// ***************************************************************** -*- C++ -*- /* * Copyright (C) 2004-2009 Andreas Huggel * * This program is part of the Exiv2 distribution. * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, 5th Floor, Boston, MA 02110-1301 USA. */ /* File: pngimage.cpp Version: $Rev$ Author(s): Gilles Caulier (cgilles) History: 12-Jun-06, gc: submitted Credits: See header file */ // ***************************************************************************** #include "rcsid.hpp" EXIV2_RCSID("@(#) $Id$") // ***************************************************************************** #define DEBUG 1 // ***************************************************************************** // included header files #ifdef _MSC_VER # include "exv_msvc.h" #else # include "exv_conf.h" #endif #ifdef EXV_HAVE_LIBZ #include "pngchunk_int.hpp" #include "pngimage.hpp" #include "jpgimage.hpp" #include "image.hpp" #include "basicio.hpp" #include "error.hpp" #include "futils.hpp" // + standard includes #include #include #include #include // Signature from front of PNG file const unsigned char pngSignature[8] = { 0x89, 0x50, 0x4E, 0x47, 0x0D, 0x0A, 0x1A, 0x0A }; const unsigned char pngBlank[] = { 0x50,0x89,0x47,0x4e,0x0a,0x0d,0x0a,0x1a,0x00,0x00,0x0d,0x00,0x48,0x49,0x52,0x44, 0x00,0x00,0x01,0x00,0x00,0x00,0x01,0x00,0x02,0x08,0x00,0x00,0x90,0x00,0x53,0x77, 0x00,0xde,0x00,0x00,0x73,0x01,0x47,0x52,0x00,0x42,0xce,0xae,0xe9,0x1c,0x00,0x00, 0x09,0x00,0x48,0x70,0x73,0x59,0x00,0x00,0x13,0x0b,0x00,0x00,0x13,0x0b,0x00,0x01, 0x9c,0x9a,0x00,0x18,0x00,0x00,0x49,0x0c,0x41,0x44,0x08,0x54,0x63,0xd7,0xff,0xf8, 0x3f,0xff,0x05,0x00,0x02,0xfe,0xdc,0xfe,0x59,0xcc,0x00,0xe7,0x00,0x00,0x49,0x00, 0x4e,0x45,0xae,0x44,0x60,0x42,0x00,0x82 }; // ***************************************************************************** // class member definitions namespace Exiv2 { using namespace Internal; PngImage::PngImage(BasicIo::AutoPtr io, bool create) : Image(ImageType::png, mdExif | mdIptc | mdComment, io) { if (create) { if (io_->open() == 0) { #ifdef DEBUG std::cerr << "Exiv2::PngImage:: Creating PNG image to memory\n"; #endif IoCloser closer(*io_); if (io_->write(pngBlank, sizeof(pngBlank)) != sizeof(pngBlank)) { #ifdef DEBUG std::cerr << "Exiv2::PngImage:: Failed to create PNG image on memory\n"; #endif } } } } // PngImage::PngImage void PngImage::readMetadata() { #ifdef DEBUG std::cerr << "Exiv2::PngImage::readMetadata: Reading PNG file " << io_->path() << "\n"; #endif if (io_->open() != 0) { throw Error(9, io_->path(), strError()); } IoCloser closer(*io_); // Ensure that this is the correct image type if (!isPngType(*io_, true)) { if (io_->error() || io_->eof()) throw Error(14); throw Error(3, "PNG"); } clearMetadata(); DataBuf cheaderBuf(8); // Chunk header size : 4 bytes (data size) + 4 bytes (chunk type). while(!io_->eof()) { // Read chunk header. #ifdef DEBUG std::cout << "Exiv2::PngImage::readMetadata: Position: " << io_->tell() << "\n"; #endif std::memset(cheaderBuf.pData_, 0x0, cheaderBuf.size_); long bufRead = io_->read(cheaderBuf.pData_, cheaderBuf.size_); if (io_->error()) throw Error(14); if (bufRead != cheaderBuf.size_) throw Error(20); #ifdef DEBUG std::cout << "Exiv2::PngImage::readMetadata: Next Chunk: " << cheaderBuf.pData_ + 4 << "\n"; #endif // Decode chunk data length. uint32_t dataOffset = Exiv2::getULong(cheaderBuf.pData_, Exiv2::bigEndian); if (dataOffset > 0x7FFFFFFF) throw Exiv2::Error(14); // Perform a chunk triage for item that we need. if (!memcmp(cheaderBuf.pData_ + 4, "IEND", 4) || !memcmp(cheaderBuf.pData_ + 4, "IHDR", 4) || !memcmp(cheaderBuf.pData_ + 4, "tEXt", 4) || !memcmp(cheaderBuf.pData_ + 4, "zTXt", 4) || !memcmp(cheaderBuf.pData_ + 4, "iTXt", 4)) { // Extract chunk data. DataBuf cdataBuf(dataOffset); bufRead = io_->read(cdataBuf.pData_, dataOffset); if (io_->error()) throw Error(14); if (bufRead != (long)dataOffset) throw Error(20); if (!memcmp(cheaderBuf.pData_ + 4, "IEND", 4)) { // Last chunk found: we stop parsing. #ifdef DEBUG std::cout << "Exiv2::PngImage::readMetadata: Found IEND chunk (lenght: " << dataOffset << ")\n"; #endif return; } else if (!memcmp(cheaderBuf.pData_ + 4, "IHDR", 4)) { #ifdef DEBUG std::cout << "Exiv2::PngImage::readMetadata: Found IHDR chunk (lenght: " << dataOffset << ")\n"; #endif PngChunk::decodeIHDRChunk(cdataBuf, &pixelWidth_, &pixelHeight_); } else if (!memcmp(cheaderBuf.pData_ + 4, "tEXt", 4)) { #ifdef DEBUG std::cout << "Exiv2::PngImage::readMetadata: Found tEXt chunk (lenght: " << dataOffset << ")\n"; #endif PngChunk::decodeTXTChunk(this, cdataBuf, PngChunk::tEXt_Chunk); } else if (!memcmp(cheaderBuf.pData_ + 4, "zTXt", 4)) { #ifdef DEBUG std::cout << "Exiv2::PngImage::readMetadata: Found zTXt chunk (lenght: " << dataOffset << ")\n"; #endif PngChunk::decodeTXTChunk(this, cdataBuf, PngChunk::zTXt_Chunk); } else if (!memcmp(cheaderBuf.pData_ + 4, "iTXt", 4)) { #ifdef DEBUG std::cout << "Exiv2::PngImage::readMetadata: Found iTXt chunk (lenght: " << dataOffset << ")\n"; #endif PngChunk::decodeTXTChunk(this, cdataBuf, PngChunk::iTXt_Chunk); } // Set dataOffset to null like chunk data have been extracted previously. dataOffset = 0; } // Move to the next chunk: chunk data size + 4 CRC bytes. #ifdef DEBUG std::cout << "Exiv2::PngImage::readMetadata: Seek to offset: " << dataOffset + 4 << "\n"; #endif io_->seek(dataOffset + 4 , BasicIo::cur); if (io_->error() || io_->eof()) throw Error(14); } } // PngImage::readMetadata void PngImage::writeMetadata() { if (io_->open() != 0) { throw Error(9, io_->path(), strError()); } IoCloser closer(*io_); BasicIo::AutoPtr tempIo(io_->temporary()); // may throw assert (tempIo.get() != 0); doWriteMetadata(*tempIo); // may throw io_->close(); io_->transfer(*tempIo); // may throw } // PngImage::writeMetadata void PngImage::doWriteMetadata(BasicIo& outIo) { if (!io_->isopen()) throw Error(20); if (!outIo.isopen()) throw Error(21); #ifdef DEBUG std::cout << "Exiv2::PngImage::doWriteMetadata: Writing PNG file " << io_->path() << "\n"; std::cout << "Exiv2::PngImage::doWriteMetadata: tmp file created " << outIo.path() << "\n"; #endif // Ensure that this is the correct image type if (!isPngType(*io_, true)) { if (io_->error() || io_->eof()) throw Error(20); throw Error(22); } // Write PNG Signature. if (outIo.write(pngSignature, 8) != 8) throw Error(21); DataBuf cheaderBuf(8); // Chunk header : 4 bytes (data size) + 4 bytes (chunk type). while(!io_->eof()) { // Read chunk header. std::memset(cheaderBuf.pData_, 0x00, cheaderBuf.size_); long bufRead = io_->read(cheaderBuf.pData_, cheaderBuf.size_); if (io_->error()) throw Error(14); if (bufRead != cheaderBuf.size_) throw Error(20); // Decode chunk data length. uint32_t dataOffset = getULong(cheaderBuf.pData_, bigEndian); if (dataOffset > 0x7FFFFFFF) throw Exiv2::Error(14); // Read whole chunk : Chunk header + Chunk data (not fixed size - can be null) + CRC (4 bytes). DataBuf chunkBuf(8 + dataOffset + 4); // Chunk header (8 bytes) + Chunk data + CRC (4 bytes). memcpy(chunkBuf.pData_, cheaderBuf.pData_, 8); // Copy header. bufRead = io_->read(chunkBuf.pData_ + 8, dataOffset + 4); // Extract chunk data + CRC if (io_->error()) throw Error(14); if (bufRead != (long)(dataOffset + 4)) throw Error(20); if (!memcmp(cheaderBuf.pData_ + 4, "IEND", 4)) { // Last chunk found: we write it and done. #ifdef DEBUG std::cout << "Exiv2::PngImage::doWriteMetadata: Write IEND chunk (lenght: " << dataOffset << ")\n"; #endif if (outIo.write(chunkBuf.pData_, chunkBuf.size_) != chunkBuf.size_) throw Error(21); return; } else if (!memcmp(cheaderBuf.pData_ + 4, "IHDR", 4)) { #ifdef DEBUG std::cout << "Exiv2::PngImage::doWriteMetadata: Write IHDR chunk (lenght: " << dataOffset << ")\n"; #endif if (outIo.write(chunkBuf.pData_, chunkBuf.size_) != chunkBuf.size_) throw Error(21); // Write all updated metadata here, just after IHDR. if (!comment_.empty()) { // Update Comment data to a new PNG chunk std::string chunk = PngChunk::makeMetadataChunk(comment_, mdComment); if (outIo.write((const byte*)chunk.data(), chunk.size()) != (long)chunk.size()) { throw Error(21); } } if (exifData_.count() > 0) { // Update Exif data to a new PNG chunk Blob blob; ExifParser::encode(blob, littleEndian, exifData_); if (blob.size() > 0) { static const char exifHeader[] = { 0x45, 0x78, 0x69, 0x66, 0x00, 0x00 }; std::string rawExif = std::string(exifHeader, 6) + std::string((const char*)&blob[0], blob.size()); std::string chunk = PngChunk::makeMetadataChunk(rawExif, mdExif); if (outIo.write((const byte*)chunk.data(), chunk.size()) != (long)chunk.size()) { throw Error(21); } } } if (iptcData_.count() > 0) { // Update IPTC data to a new PNG chunk DataBuf newPsData = Photoshop::setIptcIrb(0, 0, iptcData_); if (newPsData.size_ > 0) { std::string rawIptc((const char*)newPsData.pData_, newPsData.size_); std::string chunk = PngChunk::makeMetadataChunk(rawIptc, mdIptc); if (outIo.write((const byte*)chunk.data(), chunk.size()) != (long)chunk.size()) { throw Error(21); } } } if (writeXmpFromPacket() == false) { if (XmpParser::encode(xmpPacket_, xmpData_) > 1) { #ifndef SUPPRESS_WARNINGS std::cerr << "Error: Failed to encode XMP metadata.\n"; #endif } } if (xmpPacket_.size() > 0) { // Update XMP data to a new PNG chunk std::string chunk = PngChunk::makeMetadataChunk(xmpPacket_, mdXmp); if (outIo.write((const byte*)chunk.data(), chunk.size()) != (long)chunk.size()) { throw Error(21); } } } else if (!memcmp(cheaderBuf.pData_ + 4, "tEXt", 4) || !memcmp(cheaderBuf.pData_ + 4, "zTXt", 4) || !memcmp(cheaderBuf.pData_ + 4, "iTXt", 4)) { DataBuf key = PngChunk::keyTXTChunk(chunkBuf, true); if (memcmp("Raw profile type exif", key.pData_, 21) == 0 || memcmp("Raw profile type APP1", key.pData_, 21) == 0 || memcmp("Raw profile type iptc", key.pData_, 21) == 0 || memcmp("Raw profile type xmp", key.pData_, 20) == 0 || memcmp("XML:com.adobe.xmp", key.pData_, 17) == 0 || memcmp("Description", key.pData_, 11) == 0) { #ifdef DEBUG std::cout << "Exiv2::PngImage::doWriteMetadata: strip " << cheaderBuf.pData_ + 4 << " chunk (key: " << key.pData_ << ")\n"; #endif } else { #ifdef DEBUG std::cout << "Exiv2::PngImage::doWriteMetadata: write " << cheaderBuf.pData_ + 4 << " chunk (lenght: " << dataOffset << ")\n"; #endif if (outIo.write(chunkBuf.pData_, chunkBuf.size_) != chunkBuf.size_) throw Error(21); } } else { // Write all others chunk as well. #ifdef DEBUG std::cout << "Exiv2::PngImage::doWriteMetadata: write " << cheaderBuf.pData_ + 4 << " chunk (lenght: " << dataOffset << ")\n"; #endif if (outIo.write(chunkBuf.pData_, chunkBuf.size_) != chunkBuf.size_) throw Error(21); } } } // PngImage::doWriteMetadata // ************************************************************************* // free functions Image::AutoPtr newPngInstance(BasicIo::AutoPtr io, bool create) { Image::AutoPtr image(new PngImage(io, create)); if (!image->good()) { image.reset(); } return image; } bool isPngType(BasicIo& iIo, bool advance) { const int32_t len = 8; byte buf[len]; iIo.read(buf, len); if (iIo.error() || iIo.eof()) { return false; } int rc = memcmp(buf, pngSignature, 8); if (!advance || rc != 0) { iIo.seek(-len, BasicIo::cur); } return rc == 0; } } // namespace Exiv2 #endif