1 /*
2 * Copyright 2014 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 "TiffWriter"
18
19 #include <img_utils/TiffHelpers.h>
20 #include <img_utils/TiffWriter.h>
21 #include <img_utils/TagDefinitions.h>
22
23 #include <assert.h>
24
25 namespace android {
26 namespace img_utils {
27
buildTagMap(const TagDefinition_t * definitions,size_t length)28 KeyedVector<uint16_t, const TagDefinition_t*> TiffWriter::buildTagMap(
29 const TagDefinition_t* definitions, size_t length) {
30 KeyedVector<uint16_t, const TagDefinition_t*> map;
31 for(size_t i = 0; i < length; ++i) {
32 map.add(definitions[i].tagId, definitions + i);
33 }
34 return map;
35 }
36
37 #define COMPARE(op) \
38 bool Orderable::operator op (const Orderable& orderable) const { \
39 return getComparableValue() op orderable.getComparableValue(); \
40 }
41
42 #define ARRAY_SIZE(array) \
43 (sizeof(array) / sizeof(array[0]))
44
45 KeyedVector<uint16_t, const TagDefinition_t*> TiffWriter::sTagMaps[] = {
46 buildTagMap(TIFF_EP_TAG_DEFINITIONS, ARRAY_SIZE(TIFF_EP_TAG_DEFINITIONS)),
47 buildTagMap(DNG_TAG_DEFINITIONS, ARRAY_SIZE(DNG_TAG_DEFINITIONS)),
48 buildTagMap(EXIF_2_3_TAG_DEFINITIONS, ARRAY_SIZE(EXIF_2_3_TAG_DEFINITIONS)),
49 buildTagMap(TIFF_6_TAG_DEFINITIONS, ARRAY_SIZE(TIFF_6_TAG_DEFINITIONS))
50 };
51
TiffWriter()52 TiffWriter::TiffWriter() : mTagMaps(sTagMaps), mNumTagMaps(DEFAULT_NUM_TAG_MAPS) {}
53
TiffWriter(KeyedVector<uint16_t,const TagDefinition_t * > * enabledDefinitions,size_t length)54 TiffWriter::TiffWriter(KeyedVector<uint16_t, const TagDefinition_t*>* enabledDefinitions,
55 size_t length) : mTagMaps(enabledDefinitions), mNumTagMaps(length) {}
56
~TiffWriter()57 TiffWriter::~TiffWriter() {}
58
write(Output * out,StripSource ** sources,size_t sourcesCount,Endianness end)59 status_t TiffWriter::write(Output* out, StripSource** sources, size_t sourcesCount,
60 Endianness end) {
61 status_t ret = OK;
62 EndianOutput endOut(out, end);
63
64 if (mIfd == NULL) {
65 ALOGE("%s: Tiff header is empty.", __FUNCTION__);
66 return BAD_VALUE;
67 }
68
69 uint32_t totalSize = getTotalSize();
70
71 KeyedVector<uint32_t, uint32_t> offsetVector;
72
73 for (size_t i = 0; i < mNamedIfds.size(); ++i) {
74 if (mNamedIfds[i]->uninitializedOffsets()) {
75 uint32_t stripSize = mNamedIfds[i]->getStripSize();
76 if (mNamedIfds[i]->setStripOffset(totalSize) != OK) {
77 ALOGE("%s: Could not set strip offsets.", __FUNCTION__);
78 return BAD_VALUE;
79 }
80 totalSize += stripSize;
81 WORD_ALIGN(totalSize);
82 offsetVector.add(mNamedIfds.keyAt(i), totalSize);
83 }
84 }
85
86 size_t offVecSize = offsetVector.size();
87 if (offVecSize != sourcesCount) {
88 ALOGE("%s: Mismatch between number of IFDs with uninitialized strips (%zu) and"
89 " sources (%zu).", __FUNCTION__, offVecSize, sourcesCount);
90 return BAD_VALUE;
91 }
92
93 BAIL_ON_FAIL(writeFileHeader(endOut), ret);
94
95 uint32_t offset = FILE_HEADER_SIZE;
96 sp<TiffIfd> ifd = mIfd;
97 while(ifd != NULL) {
98 BAIL_ON_FAIL(ifd->writeData(offset, &endOut), ret);
99 offset += ifd->getSize();
100 ifd = ifd->getNextIfd();
101 }
102
103 if (LOG_NDEBUG == 0) {
104 log();
105 }
106
107 for (size_t i = 0; i < offVecSize; ++i) {
108 uint32_t ifdKey = offsetVector.keyAt(i);
109 uint32_t sizeToWrite = mNamedIfds[ifdKey]->getStripSize();
110 bool found = false;
111 for (size_t j = 0; j < sourcesCount; ++j) {
112 if (sources[j]->getIfd() == ifdKey) {
113 if ((ret = sources[i]->writeToStream(endOut, sizeToWrite)) != OK) {
114 ALOGE("%s: Could not write to stream, received %d.", __FUNCTION__, ret);
115 return ret;
116 }
117 ZERO_TILL_WORD(&endOut, sizeToWrite, ret);
118 found = true;
119 break;
120 }
121 }
122 if (!found) {
123 ALOGE("%s: No stream for byte strips for IFD %u", __FUNCTION__, ifdKey);
124 return BAD_VALUE;
125 }
126 assert(offsetVector[i] == endOut.getCurrentOffset());
127 }
128
129 return ret;
130 }
131
write(Output * out,Endianness end)132 status_t TiffWriter::write(Output* out, Endianness end) {
133 status_t ret = OK;
134 EndianOutput endOut(out, end);
135
136 if (mIfd == NULL) {
137 ALOGE("%s: Tiff header is empty.", __FUNCTION__);
138 return BAD_VALUE;
139 }
140 BAIL_ON_FAIL(writeFileHeader(endOut), ret);
141
142 uint32_t offset = FILE_HEADER_SIZE;
143 sp<TiffIfd> ifd = mIfd;
144 while(ifd != NULL) {
145 BAIL_ON_FAIL(ifd->writeData(offset, &endOut), ret);
146 offset += ifd->getSize();
147 ifd = ifd->getNextIfd();
148 }
149 return ret;
150 }
151
152
lookupDefinition(uint16_t tag) const153 const TagDefinition_t* TiffWriter::lookupDefinition(uint16_t tag) const {
154 const TagDefinition_t* definition = NULL;
155 for (size_t i = 0; i < mNumTagMaps; ++i) {
156 ssize_t index = mTagMaps[i].indexOfKey(tag);
157 if (index >= 0) {
158 definition = mTagMaps[i][index];
159 break;
160 }
161 }
162
163 if (definition == NULL) {
164 ALOGE("%s: No definition exists for tag with id %x.", __FUNCTION__, tag);
165 }
166 return definition;
167 }
168
getEntry(uint16_t tag,uint32_t ifd) const169 sp<TiffEntry> TiffWriter::getEntry(uint16_t tag, uint32_t ifd) const {
170 ssize_t index = mNamedIfds.indexOfKey(ifd);
171 if (index < 0) {
172 ALOGE("%s: No IFD %d set for this writer.", __FUNCTION__, ifd);
173 return NULL;
174 }
175 return mNamedIfds[index]->getEntry(tag);
176 }
177
removeEntry(uint16_t tag,uint32_t ifd)178 void TiffWriter::removeEntry(uint16_t tag, uint32_t ifd) {
179 ssize_t index = mNamedIfds.indexOfKey(ifd);
180 if (index >= 0) {
181 mNamedIfds[index]->removeEntry(tag);
182 }
183 }
184
addEntry(const sp<TiffEntry> & entry,uint32_t ifd)185 status_t TiffWriter::addEntry(const sp<TiffEntry>& entry, uint32_t ifd) {
186 uint16_t tag = entry->getTag();
187
188 const TagDefinition_t* definition = lookupDefinition(tag);
189
190 if (definition == NULL) {
191 ALOGE("%s: No definition exists for tag 0x%x.", __FUNCTION__, tag);
192 return BAD_INDEX;
193 }
194
195 ssize_t index = mNamedIfds.indexOfKey(ifd);
196
197 // Add a new IFD if necessary
198 if (index < 0) {
199 ALOGE("%s: No IFD %u exists.", __FUNCTION__, ifd);
200 return NAME_NOT_FOUND;
201 }
202
203 sp<TiffIfd> selectedIfd = mNamedIfds[index];
204 return selectedIfd->addEntry(entry);
205 }
206
addStrip(uint32_t ifd)207 status_t TiffWriter::addStrip(uint32_t ifd) {
208 ssize_t index = mNamedIfds.indexOfKey(ifd);
209 if (index < 0) {
210 ALOGE("%s: Ifd %u doesn't exist, cannot add strip entries.", __FUNCTION__, ifd);
211 return BAD_VALUE;
212 }
213 sp<TiffIfd> selected = mNamedIfds[index];
214 return selected->validateAndSetStripTags();
215 }
216
addIfd(uint32_t ifd)217 status_t TiffWriter::addIfd(uint32_t ifd) {
218 ssize_t index = mNamedIfds.indexOfKey(ifd);
219 if (index >= 0) {
220 ALOGE("%s: Ifd with ID 0x%x already exists.", __FUNCTION__, ifd);
221 return BAD_VALUE;
222 }
223
224 sp<TiffIfd> newIfd = new TiffIfd(ifd);
225 if (mIfd == NULL) {
226 mIfd = newIfd;
227 } else {
228 sp<TiffIfd> last = findLastIfd();
229 last->setNextIfd(newIfd);
230 }
231
232 if(mNamedIfds.add(ifd, newIfd) < 0) {
233 ALOGE("%s: Failed to add new IFD 0x%x.", __FUNCTION__, ifd);
234 return BAD_VALUE;
235 }
236
237 return OK;
238 }
239
addSubIfd(uint32_t parentIfd,uint32_t ifd,SubIfdType type)240 status_t TiffWriter::addSubIfd(uint32_t parentIfd, uint32_t ifd, SubIfdType type) {
241 ssize_t index = mNamedIfds.indexOfKey(ifd);
242 if (index >= 0) {
243 ALOGE("%s: Ifd with ID 0x%x already exists.", __FUNCTION__, ifd);
244 return BAD_VALUE;
245 }
246
247 ssize_t parentIndex = mNamedIfds.indexOfKey(parentIfd);
248 if (parentIndex < 0) {
249 ALOGE("%s: Parent IFD with ID 0x%x does not exist.", __FUNCTION__, parentIfd);
250 return BAD_VALUE;
251 }
252
253 sp<TiffIfd> parent = mNamedIfds[parentIndex];
254 sp<TiffIfd> newIfd = new TiffIfd(ifd);
255
256 uint16_t subIfdTag;
257 if (type == SUBIFD) {
258 subIfdTag = TAG_SUBIFDS;
259 } else if (type == GPSINFO) {
260 subIfdTag = TAG_GPSINFO;
261 } else {
262 ALOGE("%s: Unknown SubIFD type %d.", __FUNCTION__, type);
263 return BAD_VALUE;
264 }
265
266 sp<TiffEntry> subIfds = parent->getEntry(subIfdTag);
267 if (subIfds == NULL) {
268 if (buildEntry(subIfdTag, 1, &newIfd, &subIfds) < 0) {
269 ALOGE("%s: Failed to build SubIfd entry in IFD 0x%x.", __FUNCTION__, parentIfd);
270 return BAD_VALUE;
271 }
272 } else {
273 if (type == GPSINFO) {
274 ALOGE("%s: Cannot add GPSInfo SubIFD to IFD %u, one already exists.", __FUNCTION__,
275 ifd);
276 return BAD_VALUE;
277 }
278
279 Vector<sp<TiffIfd> > subIfdList;
280 const sp<TiffIfd>* oldIfdArray = subIfds->getData<sp<TiffIfd> >();
281 if (subIfdList.appendArray(oldIfdArray, subIfds->getCount()) < 0) {
282 ALOGE("%s: Failed to build SubIfd entry in IFD 0x%x.", __FUNCTION__, parentIfd);
283 return BAD_VALUE;
284 }
285
286 if (subIfdList.add(newIfd) < 0) {
287 ALOGE("%s: Failed to build SubIfd entry in IFD 0x%x.", __FUNCTION__, parentIfd);
288 return BAD_VALUE;
289 }
290
291 uint32_t count = subIfdList.size();
292 if (buildEntry(subIfdTag, count, subIfdList.array(), &subIfds) < 0) {
293 ALOGE("%s: Failed to build SubIfd entry in IFD 0x%x.", __FUNCTION__, parentIfd);
294 return BAD_VALUE;
295 }
296 }
297
298 if (parent->addEntry(subIfds) < 0) {
299 ALOGE("%s: Failed to add SubIfd entry in IFD 0x%x.", __FUNCTION__, parentIfd);
300 return BAD_VALUE;
301 }
302
303 if(mNamedIfds.add(ifd, newIfd) < 0) {
304 ALOGE("%s: Failed to add new IFD 0x%x.", __FUNCTION__, ifd);
305 return BAD_VALUE;
306 }
307
308 return OK;
309 }
310
getDefaultType(uint16_t tag) const311 TagType TiffWriter::getDefaultType(uint16_t tag) const {
312 const TagDefinition_t* definition = lookupDefinition(tag);
313 if (definition == NULL) {
314 ALOGE("%s: Could not find definition for tag %x", __FUNCTION__, tag);
315 return UNKNOWN_TAGTYPE;
316 }
317 return definition->defaultType;
318 }
319
getDefaultCount(uint16_t tag) const320 uint32_t TiffWriter::getDefaultCount(uint16_t tag) const {
321 const TagDefinition_t* definition = lookupDefinition(tag);
322 if (definition == NULL) {
323 ALOGE("%s: Could not find definition for tag %x", __FUNCTION__, tag);
324 return 0;
325 }
326 return definition->fixedCount;
327 }
328
hasIfd(uint32_t ifd) const329 bool TiffWriter::hasIfd(uint32_t ifd) const {
330 ssize_t index = mNamedIfds.indexOfKey(ifd);
331 return index >= 0;
332 }
333
checkIfDefined(uint16_t tag) const334 bool TiffWriter::checkIfDefined(uint16_t tag) const {
335 return lookupDefinition(tag) != NULL;
336 }
337
getTagName(uint16_t tag) const338 const char* TiffWriter::getTagName(uint16_t tag) const {
339 const TagDefinition_t* definition = lookupDefinition(tag);
340 if (definition == NULL) {
341 return NULL;
342 }
343 return definition->tagName;
344 }
345
findLastIfd()346 sp<TiffIfd> TiffWriter::findLastIfd() {
347 sp<TiffIfd> ifd = mIfd;
348 while(ifd != NULL) {
349 sp<TiffIfd> nextIfd = ifd->getNextIfd();
350 if (nextIfd == NULL) {
351 break;
352 }
353 ifd = nextIfd;
354 }
355 return ifd;
356 }
357
writeFileHeader(EndianOutput & out)358 status_t TiffWriter::writeFileHeader(EndianOutput& out) {
359 status_t ret = OK;
360 uint16_t endMarker = (out.getEndianness() == BIG) ? BIG_ENDIAN_MARKER : LITTLE_ENDIAN_MARKER;
361 BAIL_ON_FAIL(out.write(&endMarker, 0, 1), ret);
362
363 uint16_t tiffMarker = TIFF_FILE_MARKER;
364 BAIL_ON_FAIL(out.write(&tiffMarker, 0, 1), ret);
365
366 uint32_t offsetMarker = FILE_HEADER_SIZE;
367 BAIL_ON_FAIL(out.write(&offsetMarker, 0, 1), ret);
368 return ret;
369 }
370
getTotalSize() const371 uint32_t TiffWriter::getTotalSize() const {
372 uint32_t totalSize = FILE_HEADER_SIZE;
373 sp<TiffIfd> ifd = mIfd;
374 while(ifd != NULL) {
375 totalSize += ifd->getSize();
376 ifd = ifd->getNextIfd();
377 }
378 return totalSize;
379 }
380
log() const381 void TiffWriter::log() const {
382 ALOGI("%s: TiffWriter:", __FUNCTION__);
383 size_t length = mNamedIfds.size();
384 for (size_t i = 0; i < length; ++i) {
385 mNamedIfds[i]->log();
386 }
387 }
388
389 } /*namespace img_utils*/
390 } /*namespace android*/
391