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backup_creator.cc
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backup_creator.cc
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// Copyright (c) 2012-2014 Konstantin Isakov <[email protected]> and ZBackup contributors, see CONTRIBUTORS
// Part of ZBackup. Licensed under GNU GPLv2 or later + OpenSSL, see LICENSE
#include <openssl/sha.h>
#include <string.h>
#include "backup_creator.hh"
#include "check.hh"
#include "debug.hh"
#include "message.hh"
#include "page_size.hh"
#include "static_assert.hh"
namespace {
unsigned const MinChunkSize = 256;
}
BackupCreator::BackupCreator( Config const & config,
ChunkIndex & chunkIndex,
ChunkStorage::Writer & chunkStorageWriter ):
chunkMaxSize( config.GET_STORABLE( chunk, max_size ) ),
chunkIndex( chunkIndex ), chunkStorageWriter( chunkStorageWriter ),
ringBufferFill( 0 ),
chunkToSaveFill( 0 ),
backupDataStream( new google::protobuf::io::StringOutputStream( &backupData ) ),
chunkIdGenerated( false )
{
// In our ring buffer we have enough space to store one chunk plus an extra
// page for buffering the input
ringBuffer.resize( chunkMaxSize + getPageSize() );
begin = ringBuffer.data();
end = &ringBuffer.back() + 1;
head = begin;
tail = head;
chunkToSave.resize( chunkMaxSize );
}
void * BackupCreator::getInputBuffer()
{
return head;
}
size_t BackupCreator::getInputBufferSize()
{
if ( tail > head )
return tail - head;
else
if ( tail == head && ringBufferFill )
return 0;
else
return end - head;
}
void BackupCreator::handleMoreData( unsigned added )
{
// Note: head is never supposed to wrap around in the middle of the operation,
// as getInputBufferSize() never returns a value which could result in a
// wrap-around
while( added )
{
// If we don't have a full chunk, we need to consume data until we have
// one
if ( ringBufferFill < chunkMaxSize )
{
unsigned left = chunkMaxSize - ringBufferFill;
bool canFullyFill = added >= left;
unsigned toFill = canFullyFill ? left : added;
added -= toFill;
ringBufferFill += toFill;
while ( toFill-- )
rollingHash.rollIn( *head++ );
if ( head == end )
head = begin;
// If we've managed to fill in the complete chunk, attempt matching it
if ( canFullyFill )
addChunkIfMatched();
}
else
{
// At this point we have a full chunk in the ring buffer, so we can rotate
// over a byte
chunkToSave[ chunkToSaveFill++ ] = *tail;
if ( chunkToSaveFill == chunkMaxSize )
// Got the full chunk - save it
saveChunkToSave();
rollingHash.rotate( *head++, *tail++ );
if ( head == end )
head = begin;
if ( tail == end )
tail = begin;
addChunkIfMatched();
--added; // A byte was consumed
}
}
}
void BackupCreator::saveChunkToSave()
{
CHECK( chunkToSaveFill > 0, "chunk to save is empty" );
if ( chunkToSaveFill < 128 ) // TODO: make this value configurable
{
// The amount of data is too small - emit without creating a new chunk
BackupInstruction instr;
instr.set_bytes_to_emit( chunkToSave.data(), chunkToSaveFill );
outputInstruction( instr );
}
else
{
// Output as a chunk
ChunkId id;
id.rollingHash = RollingHash::digest( chunkToSave.data(),
chunkToSaveFill );
unsigned char sha1Value[ SHA_DIGEST_LENGTH ];
SHA1( (unsigned char const *) chunkToSave.data(), chunkToSaveFill,
sha1Value );
STATIC_ASSERT( sizeof( id.cryptoHash ) <= sizeof( sha1Value ) );
memcpy( id.cryptoHash, sha1Value, sizeof( id.cryptoHash ) );
// Save it to the store if it's not there already
chunkStorageWriter.add( id, chunkToSave.data(), chunkToSaveFill );
BackupInstruction instr;
instr.set_chunk_to_emit( id.toBlob() );
outputInstruction( instr );
}
chunkToSaveFill = 0;
}
void BackupCreator::finish()
{
dPrintf( "At finish: %u, %u\n", chunkToSaveFill, ringBufferFill );
// At this point we may have some bytes in chunkToSave, and some in the ring
// buffer. We need to save both
if ( chunkToSaveFill + ringBufferFill > chunkMaxSize )
{
// We have more than a full chunk in chunkToSave and ringBuffer together, so
// save the first part as a full chunk first
// Move data from ring buffer to have full chunk in chunkToSave.
moveFromRingBufferToChunkToSave( chunkMaxSize - chunkToSaveFill );
saveChunkToSave();
}
// Concatenate the rest of data and save it too
CHECK( chunkToSaveFill + ringBufferFill <= chunkMaxSize, "had more than two "
"full chunks at backup finish" );
moveFromRingBufferToChunkToSave( ringBufferFill );
if ( chunkToSaveFill )
saveChunkToSave();
}
void BackupCreator::moveFromRingBufferToChunkToSave( unsigned toMove )
{
// If tail is before head, all data in the ring buffer is in one contiguous
// piece. If not, it's in two pieces
if ( tail < head )
{
memcpy( chunkToSave.data() + chunkToSaveFill, tail, toMove );
tail += toMove;
}
else
{
unsigned toEnd = end - tail;
unsigned firstPart = toEnd < toMove ? toEnd : toMove;
memcpy( chunkToSave.data() + chunkToSaveFill, tail, firstPart );
tail += firstPart;
if ( toMove > firstPart )
{
unsigned secondPart = toMove - firstPart;
memcpy( chunkToSave.data() + chunkToSaveFill + firstPart, begin,
secondPart );
tail = begin + secondPart;
}
}
if ( tail == end )
tail = begin;
chunkToSaveFill += toMove;
ringBufferFill -= toMove;
}
ChunkId const & BackupCreator::getChunkId()
{
if ( !chunkIdGenerated )
{
// Calculate SHA1
SHA_CTX ctx;
SHA1_Init( &ctx );
if ( tail < head )
{
// Tail is before head - all the block is in one contiguous piece
SHA1_Update( &ctx, tail, head - tail );
}
else
{
// Tail is after head - the block consists of two pieces
SHA1_Update( &ctx, tail, end - tail );
SHA1_Update( &ctx, begin, head - begin );
}
unsigned char sha1Value[ SHA_DIGEST_LENGTH ];
SHA1_Final( sha1Value, &ctx );
generatedChunkId.rollingHash = rollingHash.digest();
memcpy( generatedChunkId.cryptoHash, sha1Value,
sizeof( generatedChunkId.cryptoHash ) );
chunkIdGenerated = true;
}
return generatedChunkId;
}
void BackupCreator::addChunkIfMatched()
{
chunkIdGenerated = false;
if ( chunkIndex.findChunk( rollingHash.digest(), *this ) )
{
// verbosePrintf( "Reuse of chunk %lu\n", rollingHash.digest() );
// Before emitting the matched chunk, we need to make sure any bytes
// which came before it are saved first
if ( chunkToSaveFill )
saveChunkToSave();
// Add the record
BackupInstruction instr;
instr.set_chunk_to_emit( getChunkId().toBlob() );
outputInstruction( instr );
// The block was consumed from the ring buffer - remove the block from it
tail = head;
ringBufferFill = 0;
rollingHash.reset();
}
}
void BackupCreator::outputInstruction( BackupInstruction const & instr )
{
// TODO: once backupData becomes large enough, spawn another BackupCreator and
// feed data to it. This way we wouldn't have to store the entire backupData
// in RAM
Message::serialize( instr, *backupDataStream );
}
void BackupCreator::getBackupData( string & str )
{
CHECK( backupDataStream.get(), "getBackupData() called twice" );
backupDataStream.reset();
str.swap( backupData );
}