/log.h>
22 
23 #include <inttypes.h>
24 #include <math.h>
25 #include <stdint.h>
26 #include <string>
27 #include <vector>
28 
29 #include "Exif.h"
30 
31 extern "C" {
32 #include <libexif/exif-data.h>
33 }
34 
35 namespace std {
36 
37 template <>
38 struct default_delete<ExifEntry> {
operator ()std::default_delete39     inline void operator()(ExifEntry* entry) const { exif_entry_unref(entry); }
40 };
41 
42 }  // namespace std
43 
44 
45 namespace android {
46 namespace hardware {
47 namespace camera {
48 namespace common {
49 namespace V1_0 {
50 namespace helper {
51 
52 
53 class ExifUtilsImpl : public ExifUtils {
54   public:
55     ExifUtilsImpl();
56 
57     virtual ~ExifUtilsImpl();
58 
59     // Initialize() can be called multiple times. The setting of Exif tags will be
60     // cleared.
61     virtual bool initialize();
62 
63     // set all known fields from a metadata structure
64     virtual bool setFromMetadata(const CameraMetadata& metadata,
65                                  const size_t imageWidth,
66                                  const size_t imageHeight);
67 
68     // sets the len aperture.
69     // Returns false if memory allocation fails.
70     virtual bool setAperture(uint32_t numerator, uint32_t denominator);
71 
72     // sets the value of brightness.
73     // Returns false if memory allocation fails.
74     virtual bool setBrightness(int32_t numerator, int32_t denominator);
75 
76     // sets the color space.
77     // Returns false if memory allocation fails.
78     virtual bool setColorSpace(uint16_t color_space);
79 
80     // sets the information to compressed data.
81     // Returns false if memory allocation fails.
82     virtual bool setComponentsConfiguration(const std::string& components_configuration);
83 
84     // sets the compression scheme used for the image data.
85     // Returns false if memory allocation fails.
86     virtual bool setCompression(uint16_t compression);
87 
88     // sets image contrast.
89     // Returns false if memory allocation fails.
90     virtual bool setContrast(uint16_t contrast);
91 
92     // sets the date and time of image last modified. It takes local time. The
93     // name of the tag is DateTime in IFD0.
94     // Returns false if memory allocation fails.
95     virtual bool setDateTime(const struct tm& t);
96 
97     // sets the image description.
98     // Returns false if memory allocation fails.
99     virtual bool setDescription(const std::string& description);
100 
101     // sets the digital zoom ratio. If the numerator is 0, it means digital zoom
102     // was not used.
103     // Returns false if memory allocation fails.
104     virtual bool setDigitalZoomRatio(uint32_t numerator, uint32_t denominator);
105 
106     // sets the exposure bias.
107     // Returns false if memory allocation fails.
108     virtual bool setExposureBias(int32_t numerator, int32_t denominator);
109 
110     // sets the exposure mode set when the image was shot.
111     // Returns false if memory allocation fails.
112     virtual bool setExposureMode(uint16_t exposure_mode);
113 
114     // sets the program used by the camera to set exposure when the picture is
115     // taken.
116     // Returns false if memory allocation fails.
117     virtual bool setExposureProgram(uint16_t exposure_program);
118 
119     // sets the exposure time, given in seconds.
120     // Returns false if memory allocation fails.
121     virtual bool setExposureTime(uint32_t numerator, uint32_t denominator);
122 
123     // sets the status of flash.
124     // Returns false if memory allocation fails.
125     virtual bool setFlash(uint16_t flash);
126 
127     // sets the F number.
128     // Returns false if memory allocation fails.
129     virtual bool setFNumber(uint32_t numerator, uint32_t denominator);
130 
131     // sets the focal length of lens used to take the image in millimeters.
132     // Returns false if memory allocation fails.
133     virtual bool setFocalLength(uint32_t numerator, uint32_t denominator);
134 
135     // sets the degree of overall image gain adjustment.
136     // Returns false if memory allocation fails.
137     virtual bool setGainControl(uint16_t gain_control);
138 
139     // sets the altitude in meters.
140     // Returns false if memory allocation fails.
141     virtual bool setGpsAltitude(double altitude);
142 
143     // sets the latitude with degrees minutes seconds format.
144     // Returns false if memory allocation fails.
145     virtual bool setGpsLatitude(double latitude);
146 
147     // sets the longitude with degrees minutes seconds format.
148     // Returns false if memory allocation fails.
149     virtual bool setGpsLongitude(double longitude);
150 
151     // sets GPS processing method.
152     // Returns false if memory allocation fails.
153     virtual bool setGpsProcessingMethod(const std::string& method);
154 
155     // sets GPS date stamp and time stamp (atomic clock). It takes UTC time.
156     // Returns false if memory allocation fails.
157     virtual bool setGpsTimestamp(const struct tm& t);
158 
159     // sets the length (number of rows) of main image.
160     // Returns false if memory allocation fails.
161     virtual bool setImageHeight(uint32_t length);
162 
163     // sets the width (number of columes) of main image.
164     // Returns false if memory allocation fails.
165     virtual bool setImageWidth(uint32_t width);
166 
167     // sets the ISO speed.
168     // Returns false if memory allocation fails.
169     virtual bool setIsoSpeedRating(uint16_t iso_speed_ratings);
170 
171     // sets the kind of light source.
172     // Returns false if memory allocation fails.
173     virtual bool setLightSource(uint16_t light_source);
174 
175     // sets the smallest F number of the lens.
176     // Returns false if memory allocation fails.
177     virtual bool setMaxAperture(uint32_t numerator, uint32_t denominator);
178 
179     // sets the metering mode.
180     // Returns false if memory allocation fails.
181     virtual bool setMeteringMode(uint16_t metering_mode);
182 
183     // sets image orientation.
184     // Returns false if memory allocation fails.
185     virtual bool setOrientation(uint16_t orientation);
186 
187     // sets the unit for measuring XResolution and YResolution.
188     // Returns false if memory allocation fails.
189     virtual bool setResolutionUnit(uint16_t resolution_unit);
190 
191     // sets image saturation.
192     // Returns false if memory allocation fails.
193     virtual bool setSaturation(uint16_t saturation);
194 
195     // sets the type of scene that was shot.
196     // Returns false if memory allocation fails.
197     virtual bool setSceneCaptureType(uint16_t type);
198 
199     // sets image sharpness.
200     // Returns false if memory allocation fails.
201     virtual bool setSharpness(uint16_t sharpness);
202 
203     // sets the shutter speed.
204     // Returns false if memory allocation fails.
205     virtual bool setShutterSpeed(int32_t numerator, int32_t denominator);
206 
207     // sets the distance to the subject, given in meters.
208     // Returns false if memory allocation fails.
209     virtual bool setSubjectDistance(uint32_t numerator, uint32_t denominator);
210 
211     // sets the fractions of seconds for the <DateTime> tag.
212     // Returns false if memory allocation fails.
213     virtual bool setSubsecTime(const std::string& subsec_time);
214 
215     // sets the white balance mode set when the image was shot.
216     // Returns false if memory allocation fails.
217     virtual bool setWhiteBalance(uint16_t white_balance);
218 
219     // sets the number of pixels per resolution unit in the image width.
220     // Returns false if memory allocation fails.
221     virtual bool setXResolution(uint32_t numerator, uint32_t denominator);
222 
223     // sets the position of chrominance components in relation to the luminance
224     // component.
225     // Returns false if memory allocation fails.
226     virtual bool setYCbCrPositioning(uint16_t ycbcr_positioning);
227 
228     // sets the number of pixels per resolution unit in the image length.
229     // Returns false if memory allocation fails.
230     virtual bool setYResolution(uint32_t numerator, uint32_t denominator);
231 
232     // sets the manufacturer of camera.
233     // Returns false if memory allocation fails.
234     virtual bool setMake(const std::string& make);
235 
236     // sets the model number of camera.
237     // Returns false if memory allocation fails.
238     virtual bool setModel(const std::string& model);
239 
240     // Generates APP1 segment.
241     // Returns false if generating APP1 segment fails.
242     virtual bool generateApp1(const void* thumbnail_buffer, uint32_t size);
243 
244     // Gets buffer of APP1 segment. This method must be called only after calling
245     // GenerateAPP1().
246     virtual const uint8_t* getApp1Buffer();
247 
248     // Gets length of APP1 segment. This method must be called only after calling
249     // GenerateAPP1().
250     virtual unsigned int getApp1Length();
251 
252   protected:
253     // sets the version of this standard supported.
254     // Returns false if memory allocation fails.
255     virtual bool setExifVersion(const std::string& exif_version);
256 
257 
258     // Resets the pointers and memories.
259     virtual void reset();
260 
261     // Adds a variable length tag to |exif_data_|. It will remove the original one
262     // if the tag exists.
263     // Returns the entry of the tag. The reference count of returned ExifEntry is
264     // two.
265     virtual std::unique_ptr<ExifEntry> addVariableLengthEntry(ExifIfd ifd,
266                                                               ExifTag tag,
267                                                               ExifFormat format,
268                                                               uint64_t components,
269                                                               unsigned int size);
270 
271     // Adds a entry of |tag| in |exif_data_|. It won't remove the original one if
272     // the tag exists.
273     // Returns the entry of the tag. It adds one reference count to returned
274     // ExifEntry.
275     virtual std::unique_ptr<ExifEntry> addEntry(ExifIfd ifd, ExifTag tag);
276 
277     // Helpe functions to add exif data with different types.
278     virtual bool setShort(ExifIfd ifd,
279                           ExifTag tag,
280                           uint16_t value,
281                           const std::string& msg);
282 
283     virtual bool setLong(ExifIfd ifd,
284                          ExifTag tag,
285                          uint32_t value,
286                          const std::string& msg);
287 
288     virtual bool setRational(ExifIfd ifd,
289                              ExifTag tag,
290                              uint32_t numerator,
291                              uint32_t denominator,
292                              const std::string& msg);
293 
294     virtual bool setSRational(ExifIfd ifd,
295                               ExifTag tag,
296                               int32_t numerator,
297                               int32_t denominator,
298                               const std::string& msg);
299 
300     virtual bool setString(ExifIfd ifd,
301                            ExifTag tag,
302                            ExifFormat format,
303                            const std::string& buffer,
304                            const std::string& msg);
305 
306     // Destroys the buffer of APP1 segment if exists.
307     virtual void destroyApp1();
308 
309     // The Exif data (APP1). Owned by this class.
310     ExifData* exif_data_;
311     // The raw data of APP1 segment. It's allocated by ExifMem in |exif_data_| but
312     // owned by this class.
313     uint8_t* app1_buffer_;
314     // The length of |app1_buffer_|.
315     unsigned int app1_length_;
316 
317 };
318 
319 #define SET_SHORT(ifd, tag, value)                      \
320     do {                                                \
321         if (setShort(ifd, tag, value, #tag) == false)   \
322             return false;                               \
323     } while (0);
324 
325 #define SET_LONG(ifd, tag, value)                       \
326     do {                                                \
327         if (setLong(ifd, tag, value, #tag) == false)    \
328             return false;                               \
329     } while (0);
330 
331 #define SET_RATIONAL(ifd, tag, numerator, denominator)                      \
332     do {                                                                    \
333         if (setRational(ifd, tag, numerator, denominator, #tag) == false)   \
334             return false;                                                   \
335     } while (0);
336 
337 #define SET_SRATIONAL(ifd, tag, numerator, denominator)                       \
338     do {                                                                      \
339         if (setSRational(ifd, tag, numerator, denominator, #tag) == false)    \
340             return false;                                                     \
341     } while (0);
342 
343 #define SET_STRING(ifd, tag, format, buffer)                                  \
344     do {                                                                      \
345         if (setString(ifd, tag, format, buffer, #tag) == false)               \
346             return false;                                                     \
347     } while (0);
348 
349 // This comes from the Exif Version 2.2 standard table 6.
350 const char gExifAsciiPrefix[] = {0x41, 0x53, 0x43, 0x49, 0x49, 0x0, 0x0, 0x0};
351 
setLatitudeOrLongitudeData(unsigned char * data,double num)352 static void setLatitudeOrLongitudeData(unsigned char* data, double num) {
353     // Take the integer part of |num|.
354     ExifLong degrees = static_cast<ExifLong>(num);
355     ExifLong minutes = static_cast<ExifLong>(60 * (num - degrees));
356     ExifLong microseconds =
357             static_cast<ExifLong>(3600000000u * (num - degrees - minutes / 60.0));
358     exif_set_rational(data, EXIF_BYTE_ORDER_INTEL, {degrees, 1});
359     exif_set_rational(data + sizeof(ExifRational), EXIF_BYTE_ORDER_INTEL,
360                                         {minutes, 1});
361     exif_set_rational(data + 2 * sizeof(ExifRational), EXIF_BYTE_ORDER_INTEL,
362                                         {microseconds, 1000000});
363 }
364 
create()365 ExifUtils *ExifUtils::create() {
366     return new ExifUtilsImpl();
367 }
368 
~ExifUtils()369 ExifUtils::~ExifUtils() {
370 }
371 
ExifUtilsImpl()372 ExifUtilsImpl::ExifUtilsImpl()
373         : exif_data_(nullptr), app1_buffer_(nullptr), app1_length_(0) {}
374 
~ExifUtilsImpl()375 ExifUtilsImpl::~ExifUtilsImpl() {
376     reset();
377 }
378 
379 
initialize()380 bool ExifUtilsImpl::initialize() {
381     reset();
382     exif_data_ = exif_data_new();
383     if (exif_data_ == nullptr) {
384         ALOGE("%s: allocate memory for exif_data_ failed", __FUNCTION__);
385         return false;
386     }
387     // set the image options.
388     exif_data_set_option(exif_data_, EXIF_DATA_OPTION_FOLLOW_SPECIFICATION);
389     exif_data_set_data_type(exif_data_, EXIF_DATA_TYPE_COMPRESSED);
390     exif_data_set_byte_order(exif_data_, EXIF_BYTE_ORDER_INTEL);
391 
392     // set exif version to 2.2.
393     if (!setExifVersion("0220")) {
394         return false;
395     }
396 
397     return true;
398 }
399 
setAperture(uint32_t numerator,uint32_t denominator)400 bool ExifUtilsImpl::setAperture(uint32_t numerator, uint32_t denominator) {
401     SET_RATIONAL(EXIF_IFD_EXIF, EXIF_TAG_APERTURE_VALUE, numerator, denominator);
402     return true;
403 }
404 
setBrightness(int32_t numerator,int32_t denominator)405 bool ExifUtilsImpl::setBrightness(int32_t numerator, int32_t denominator) {
406     SET_SRATIONAL(EXIF_IFD_EXIF, EXIF_TAG_BRIGHTNESS_VALUE, numerator,
407                                 denominator);
408     return true;
409 }
410 
setColorSpace(uint16_t color_space)411 bool ExifUtilsImpl::setColorSpace(uint16_t color_space) {
412     SET_SHORT(EXIF_IFD_EXIF, EXIF_TAG_COLOR_SPACE, color_space);
413     return true;
414 }
415 
setComponentsConfiguration(const std::string & components_configuration)416 bool ExifUtilsImpl::setComponentsConfiguration(
417         const std::string& components_configuration) {
418     SET_STRING(EXIF_IFD_EXIF, EXIF_TAG_COMPONENTS_CONFIGURATION,
419                           EXIF_FORMAT_UNDEFINED, components_configuration);
420     return true;
421 }
422 
setCompression(uint16_t compression)423 bool ExifUtilsImpl::setCompression(uint16_t compression) {
424     SET_SHORT(EXIF_IFD_0, EXIF_TAG_COMPRESSION, compression);
425     return true;
426 }
427 
setContrast(uint16_t contrast)428 bool ExifUtilsImpl::setContrast(uint16_t contrast) {
429     SET_SHORT(EXIF_IFD_EXIF, EXIF_TAG_CONTRAST, contrast);
430     return true;
431 }
432 
setDateTime(const struct tm & t)433 bool ExifUtilsImpl::setDateTime(const struct tm& t) {
434     // The length is 20 bytes including NULL for termination in Exif standard.
435     char str[20];
436     int result = snprintf(str, sizeof(str), "%04i:%02i:%02i %02i:%02i:%02i",
437                                                 t.tm_year + 1900, t.tm_mon + 1, t.tm_mday, t.tm_hour,
438                                                 t.tm_min, t.tm_sec);
439     if (result != sizeof(str) - 1) {
440         ALOGW("%s: Input time is invalid", __FUNCTION__);
441         return false;
442     }
443     std::string buffer(str);
444     SET_STRING(EXIF_IFD_0, EXIF_TAG_DATE_TIME, EXIF_FORMAT_ASCII, buffer);
445     SET_STRING(EXIF_IFD_EXIF, EXIF_TAG_DATE_TIME_ORIGINAL, EXIF_FORMAT_ASCII,
446                           buffer);
447     SET_STRING(EXIF_IFD_EXIF, EXIF_TAG_DATE_TIME_DIGITIZED, EXIF_FORMAT_ASCII,
448                           buffer);
449     return true;
450 }
451 
setDescription(const std::string & description)452 bool ExifUtilsImpl::setDescription(const std::string& description) {
453     SET_STRING(EXIF_IFD_0, EXIF_TAG_IMAGE_DESCRIPTION, EXIF_FORMAT_ASCII,
454                           description);
455     return true;
456 }
457 
setDigitalZoomRatio(uint32_t numerator,uint32_t denominator)458 bool ExifUtilsImpl::setDigitalZoomRatio(uint32_t numerator, uint32_t denominator) {
459     SET_RATIONAL(EXIF_IFD_EXIF, EXIF_TAG_DIGITAL_ZOOM_RATIO, numerator,
460                               denominator);
461     return true;
462 }
463 
setExposureBias(int32_t numerator,int32_t denominator)464 bool ExifUtilsImpl::setExposureBias(int32_t numerator, int32_t denominator) {
465     SET_SRATIONAL(EXIF_IFD_EXIF, EXIF_TAG_EXPOSURE_BIAS_VALUE, numerator,
466                                 denominator);
467     return true;
468 }
469 
setExposureMode(uint16_t exposure_mode)470 bool ExifUtilsImpl::setExposureMode(uint16_t exposure_mode) {
471     SET_SHORT(EXIF_IFD_EXIF, EXIF_TAG_EXPOSURE_MODE, exposure_mode);
472     return true;
473 }
474 
setExposureProgram(uint16_t exposure_program)475 bool ExifUtilsImpl::setExposureProgram(uint16_t exposure_program) {
476     SET_SHORT(EXIF_IFD_EXIF, EXIF_TAG_EXPOSURE_PROGRAM, exposure_program);
477     return true;
478 }
479 
setExposureTime(uint32_t numerator,uint32_t denominator)480 bool ExifUtilsImpl::setExposureTime(uint32_t numerator, uint32_t denominator) {
481     SET_RATIONAL(EXIF_IFD_EXIF, EXIF_TAG_EXPOSURE_TIME, numerator, denominator);
482     return true;
483 }
484 
setFlash(uint16_t flash)485 bool ExifUtilsImpl::setFlash(uint16_t flash) {
486     SET_SHORT(EXIF_IFD_EXIF, EXIF_TAG_FLASH, flash);
487     return true;
488 }
489 
setFNumber(uint32_t numerator,uint32_t denominator)490 bool ExifUtilsImpl::setFNumber(uint32_t numerator, uint32_t denominator) {
491     SET_RATIONAL(EXIF_IFD_EXIF, EXIF_TAG_FNUMBER, numerator, denominator);
492     return true;
493 }
494 
setFocalLength(uint32_t numerator,uint32_t denominator)495 bool ExifUtilsImpl::setFocalLength(uint32_t numerator, uint32_t denominator) {
496     SET_RATIONAL(EXIF_IFD_EXIF, EXIF_TAG_FOCAL_LENGTH, numerator, denominator);
497     return true;
498 }
499 
setGainControl(uint16_t gain_control)500 bool ExifUtilsImpl::setGainControl(uint16_t gain_control) {
501     SET_SHORT(EXIF_IFD_EXIF, EXIF_TAG_GAIN_CONTROL, gain_control);
502     return true;
503 }
504 
setGpsAltitude(double altitude)505 bool ExifUtilsImpl::setGpsAltitude(double altitude) {
506     ExifTag refTag = static_cast<ExifTag>(EXIF_TAG_GPS_ALTITUDE_REF);
507     std::unique_ptr<ExifEntry> refEntry =
508             addVariableLengthEntry(EXIF_IFD_GPS, refTag, EXIF_FORMAT_BYTE, 1, 1);
509     if (!refEntry) {
510         ALOGE("%s: Adding GPSAltitudeRef exif entry failed", __FUNCTION__);
511         return false;
512     }
513     if (altitude >= 0) {
514         *refEntry->data = 0;
515     } else {
516         *refEntry->data = 1;
517         altitude *= -1;
518     }
519 
520     ExifTag tag = static_cast<ExifTag>(EXIF_TAG_GPS_ALTITUDE);
521     std::unique_ptr<ExifEntry> entry = addVariableLengthEntry(
522             EXIF_IFD_GPS, tag, EXIF_FORMAT_RATIONAL, 1, sizeof(ExifRational));
523     if (!entry) {
524         exif_content_remove_entry(exif_data_->ifd[EXIF_IFD_GPS], refEntry.get());
525         ALOGE("%s: Adding GPSAltitude exif entry failed", __FUNCTION__);
526         return false;
527     }
528     exif_set_rational(entry->data, EXIF_BYTE_ORDER_INTEL,
529                                         {static_cast<ExifLong>(altitude * 1000), 1000});
530 
531     return true;
532 }
533 
setGpsLatitude(double latitude)534 bool ExifUtilsImpl::setGpsLatitude(double latitude) {
535     const ExifTag refTag = static_cast<ExifTag>(EXIF_TAG_GPS_LATITUDE_REF);
536     std::unique_ptr<ExifEntry> refEntry =
537             addVariableLengthEntry(EXIF_IFD_GPS, refTag, EXIF_FORMAT_ASCII, 2, 2);
538     if (!refEntry) {
539         ALOGE("%s: Adding GPSLatitudeRef exif entry failed", __FUNCTION__);
540         return false;
541     }
542     if (latitude >= 0) {
543         memcpy(refEntry->data, "N", sizeof("N"));
544     } else {
545         memcpy(refEntry->data, "S", sizeof("S"));
546         latitude *= -1;
547     }
548 
549     const ExifTag tag = static_cast<ExifTag>(EXIF_TAG_GPS_LATITUDE);
550     std::unique_ptr<ExifEntry> entry = addVariableLengthEntry(
551             EXIF_IFD_GPS, tag, EXIF_FORMAT_RATIONAL, 3, 3 * sizeof(ExifRational));
552     if (!entry) {
553         exif_content_remove_entry(exif_data_->ifd[EXIF_IFD_GPS], refEntry.get());
554         ALOGE("%s: Adding GPSLatitude exif entry failed", __FUNCTION__);
555         return false;
556     }
557     setLatitudeOrLongitudeData(entry->data, latitude);
558 
559     return true;
560 }
561 
setGpsLongitude(double longitude)562 bool ExifUtilsImpl::setGpsLongitude(double longitude) {
563     ExifTag refTag = static_cast<ExifTag>(EXIF_TAG_GPS_LONGITUDE_REF);
564     std::unique_ptr<ExifEntry> refEntry =
565             addVariableLengthEntry(EXIF_IFD_GPS, refTag, EXIF_FORMAT_ASCII, 2, 2);
566     if (!refEntry) {
567         ALOGE("%s: Adding GPSLongitudeRef exif entry failed", __FUNCTION__);
568         return false;
569     }
570     if (longitude >= 0) {
571         memcpy(refEntry->data, "E", sizeof("E"));
572     } else {
573         memcpy(refEntry->data, "W", sizeof("W"));
574         longitude *= -1;
575     }
576 
577     ExifTag tag = static_cast<ExifTag>(EXIF_TAG_GPS_LONGITUDE);
578     std::unique_ptr<ExifEntry> entry = addVariableLengthEntry(
579             EXIF_IFD_GPS, tag, EXIF_FORMAT_RATIONAL, 3, 3 * sizeof(ExifRational));
580     if (!entry) {
581         exif_content_remove_entry(exif_data_->ifd[EXIF_IFD_GPS], refEntry.get());
582         ALOGE("%s: Adding GPSLongitude exif entry failed", __FUNCTION__);
583         return false;
584     }
585     setLatitudeOrLongitudeData(entry->data, longitude);
586 
587     return true;
588 }
589 
setGpsProcessingMethod(const std::string & method)590 bool ExifUtilsImpl::setGpsProcessingMethod(const std::string& method) {
591     std::string buffer =
592             std::string(gExifAsciiPrefix, sizeof(gExifAsciiPrefix)) + method;
593     SET_STRING(EXIF_IFD_GPS, static_cast<ExifTag>(EXIF_TAG_GPS_PROCESSING_METHOD),
594                           EXIF_FORMAT_UNDEFINED, buffer);
595     return true;
596 }
597 
setGpsTimestamp(const struct tm & t)598 bool ExifUtilsImpl::setGpsTimestamp(const struct tm& t) {
599     const ExifTag dateTag = static_cast<ExifTag>(EXIF_TAG_GPS_DATE_STAMP);
600     const size_t kGpsDateStampSize = 11;
601     std::unique_ptr<ExifEntry> entry =
602             addVariableLengthEntry(EXIF_IFD_GPS, dateTag, EXIF_FORMAT_ASCII,
603                                                           kGpsDateStampSize, kGpsDateStampSize);
604     if (!entry) {
605         ALOGE("%s: Adding GPSDateStamp exif entry failed", __FUNCTION__);
606         return false;
607     }
608     int result =
609             snprintf(reinterpret_cast<char*>(entry->data), kGpsDateStampSize,
610                               "%04i:%02i:%02i", t.tm_year + 1900, t.tm_mon + 1, t.tm_mday);
611     if (result != kGpsDateStampSize - 1) {
612         ALOGW("%s: Input time is invalid", __FUNCTION__);
613         return false;
614     }
615 
616     const ExifTag timeTag = static_cast<ExifTag>(EXIF_TAG_GPS_TIME_STAMP);
617     entry = addVariableLengthEntry(EXIF_IFD_GPS, timeTag, EXIF_FORMAT_RATIONAL, 3,
618                                                                   3 * sizeof(ExifRational));
619     if (!entry) {
620         ALOGE("%s: Adding GPSTimeStamp exif entry failed", __FUNCTION__);
621         return false;
622     }
623     exif_set_rational(entry->data, EXIF_BYTE_ORDER_INTEL,
624                                         {static_cast<ExifLong>(t.tm_hour), 1});
625     exif_set_rational(entry->data + sizeof(ExifRational), EXIF_BYTE_ORDER_INTEL,
626                                         {static_cast<ExifLong>(t.tm_min), 1});
627     exif_set_rational(entry->data + 2 * sizeof(ExifRational),
628                                         EXIF_BYTE_ORDER_INTEL,
629                                         {static_cast<ExifLong>(t.tm_sec), 1});
630 
631     return true;
632 }
633 
setImageHeight(uint32_t length)634 bool ExifUtilsImpl::setImageHeight(uint32_t length) {
635     SET_SHORT(EXIF_IFD_0, EXIF_TAG_IMAGE_LENGTH, length);
636     SET_LONG(EXIF_IFD_EXIF, EXIF_TAG_PIXEL_Y_DIMENSION, length);
637     return true;
638 }
639 
setImageWidth(uint32_t width)640 bool ExifUtilsImpl::setImageWidth(uint32_t width) {
641     SET_SHORT(EXIF_IFD_0, EXIF_TAG_IMAGE_WIDTH, width);
642     SET_LONG(EXIF_IFD_EXIF, EXIF_TAG_PIXEL_X_DIMENSION, width);
643     return true;
644 }
645 
setIsoSpeedRating(uint16_t iso_speed_ratings)646 bool ExifUtilsImpl::setIsoSpeedRating(uint16_t iso_speed_ratings) {
647     SET_SHORT(EXIF_IFD_EXIF, EXIF_TAG_ISO_SPEED_RATINGS, iso_speed_ratings);
648     return true;
649 }
650 
setLightSource(uint16_t light_source)651 bool ExifUtilsImpl::setLightSource(uint16_t light_source) {
652     SET_SHORT(EXIF_IFD_EXIF, EXIF_TAG_LIGHT_SOURCE, light_source);
653     return true;
654 }
655 
setMaxAperture(uint32_t numerator,uint32_t denominator)656 bool ExifUtilsImpl::setMaxAperture(uint32_t numerator, uint32_t denominator) {
657     SET_RATIONAL(EXIF_IFD_EXIF, EXIF_TAG_MAX_APERTURE_VALUE, numerator,
658                               denominator);
659     return true;
660 }
661 
setMeteringMode(uint16_t metering_mode)662 bool ExifUtilsImpl::setMeteringMode(uint16_t metering_mode) {
663     SET_SHORT(EXIF_IFD_EXIF, EXIF_TAG_METERING_MODE, metering_mode);
664     return true;
665 }
666 
setOrientation(uint16_t orientation)667 bool ExifUtilsImpl::setOrientation(uint16_t orientation) {
668     /*
669      * Orientation value:
670      *  1      2      3      4      5          6          7          8
671      *
672      *  888888 888888     88 88     8888888888 88                 88 8888888888
673      *  88         88     88 88     88  88     88  88         88  88     88  88
674      *  8888     8888   8888 8888   88         8888888888 8888888888         88
675      *  88         88     88 88
676      *  88         88 888888 888888
677      */
678     int value = 1;
679     switch (orientation) {
680         case 90:
681             value = 6;
682             break;
683         case 180:
684             value = 3;
685             break;
686         case 270:
687             value = 8;
688             break;
689         default:
690             break;
691     }
692     SET_SHORT(EXIF_IFD_0, EXIF_TAG_ORIENTATION, value);
693     return true;
694 }
695 
setResolutionUnit(uint16_t resolution_unit)696 bool ExifUtilsImpl::setResolutionUnit(uint16_t resolution_unit) {
697     SET_SHORT(EXIF_IFD_EXIF, EXIF_TAG_RESOLUTION_UNIT, resolution_unit);
698     return true;
699 }
700 
setSaturation(uint16_t saturation)701 bool ExifUtilsImpl::setSaturation(uint16_t saturation) {
702     SET_SHORT(EXIF_IFD_EXIF, EXIF_TAG_SATURATION, saturation);
703     return true;
704 }
705 
setSceneCaptureType(uint16_t type)706 bool ExifUtilsImpl::setSceneCaptureType(uint16_t type) {
707     SET_SHORT(EXIF_IFD_EXIF, EXIF_TAG_SCENE_CAPTURE_TYPE, type);
708     return true;
709 }
710 
setSharpness(uint16_t sharpness)711 bool ExifUtilsImpl::setSharpness(uint16_t sharpness) {
712     SET_SHORT(EXIF_IFD_EXIF, EXIF_TAG_SHARPNESS, sharpness);
713     return true;
714 }
715 
setShutterSpeed(int32_t numerator,int32_t denominator)716 bool ExifUtilsImpl::setShutterSpeed(int32_t numerator, int32_t denominator) {
717     SET_SRATIONAL(EXIF_IFD_EXIF, EXIF_TAG_SHUTTER_SPEED_VALUE, numerator,
718                                 denominator);
719     return true;
720 }
721 
setSubjectDistance(uint32_t numerator,uint32_t denominator)722 bool ExifUtilsImpl::setSubjectDistance(uint32_t numerator, uint32_t denominator) {
723     SET_RATIONAL(EXIF_IFD_EXIF, EXIF_TAG_SUBJECT_DISTANCE, numerator,
724                               denominator);
725     return true;
726 }
727 
setSubsecTime(const std::string & subsec_time)728 bool ExifUtilsImpl::setSubsecTime(const std::string& subsec_time) {
729     SET_STRING(EXIF_IFD_EXIF, EXIF_TAG_SUB_SEC_TIME, EXIF_FORMAT_ASCII,
730                           subsec_time);
731     SET_STRING(EXIF_IFD_EXIF, EXIF_TAG_SUB_SEC_TIME_ORIGINAL, EXIF_FORMAT_ASCII,
732                           subsec_time);
733     SET_STRING(EXIF_IFD_EXIF, EXIF_TAG_SUB_SEC_TIME_DIGITIZED, EXIF_FORMAT_ASCII,
734                           subsec_time);
735     return true;
736 }
737 
setWhiteBalance(uint16_t white_balance)738 bool ExifUtilsImpl::setWhiteBalance(uint16_t white_balance) {
739     SET_SHORT(EXIF_IFD_EXIF, EXIF_TAG_WHITE_BALANCE, white_balance);
740     return true;
741 }
742 
setXResolution(uint32_t numerator,uint32_t denominator)743 bool ExifUtilsImpl::setXResolution(uint32_t numerator, uint32_t denominator) {
744     SET_RATIONAL(EXIF_IFD_EXIF, EXIF_TAG_X_RESOLUTION, numerator, denominator);
745     return true;
746 }
747 
setYCbCrPositioning(uint16_t ycbcr_positioning)748 bool ExifUtilsImpl::setYCbCrPositioning(uint16_t ycbcr_positioning) {
749     SET_SHORT(EXIF_IFD_0, EXIF_TAG_YCBCR_POSITIONING, ycbcr_positioning);
750     return true;
751 }
752 
setYResolution(uint32_t numerator,uint32_t denominator)753 bool ExifUtilsImpl::setYResolution(uint32_t numerator, uint32_t denominator) {
754     SET_RATIONAL(EXIF_IFD_EXIF, EXIF_TAG_Y_RESOLUTION, numerator, denominator);
755     return true;
756 }
757 
generateApp1(const void * thumbnail_buffer,uint32_t size)758 bool ExifUtilsImpl::generateApp1(const void* thumbnail_buffer, uint32_t size) {
759     destroyApp1();
760     exif_data_->data = const_cast<uint8_t*>(static_cast<const uint8_t*>(thumbnail_buffer));
761     exif_data_->size = size;
762     // Save the result into |app1_buffer_|.
763     exif_data_save_data(exif_data_, &app1_buffer_, &app1_length_);
764     if (!app1_length_) {
765         ALOGE("%s: Allocate memory for app1_buffer_ failed", __FUNCTION__);
766         return false;
767     }
768     /*
769      * The JPEG segment size is 16 bits in spec. The size of APP1 segment should
770      * be smaller than 65533 because there are two bytes for segment size field.
771      */
772     if (app1_length_ > 65533) {
773         destroyApp1();
774         ALOGE("%s: The size of APP1 segment is too large", __FUNCTION__);
775         return false;
776     }
777     return true;
778 }
779 
getApp1Buffer()780 const uint8_t* ExifUtilsImpl::getApp1Buffer() {
781     return app1_buffer_;
782 }
783 
getApp1Length()784 unsigned int ExifUtilsImpl::getApp1Length() {
785     return app1_length_;
786 }
787 
setExifVersion(const std::string & exif_version)788 bool ExifUtilsImpl::setExifVersion(const std::string& exif_version) {
789     SET_STRING(EXIF_IFD_EXIF, EXIF_TAG_EXIF_VERSION, EXIF_FORMAT_UNDEFINED, exif_version);
790     return true;
791 }
792 
setMake(const std::string & make)793 bool ExifUtilsImpl::setMake(const std::string& make) {
794     SET_STRING(EXIF_IFD_0, EXIF_TAG_MAKE, EXIF_FORMAT_ASCII, make);
795     return true;
796 }
797 
setModel(const std::string & model)798 bool ExifUtilsImpl::setModel(const std::string& model) {
799     SET_STRING(EXIF_IFD_0, EXIF_TAG_MODEL, EXIF_FORMAT_ASCII, model);
800     return true;
801 }
802 
reset()803 void ExifUtilsImpl::reset() {
804     destroyApp1();
805     if (exif_data_) {
806         /*
807          * Since we decided to ignore the original APP1, we are sure that there is
808          * no thumbnail allocated by libexif. |exif_data_->data| is actually
809          * allocated by JpegCompressor. sets |exif_data_->data| to nullptr to
810          * prevent exif_data_unref() destroy it incorrectly.
811          */
812         exif_data_->data = nullptr;
813         exif_data_->size = 0;
814         exif_data_unref(exif_data_);
815         exif_data_ = nullptr;
816     }
817 }
818 
addVariableLengthEntry(ExifIfd ifd,ExifTag tag,ExifFormat format,uint64_t components,unsigned int size)819 std::unique_ptr<ExifEntry> ExifUtilsImpl::addVariableLengthEntry(ExifIfd ifd,
820                                                                  ExifTag tag,
821                                                                  ExifFormat format,
822                                                                  uint64_t components,
823                                                                  unsigned int size) {
824     // Remove old entry if exists.
825     exif_content_remove_entry(exif_data_->ifd[ifd],
826                               exif_content_get_entry(exif_data_->ifd[ifd], tag));
827     ExifMem* mem = exif_mem_new_default();
828     if (!mem) {
829         ALOGE("%s: Allocate memory for exif entry failed", __FUNCTION__);
830         return nullptr;
831     }
832     std::unique_ptr<ExifEntry> entry(exif_entry_new_mem(mem));
833     if (!entry) {
834         ALOGE("%s: Allocate memory for exif entry failed", __FUNCTION__);
835         exif_mem_unref(mem);
836         return nullptr;
837     }
838     void* tmpBuffer = exif_mem_alloc(mem, size);
839     if (!tmpBuffer) {
840         ALOGE("%s: Allocate memory for exif entry failed", __FUNCTION__);
841         exif_mem_unref(mem);
842         return nullptr;
843     }
844 
845     entry->data = static_cast<unsigned char*>(tmpBuffer);
846     entry->tag = tag;
847     entry->format = format;
848     entry->components = components;
849     entry->size = size;
850 
851     exif_content_add_entry(exif_data_->ifd[ifd], entry.get());
852     exif_mem_unref(mem);
853 
854     return entry;
855 }
856 
addEntry(ExifIfd ifd,ExifTag tag)857 std::unique_ptr<ExifEntry> ExifUtilsImpl::addEntry(ExifIfd ifd, ExifTag tag) {
858     std::unique_ptr<ExifEntry> entry(exif_content_get_entry(exif_data_->ifd[ifd], tag));
859     if (entry) {
860         // exif_content_get_entry() won't ref the entry, so we ref here.
861         exif_entry_ref(entry.get());
862         return entry;
863     }
864     entry.reset(exif_entry_new());
865     if (!entry) {
866         ALOGE("%s: Allocate memory for exif entry failed", __FUNCTION__);
867         return nullptr;
868     }
869     entry->tag = tag;
870     exif_content_add_entry(exif_data_->ifd[ifd], entry.get());
871     exif_entry_initialize(entry.get(), tag);
872     return entry;
873 }
874 
setShort(ExifIfd ifd,ExifTag tag,uint16_t value,const std::string & msg)875 bool ExifUtilsImpl::setShort(ExifIfd ifd,
876                              ExifTag tag,
877                              uint16_t value,
878                              const std::string& msg) {
879     std::unique_ptr<ExifEntry> entry = addEntry(ifd, tag);
880     if (!entry) {
881         ALOGE("%s: Adding '%s' entry failed", __FUNCTION__, msg.c_str());
882         return false;
883     }
884     exif_set_short(entry->data, EXIF_BYTE_ORDER_INTEL, value);
885     return true;
886 }
887 
setLong(ExifIfd ifd,ExifTag tag,uint32_t value,const std::string & msg)888 bool ExifUtilsImpl::setLong(ExifIfd ifd,
889                             ExifTag tag,
890                             uint32_t value,
891                             const std::string& msg) {
892     std::unique_ptr<ExifEntry> entry = addEntry(ifd, tag);
893     if (!entry) {
894         ALOGE("%s: Adding '%s' entry failed", __FUNCTION__, msg.c_str());
895         return false;
896     }
897     exif_set_long(entry->data, EXIF_BYTE_ORDER_INTEL, value);
898     return true;
899 }
900 
setRational(ExifIfd ifd,ExifTag tag,uint32_t numerator,uint32_t denominator,const std::string & msg)901 bool ExifUtilsImpl::setRational(ExifIfd ifd,
902                                 ExifTag tag,
903                                 uint32_t numerator,
904                                 uint32_t denominator,
905                                 const std::string& msg) {
906     std::unique_ptr<ExifEntry> entry = addEntry(ifd, tag);
907     if (!entry) {
908         ALOGE("%s: Adding '%s' entry failed", __FUNCTION__, msg.c_str());
909         return false;
910     }
911     exif_set_rational(entry->data, EXIF_BYTE_ORDER_INTEL,
912                                         {numerator, denominator});
913     return true;
914 }
915 
setSRational(ExifIfd ifd,ExifTag tag,int32_t numerator,int32_t denominator,const std::string & msg)916 bool ExifUtilsImpl::setSRational(ExifIfd ifd,
917                                  ExifTag tag,
918                                  int32_t numerator,
919                                  int32_t denominator,
920                                  const std::string& msg) {
921     std::unique_ptr<ExifEntry> entry = addEntry(ifd, tag);
922     if (!entry) {
923         ALOGE("%s: Adding '%s' entry failed", __FUNCTION__, msg.c_str());
924         return false;
925     }
926     exif_set_srational(entry->data, EXIF_BYTE_ORDER_INTEL,
927                                           {numerator, denominator});
928     return true;
929 }
930 
setString(ExifIfd ifd,ExifTag tag,ExifFormat format,const std::string & buffer,const std::string & msg)931 bool ExifUtilsImpl::setString(ExifIfd ifd,
932                               ExifTag tag,
933                               ExifFormat format,
934                               const std::string& buffer,
935                               const std::string& msg) {
936     size_t entry_size = buffer.length();
937     // Since the exif format is undefined, NULL termination is not necessary.
938     if (format == EXIF_FORMAT_ASCII) {
939         entry_size++;
940     }
941     std::unique_ptr<ExifEntry> entry =
942             addVariableLengthEntry(ifd, tag, format, entry_size, entry_size);
943     if (!entry) {
944         ALOGE("%s: Adding '%s' entry failed", __FUNCTION__, msg.c_str());
945         return false;
946     }
947     memcpy(entry->data, buffer.c_str(), entry_size);
948     return true;
949 }
950 
destroyApp1()951 void ExifUtilsImpl::destroyApp1() {
952     /*
953      * Since there is no API to access ExifMem in ExifData->priv, we use free
954      * here, which is the default free function in libexif. See
955      * exif_data_save_data() for detail.
956      */
957     free(app1_buffer_);
958     app1_buffer_ = nullptr;
959     app1_length_ = 0;
960 }
961 
setFromMetadata(const CameraMetadata & metadata,const size_t imageWidth,const size_t imageHeight)962 bool ExifUtilsImpl::setFromMetadata(const CameraMetadata& metadata,
963                                     const size_t imageWidth,
964                                     const size_t imageHeight) {
965     // How precise the float-to-rational conversion for EXIF tags would be.
966     constexpr int kRationalPrecision = 10000;
967     if (!setImageWidth(imageWidth) ||
968             !setImageHeight(imageHeight)) {
969         ALOGE("%s: setting image resolution failed.", __FUNCTION__);
970         return false;
971     }
972 
973     struct timespec tp;
974     struct tm time_info;
975     bool time_available = clock_gettime(CLOCK_REALTIME, &tp) != -1;
976     localtime_r(&tp.tv_sec, &time_info);
977     if (!setDateTime(time_info)) {
978         ALOGE("%s: setting data time failed.", __FUNCTION__);
979         return false;
980     }
981 
982     float focal_length;
983     camera_metadata_ro_entry entry = metadata.find(ANDROID_LENS_FOCAL_LENGTH);
984     if (entry.count) {
985         focal_length = entry.data.f[0];
986 
987         if (!setFocalLength(
988                         static_cast<uint32_t>(focal_length * kRationalPrecision),
989                         kRationalPrecision)) {
990             ALOGE("%s: setting focal length failed.", __FUNCTION__);
991             return false;
992         }
993     } else {
994         ALOGV("%s: Cannot find focal length in metadata.", __FUNCTION__);
995     }
996 
997     if (metadata.exists(ANDROID_JPEG_GPS_COORDINATES)) {
998         entry = metadata.find(ANDROID_JPEG_GPS_COORDINATES);
999         if (entry.count < 3) {
1000             ALOGE("%s: Gps coordinates in metadata is not complete.", __FUNCTION__);
1001             return false;
1002         }
1003         if (!setGpsLatitude(entry.data.d[0])) {
1004             ALOGE("%s: setting gps latitude failed.", __FUNCTION__);
1005             return false;
1006         }
1007         if (!setGpsLongitude(entry.data.d[1])) {
1008             ALOGE("%s: setting gps longitude failed.", __FUNCTION__);
1009             return false;
1010         }
1011         if (!setGpsAltitude(entry.data.d[2])) {
1012             ALOGE("%s: setting gps altitude failed.", __FUNCTION__);
1013             return false;
1014         }
1015     }
1016 
1017     if (metadata.exists(ANDROID_JPEG_GPS_PROCESSING_METHOD)) {
1018         entry = metadata.find(ANDROID_JPEG_GPS_PROCESSING_METHOD);
1019         std::string method_str(reinterpret_cast<const char*>(entry.data.u8));
1020         if (!setGpsProcessingMethod(method_str)) {
1021             ALOGE("%s: setting gps processing method failed.", __FUNCTION__);
1022             return false;
1023         }
1024     }
1025 
1026     if (time_available && metadata.exists(ANDROID_JPEG_GPS_TIMESTAMP)) {
1027         entry = metadata.find(ANDROID_JPEG_GPS_TIMESTAMP);
1028         time_t timestamp = static_cast<time_t>(entry.data.i64[0]);
1029         if (gmtime_r(&timestamp, &time_info)) {
1030             if (!setGpsTimestamp(time_info)) {
1031                 ALOGE("%s: setting gps timestamp failed.", __FUNCTION__);
1032                 return false;
1033             }
1034         } else {
1035             ALOGE("%s: Time tranformation failed.", __FUNCTION__);
1036             return false;
1037         }
1038     }
1039 
1040     if (metadata.exists(ANDROID_JPEG_ORIENTATION)) {
1041         entry = metadata.find(ANDROID_JPEG_ORIENTATION);
1042         if (!setOrientation(entry.data.i32[0])) {
1043             ALOGE("%s: setting orientation failed.", __FUNCTION__);
1044             return false;
1045         }
1046     }
1047 
1048     if (metadata.exists(ANDROID_SENSOR_EXPOSURE_TIME)) {
1049         entry = metadata.find(ANDROID_SENSOR_EXPOSURE_TIME);
1050         // int64_t of nanoseconds
1051         if (!setExposureTime(entry.data.i64[0],1000000000u)) {
1052             ALOGE("%s: setting exposure time failed.", __FUNCTION__);
1053             return false;
1054         }
1055     }
1056 
1057     if (metadata.exists(ANDROID_LENS_APERTURE)) {
1058         const int kAperturePrecision = 10000;
1059         entry = metadata.find(ANDROID_LENS_APERTURE);
1060         if (!setFNumber(entry.data.f[0] * kAperturePrecision,
1061                                                       kAperturePrecision)) {
1062             ALOGE("%s: setting F number failed.", __FUNCTION__);
1063             return false;
1064         }
1065     }
1066 
1067     if (metadata.exists(ANDROID_FLASH_INFO_AVAILABLE)) {
1068         entry = metadata.find(ANDROID_FLASH_INFO_AVAILABLE);
1069         if (entry.data.u8[0] == ANDROID_FLASH_INFO_AVAILABLE_FALSE) {
1070             const uint32_t kNoFlashFunction = 0x20;
1071             if (!setFlash(kNoFlashFunction)) {
1072                 ALOGE("%s: setting flash failed.", __FUNCTION__);
1073                 return false;
1074             }
1075         } else {
1076             ALOGE("%s: Unsupported flash info: %d",__FUNCTION__, entry.data.u8[0]);
1077             return false;
1078         }
1079     }
1080 
1081     if (metadata.exists(ANDROID_CONTROL_AWB_MODE)) {
1082         entry = metadata.find(ANDROID_CONTROL_AWB_MODE);
1083         if (entry.data.u8[0] == ANDROID_CONTROL_AWB_MODE_AUTO) {
1084             const uint16_t kAutoWhiteBalance = 0;
1085             if (!setWhiteBalance(kAutoWhiteBalance)) {
1086                 ALOGE("%s: setting white balance failed.", __FUNCTION__);
1087                 return false;
1088             }
1089         } else {
1090             ALOGE("%s: Unsupported awb mode: %d", __FUNCTION__, entry.data.u8[0]);
1091             return false;
1092         }
1093     }
1094 
1095     if (time_available) {
1096         char str[4];
1097         if (snprintf(str, sizeof(str), "%03ld", tp.tv_nsec / 1000000) < 0) {
1098             ALOGE("%s: Subsec is invalid: %ld", __FUNCTION__, tp.tv_nsec);
1099             return false;
1100         }
1101         if (!setSubsecTime(std::string(str))) {
1102             ALOGE("%s: setting subsec time failed.", __FUNCTION__);
1103             return false;
1104         }
1105     }
1106 
1107     return true;
1108 }
1109 
1110 } // namespace helper
1111 } // namespace V1_0
1112 } // namespace common
1113 } // namespace camera
1114 } // namespace hardware
1115 } // namespace android
1116