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// =================================================================================================
// Copyright Adobe
// Copyright 2006 Adobe
// All Rights Reserved
//
// NOTICE: Adobe permits you to use, modify, and distribute this file in accordance with the terms
// of the Adobe license agreement accompanying it. If you have received this file from a source other
// than Adobe, then your use, modification, or distribution of it requires the prior written permission
// of Adobe.
// =================================================================================================
#include "public/include/XMP_Environment.h" // ! XMP_Environment.h must be the first included header.
#include "public/include/XMP_Const.h"
#include "public/include/XMP_IO.hpp"
#include "XMPFiles/source/XMPFiles_Impl.hpp"
#include "source/XMPFiles_IO.hpp"
#include "source/XIO.hpp"
#include "XMPFiles/source/FileHandlers/SWF_Handler.hpp"
#include "XMPFiles/source/FormatSupport/SWF_Support.hpp"
using namespace std;
// =================================================================================================
/// \file SWF_Handler.hpp
/// \brief File format handler for SWF.
///
/// This handler ...
///
// =================================================================================================
// =================================================================================================
// SWF_MetaHandlerCTor
// ===================
XMPFileHandler * SWF_MetaHandlerCTor ( XMPFiles * parent )
{
return new SWF_MetaHandler ( parent );
} // SWF_MetaHandlerCTor
// =================================================================================================
// SWF_CheckFormat
// ===============
bool SWF_CheckFormat ( XMP_FileFormat format,
XMP_StringPtr filePath,
XMP_IO * fileRef,
XMPFiles * parent )
{
IgnoreParam(format); IgnoreParam(fileRef); IgnoreParam(parent);
XMP_Assert ( format == kXMP_SWFFile );
// Make sure the file is long enough for an empty SWF stream. Check the signature.
if ( fileRef->Length() < (XMP_Int64)SWF_IO::HeaderPrefixSize ) return false;
fileRef->Rewind();
XMP_Uns8 buffer [4];
fileRef->ReadAll ( buffer, 4 );
XMP_Uns32 signature = GetUns32LE ( &buffer[0] ) & 0xFFFFFF; // Discard the version byte.
return ( (signature == SWF_IO::CompressedSignature) || (signature == SWF_IO::ExpandedSignature) );
} // SWF_CheckFormat
// =================================================================================================
// SWF_MetaHandler::SWF_MetaHandler
// ================================
SWF_MetaHandler::SWF_MetaHandler ( XMPFiles * _parent )
: isCompressed(false), hasFileAttributes(false), hasMetadata(false), brokenSWF(false), expandedSize(0), firstTagOffset(0)
{
this->parent = _parent;
this->handlerFlags = kSWF_HandlerFlags;
this->stdCharForm = kXMP_Char8Bit;
}
// =================================================================================================
// SWF_MetaHandler::~SWF_MetaHandler
// =================================
SWF_MetaHandler::~SWF_MetaHandler()
{
// Nothing to do at this time.
}
// =================================================================================================
// SWF_MetaHandler::CacheFileData
// ==============================
//
// SWF files are pretty small, have simple metadata, and often have ZIP compression. Because they
// are small and often compressed, we always cache the fully expanded SWF in memory. That is used
// for both reading and updating. Note that SWF_CheckFormat has already done basic checks on the
// size and signature, they don't need to be repeated here.
//
// Try to find the FileAttributes and Metadata tags, saving their offsets for later use if updating
// the file. We need to be tolerant when reading, allowing the FileAttributes tag to be anywhere and
// allowing Metadata without FileAttributes or with the HasMetadata flag clear. The SWF spec is not
// clear enough about the rules for SWF 7 and earlier, there are 3rd party tools that don't put
// FileAttributes first.
void SWF_MetaHandler::CacheFileData() {
XMP_Assert ( (! this->processedXMP) && (! this->containsXMP) );
XMP_Assert ( this->expandedSWF.empty() );
XMP_IO * fileRef = this->parent->ioRef;
XMP_Int64 fileLength = fileRef->Length();
XMP_Enforce ( fileLength <= SWF_IO::MaxExpandedSize );
// Get the uncompressed SWF stream into memory.
fileRef->Rewind();
XMP_Uns8 buffer [SWF_IO::HeaderPrefixSize]; // Read the uncompressed file header prefix.
fileRef->ReadAll ( buffer, SWF_IO::HeaderPrefixSize );
XMP_Uns32 signature = GetUns32LE ( &buffer[0] ) & 0xFFFFFF; // Discard the version byte.
this->expandedSize = GetUns32LE ( &buffer[4] );
if ( signature == SWF_IO::CompressedSignature ) this->isCompressed = true;
if ( this->isCompressed ) {
// Expand the SWF file into memory.
this->expandedSWF.reserve ( this->expandedSize ); // Try to avoid reallocations.
SWF_IO::DecompressFileToMemory ( fileRef, &this->expandedSWF );
this->expandedSize = (XMP_Uns32)this->expandedSWF.size(); // Use the true length.
} else {
// Read the entire uncompressed file into memory.
this->expandedSize = (XMP_Uns32)fileLength; // Use the true length.
this->expandedSWF.insert ( this->expandedSWF.end(), (size_t)fileLength, 0 );
fileRef->Rewind();
fileRef->ReadAll ( &this->expandedSWF[0], (XMP_Uns32)fileLength );
}
// Look for the FileAttributes and Metadata tags.
if(this->expandedSize <= SWF_IO::HeaderPrefixSize ) return; // Throw?
this->firstTagOffset = SWF_IO::FileHeaderSize ( this->expandedSWF[SWF_IO::HeaderPrefixSize] );
XMP_Uns32 currOffset = this->firstTagOffset;
SWF_IO::TagInfo currTag;
for ( ; currOffset < this->expandedSize; currOffset = SWF_IO::NextTagOffset(currTag) ) {
bool ok = SWF_IO::GetTagInfo ( this->expandedSWF, currOffset, &currTag );
if ( ! ok ) {
this->brokenSWF = true; // Let the read finish, but refuse to update.
break;
}
if ( currTag.tagID == SWF_IO::FileAttributesTagID ) {
this->fileAttributesTag = currTag;
this->hasFileAttributes = true;
if ( this->hasMetadata ) break; // Exit if we have both.
}
if ( currTag.tagID == SWF_IO::MetadataTagID ) {
this->metadataTag = currTag;
this->hasMetadata = true;
if ( this->hasFileAttributes ) break; // Exit if we have both.
}
}
if ( this->hasMetadata ) {
this->packetInfo.offset = SWF_IO::ContentOffset ( this->metadataTag );
this->packetInfo.length = this->metadataTag.contentLength;
this->xmpPacket.assign ( (char*)&this->expandedSWF[(size_t)this->packetInfo.offset], (size_t)this->packetInfo.length );
FillPacketInfo ( this->xmpPacket, &this->packetInfo );
this->containsXMP = true;
}
} // SWF_MetaHandler::CacheFileData
// =================================================================================================
// SWF_MetaHandler::ProcessXMP
// ===========================
void SWF_MetaHandler::ProcessXMP()
{
this->processedXMP = true; // Make sure we only come through here once.
if ( ! this->xmpPacket.empty() ) {
XMP_Assert ( this->containsXMP );
XMP_StringPtr packetStr = this->xmpPacket.c_str();
XMP_StringLen packetLen = (XMP_StringLen)this->xmpPacket.size();
this->xmpObj.ParseFromBuffer ( packetStr, packetLen );
}
} // SWF_MetaHandler::ProcessXMP
// =================================================================================================
// XMPFileHandler::GetSerializeOptions
// ===================================
//
// Override default implementation to ensure omitting XMP wrapper.
XMP_OptionBits SWF_MetaHandler::GetSerializeOptions()
{
return (kXMP_OmitPacketWrapper | kXMP_OmitAllFormatting | kXMP_OmitXMPMetaElement);
} // XMPFileHandler::GetSerializeOptions
// =================================================================================================
// SWF_MetaHandler::UpdateFile
// ===========================
//
// Update the expanded SWF in memory, then write it to the file.
void SWF_MetaHandler::UpdateFile ( bool doSafeUpdate )
{
if ( doSafeUpdate ) XMP_Throw ( "SWF_MetaHandler::UpdateFile: Safe update not supported", kXMPErr_Unavailable );
if ( ! this->needsUpdate ) return;
this->needsUpdate = false; // Don't come through here twice, even if there are errors.
if ( this->brokenSWF ) {
XMP_Throw ( "SWF is broken, can't update.", kXMPErr_BadFileFormat );
}
// Make sure there is a FileAttributes tag at the front, with the HasMetadata flag set.
if ( ! this->hasFileAttributes ) {
// Insert a new FileAttributes tag as the first tag.
XMP_Uns8 buffer [6]; // Two byte header plus four byte content.
PutUns16LE ( ((SWF_IO::FileAttributesTagID << 6) | 4), &buffer[0] );
PutUns32LE ( SWF_IO::HasMetadataMask, &buffer[2] );
if(this->expandedSWF.size() < this->firstTagOffset ){
XMP_Throw ( "Index not valid.Invalid SWF, can't update.", kXMPErr_BadIndex );
}
this->expandedSWF.insert ( (this->expandedSWF.begin() + this->firstTagOffset), 6, 0 );
memcpy ( &this->expandedSWF[this->firstTagOffset], &buffer[0], 6 );
this->hasFileAttributes = true;
bool ok = SWF_IO::GetTagInfo ( this->expandedSWF, this->firstTagOffset, &this->fileAttributesTag );
XMP_Assert ( ok );
if ( this->hasMetadata ) this->metadataTag.tagOffset += 6; // The Metadata tag is now further back.
} else {
// Make sure the HasMetadata flag is set.
if ( this->fileAttributesTag.contentLength > 0 ) {
XMP_Uns32 flagsOffset = SWF_IO::ContentOffset ( this->fileAttributesTag );
this->expandedSWF[flagsOffset] |= SWF_IO::HasMetadataMask;
}
// Make sure the FileAttributes tag is the first tag.
if ( this->fileAttributesTag.tagOffset != this->firstTagOffset ) {
RawDataBlock attrTag;
XMP_Uns32 attrTagLength = SWF_IO::FullTagLength ( this->fileAttributesTag );
attrTag.assign ( attrTagLength, 0 );
memcpy ( &attrTag[0], &this->expandedSWF[this->fileAttributesTag.tagOffset], attrTagLength );
RawDataBlock::iterator attrTagPos = this->expandedSWF.begin() + this->fileAttributesTag.tagOffset;
RawDataBlock::iterator attrTagEnd = attrTagPos + attrTagLength;
this->expandedSWF.erase ( attrTagPos, attrTagEnd ); // Remove the old FileAttributes tag;
if ( this->hasMetadata && (this->metadataTag.tagOffset < this->fileAttributesTag.tagOffset) ) {
this->metadataTag.tagOffset += attrTagLength; // The FileAttributes tag will become in front.
}
if(this->expandedSWF.size() < this->firstTagOffset ){
XMP_Throw ( "Index not valid.Invalid SWF, can't update.", kXMPErr_BadIndex );
}
this->expandedSWF.insert ( (this->expandedSWF.begin() + this->firstTagOffset), attrTagLength, 0 );
memcpy ( &this->expandedSWF[this->firstTagOffset], &attrTag[0], attrTagLength );
this->fileAttributesTag.tagOffset = this->firstTagOffset;
}
}
// Make sure the XMP is as small as possible. Write the XMP as the second tag.
XMP_Assert ( this->hasFileAttributes );
XMP_OptionBits smallOptions = kXMP_OmitPacketWrapper | kXMP_UseCompactFormat | kXMP_OmitAllFormatting | kXMP_OmitXMPMetaElement;
this->xmpObj.SerializeToBuffer ( &this->xmpPacket, smallOptions );
if ( this->hasMetadata ) {
// Remove the old XMP, the size and location have probably changed.
XMP_Uns32 oldMetaLength = SWF_IO::FullTagLength ( this->metadataTag );
RawDataBlock::iterator oldMetaPos = this->expandedSWF.begin() + this->metadataTag.tagOffset;
RawDataBlock::iterator oldMetaEnd = oldMetaPos + oldMetaLength;
this->expandedSWF.erase ( oldMetaPos, oldMetaEnd );
}
this->metadataTag.hasLongHeader = true;
this->metadataTag.tagID = SWF_IO::MetadataTagID;
this->metadataTag.tagOffset = SWF_IO::NextTagOffset ( this->fileAttributesTag );
this->metadataTag.contentLength = (XMP_Uns32)this->xmpPacket.size();
XMP_Uns32 newMetaLength = 6 + this->metadataTag.contentLength; // Always use a long tag header.
if(this->expandedSWF.size() < this->metadataTag.tagOffset ){
XMP_Throw ( "Index not valid.Invalid SWF, can't update.", kXMPErr_BadIndex );
}
this->expandedSWF.insert ( (this->expandedSWF.begin() + this->metadataTag.tagOffset), newMetaLength, 0 );
PutUns16LE ( ((SWF_IO::MetadataTagID << 6) | SWF_IO::TagLengthMask), &this->expandedSWF[this->metadataTag.tagOffset] );
PutUns32LE ( this->metadataTag.contentLength, &this->expandedSWF[this->metadataTag.tagOffset+2] );
memcpy ( &this->expandedSWF[this->metadataTag.tagOffset+6], this->xmpPacket.c_str(), this->metadataTag.contentLength );
this->hasMetadata = true;
// Update the uncompressed file length and rewrite the file.
PutUns32LE ( (XMP_Uns32)this->expandedSWF.size(), &this->expandedSWF[4] );
XMP_IO * fileRef = this->parent->ioRef;
fileRef->Rewind();
fileRef->Truncate ( 0 );
if ( this->isCompressed ) {
SWF_IO::CompressMemoryToFile ( this->expandedSWF, fileRef );
} else {
fileRef->Write ( &this->expandedSWF[0], (XMP_Uns32)this->expandedSWF.size() );
}
} // SWF_MetaHandler::UpdateFile
// =================================================================================================
// SWF_MetaHandler::WriteTempFile
// ==============================
// ! See important notes in SWF_Handler.hpp about file handling.
void SWF_MetaHandler::WriteTempFile ( XMP_IO* tempRef )
{
// ! WriteTempFile is not supposed to be called for SWF.
XMP_Throw ( "SWF_MetaHandler::WriteTempFile should not be called", kXMPErr_InternalFailure );
} // SWF_MetaHandler::WriteTempFile
|