// Copyright (c) 2016 The Bitcoin Core developers
// Distributed under the MIT software license, see the accompanying
// file COPYING or http://www.opensource.org/licenses/mit-license.php.
# include "blockencodings.h"
# include "consensus/consensus.h"
# include "consensus/validation.h"
# include "chainparams.h"
# include "hash.h"
# include "random.h"
# include "streams.h"
# include "txmempool.h"
# include "main.h"
# include "util.h"
# include <unordered_map>
# define MIN_TRANSACTION_SIZE (::GetSerializeSize(CTransaction(), SER_NETWORK, PROTOCOL_VERSION))
CBlockHeaderAndShortTxIDs : : CBlockHeaderAndShortTxIDs ( const CBlock & block ) :
nonce ( GetRand ( std : : numeric_limits < uint64_t > : : max ( ) ) ) ,
shorttxids ( block . vtx . size ( ) - 1 ) , prefilledtxn ( 1 ) , header ( block ) {
FillShortTxIDSelector ( ) ;
//TODO: Use our mempool prior to block acceptance to predictively fill more than just the coinbase
prefilledtxn [ 0 ] = { 0 , block . vtx [ 0 ] } ;
for ( size_t i = 1 ; i < block . vtx . size ( ) ; i + + ) {
const CTransaction & tx = block . vtx [ i ] ;
shorttxids [ i - 1 ] = GetShortID ( tx . GetHash ( ) ) ;
}
}
void CBlockHeaderAndShortTxIDs : : FillShortTxIDSelector ( ) const {
CDataStream stream ( SER_NETWORK , PROTOCOL_VERSION ) ;
stream < < header < < nonce ;
CSHA256 hasher ;
hasher . Write ( ( unsigned char * ) & ( * stream . begin ( ) ) , stream . end ( ) - stream . begin ( ) ) ;
uint256 shorttxidhash ;
hasher . Finalize ( shorttxidhash . begin ( ) ) ;
shorttxidk0 = shorttxidhash . GetUint64 ( 0 ) ;
shorttxidk1 = shorttxidhash . GetUint64 ( 1 ) ;
}
uint64_t CBlockHeaderAndShortTxIDs : : GetShortID ( const uint256 & txhash ) const {
static_assert ( SHORTTXIDS_LENGTH = = 6 , " shorttxids calculation assumes 6-byte shorttxids " ) ;
return SipHashUint256 ( shorttxidk0 , shorttxidk1 , txhash ) & 0xffffffffffffL ;
}
ReadStatus PartiallyDownloadedBlock : : InitData ( const CBlockHeaderAndShortTxIDs & cmpctblock ) {
if ( cmpctblock . header . IsNull ( ) | | ( cmpctblock . shorttxids . empty ( ) & & cmpctblock . prefilledtxn . empty ( ) ) )
return READ_STATUS_INVALID ;
if ( cmpctblock . shorttxids . size ( ) + cmpctblock . prefilledtxn . size ( ) > MAX_BLOCK_SIZE / MIN_TRANSACTION_SIZE )
return READ_STATUS_INVALID ;
assert ( header . IsNull ( ) & & txn_available . empty ( ) ) ;
header = cmpctblock . header ;
txn_available . resize ( cmpctblock . BlockTxCount ( ) ) ;
int32_t lastprefilledindex = - 1 ;
for ( size_t i = 0 ; i < cmpctblock . prefilledtxn . size ( ) ; i + + ) {
if ( cmpctblock . prefilledtxn [ i ] . tx . IsNull ( ) )
return READ_STATUS_INVALID ;
lastprefilledindex + = cmpctblock . prefilledtxn [ i ] . index + 1 ; //index is a uint16_t, so cant overflow here
if ( lastprefilledindex > std : : numeric_limits < uint16_t > : : max ( ) )
return READ_STATUS_INVALID ;
if ( ( uint32_t ) lastprefilledindex > cmpctblock . shorttxids . size ( ) + i ) {
// If we are inserting a tx at an index greater than our full list of shorttxids
// plus the number of prefilled txn we've inserted, then we have txn for which we
// have neither a prefilled txn or a shorttxid!
return READ_STATUS_INVALID ;
}
txn_available [ lastprefilledindex ] = std : : make_shared < CTransaction > ( cmpctblock . prefilledtxn [ i ] . tx ) ;
}
prefilled_count = cmpctblock . prefilledtxn . size ( ) ;
// Calculate map of txids -> positions and check mempool to see what we have (or dont)
// Because well-formed cmpctblock messages will have a (relatively) uniform distribution
// of short IDs, any highly-uneven distribution of elements can be safely treated as a
// READ_STATUS_FAILED.
std : : unordered_map < uint64_t , uint16_t > shorttxids ( cmpctblock . shorttxids . size ( ) ) ;
uint16_t index_offset = 0 ;
for ( size_t i = 0 ; i < cmpctblock . shorttxids . size ( ) ; i + + ) {
while ( txn_available [ i + index_offset ] )
index_offset + + ;
shorttxids [ cmpctblock . shorttxids [ i ] ] = i + index_offset ;
// Bucket selection is a simple Binomial distribution. If we assume blocks of
// 10,000 transactions, allowing up to 12 elements per bucket should only fail
// once every ~1.3 million blocks and once every 74,000 blocks in a worst-case
// 16,000-transaction block.
if ( shorttxids . bucket_size ( shorttxids . bucket ( cmpctblock . shorttxids [ i ] ) ) > 12 )
return READ_STATUS_FAILED ;
}
// TODO: in the shortid-collision case, we should instead request both transactions
// which collided. Falling back to full-block-request here is overkill.
if ( shorttxids . size ( ) ! = cmpctblock . shorttxids . size ( ) )
return READ_STATUS_FAILED ; // Short ID collision
std : : vector < bool > have_txn ( txn_available . size ( ) ) ;
LOCK ( pool - > cs ) ;
const std : : vector < std : : pair < uint256 , CTxMemPool : : txiter > > & vTxHashes = pool - > vTxHashes ;
for ( size_t i = 0 ; i < vTxHashes . size ( ) ; i + + ) {
uint64_t shortid = cmpctblock . GetShortID ( vTxHashes [ i ] . first ) ;
std : : unordered_map < uint64_t , uint16_t > : : iterator idit = shorttxids . find ( shortid ) ;
if ( idit ! = shorttxids . end ( ) ) {
if ( ! have_txn [ idit - > second ] ) {
txn_available [ idit - > second ] = vTxHashes [ i ] . second - > GetSharedTx ( ) ;
have_txn [ idit - > second ] = true ;
mempool_count + + ;
} else {
// If we find two mempool txn that match the short id, just request it.
// This should be rare enough that the extra bandwidth doesn't matter,
// but eating a round-trip due to FillBlock failure would be annoying
if ( txn_available [ idit - > second ] ) {
txn_available [ idit - > second ] . reset ( ) ;
mempool_count - - ;
}
}
}
// Though ideally we'd continue scanning for the two-txn-match-shortid case,
// the performance win of an early exit here is too good to pass up and worth
// the extra risk.
if ( mempool_count = = shorttxids . size ( ) )
break ;
}
LogPrint ( " cmpctblock " , " Initialized PartiallyDownloadedBlock for block %s using a cmpctblock of size %lu \n " , cmpctblock . header . GetHash ( ) . ToString ( ) , cmpctblock . GetSerializeSize ( SER_NETWORK , PROTOCOL_VERSION ) ) ;
return READ_STATUS_OK ;
}
bool PartiallyDownloadedBlock : : IsTxAvailable ( size_t index ) const {
assert ( ! header . IsNull ( ) ) ;
assert ( index < txn_available . size ( ) ) ;
return txn_available [ index ] ? true : false ;
}
ReadStatus PartiallyDownloadedBlock : : FillBlock ( CBlock & block , const std : : vector < CTransaction > & vtx_missing ) const {
assert ( ! header . IsNull ( ) ) ;
block = header ;
block . vtx . resize ( txn_available . size ( ) ) ;
size_t tx_missing_offset = 0 ;
for ( size_t i = 0 ; i < txn_available . size ( ) ; i + + ) {
if ( ! txn_available [ i ] ) {
if ( vtx_missing . size ( ) < = tx_missing_offset )
return READ_STATUS_INVALID ;
block . vtx [ i ] = vtx_missing [ tx_missing_offset + + ] ;
} else
block . vtx [ i ] = * txn_available [ i ] ;
}
if ( vtx_missing . size ( ) ! = tx_missing_offset )
return READ_STATUS_INVALID ;
CValidationState state ;
if ( ! CheckBlock ( block , state , Params ( ) . GetConsensus ( ) ) ) {
// TODO: We really want to just check merkle tree manually here,
// but that is expensive, and CheckBlock caches a block's
// "checked-status" (in the CBlock?). CBlock should be able to
// check its own merkle root and cache that check.
if ( state . CorruptionPossible ( ) )
return READ_STATUS_FAILED ; // Possible Short ID collision
return READ_STATUS_INVALID ;
}
LogPrint ( " cmpctblock " , " Successfully reconstructed block %s with %lu txn prefilled, %lu txn from mempool and %lu txn requested \n " , header . GetHash ( ) . ToString ( ) , prefilled_count , mempool_count , vtx_missing . size ( ) ) ;
if ( vtx_missing . size ( ) < 5 ) {
for ( const CTransaction & tx : vtx_missing )
LogPrint ( " cmpctblock " , " Reconstructed block %s required tx %s \n " , header . GetHash ( ) . ToString ( ) , tx . GetHash ( ) . ToString ( ) ) ;
}
return READ_STATUS_OK ;
}