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chunkedstorage.cc
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chunkedstorage.cc
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/* This file is (c) 2008-2012 Konstantin Isakov <[email protected]>
* Part of GoldenDict. Licensed under GPLv3 or later, see the LICENSE file */
#include "chunkedstorage.hh"
#include <zlib.h>
#include <string.h>
namespace ChunkedStorage {
enum
{
ChunkMaxSize = 65536 // Can't be more since it would overflow the address
};
Writer::Writer( File::Class & f ):
file( f ), chunkStarted( false ), bufferUsed( 0 )
{
// Create a sratchpad at the beginning of file. We use it to write chunk
// table if it would fit, in order to save some seek times.
char zero[ 4096 ];
memset( zero, 0, sizeof( zero ) );
scratchPadOffset = file.tell();
scratchPadSize = sizeof( zero );
file.write( zero, sizeof( zero ) );
}
uint32_t Writer::startNewBlock()
{
if ( bufferUsed >= ChunkMaxSize )
{
// Need to flush first.
saveCurrentChunk();
}
chunkStarted = true;
// The address is comprised of the offset within the chunk (in lower
// 16 bits, always fits there since ChunkMaxSize-1 does) and the
// number of the chunk, which is therefore limited to be 65535 max.
return bufferUsed | ( (uint32_t)offsets.size() << 16 );
}
void Writer::addToBlock( void const * data, size_t size )
{
if ( !size )
return;
if ( buffer.size() - bufferUsed < size )
buffer.resize( bufferUsed + size );
memcpy( &buffer.front() + bufferUsed, data, size );
bufferUsed += size;
chunkStarted = false;
}
void Writer::saveCurrentChunk()
{
size_t maxCompressedSize = compressBound( bufferUsed );
if ( bufferCompressed.size() < maxCompressedSize )
bufferCompressed.resize( maxCompressedSize );
unsigned long compressedSize = bufferCompressed.size();
if ( compress( &bufferCompressed.front(), &compressedSize,
&buffer.front(), bufferUsed ) != Z_OK )
throw exFailedToCompressChunk();
offsets.push_back( file.tell() );
file.write( (uint32_t) bufferUsed );
file.write( (uint32_t) compressedSize );
file.write( &bufferCompressed.front(), compressedSize );
bufferUsed = 0;
chunkStarted = false;
}
uint32_t Writer::finish()
{
if ( bufferUsed || chunkStarted )
saveCurrentChunk();
bool useScratchPad = false;
uint32_t savedOffset = 0;
if ( scratchPadSize >= offsets.size() * sizeof( uint32_t ) + sizeof( uint32_t ) )
{
useScratchPad = true;
savedOffset = file.tell();
file.seek( scratchPadOffset );
}
uint32_t offset = file.tell();
file.write( (uint32_t) offsets.size() );
if ( offsets.size() )
file.write( &offsets.front(), offsets.size() * sizeof( uint32_t ) );
if ( useScratchPad )
file.seek( savedOffset );
offsets.clear();
chunkStarted = false;
return offset;
}
Reader::Reader( File::Class & f, uint32_t offset ): file( f )
{
file.seek( offset );
uint32_t size = file.read< uint32_t >();
if ( size == 0 )
return;
offsets.resize( size );
file.read( &offsets.front(), offsets.size() * sizeof( uint32_t ) );
}
char * Reader::getBlock( uint32_t address, vector< char > & chunk )
{
size_t chunkIdx = address >> 16;
if ( chunkIdx >= offsets.size() )
throw exAddressOutOfRange();
// Read and decompress the chunk
{
file.seek( offsets[ chunkIdx ] );
uint32_t uncompressedSize = file.read< uint32_t >();
uint32_t compressedSize = file.read< uint32_t >();
chunk.resize( uncompressedSize );
vector< unsigned char > compressedData( compressedSize );
file.read( &compressedData.front(), compressedData.size() );
unsigned long decompressedLength = chunk.size();
if ( uncompress( (unsigned char *)&chunk.front(),
&decompressedLength,
&compressedData.front(),
compressedData.size() ) != Z_OK ||
decompressedLength != chunk.size() )
throw exFailedToDecompressChunk();
}
size_t offsetInChunk = address & 0xffFF;
if ( offsetInChunk > chunk.size() ) // It can be equal to for 0-sized blocks
throw exAddressOutOfRange();
return &chunk.front() + offsetInChunk;
}
}