/* * Copyright 2014 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #define LOG_TAG "TiffWriter" #include #include #include #include namespace android { namespace img_utils { KeyedVector TiffWriter::buildTagMap( const TagDefinition_t* definitions, size_t length) { KeyedVector map; for(size_t i = 0; i < length; ++i) { map.add(definitions[i].tagId, definitions + i); } return map; } #define COMPARE(op) \ bool Orderable::operator op (const Orderable& orderable) const { \ return getComparableValue() op orderable.getComparableValue(); \ } #define ARRAY_SIZE(array) \ (sizeof(array) / sizeof((array)[0])) KeyedVector TiffWriter::sTagMaps[] = { buildTagMap(TIFF_EP_TAG_DEFINITIONS, ARRAY_SIZE(TIFF_EP_TAG_DEFINITIONS)), buildTagMap(DNG_TAG_DEFINITIONS, ARRAY_SIZE(DNG_TAG_DEFINITIONS)), buildTagMap(EXIF_2_3_TAG_DEFINITIONS, ARRAY_SIZE(EXIF_2_3_TAG_DEFINITIONS)), buildTagMap(TIFF_6_TAG_DEFINITIONS, ARRAY_SIZE(TIFF_6_TAG_DEFINITIONS)) }; TiffWriter::TiffWriter() : mTagMaps(sTagMaps), mNumTagMaps(DEFAULT_NUM_TAG_MAPS) {} TiffWriter::TiffWriter(KeyedVector* enabledDefinitions, size_t length) : mTagMaps(enabledDefinitions), mNumTagMaps(length) {} TiffWriter::~TiffWriter() {} status_t TiffWriter::write(Output* out, StripSource** sources, size_t sourcesCount, Endianness end) { status_t ret = OK; EndianOutput endOut(out, end); if (mIfd == NULL) { ALOGE("%s: Tiff header is empty.", __FUNCTION__); return BAD_VALUE; } uint32_t totalSize = getTotalSize(); KeyedVector offsetVector; for (size_t i = 0; i < mNamedIfds.size(); ++i) { if (mNamedIfds[i]->uninitializedOffsets()) { uint32_t stripSize = mNamedIfds[i]->getStripSize(); if (mNamedIfds[i]->setStripOffset(totalSize) != OK) { ALOGE("%s: Could not set strip offsets.", __FUNCTION__); return BAD_VALUE; } totalSize += stripSize; WORD_ALIGN(totalSize); offsetVector.add(mNamedIfds.keyAt(i), totalSize); } } size_t offVecSize = offsetVector.size(); if (offVecSize != sourcesCount) { ALOGE("%s: Mismatch between number of IFDs with uninitialized strips (%zu) and" " sources (%zu).", __FUNCTION__, offVecSize, sourcesCount); return BAD_VALUE; } BAIL_ON_FAIL(writeFileHeader(endOut), ret); uint32_t offset = FILE_HEADER_SIZE; sp ifd = mIfd; while(ifd != NULL) { BAIL_ON_FAIL(ifd->writeData(offset, &endOut), ret); offset += ifd->getSize(); ifd = ifd->getNextIfd(); } if (LOG_NDEBUG == 0) { log(); } for (size_t i = 0; i < offVecSize; ++i) { uint32_t ifdKey = offsetVector.keyAt(i); uint32_t sizeToWrite = mNamedIfds[ifdKey]->getStripSize(); bool found = false; for (size_t j = 0; j < sourcesCount; ++j) { if (sources[j]->getIfd() == ifdKey) { if ((ret = sources[i]->writeToStream(endOut, sizeToWrite)) != OK) { ALOGE("%s: Could not write to stream, received %d.", __FUNCTION__, ret); return ret; } ZERO_TILL_WORD(&endOut, sizeToWrite, ret); found = true; break; } } if (!found) { ALOGE("%s: No stream for byte strips for IFD %u", __FUNCTION__, ifdKey); return BAD_VALUE; } assert(offsetVector[i] == endOut.getCurrentOffset()); } return ret; } status_t TiffWriter::write(Output* out, Endianness end) { status_t ret = OK; EndianOutput endOut(out, end); if (mIfd == NULL) { ALOGE("%s: Tiff header is empty.", __FUNCTION__); return BAD_VALUE; } BAIL_ON_FAIL(writeFileHeader(endOut), ret); uint32_t offset = FILE_HEADER_SIZE; sp ifd = mIfd; while(ifd != NULL) { BAIL_ON_FAIL(ifd->writeData(offset, &endOut), ret); offset += ifd->getSize(); ifd = ifd->getNextIfd(); } return ret; } const TagDefinition_t* TiffWriter::lookupDefinition(uint16_t tag) const { const TagDefinition_t* definition = NULL; for (size_t i = 0; i < mNumTagMaps; ++i) { ssize_t index = mTagMaps[i].indexOfKey(tag); if (index >= 0) { definition = mTagMaps[i][index]; break; } } if (definition == NULL) { ALOGE("%s: No definition exists for tag with id %x.", __FUNCTION__, tag); } return definition; } sp TiffWriter::getEntry(uint16_t tag, uint32_t ifd) const { ssize_t index = mNamedIfds.indexOfKey(ifd); if (index < 0) { ALOGE("%s: No IFD %d set for this writer.", __FUNCTION__, ifd); return NULL; } return mNamedIfds[index]->getEntry(tag); } void TiffWriter::removeEntry(uint16_t tag, uint32_t ifd) { ssize_t index = mNamedIfds.indexOfKey(ifd); if (index >= 0) { mNamedIfds[index]->removeEntry(tag); } } status_t TiffWriter::addEntry(const sp& entry, uint32_t ifd) { uint16_t tag = entry->getTag(); const TagDefinition_t* definition = lookupDefinition(tag); if (definition == NULL) { ALOGE("%s: No definition exists for tag 0x%x.", __FUNCTION__, tag); return BAD_INDEX; } ssize_t index = mNamedIfds.indexOfKey(ifd); // Add a new IFD if necessary if (index < 0) { ALOGE("%s: No IFD %u exists.", __FUNCTION__, ifd); return NAME_NOT_FOUND; } sp selectedIfd = mNamedIfds[index]; return selectedIfd->addEntry(entry); } status_t TiffWriter::addStrip(uint32_t ifd) { ssize_t index = mNamedIfds.indexOfKey(ifd); if (index < 0) { ALOGE("%s: Ifd %u doesn't exist, cannot add strip entries.", __FUNCTION__, ifd); return BAD_VALUE; } sp selected = mNamedIfds[index]; return selected->validateAndSetStripTags(); } status_t TiffWriter::addIfd(uint32_t ifd) { ssize_t index = mNamedIfds.indexOfKey(ifd); if (index >= 0) { ALOGE("%s: Ifd with ID 0x%x already exists.", __FUNCTION__, ifd); return BAD_VALUE; } sp newIfd = new TiffIfd(ifd); if (mIfd == NULL) { mIfd = newIfd; } else { sp last = findLastIfd(); last->setNextIfd(newIfd); } if(mNamedIfds.add(ifd, newIfd) < 0) { ALOGE("%s: Failed to add new IFD 0x%x.", __FUNCTION__, ifd); return BAD_VALUE; } return OK; } status_t TiffWriter::addSubIfd(uint32_t parentIfd, uint32_t ifd, SubIfdType type) { ssize_t index = mNamedIfds.indexOfKey(ifd); if (index >= 0) { ALOGE("%s: Ifd with ID 0x%x already exists.", __FUNCTION__, ifd); return BAD_VALUE; } ssize_t parentIndex = mNamedIfds.indexOfKey(parentIfd); if (parentIndex < 0) { ALOGE("%s: Parent IFD with ID 0x%x does not exist.", __FUNCTION__, parentIfd); return BAD_VALUE; } sp parent = mNamedIfds[parentIndex]; sp newIfd = new TiffIfd(ifd); uint16_t subIfdTag; if (type == SUBIFD) { subIfdTag = TAG_SUBIFDS; } else if (type == GPSINFO) { subIfdTag = TAG_GPSINFO; } else { ALOGE("%s: Unknown SubIFD type %d.", __FUNCTION__, type); return BAD_VALUE; } sp subIfds = parent->getEntry(subIfdTag); if (subIfds == NULL) { if (buildEntry(subIfdTag, 1, &newIfd, &subIfds) < 0) { ALOGE("%s: Failed to build SubIfd entry in IFD 0x%x.", __FUNCTION__, parentIfd); return BAD_VALUE; } } else { if (type == GPSINFO) { ALOGE("%s: Cannot add GPSInfo SubIFD to IFD %u, one already exists.", __FUNCTION__, ifd); return BAD_VALUE; } Vector > subIfdList; const sp* oldIfdArray = subIfds->getData >(); if (subIfdList.appendArray(oldIfdArray, subIfds->getCount()) < 0) { ALOGE("%s: Failed to build SubIfd entry in IFD 0x%x.", __FUNCTION__, parentIfd); return BAD_VALUE; } if (subIfdList.add(newIfd) < 0) { ALOGE("%s: Failed to build SubIfd entry in IFD 0x%x.", __FUNCTION__, parentIfd); return BAD_VALUE; } uint32_t count = subIfdList.size(); if (buildEntry(subIfdTag, count, subIfdList.array(), &subIfds) < 0) { ALOGE("%s: Failed to build SubIfd entry in IFD 0x%x.", __FUNCTION__, parentIfd); return BAD_VALUE; } } if (parent->addEntry(subIfds) < 0) { ALOGE("%s: Failed to add SubIfd entry in IFD 0x%x.", __FUNCTION__, parentIfd); return BAD_VALUE; } if(mNamedIfds.add(ifd, newIfd) < 0) { ALOGE("%s: Failed to add new IFD 0x%x.", __FUNCTION__, ifd); return BAD_VALUE; } return OK; } TagType TiffWriter::getDefaultType(uint16_t tag) const { const TagDefinition_t* definition = lookupDefinition(tag); if (definition == NULL) { ALOGE("%s: Could not find definition for tag %x", __FUNCTION__, tag); return UNKNOWN_TAGTYPE; } return definition->defaultType; } uint32_t TiffWriter::getDefaultCount(uint16_t tag) const { const TagDefinition_t* definition = lookupDefinition(tag); if (definition == NULL) { ALOGE("%s: Could not find definition for tag %x", __FUNCTION__, tag); return 0; } return definition->fixedCount; } bool TiffWriter::hasIfd(uint32_t ifd) const { ssize_t index = mNamedIfds.indexOfKey(ifd); return index >= 0; } bool TiffWriter::checkIfDefined(uint16_t tag) const { return lookupDefinition(tag) != NULL; } const char* TiffWriter::getTagName(uint16_t tag) const { const TagDefinition_t* definition = lookupDefinition(tag); if (definition == NULL) { return NULL; } return definition->tagName; } sp TiffWriter::findLastIfd() { sp ifd = mIfd; while(ifd != NULL) { sp nextIfd = ifd->getNextIfd(); if (nextIfd == NULL) { break; } ifd = std::move(nextIfd); } return ifd; } status_t TiffWriter::writeFileHeader(EndianOutput& out) { status_t ret = OK; uint16_t endMarker = (out.getEndianness() == BIG) ? BIG_ENDIAN_MARKER : LITTLE_ENDIAN_MARKER; BAIL_ON_FAIL(out.write(&endMarker, 0, 1), ret); uint16_t tiffMarker = TIFF_FILE_MARKER; BAIL_ON_FAIL(out.write(&tiffMarker, 0, 1), ret); uint32_t offsetMarker = FILE_HEADER_SIZE; BAIL_ON_FAIL(out.write(&offsetMarker, 0, 1), ret); return ret; } uint32_t TiffWriter::getTotalSize() const { uint32_t totalSize = FILE_HEADER_SIZE; sp ifd = mIfd; while(ifd != NULL) { totalSize += ifd->getSize(); ifd = ifd->getNextIfd(); } return totalSize; } void TiffWriter::log() const { ALOGI("%s: TiffWriter:", __FUNCTION__); size_t length = mNamedIfds.size(); for (size_t i = 0; i < length; ++i) { mNamedIfds[i]->log(); } } } /*namespace img_utils*/ } /*namespace android*/