/* * 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 "TiffIfd" #include <img_utils/TagDefinitions.h> #include <img_utils/TiffHelpers.h> #include <img_utils/TiffIfd.h> #include <img_utils/TiffWriter.h> #include <utils/Log.h> namespace android { namespace img_utils { TiffIfd::TiffIfd(uint32_t ifdId) : mNextIfd(), mIfdId(ifdId), mStripOffsetsInitialized(false) {} TiffIfd::~TiffIfd() {} status_t TiffIfd::addEntry(const sp<TiffEntry>& entry) { size_t size = mEntries.size(); if (size >= MAX_IFD_ENTRIES) { ALOGW("%s: Failed to add entry for tag 0x%x to IFD %u, too many entries in IFD!", __FUNCTION__, entry->getTag(), mIfdId); return BAD_INDEX; } if (mEntries.add(entry) < 0) { ALOGW("%s: Failed to add entry for tag 0x%x to ifd %u.", __FUNCTION__, entry->getTag(), mIfdId); return BAD_INDEX; } return OK; } sp<TiffEntry> TiffIfd::getEntry(uint16_t tag) const { ssize_t index = mEntries.indexOfTag(tag); if (index < 0) { ALOGW("%s: No entry for tag 0x%x in ifd %u.", __FUNCTION__, tag, mIfdId); return NULL; } return mEntries[index]; } void TiffIfd::removeEntry(uint16_t tag) { ssize_t index = mEntries.indexOfTag(tag); if (index >= 0) { mEntries.removeAt(index); } } void TiffIfd::setNextIfd(const sp<TiffIfd>& ifd) { mNextIfd = ifd; } sp<TiffIfd> TiffIfd::getNextIfd() const { return mNextIfd; } uint32_t TiffIfd::checkAndGetOffset(uint32_t offset) const { size_t size = mEntries.size(); if (size > MAX_IFD_ENTRIES) { ALOGW("%s: Could not calculate IFD offsets, IFD %u contains too many entries.", __FUNCTION__, mIfdId); return BAD_OFFSET; } if (size <= 0) { ALOGW("%s: Could not calculate IFD offsets, IFD %u contains no entries.", __FUNCTION__, mIfdId); return BAD_OFFSET; } if (offset == BAD_OFFSET) { ALOGW("%s: Could not calculate IFD offsets, IFD %u had a bad initial offset.", __FUNCTION__, mIfdId); return BAD_OFFSET; } uint32_t ifdSize = calculateIfdSize(size); WORD_ALIGN(ifdSize); return offset + ifdSize; } status_t TiffIfd::writeData(uint32_t offset, /*out*/EndianOutput* out) const { assert((offset % TIFF_WORD_SIZE) == 0); status_t ret = OK; ALOGV("%s: IFD %u written to offset %u", __FUNCTION__, mIfdId, offset ); uint32_t valueOffset = checkAndGetOffset(offset); if (valueOffset == 0) { return BAD_VALUE; } size_t size = mEntries.size(); // Writer IFD header (2 bytes, number of entries). uint16_t header = static_cast<uint16_t>(size); BAIL_ON_FAIL(out->write(&header, 0, 1), ret); // Write tag entries for (size_t i = 0; i < size; ++i) { BAIL_ON_FAIL(mEntries[i]->writeTagInfo(valueOffset, out), ret); valueOffset += mEntries[i]->getSize(); } // Writer IFD footer (4 bytes, offset to next IFD). uint32_t footer = (mNextIfd != NULL) ? offset + getSize() : 0; BAIL_ON_FAIL(out->write(&footer, 0, 1), ret); assert(out->getCurrentOffset() == offset + calculateIfdSize(size)); // Write zeroes till word aligned ZERO_TILL_WORD(out, calculateIfdSize(size), ret); // Write values for each tag entry for (size_t i = 0; i < size; ++i) { size_t last = out->getCurrentOffset(); // Only write values that are too large to fit in the 12-byte TIFF entry if (mEntries[i]->getSize() > OFFSET_SIZE) { BAIL_ON_FAIL(mEntries[i]->writeData(out->getCurrentOffset(), out), ret); } size_t next = out->getCurrentOffset(); size_t diff = (next - last); size_t actual = mEntries[i]->getSize(); if (diff != actual) { ALOGW("Sizes do not match for tag %x. Expected %zu, received %zu", mEntries[i]->getTag(), actual, diff); } } assert(out->getCurrentOffset() == offset + getSize()); return ret; } size_t TiffIfd::getSize() const { size_t size = mEntries.size(); uint32_t total = calculateIfdSize(size); WORD_ALIGN(total); for (size_t i = 0; i < size; ++i) { total += mEntries[i]->getSize(); } return total; } uint32_t TiffIfd::getId() const { return mIfdId; } uint32_t TiffIfd::getComparableValue() const { return mIfdId; } status_t TiffIfd::validateAndSetStripTags() { sp<TiffEntry> widthEntry = getEntry(TAG_IMAGEWIDTH); if (widthEntry == NULL) { ALOGE("%s: IFD %u doesn't have a ImageWidth tag set", __FUNCTION__, mIfdId); return BAD_VALUE; } sp<TiffEntry> heightEntry = getEntry(TAG_IMAGELENGTH); if (heightEntry == NULL) { ALOGE("%s: IFD %u doesn't have a ImageLength tag set", __FUNCTION__, mIfdId); return BAD_VALUE; } sp<TiffEntry> samplesEntry = getEntry(TAG_SAMPLESPERPIXEL); if (samplesEntry == NULL) { ALOGE("%s: IFD %u doesn't have a SamplesPerPixel tag set", __FUNCTION__, mIfdId); return BAD_VALUE; } sp<TiffEntry> bitsEntry = getEntry(TAG_BITSPERSAMPLE); if (bitsEntry == NULL) { ALOGE("%s: IFD %u doesn't have a BitsPerSample tag set", __FUNCTION__, mIfdId); return BAD_VALUE; } uint32_t width = *(widthEntry->getData<uint32_t>()); uint32_t height = *(heightEntry->getData<uint32_t>()); uint16_t bitsPerSample = *(bitsEntry->getData<uint16_t>()); uint16_t samplesPerPixel = *(samplesEntry->getData<uint16_t>()); if ((bitsPerSample % 8) != 0) { ALOGE("%s: BitsPerSample %d in IFD %u is not byte-aligned.", __FUNCTION__, bitsPerSample, mIfdId); return BAD_VALUE; } uint32_t bytesPerSample = bitsPerSample / 8; // Choose strip size as close to 8kb as possible without splitting rows. // If the row length is >8kb, each strip will only contain a single row. const uint32_t rowLengthBytes = bytesPerSample * samplesPerPixel * width; const uint32_t idealChunkSize = (1 << 13); // 8kb uint32_t rowsPerChunk = idealChunkSize / rowLengthBytes; rowsPerChunk = (rowsPerChunk == 0) ? 1 : rowsPerChunk; const uint32_t actualChunkSize = rowLengthBytes * rowsPerChunk; const uint32_t lastChunkRows = height % rowsPerChunk; const uint32_t lastChunkSize = lastChunkRows * rowLengthBytes; if (actualChunkSize > /*max strip size for TIFF/EP*/65536) { ALOGE("%s: Strip length too long.", __FUNCTION__); return BAD_VALUE; } size_t numStrips = height / rowsPerChunk; // Add another strip for the incomplete chunk. if (lastChunkRows > 0) { numStrips += 1; } // Put each row in it's own strip uint32_t rowsPerStripVal = rowsPerChunk; sp<TiffEntry> rowsPerStrip = TiffWriter::uncheckedBuildEntry(TAG_ROWSPERSTRIP, LONG, 1, UNDEFINED_ENDIAN, &rowsPerStripVal); if (rowsPerStrip == NULL) { ALOGE("%s: Could not build entry for RowsPerStrip tag.", __FUNCTION__); return BAD_VALUE; } Vector<uint32_t> byteCounts; for (size_t i = 0; i < numStrips; ++i) { if (lastChunkRows > 0 && i == (numStrips - 1)) { byteCounts.add(lastChunkSize); } else { byteCounts.add(actualChunkSize); } } // Set byte counts for each strip sp<TiffEntry> stripByteCounts = TiffWriter::uncheckedBuildEntry(TAG_STRIPBYTECOUNTS, LONG, static_cast<uint32_t>(numStrips), UNDEFINED_ENDIAN, byteCounts.array()); if (stripByteCounts == NULL) { ALOGE("%s: Could not build entry for StripByteCounts tag.", __FUNCTION__); return BAD_VALUE; } Vector<uint32_t> stripOffsetsVector; stripOffsetsVector.resize(numStrips); // Set uninitialized offsets sp<TiffEntry> stripOffsets = TiffWriter::uncheckedBuildEntry(TAG_STRIPOFFSETS, LONG, static_cast<uint32_t>(numStrips), UNDEFINED_ENDIAN, stripOffsetsVector.array()); if (stripOffsets == NULL) { ALOGE("%s: Could not build entry for StripOffsets tag.", __FUNCTION__); return BAD_VALUE; } if(addEntry(stripByteCounts) != OK) { ALOGE("%s: Could not add entry for StripByteCounts to IFD %u", __FUNCTION__, mIfdId); return BAD_VALUE; } if(addEntry(rowsPerStrip) != OK) { ALOGE("%s: Could not add entry for StripByteCounts to IFD %u", __FUNCTION__, mIfdId); return BAD_VALUE; } if(addEntry(stripOffsets) != OK) { ALOGE("%s: Could not add entry for StripByteCounts to IFD %u", __FUNCTION__, mIfdId); return BAD_VALUE; } mStripOffsetsInitialized = true; return OK; } bool TiffIfd::uninitializedOffsets() const { return mStripOffsetsInitialized; } status_t TiffIfd::setStripOffset(uint32_t offset) { // Get old offsets and bytecounts sp<TiffEntry> oldOffsets = getEntry(TAG_STRIPOFFSETS); if (oldOffsets == NULL) { ALOGE("%s: IFD %u does not contain StripOffsets entry.", __FUNCTION__, mIfdId); return BAD_VALUE; } sp<TiffEntry> stripByteCounts = getEntry(TAG_STRIPBYTECOUNTS); if (stripByteCounts == NULL) { ALOGE("%s: IFD %u does not contain StripByteCounts entry.", __FUNCTION__, mIfdId); return BAD_VALUE; } uint32_t offsetsCount = oldOffsets->getCount(); uint32_t byteCount = stripByteCounts->getCount(); if (offsetsCount != byteCount) { ALOGE("%s: StripOffsets count (%u) doesn't match StripByteCounts count (%u) in IFD %u", __FUNCTION__, offsetsCount, byteCount, mIfdId); return BAD_VALUE; } const uint32_t* stripByteCountsArray = stripByteCounts->getData<uint32_t>(); size_t numStrips = offsetsCount; Vector<uint32_t> stripOffsets; // Calculate updated byte offsets for (size_t i = 0; i < numStrips; ++i) { stripOffsets.add(offset); offset += stripByteCountsArray[i]; } sp<TiffEntry> newOffsets = TiffWriter::uncheckedBuildEntry(TAG_STRIPOFFSETS, LONG, static_cast<uint32_t>(numStrips), UNDEFINED_ENDIAN, stripOffsets.array()); if (newOffsets == NULL) { ALOGE("%s: Coult not build updated offsets entry in IFD %u", __FUNCTION__, mIfdId); return BAD_VALUE; } if (addEntry(newOffsets) != OK) { ALOGE("%s: Failed to add updated offsets entry in IFD %u", __FUNCTION__, mIfdId); return BAD_VALUE; } return OK; } uint32_t TiffIfd::getStripSize() const { sp<TiffEntry> stripByteCounts = getEntry(TAG_STRIPBYTECOUNTS); if (stripByteCounts == NULL) { ALOGE("%s: IFD %u does not contain StripByteCounts entry.", __FUNCTION__, mIfdId); return BAD_VALUE; } uint32_t count = stripByteCounts->getCount(); const uint32_t* byteCounts = stripByteCounts->getData<uint32_t>(); uint32_t total = 0; for (size_t i = 0; i < static_cast<size_t>(count); ++i) { total += byteCounts[i]; } return total; } String8 TiffIfd::toString() const { size_t s = mEntries.size(); String8 output; output.appendFormat("[ifd: %x, num_entries: %zu, entries:\n", getId(), s); for(size_t i = 0; i < mEntries.size(); ++i) { output.append("\t"); output.append(mEntries[i]->toString()); output.append("\n"); } output.append(", next_ifd: %x]", ((mNextIfd != NULL) ? mNextIfd->getId() : 0)); return output; } void TiffIfd::log() const { size_t s = mEntries.size(); ALOGI("[ifd: %x, num_entries: %zu, entries:\n", getId(), s); for(size_t i = 0; i < s; ++i) { ALOGI("\t%s", mEntries[i]->toString().string()); } ALOGI(", next_ifd: %x]", ((mNextIfd != NULL) ? mNextIfd->getId() : 0)); } } /*namespace img_utils*/ } /*namespace android*/