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[chromium-blink-merge.git] / chrome / utility / media_galleries / image_metadata_extractor.cc
blob6e537e35ce1f22fa5f0db6301cfe27d1e7e1421f
1 // Copyright 2014 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
5 #include "chrome/utility/media_galleries/image_metadata_extractor.h"
7 #include "base/bind.h"
8 #include "base/callback.h"
9 #include "base/files/file_path.h"
10 #include "base/lazy_instance.h"
11 #include "base/memory/ref_counted.h"
12 #include "base/numerics/safe_conversions.h"
13 #include "base/path_service.h"
14 #include "base/scoped_native_library.h"
15 #include "base/strings/string_number_conversions.h"
16 #include "content/public/common/content_paths.h"
17 #include "media/base/data_source.h"
18 #include "net/base/io_buffer.h"
20 extern "C" {
21 #include <libexif/exif-data.h>
22 #include <libexif/exif-loader.h>
23 } // extern "C"
25 namespace metadata {
27 namespace {
29 const size_t kMaxBufferSize = 50 * 1024 * 1024; // Arbitrary maximum of 50MB.
31 typedef base::Callback<void(const scoped_refptr<net::DrainableIOBuffer>&)>
32 GotImageCallback;
34 void FinishGetImageBytes(
35 const scoped_refptr<net::DrainableIOBuffer>& buffer,
36 media::DataSource* source,
37 const GotImageCallback& callback,
38 int bytes_read) {
39 if (bytes_read == media::DataSource::kReadError) {
40 callback.Run(NULL);
41 return;
44 buffer->DidConsume(bytes_read);
45 // Didn't get the whole file. Continue reading to get the rest.
46 if (buffer->BytesRemaining() > 0) {
47 source->Read(
49 buffer->BytesRemaining(),
50 reinterpret_cast<uint8*>(buffer->data()),
51 base::Bind(
52 &FinishGetImageBytes, buffer, base::Unretained(source), callback));
53 return;
56 buffer->SetOffset(0);
57 callback.Run(buffer);
60 void GetImageBytes(
61 media::DataSource* source,
62 const GotImageCallback& callback) {
63 int64 size64 = 0;
64 if (!source->GetSize(&size64) ||
65 base::saturated_cast<size_t>(size64) > kMaxBufferSize) {
66 return callback.Run(NULL);
68 int size = base::checked_cast<int>(size64);
70 scoped_refptr<net::DrainableIOBuffer> buffer(
71 new net::DrainableIOBuffer(new net::IOBuffer(size), size));
72 source->Read(0, buffer->BytesRemaining(),
73 reinterpret_cast<uint8*>(buffer->data()),
74 base::Bind(&FinishGetImageBytes, buffer,
75 base::Unretained(source), callback));
78 class ExifFunctions {
79 public:
80 ExifFunctions() : exif_loader_write_func_(NULL),
81 exif_loader_new_func_(NULL),
82 exif_loader_unref_func_(NULL),
83 exif_loader_get_data_func_(NULL),
84 exif_data_free_func_(NULL),
85 exif_data_get_byte_order_func_(NULL),
86 exif_get_short_func_(NULL),
87 exif_get_long_func_(NULL),
88 exif_get_rational_func_(NULL),
89 exif_entry_get_value_func_(NULL),
90 exif_content_get_entry_func_(NULL) {
93 bool Initialize(const base::FilePath& module_dir) {
94 if (exif_lib_.is_valid())
95 return true;
97 #if defined(OS_WIN)
98 base::FilePath module_path = module_dir.AppendASCII("libexif.dll");
99 #elif defined(OS_MACOSX)
100 base::FilePath module_path = module_dir.AppendASCII("exif.so");
101 #elif defined(OS_CHROMEOS)
102 // On ChromeOS, we build and distribute our own version of libexif.
103 base::FilePath module_path = module_dir.AppendASCII("libexif.so");
104 #else
105 // On Linux-like systems, we use the system libexif.
106 base::FilePath module_path = base::FilePath().AppendASCII("libexif.so.12");
107 #endif
109 base::ScopedNativeLibrary lib(base::LoadNativeLibrary(module_path, NULL));
110 if (!lib.is_valid()) {
111 LOG(ERROR) << "Couldn't load libexif.";
112 return false;
115 if (!GetFunctionPointer(lib, &exif_loader_write_func_,
116 "exif_loader_write") ||
117 !GetFunctionPointer(lib, &exif_loader_new_func_, "exif_loader_new") ||
118 !GetFunctionPointer(lib, &exif_loader_unref_func_,
119 "exif_loader_unref") ||
120 !GetFunctionPointer(lib, &exif_loader_get_data_func_,
121 "exif_loader_get_data") ||
122 !GetFunctionPointer(lib, &exif_data_free_func_, "exif_data_free") ||
123 !GetFunctionPointer(lib, &exif_data_get_byte_order_func_,
124 "exif_data_get_byte_order") ||
125 !GetFunctionPointer(lib, &exif_get_short_func_, "exif_get_short") ||
126 !GetFunctionPointer(lib, &exif_get_long_func_, "exif_get_long") ||
127 !GetFunctionPointer(lib, &exif_get_rational_func_,
128 "exif_get_rational") ||
129 !GetFunctionPointer(lib, &exif_entry_get_value_func_,
130 "exif_entry_get_value") ||
131 !GetFunctionPointer(lib, &exif_content_get_entry_func_,
132 "exif_content_get_entry")) {
133 return false;
136 exif_lib_.Reset(lib.Release());
137 return true;
140 ExifData* ParseExifFromBuffer(unsigned char* buffer, unsigned int size) {
141 DCHECK(exif_lib_.is_valid());
142 ExifLoader* loader = exif_loader_new_func_();
143 exif_loader_write_func_(loader, buffer, size);
145 ExifData* data = exif_loader_get_data_func_(loader);
147 exif_loader_unref_func_(loader);
148 loader = NULL;
150 return data;
153 void ExifDataFree(ExifData* data) {
154 DCHECK(exif_lib_.is_valid());
155 return exif_data_free_func_(data);
158 void ExtractInt(ExifData* data, ExifTag tag, int* result) {
159 DCHECK(exif_lib_.is_valid());
160 DCHECK(result);
162 ExifEntry* entry = ExifContentGetEntry(data, tag);
163 if (!entry)
164 return;
166 ExifByteOrder order = exif_data_get_byte_order_func_(data);
167 switch (entry->format) {
168 case EXIF_FORMAT_SHORT: {
169 ExifShort v = exif_get_short_func_(entry->data, order);
170 *result = base::checked_cast<int>(v);
171 break;
173 case EXIF_FORMAT_LONG: {
174 ExifLong v = exif_get_long_func_(entry->data, order);
175 // Ignore values that don't fit in a signed int - likely invalid data.
176 if (base::IsValueInRangeForNumericType<int>(v))
177 *result = base::checked_cast<int>(v);
178 break;
180 default: {
181 // Ignore all other entry formats.
186 void ExtractDouble(ExifData* data, ExifTag tag, double* result) {
187 DCHECK(exif_lib_.is_valid());
188 DCHECK(result);
190 ExifEntry* entry = ExifContentGetEntry(data, tag);
191 if (!entry)
192 return;
194 ExifByteOrder order = exif_data_get_byte_order_func_(data);
196 if (entry->format == EXIF_FORMAT_RATIONAL) {
197 ExifRational v = exif_get_rational_func_(entry->data, order);
198 *result = base::checked_cast<double>(v.numerator) /
199 base::checked_cast<double>(v.denominator);
203 void ExtractString(ExifData* data, ExifTag tag, std::string* result) {
204 DCHECK(exif_lib_.is_valid());
205 DCHECK(result);
207 ExifEntry* entry = ExifContentGetEntry(data, tag);
208 if (!entry)
209 return;
211 char buf[1024];
212 exif_entry_get_value_func_(entry, buf, sizeof(buf));
213 *result = buf;
216 private:
217 // Exported by libexif.
218 typedef unsigned char (*ExifLoaderWriteFunc)(
219 ExifLoader *eld, unsigned char *buf, unsigned int len);
220 typedef ExifLoader* (*ExifLoaderNewFunc)();
221 typedef void (*ExifLoaderUnrefFunc)(ExifLoader* loader);
222 typedef ExifData* (*ExifLoaderGetDataFunc)(ExifLoader* loader);
223 typedef void (*ExifDataFreeFunc)(ExifData* data);
224 typedef ExifByteOrder (*ExifDataGetByteOrderFunc)(ExifData* data);
225 typedef ExifShort (*ExifGetShortFunc)(const unsigned char *buf,
226 ExifByteOrder order);
227 typedef ExifLong (*ExifGetLongFunc)(const unsigned char *buf,
228 ExifByteOrder order);
229 typedef ExifRational (*ExifGetRationalFunc)(const unsigned char *buf,
230 ExifByteOrder order);
231 typedef const char* (*ExifEntryGetValueFunc)(ExifEntry *e, char *val,
232 unsigned int maxlen);
233 typedef ExifEntry* (*ExifContentGetEntryFunc)(ExifContent* content,
234 ExifTag tag);
236 template<typename FunctionType>
237 bool GetFunctionPointer(const base::ScopedNativeLibrary& lib,
238 FunctionType* function, const char* name) {
239 DCHECK(lib.is_valid());
240 DCHECK(function);
241 DCHECK(!(*function));
242 *function = reinterpret_cast<FunctionType>(
243 lib.GetFunctionPointer(name));
244 DLOG_IF(WARNING, !(*function)) << "Missing " << name;
245 return *function != NULL;
248 // Redefines exif_content_get_entry macro in terms of function pointer.
249 ExifEntry* ExifContentGetEntry(ExifData* data, ExifTag tag) {
250 DCHECK(exif_lib_.is_valid());
251 const ExifIfd ifds[] =
252 { EXIF_IFD_0, EXIF_IFD_1, EXIF_IFD_EXIF, EXIF_IFD_GPS };
254 for (size_t i = 0; i < arraysize(ifds); ++i) {
255 ExifEntry* entry = exif_content_get_entry_func_(data->ifd[ifds[i]], tag);
256 if (entry)
257 return entry;
260 return NULL;
263 ExifLoaderWriteFunc exif_loader_write_func_;
264 ExifLoaderNewFunc exif_loader_new_func_;
265 ExifLoaderUnrefFunc exif_loader_unref_func_;
266 ExifLoaderGetDataFunc exif_loader_get_data_func_;
267 ExifDataFreeFunc exif_data_free_func_;
268 ExifDataGetByteOrderFunc exif_data_get_byte_order_func_;
269 ExifGetShortFunc exif_get_short_func_;
270 ExifGetLongFunc exif_get_long_func_;
271 ExifGetRationalFunc exif_get_rational_func_;
272 ExifEntryGetValueFunc exif_entry_get_value_func_;
273 ExifContentGetEntryFunc exif_content_get_entry_func_;
275 base::ScopedNativeLibrary exif_lib_;
276 DISALLOW_COPY_AND_ASSIGN(ExifFunctions);
279 static base::LazyInstance<ExifFunctions> g_exif_lib = LAZY_INSTANCE_INITIALIZER;
281 } // namespace
283 // static
284 bool ImageMetadataExtractor::InitializeLibrary() {
285 base::FilePath media_path;
286 if (!PathService::Get(content::DIR_MEDIA_LIBS, &media_path))
287 return false;
288 return g_exif_lib.Get().Initialize(media_path);
291 // static
292 bool ImageMetadataExtractor::InitializeLibraryForTesting() {
293 base::FilePath module_dir;
294 if (!PathService::Get(base::DIR_EXE, &module_dir))
295 return false;
296 return g_exif_lib.Get().Initialize(module_dir);
299 ImageMetadataExtractor::ImageMetadataExtractor()
300 : extracted_(false),
301 width_(-1),
302 height_(-1),
303 rotation_(-1),
304 x_resolution_(-1),
305 y_resolution_(-1),
306 exposure_time_sec_(-1),
307 flash_fired_(false),
308 f_number_(-1),
309 focal_length_mm_(-1),
310 iso_equivalent_(-1) {
313 ImageMetadataExtractor::~ImageMetadataExtractor() {
316 void ImageMetadataExtractor::Extract(media::DataSource* source,
317 const DoneCallback& callback) {
318 DCHECK(!extracted_);
320 GetImageBytes(source, base::Bind(&ImageMetadataExtractor::FinishExtraction,
321 base::Unretained(this), callback));
325 int ImageMetadataExtractor::width() const {
326 DCHECK(extracted_);
327 return width_;
330 int ImageMetadataExtractor::height() const {
331 DCHECK(extracted_);
332 return height_;
335 int ImageMetadataExtractor::rotation() const {
336 DCHECK(extracted_);
337 return rotation_;
340 double ImageMetadataExtractor::x_resolution() const {
341 DCHECK(extracted_);
342 return x_resolution_;
345 double ImageMetadataExtractor::y_resolution() const {
346 DCHECK(extracted_);
347 return y_resolution_;
350 const std::string& ImageMetadataExtractor::date() const {
351 DCHECK(extracted_);
352 return date_;
355 const std::string& ImageMetadataExtractor::camera_make() const {
356 DCHECK(extracted_);
357 return camera_make_;
360 const std::string& ImageMetadataExtractor::camera_model() const {
361 DCHECK(extracted_);
362 return camera_model_;
365 double ImageMetadataExtractor::exposure_time_sec() const {
366 DCHECK(extracted_);
367 return exposure_time_sec_;
370 bool ImageMetadataExtractor::flash_fired() const {
371 DCHECK(extracted_);
372 return flash_fired_;
375 double ImageMetadataExtractor::f_number() const {
376 DCHECK(extracted_);
377 return f_number_;
380 double ImageMetadataExtractor::focal_length_mm() const {
381 DCHECK(extracted_);
382 return focal_length_mm_;
385 int ImageMetadataExtractor::iso_equivalent() const {
386 DCHECK(extracted_);
387 return iso_equivalent_;
390 void ImageMetadataExtractor::FinishExtraction(
391 const DoneCallback& callback,
392 const scoped_refptr<net::DrainableIOBuffer>& buffer) {
393 if (!buffer.get()) {
394 callback.Run(false);
395 return;
398 ExifData* data = g_exif_lib.Get().ParseExifFromBuffer(
399 reinterpret_cast<unsigned char*>(buffer->data()),
400 buffer->BytesRemaining());
402 if (!data) {
403 callback.Run(false);
404 return;
407 g_exif_lib.Get().ExtractInt(data, EXIF_TAG_IMAGE_WIDTH, &width_);
408 g_exif_lib.Get().ExtractInt(data, EXIF_TAG_IMAGE_LENGTH, &height_);
410 // We ignore the mirrored-aspect of the mirrored-orientations and just
411 // indicate the rotation. Mirrored-orientations are very rare.
412 int orientation = 0;
413 g_exif_lib.Get().ExtractInt(data, EXIF_TAG_ORIENTATION, &orientation);
414 switch (orientation) {
415 case 1:
416 case 2:
417 rotation_ = 0;
418 break;
419 case 3:
420 case 4:
421 rotation_ = 180;
422 break;
423 case 5:
424 case 6:
425 rotation_ = 90;
426 break;
427 case 7:
428 case 8:
429 rotation_ = 270;
430 break;
433 g_exif_lib.Get().ExtractDouble(data, EXIF_TAG_X_RESOLUTION, &x_resolution_);
434 g_exif_lib.Get().ExtractDouble(data, EXIF_TAG_Y_RESOLUTION, &y_resolution_);
436 g_exif_lib.Get().ExtractString(data, EXIF_TAG_DATE_TIME, &date_);
438 g_exif_lib.Get().ExtractString(data, EXIF_TAG_MAKE, &camera_make_);
439 g_exif_lib.Get().ExtractString(data, EXIF_TAG_MODEL, &camera_model_);
440 g_exif_lib.Get().ExtractDouble(data, EXIF_TAG_EXPOSURE_TIME,
441 &exposure_time_sec_);
443 int flash_value = -1;
444 g_exif_lib.Get().ExtractInt(data, EXIF_TAG_FLASH, &flash_value);
445 if (flash_value >= 0) {
446 flash_fired_ = (flash_value & 0x1) != 0;
449 g_exif_lib.Get().ExtractDouble(data, EXIF_TAG_FNUMBER, &f_number_);
450 g_exif_lib.Get().ExtractDouble(data, EXIF_TAG_FOCAL_LENGTH,
451 &focal_length_mm_);
452 g_exif_lib.Get().ExtractInt(data, EXIF_TAG_ISO_SPEED_RATINGS,
453 &iso_equivalent_);
455 g_exif_lib.Get().ExifDataFree(data);
457 extracted_ = true;
459 callback.Run(true);
462 } // namespace metadata