// ***************************************************************** -*- C++ -*-
/*
* Copyright (C) 2004-2018 Exiv2 authors
* 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: webpimage.cpp
*/
/*
Google's WEBP container spec can be found at the link below:
https://developers.google.com/speed/webp/docs/riff_container
*/
// *****************************************************************************
// included header files
#include "config.h"
#include "webpimage.hpp"
#include "image_int.hpp"
#include "enforce.hpp"
#include "futils.hpp"
#include "basicio.hpp"
#include "tags.hpp"
#include "tags_int.hpp"
#include "types.hpp"
#include "tiffimage.hpp"
#include "tiffimage_int.hpp"
#include "convert.hpp"
#include "safe_op.hpp"
#include <cmath>
#include <iomanip>
#include <string>
#include <cstring>
#include <iostream>
#include <sstream>
#include <cassert>
#include <cstdio>
#define CHECK_BIT(var,pos) ((var) & (1<<(pos)))
// *****************************************************************************
// class member definitions
namespace Exiv2 {
namespace Internal {
}} // namespace Internal, Exiv2
namespace Exiv2 {
using namespace Exiv2::Internal;
// This static function is a temporary fix in v0.27. In the next version,
// it will be added as a method of BasicIo.
static void readOrThrow(BasicIo& iIo, byte* buf, long rcount, ErrorCode err) {
const long nread = iIo.read(buf, rcount);
enforce(nread == rcount, err);
enforce(!iIo.error(), err);
}
WebPImage::WebPImage(BasicIo::AutoPtr io)
: Image(ImageType::webp, mdNone, io)
{
} // WebPImage::WebPImage
std::string WebPImage::mimeType() const
{
return "image/webp";
}
/* =========================================== */
/* Misc. */
const byte WebPImage::WEBP_PAD_ODD = 0;
const int WebPImage::WEBP_TAG_SIZE = 0x4;
/* VP8X feature flags */
const int WebPImage::WEBP_VP8X_ICC_BIT = 0x20;
const int WebPImage::WEBP_VP8X_ALPHA_BIT = 0x10;
const int WebPImage::WEBP_VP8X_EXIF_BIT = 0x8;
const int WebPImage::WEBP_VP8X_XMP_BIT = 0x4;
/* Chunk header names */
const char* WebPImage::WEBP_CHUNK_HEADER_VP8X = "VP8X";
const char* WebPImage::WEBP_CHUNK_HEADER_VP8L = "VP8L";
const char* WebPImage::WEBP_CHUNK_HEADER_VP8 = "VP8 ";
const char* WebPImage::WEBP_CHUNK_HEADER_ANMF = "ANMF";
const char* WebPImage::WEBP_CHUNK_HEADER_ANIM = "ANIM";
const char* WebPImage::WEBP_CHUNK_HEADER_ICCP = "ICCP";
const char* WebPImage::WEBP_CHUNK_HEADER_EXIF = "EXIF";
const char* WebPImage::WEBP_CHUNK_HEADER_XMP = "XMP ";
/* =========================================== */
void WebPImage::setIptcData(const IptcData& /*iptcData*/)
{
// not supported
// just quietly ignore the request
// throw(Error(kerInvalidSettingForImage, "IPTC metadata", "WebP"));
}
void WebPImage::setComment(const std::string& /*comment*/)
{
// not supported
throw(Error(kerInvalidSettingForImage, "Image comment", "WebP"));
}
/* =========================================== */
void WebPImage::writeMetadata()
{
if (io_->open() != 0) {
throw Error(kerDataSourceOpenFailed, io_->path(), strError());
}
IoCloser closer(*io_);
BasicIo::AutoPtr tempIo(new MemIo);
assert (tempIo.get() != 0);
doWriteMetadata(*tempIo); // may throw
io_->close();
io_->transfer(*tempIo); // may throw
} // WebPImage::writeMetadata
void WebPImage::doWriteMetadata(BasicIo& outIo)
{
if (!io_->isopen()) throw Error(kerInputDataReadFailed);
if (!outIo.isopen()) throw Error(kerImageWriteFailed);
#ifdef EXIV2_DEBUG_MESSAGES
std::cout << "Writing metadata" << std::endl;
#endif
byte data [WEBP_TAG_SIZE*3];
DataBuf chunkId(WEBP_TAG_SIZE+1);
chunkId.pData_ [WEBP_TAG_SIZE] = '\0';
io_->read(data, WEBP_TAG_SIZE * 3);
uint64_t filesize = Exiv2::getULong(data + WEBP_TAG_SIZE, littleEndian);
/* Set up header */
if (outIo.write(data, WEBP_TAG_SIZE * 3) != WEBP_TAG_SIZE * 3)
throw Error(kerImageWriteFailed);
/* Parse Chunks */
bool has_size = false;
bool has_xmp = false;
bool has_exif = false;
bool has_vp8x = false;
bool has_alpha = false;
bool has_icc = iccProfileDefined();
int width = 0;
int height = 0;
byte size_buff[WEBP_TAG_SIZE];
Blob blob;
if (exifData_.count() > 0) {
ExifParser::encode(blob, littleEndian, exifData_);
if (blob.size() > 0) {
has_exif = true;
}
}
if (xmpData_.count() > 0 && !writeXmpFromPacket()) {
XmpParser::encode(xmpPacket_, xmpData_,
XmpParser::useCompactFormat |
XmpParser::omitAllFormatting);
}
has_xmp = xmpPacket_.size() > 0;
std::string xmp(xmpPacket_);
/* Verify for a VP8X Chunk First before writing in
case we have any exif or xmp data, also check
for any chunks with alpha frame/layer set */
while ( !io_->eof() && (uint64_t) io_->tell() < filesize) {
io_->read(chunkId.pData_, WEBP_TAG_SIZE);
io_->read(size_buff, WEBP_TAG_SIZE);
long size = Exiv2::getULong(size_buff, littleEndian);
DataBuf payload(size);
io_->read(payload.pData_, payload.size_);
byte c;
if ( payload.size_ % 2 ) io_->read(&c,1);
/* Chunk with information about features
used in the file. */
if (equalsWebPTag(chunkId, WEBP_CHUNK_HEADER_VP8X) && !has_vp8x) {
has_vp8x = true;
}
if (equalsWebPTag(chunkId, WEBP_CHUNK_HEADER_VP8X) && !has_size) {
has_size = true;
byte size_buf[WEBP_TAG_SIZE];
// Fetch width - stored in 24bits
memcpy(&size_buf, &payload.pData_[4], 3);
size_buf[3] = 0;
width = Exiv2::getULong(size_buf, littleEndian) + 1;
// Fetch height - stored in 24bits
memcpy(&size_buf, &payload.pData_[7], 3);
size_buf[3] = 0;
height = Exiv2::getULong(size_buf, littleEndian) + 1;
}
/* Chunk with with animation control data. */
#ifdef __CHECK_FOR_ALPHA__ // Maybe in the future
if (equalsWebPTag(chunkId, WEBP_CHUNK_HEADER_ANIM) && !has_alpha) {
has_alpha = true;
}
#endif
/* Chunk with with lossy image data. */
#ifdef __CHECK_FOR_ALPHA__ // Maybe in the future
if (equalsWebPTag(chunkId, WEBP_CHUNK_HEADER_VP8) && !has_alpha) {
has_alpha = true;
}
#endif
if (equalsWebPTag(chunkId, WEBP_CHUNK_HEADER_VP8) && !has_size) {
has_size = true;
byte size_buf[2];
/* Refer to this https://tools.ietf.org/html/rfc6386
for height and width reference for VP8 chunks */
// Fetch width - stored in 16bits
memcpy(&size_buf, &payload.pData_[6], 2);
width = Exiv2::getUShort(size_buf, littleEndian) & 0x3fff;
// Fetch height - stored in 16bits
memcpy(&size_buf, &payload.pData_[8], 2);
height = Exiv2::getUShort(size_buf, littleEndian) & 0x3fff;
}
/* Chunk with with lossless image data. */
if (equalsWebPTag(chunkId, WEBP_CHUNK_HEADER_VP8L) && !has_alpha) {
if ((payload.pData_[4] & WEBP_VP8X_ALPHA_BIT) == WEBP_VP8X_ALPHA_BIT) {
has_alpha = true;
}
}
if (equalsWebPTag(chunkId, WEBP_CHUNK_HEADER_VP8L) && !has_size) {
has_size = true;
byte size_buf_w[2];
byte size_buf_h[3];
/* For VP8L chunks width & height are stored in 28 bits
of a 32 bit field requires bitshifting to get actual
sizes. Width and height are split even into 14 bits
each. Refer to this https://goo.gl/bpgMJf */
// Fetch width - 14 bits wide
memcpy(&size_buf_w, &payload.pData_[1], 2);
size_buf_w[1] &= 0x3F;
width = Exiv2::getUShort(size_buf_w, littleEndian) + 1;
// Fetch height - 14 bits wide
memcpy(&size_buf_h, &payload.pData_[2], 3);
size_buf_h[0] =
((size_buf_h[0] >> 6) & 0x3) |
((size_buf_h[1] & 0x3F) << 0x2);
size_buf_h[1] =
((size_buf_h[1] >> 6) & 0x3) |
((size_buf_h[2] & 0xF) << 0x2);
height = Exiv2::getUShort(size_buf_h, littleEndian) + 1;
}
/* Chunk with animation frame. */
if (equalsWebPTag(chunkId, WEBP_CHUNK_HEADER_ANMF) && !has_alpha) {
if ((payload.pData_[5] & 0x2) == 0x2) {
has_alpha = true;
}
}
if (equalsWebPTag(chunkId, WEBP_CHUNK_HEADER_ANMF) && !has_size) {
has_size = true;
byte size_buf[WEBP_TAG_SIZE];
// Fetch width - stored in 24bits
memcpy(&size_buf, &payload.pData_[6], 3);
size_buf[3] = 0;
width = Exiv2::getULong(size_buf, littleEndian) + 1;
// Fetch height - stored in 24bits
memcpy(&size_buf, &payload.pData_[9], 3);
size_buf[3] = 0;
height = Exiv2::getULong(size_buf, littleEndian) + 1;
}
/* Chunk with alpha data. */
if (equalsWebPTag(chunkId, "ALPH") && !has_alpha) {
has_alpha = true;
}
}
/* Inject a VP8X chunk if one isn't available. */
if (!has_vp8x) {
inject_VP8X(outIo, has_xmp, has_exif, has_alpha,
has_icc, width, height);
}
io_->seek(12, BasicIo::beg);
while ( !io_->eof() && (uint64_t) io_->tell() < filesize) {
io_->read(chunkId.pData_, 4);
io_->read(size_buff, 4);
long size = Exiv2::getULong(size_buff, littleEndian);
DataBuf payload(size);
io_->read(payload.pData_, size);
if ( io_->tell() % 2 ) io_->seek(+1,BasicIo::cur); // skip pad
if (equalsWebPTag(chunkId, WEBP_CHUNK_HEADER_VP8X)) {
if (has_icc){
payload.pData_[0] |= WEBP_VP8X_ICC_BIT;
} else {
payload.pData_[0] &= ~WEBP_VP8X_ICC_BIT;
}
if (has_xmp){
payload.pData_[0] |= WEBP_VP8X_XMP_BIT;
} else {
payload.pData_[0] &= ~WEBP_VP8X_XMP_BIT;
}
if (has_exif) {
payload.pData_[0] |= WEBP_VP8X_EXIF_BIT;
} else {
payload.pData_[0] &= ~WEBP_VP8X_EXIF_BIT;
}
if (outIo.write(chunkId.pData_, WEBP_TAG_SIZE) != WEBP_TAG_SIZE)
throw Error(kerImageWriteFailed);
if (outIo.write(size_buff, WEBP_TAG_SIZE) != WEBP_TAG_SIZE)
throw Error(kerImageWriteFailed);
if (outIo.write(payload.pData_, payload.size_) != payload.size_)
throw Error(kerImageWriteFailed);
if (outIo.tell() % 2) {
if (outIo.write(&WEBP_PAD_ODD, 1) != 1) throw Error(kerImageWriteFailed);
}
if (has_icc) {
if (outIo.write((const byte*)WEBP_CHUNK_HEADER_ICCP, WEBP_TAG_SIZE) != WEBP_TAG_SIZE) throw Error(kerImageWriteFailed);
ul2Data(data, (uint32_t) iccProfile_.size_, littleEndian);
if (outIo.write(data, WEBP_TAG_SIZE) != WEBP_TAG_SIZE) throw Error(kerImageWriteFailed);
if (outIo.write(iccProfile_.pData_, iccProfile_.size_) != iccProfile_.size_) {
throw Error(kerImageWriteFailed);
}
has_icc = false;
}
} else if (equalsWebPTag(chunkId, WEBP_CHUNK_HEADER_ICCP)) {
// Skip it altogether handle it prior to here :)
} else if (equalsWebPTag(chunkId, WEBP_CHUNK_HEADER_EXIF)) {
// Skip and add new data afterwards
} else if (equalsWebPTag(chunkId, WEBP_CHUNK_HEADER_XMP)) {
// Skip and add new data afterwards
} else {
if (outIo.write(chunkId.pData_, WEBP_TAG_SIZE) != WEBP_TAG_SIZE)
throw Error(kerImageWriteFailed);
if (outIo.write(size_buff, WEBP_TAG_SIZE) != WEBP_TAG_SIZE)
throw Error(kerImageWriteFailed);
if (outIo.write(payload.pData_, payload.size_) != payload.size_)
throw Error(kerImageWriteFailed);
}
// Encoder required to pad odd sized data with a null byte
if (outIo.tell() % 2) {
if (outIo.write(&WEBP_PAD_ODD, 1) != 1) throw Error(kerImageWriteFailed);
}
}
if (has_exif) {
if (outIo.write((const byte*)WEBP_CHUNK_HEADER_EXIF, WEBP_TAG_SIZE) != WEBP_TAG_SIZE) throw Error(kerImageWriteFailed);
us2Data(data, (uint16_t) blob.size()+8, bigEndian);
ul2Data(data, (uint32_t) blob.size(), littleEndian);
if (outIo.write(data, WEBP_TAG_SIZE) != WEBP_TAG_SIZE) throw Error(kerImageWriteFailed);
if (outIo.write((const byte*)&blob[0], static_cast<long>(blob.size())) != (long)blob.size())
{
throw Error(kerImageWriteFailed);
}
if (outIo.tell() % 2) {
if (outIo.write(&WEBP_PAD_ODD, 1) != 1) throw Error(kerImageWriteFailed);
}
}
if (has_xmp) {
if (outIo.write((const byte*)WEBP_CHUNK_HEADER_XMP, WEBP_TAG_SIZE) != WEBP_TAG_SIZE) throw Error(kerImageWriteFailed);
ul2Data(data, (uint32_t) xmpPacket().size(), littleEndian);
if (outIo.write(data, WEBP_TAG_SIZE) != WEBP_TAG_SIZE) throw Error(kerImageWriteFailed);
if (outIo.write((const byte*)xmp.data(), static_cast<long>(xmp.size())) != (long)xmp.size()) {
throw Error(kerImageWriteFailed);
}
if (outIo.tell() % 2) {
if (outIo.write(&WEBP_PAD_ODD, 1) != 1) throw Error(kerImageWriteFailed);
}
}
// Fix File Size Payload Data
outIo.seek(0, BasicIo::beg);
filesize = outIo.size() - 8;
outIo.seek(4, BasicIo::beg);
ul2Data(data, (uint32_t) filesize, littleEndian);
if (outIo.write(data, WEBP_TAG_SIZE) != WEBP_TAG_SIZE) throw Error(kerImageWriteFailed);
} // WebPImage::writeMetadata
/* =========================================== */
void WebPImage::printStructure(std::ostream& out, PrintStructureOption option,int depth)
{
if (io_->open() != 0) {
throw Error(kerDataSourceOpenFailed, io_->path(), strError());
}
// Ensure this is the correct image type
if (!isWebPType(*io_, true)) {
if (io_->error() || io_->eof()) throw Error(kerFailedToReadImageData);
throw Error(kerNotAnImage, "WEBP");
}
bool bPrint = option==kpsBasic || option==kpsRecursive;
if ( bPrint || option == kpsXMP || option == kpsIccProfile || option == kpsIptcErase ) {
byte data [WEBP_TAG_SIZE * 2];
io_->read(data, WEBP_TAG_SIZE * 2);
uint64_t filesize = Exiv2::getULong(data + WEBP_TAG_SIZE, littleEndian);
DataBuf chunkId(5) ;
chunkId.pData_[4] = '\0' ;
if ( bPrint ) {
out << Internal::indent(depth)
<< "STRUCTURE OF WEBP FILE: "
<< io().path()
<< std::endl;
out << Internal::indent(depth)
<< Internal::stringFormat(" Chunk | Length | Offset | Payload")
<< std::endl;
}
io_->seek(0,BasicIo::beg); // rewind
while ( !io_->eof() && (uint64_t) io_->tell() < filesize) {
uint64_t offset = (uint64_t) io_->tell();
byte size_buff[WEBP_TAG_SIZE];
io_->read(chunkId.pData_, WEBP_TAG_SIZE);
io_->read(size_buff, WEBP_TAG_SIZE);
long size = Exiv2::getULong(size_buff, littleEndian);
DataBuf payload(offset?size:WEBP_TAG_SIZE); // header is different from chunks
io_->read(payload.pData_, payload.size_);
if ( bPrint ) {
out << Internal::indent(depth)
<< Internal::stringFormat(" %s | %8u | %8u | ", (const char*)chunkId.pData_,(uint32_t)size,(uint32_t)offset)
<< Internal::binaryToString(makeSlice(payload, 0, payload.size_ > 32 ? 32 : payload.size_))
<< std::endl;
}
if ( equalsWebPTag(chunkId, WEBP_CHUNK_HEADER_EXIF) && option==kpsRecursive ) {
// create memio object with the payload, then print the structure
BasicIo::AutoPtr p = BasicIo::AutoPtr(new MemIo(payload.pData_,payload.size_));
printTiffStructure(*p,out,option,depth);
}
bool bPrintPayload = (equalsWebPTag(chunkId, WEBP_CHUNK_HEADER_XMP) && option==kpsXMP)
|| (equalsWebPTag(chunkId, WEBP_CHUNK_HEADER_ICCP) && option==kpsIccProfile)
;
if ( bPrintPayload ) {
out.write((const char*) payload.pData_,payload.size_);
}
if ( offset && io_->tell() % 2 ) io_->seek(+1, BasicIo::cur); // skip padding byte on sub-chunks
}
}
}
/* =========================================== */
void WebPImage::readMetadata()
{
if (io_->open() != 0) throw Error(kerDataSourceOpenFailed, io_->path(), strError());
IoCloser closer(*io_);
// Ensure that this is the correct image type
if (!isWebPType(*io_, true)) {
if (io_->error() || io_->eof()) throw Error(kerFailedToReadImageData);
throw Error(kerNotAJpeg);
}
clearMetadata();
byte data[12];
DataBuf chunkId(5);
chunkId.pData_[4] = '\0' ;
readOrThrow(*io_, data, WEBP_TAG_SIZE * 3, Exiv2::kerCorruptedMetadata);
const uint32_t filesize_u32 =
Safe::add(Exiv2::getULong(data + WEBP_TAG_SIZE, littleEndian), 8U);
enforce(filesize_u32 <= io_->size(), Exiv2::kerCorruptedMetadata);
// Check that `filesize_u32` is safe to cast to `long`.
enforce(filesize_u32 <= static_cast<size_t>(std::numeric_limits<unsigned int>::max()),
Exiv2::kerCorruptedMetadata);
WebPImage::decodeChunks(static_cast<long>(filesize_u32));
} // WebPImage::readMetadata
void WebPImage::decodeChunks(long filesize)
{
DataBuf chunkId(5);
byte size_buff[WEBP_TAG_SIZE];
bool has_canvas_data = false;
#ifdef EXIV2_DEBUG_MESSAGES
std::cout << "Reading metadata" << std::endl;
#endif
chunkId.pData_[4] = '\0' ;
while (!io_->eof() && io_->tell() < filesize) {
readOrThrow(*io_, chunkId.pData_, WEBP_TAG_SIZE, Exiv2::kerCorruptedMetadata);
readOrThrow(*io_, size_buff, WEBP_TAG_SIZE, Exiv2::kerCorruptedMetadata);
const uint32_t size_u32 = Exiv2::getULong(size_buff, littleEndian);
// Check that `size_u32` is safe to cast to `long`.
enforce(size_u32 <= static_cast<size_t>(std::numeric_limits<unsigned int>::max()),
Exiv2::kerCorruptedMetadata);
const long size = static_cast<long>(size_u32);
// Check that `size` is within bounds.
enforce(io_->tell() <= filesize, Exiv2::kerCorruptedMetadata);
enforce(size <= (filesize - io_->tell()), Exiv2::kerCorruptedMetadata);
DataBuf payload(size);
if (equalsWebPTag(chunkId, WEBP_CHUNK_HEADER_VP8X) && !has_canvas_data) {
enforce(size >= 10, Exiv2::kerCorruptedMetadata);
has_canvas_data = true;
byte size_buf[WEBP_TAG_SIZE];
readOrThrow(*io_, payload.pData_, payload.size_, Exiv2::kerCorruptedMetadata);
// Fetch width
memcpy(&size_buf, &payload.pData_[4], 3);
size_buf[3] = 0;
pixelWidth_ = Exiv2::getULong(size_buf, littleEndian) + 1;
// Fetch height
memcpy(&size_buf, &payload.pData_[7], 3);
size_buf[3] = 0;
pixelHeight_ = Exiv2::getULong(size_buf, littleEndian) + 1;
} else if (equalsWebPTag(chunkId, WEBP_CHUNK_HEADER_VP8) && !has_canvas_data) {
enforce(size >= 10, Exiv2::kerCorruptedMetadata);
has_canvas_data = true;
readOrThrow(*io_, payload.pData_, payload.size_, Exiv2::kerCorruptedMetadata);
byte size_buf[WEBP_TAG_SIZE];
// Fetch width""
memcpy(&size_buf, &payload.pData_[6], 2);
size_buf[2] = 0;
size_buf[3] = 0;
pixelWidth_ = Exiv2::getULong(size_buf, littleEndian) & 0x3fff;
// Fetch height
memcpy(&size_buf, &payload.pData_[8], 2);
size_buf[2] = 0;
size_buf[3] = 0;
pixelHeight_ = Exiv2::getULong(size_buf, littleEndian) & 0x3fff;
} else if (equalsWebPTag(chunkId, WEBP_CHUNK_HEADER_VP8L) && !has_canvas_data) {
enforce(size >= 5, Exiv2::kerCorruptedMetadata);
has_canvas_data = true;
byte size_buf_w[2];
byte size_buf_h[3];
readOrThrow(*io_, payload.pData_, payload.size_, Exiv2::kerCorruptedMetadata);
// Fetch width
memcpy(&size_buf_w, &payload.pData_[1], 2);
size_buf_w[1] &= 0x3F;
pixelWidth_ = Exiv2::getUShort(size_buf_w, littleEndian) + 1;
// Fetch height
memcpy(&size_buf_h, &payload.pData_[2], 3);
size_buf_h[0] = ((size_buf_h[0] >> 6) & 0x3) | ((size_buf_h[1] & 0x3F) << 0x2);
size_buf_h[1] = ((size_buf_h[1] >> 6) & 0x3) | ((size_buf_h[2] & 0xF) << 0x2);
pixelHeight_ = Exiv2::getUShort(size_buf_h, littleEndian) + 1;
} else if (equalsWebPTag(chunkId, WEBP_CHUNK_HEADER_ANMF) && !has_canvas_data) {
enforce(size >= 12, Exiv2::kerCorruptedMetadata);
has_canvas_data = true;
byte size_buf[WEBP_TAG_SIZE];
readOrThrow(*io_, payload.pData_, payload.size_, Exiv2::kerCorruptedMetadata);
// Fetch width
memcpy(&size_buf, &payload.pData_[6], 3);
size_buf[3] = 0;
pixelWidth_ = Exiv2::getULong(size_buf, littleEndian) + 1;
// Fetch height
memcpy(&size_buf, &payload.pData_[9], 3);
size_buf[3] = 0;
pixelHeight_ = Exiv2::getULong(size_buf, littleEndian) + 1;
} else if (equalsWebPTag(chunkId, WEBP_CHUNK_HEADER_ICCP)) {
readOrThrow(*io_, payload.pData_, payload.size_, Exiv2::kerCorruptedMetadata);
this->setIccProfile(payload);
} else if (equalsWebPTag(chunkId, WEBP_CHUNK_HEADER_EXIF)) {
readOrThrow(*io_, payload.pData_, payload.size_, Exiv2::kerCorruptedMetadata);
byte size_buff[2];
// 4 meaningful bytes + 2 padding bytes
byte exifLongHeader[] = { 0xFF, 0x01, 0xFF, 0xE1, 0x00, 0x00 };
byte exifShortHeader[] = { 0x45, 0x78, 0x69, 0x66, 0x00, 0x00 };
byte exifTiffLEHeader[] = { 0x49, 0x49, 0x2A }; // "MM*"
byte exifTiffBEHeader[] = { 0x4D, 0x4D, 0x00, 0x2A }; // "II\0*"
byte* rawExifData = NULL;
long offset = 0;
bool s_header = false;
bool le_header = false;
bool be_header = false;
long pos = getHeaderOffset (payload.pData_, payload.size_, (byte*)&exifLongHeader, 4);
if (pos == -1) {
pos = getHeaderOffset (payload.pData_, payload.size_, (byte*)&exifLongHeader, 6);
if (pos != -1) {
s_header = true;
}
}
if (pos == -1) {
pos = getHeaderOffset (payload.pData_, payload.size_, (byte*)&exifTiffLEHeader, 3);
if (pos != -1) {
le_header = true;
}
}
if (pos == -1) {
pos = getHeaderOffset (payload.pData_, payload.size_, (byte*)&exifTiffBEHeader, 4);
if (pos != -1) {
be_header = true;
}
}
if (s_header) {
offset += 6;
}
if (be_header || le_header) {
offset += 12;
}
const long size = payload.size_ + offset;
rawExifData = (byte*)malloc(size);
if (s_header) {
us2Data(size_buff, (uint16_t) (size - 6), bigEndian);
memcpy(rawExifData, (char*)&exifLongHeader, 4);
memcpy(rawExifData + 4, (char*)&size_buff, 2);
}
if (be_header || le_header) {
us2Data(size_buff, (uint16_t) (size - 6), bigEndian);
memcpy(rawExifData, (char*)&exifLongHeader, 4);
memcpy(rawExifData + 4, (char*)&size_buff, 2);
memcpy(rawExifData + 6, (char*)&exifShortHeader, 6);
}
memcpy(rawExifData + offset, payload.pData_, payload.size_);
#ifdef EXIV2_DEBUG_MESSAGES
std::cout << "Display Hex Dump [size:" << (unsigned long)size << "]" << std::endl;
std::cout << Internal::binaryToHex(rawExifData, size);
#endif
if (pos != -1) {
XmpData xmpData;
ByteOrder bo = ExifParser::decode(exifData_,
payload.pData_ + pos,
payload.size_ - pos);
setByteOrder(bo);
}
else
{
#ifndef SUPPRESS_WARNINGS
EXV_WARNING << "Failed to decode Exif metadata." << std::endl;
#endif
exifData_.clear();
}
if (rawExifData) free(rawExifData);
} else if (equalsWebPTag(chunkId, WEBP_CHUNK_HEADER_XMP)) {
readOrThrow(*io_, payload.pData_, payload.size_, Exiv2::kerCorruptedMetadata);
xmpPacket_.assign(reinterpret_cast<char*>(payload.pData_), payload.size_);
if (xmpPacket_.size() > 0 && XmpParser::decode(xmpData_, xmpPacket_)) {
#ifndef SUPPRESS_WARNINGS
EXV_WARNING << "Failed to decode XMP metadata." << std::endl;
#endif
} else {
#ifdef EXIV2_DEBUG_MESSAGES
std::cout << "Display Hex Dump [size:" << (unsigned long)payload.size_ << "]" << std::endl;
std::cout << Internal::binaryToHex(payload.pData_, payload.size_);
#endif
}
} else {
io_->seek(size, BasicIo::cur);
}
if ( io_->tell() % 2 ) io_->seek(+1, BasicIo::cur);
}
}
/* =========================================== */
Image::AutoPtr newWebPInstance(BasicIo::AutoPtr io, bool /*create*/)
{
Image::AutoPtr image(new WebPImage(io));
if (!image->good()) {
image.reset();
}
return image;
}
bool isWebPType(BasicIo& iIo, bool /*advance*/)
{
if (iIo.size() < 12) {
return false;
}
const int32_t len = 4;
const unsigned char RiffImageId[4] = { 'R', 'I', 'F' ,'F'};
const unsigned char WebPImageId[4] = { 'W', 'E', 'B' ,'P'};
byte webp[len];
byte data[len];
byte riff[len];
iIo.read(riff, len);
iIo.read(data, len);
iIo.read(webp, len);
bool matched_riff = (memcmp(riff, RiffImageId, len) == 0);
bool matched_webp = (memcmp(webp, WebPImageId, len) == 0);
iIo.seek(-12, BasicIo::cur);
return matched_riff && matched_webp;
}
/*!
@brief Function used to check equality of a Tags with a
particular string (ignores case while comparing).
@param buf Data buffer that will contain Tag to compare
@param str char* Pointer to string
@return Returns true if the buffer value is equal to string.
*/
bool WebPImage::equalsWebPTag(Exiv2::DataBuf& buf, const char* str) {
for(int i = 0; i < 4; i++ )
if(toupper(buf.pData_[i]) != str[i])
return false;
return true;
}
/*!
@brief Function used to add missing EXIF & XMP flags
to the feature section.
@param iIo get BasicIo pointer to inject data
@param has_xmp Verify if we have xmp data and set required flag
@param has_exif Verify if we have exif data and set required flag
@return Returns void
*/
void WebPImage::inject_VP8X(BasicIo& iIo, bool has_xmp,
bool has_exif, bool has_alpha,
bool has_icc, int width, int height) {
byte size[4] = { 0x0A, 0x00, 0x00, 0x00 };
byte data[10] = { 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00 };
iIo.write((const byte*)WEBP_CHUNK_HEADER_VP8X, WEBP_TAG_SIZE);
iIo.write(size, WEBP_TAG_SIZE);
if (has_alpha) {
data[0] |= WEBP_VP8X_ALPHA_BIT;
}
if (has_icc) {
data[0] |= WEBP_VP8X_ICC_BIT;
}
if (has_xmp) {
data[0] |= WEBP_VP8X_XMP_BIT;
}
if (has_exif) {
data[0] |= WEBP_VP8X_EXIF_BIT;
}
/* set width - stored in 24bits*/
int w = width - 1;
data[4] = w & 0xFF;
data[5] = (w >> 8) & 0xFF;
data[6] = (w >> 16) & 0xFF;
/* set height - stored in 24bits */
int h = height - 1;
data[7] = h & 0xFF;
data[8] = (h >> 8) & 0xFF;
data[9] = (h >> 16) & 0xFF;
iIo.write(data, 10);
/* Handle inject an icc profile right after VP8X chunk */
if (has_icc) {
byte size_buff[WEBP_TAG_SIZE];
ul2Data(size_buff, iccProfile_.size_, littleEndian);
if (iIo.write((const byte*)WEBP_CHUNK_HEADER_VP8X, WEBP_TAG_SIZE) != WEBP_TAG_SIZE)
throw Error(kerImageWriteFailed);
if (iIo.write(size_buff, WEBP_TAG_SIZE) != WEBP_TAG_SIZE)
throw Error(kerImageWriteFailed);
if (iIo.write(iccProfile_.pData_, iccProfile_.size_) != iccProfile_.size_)
throw Error(kerImageWriteFailed);
if (iIo.tell() % 2) {
if (iIo.write(&WEBP_PAD_ODD, 1) != 1) throw Error(kerImageWriteFailed);
}
has_icc = false;
}
}
long WebPImage::getHeaderOffset(byte* data, long data_size, byte* header, long header_size)
{
if (data_size < header_size) { return -1; }
long pos = -1;
for (long i=0; i < data_size - header_size; i++) {
if (memcmp(header, &data[i], header_size) == 0) {
pos = i;
break;
}
}
return pos;
}
} // namespace Exiv2