// Copyright (c) 2009-2016 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 "core_io.h"
# include "base58.h"
# include "consensus/consensus.h"
# include "consensus/validation.h"
# include "script/script.h"
# include "script/standard.h"
# include "serialize.h"
# include "streams.h"
# include <univalue.h>
# include "util.h"
Split up util.cpp/h
Split up util.cpp/h into:
- string utilities (hex, base32, base64): no internal dependencies, no dependency on boost (apart from foreach)
- money utilities (parsesmoney, formatmoney)
- time utilities (gettime*, sleep, format date):
- and the rest (logging, argument parsing, config file parsing)
The latter is basically the environment and OS handling,
and is stripped of all utility functions, so we may want to
rename it to something else than util.cpp/h for clarity (Matt suggested
osinterface).
Breaks dependency of sha256.cpp on all the things pulled in by util.
10 years ago
# include "utilmoneystr.h"
# include "utilstrencodings.h"
UniValue ValueFromAmount ( const CAmount & amount )
{
bool sign = amount < 0 ;
int64_t n_abs = ( sign ? - amount : amount ) ;
int64_t quotient = n_abs / COIN ;
int64_t remainder = n_abs % COIN ;
return UniValue ( UniValue : : VNUM ,
strprintf ( " %s%d.%08d " , sign ? " - " : " " , quotient , remainder ) ) ;
}
std : : string FormatScript ( const CScript & script )
{
std : : string ret ;
CScript : : const_iterator it = script . begin ( ) ;
opcodetype op ;
while ( it ! = script . end ( ) ) {
CScript : : const_iterator it2 = it ;
std : : vector < unsigned char > vch ;
if ( script . GetOp2 ( it , op , & vch ) ) {
if ( op = = OP_0 ) {
ret + = " 0 " ;
continue ;
} else if ( ( op > = OP_1 & & op < = OP_16 ) | | op = = OP_1NEGATE ) {
ret + = strprintf ( " %i " , op - OP_1NEGATE - 1 ) ;
continue ;
} else if ( op > = OP_NOP & & op < = OP_NOP10 ) {
std : : string str ( GetOpName ( op ) ) ;
if ( str . substr ( 0 , 3 ) = = std : : string ( " OP_ " ) ) {
ret + = str . substr ( 3 , std : : string : : npos ) + " " ;
continue ;
}
}
if ( vch . size ( ) > 0 ) {
ret + = strprintf ( " 0x%x 0x%x " , HexStr ( it2 , it - vch . size ( ) ) , HexStr ( it - vch . size ( ) , it ) ) ;
} else {
ret + = strprintf ( " 0x%x " , HexStr ( it2 , it ) ) ;
}
continue ;
}
ret + = strprintf ( " 0x%x " , HexStr ( it2 , script . end ( ) ) ) ;
break ;
}
return ret . substr ( 0 , ret . size ( ) - 1 ) ;
}
const std : : map < unsigned char , std : : string > mapSigHashTypes = {
{ static_cast < unsigned char > ( SIGHASH_ALL ) , std : : string ( " ALL " ) } ,
{ static_cast < unsigned char > ( SIGHASH_ALL | SIGHASH_ANYONECANPAY ) , std : : string ( " ALL|ANYONECANPAY " ) } ,
{ static_cast < unsigned char > ( SIGHASH_NONE ) , std : : string ( " NONE " ) } ,
{ static_cast < unsigned char > ( SIGHASH_NONE | SIGHASH_ANYONECANPAY ) , std : : string ( " NONE|ANYONECANPAY " ) } ,
{ static_cast < unsigned char > ( SIGHASH_SINGLE ) , std : : string ( " SINGLE " ) } ,
{ static_cast < unsigned char > ( SIGHASH_SINGLE | SIGHASH_ANYONECANPAY ) , std : : string ( " SINGLE|ANYONECANPAY " ) } ,
} ;
/**
* Create the assembly string representation of a CScript object .
* @ param [ in ] script CScript object to convert into the asm string representation .
* @ param [ in ] fAttemptSighashDecode Whether to attempt to decode sighash types on data within the script that matches the format
* of a signature . Only pass true for scripts you believe could contain signatures . For example ,
* pass false , or omit the this argument ( defaults to false ) , for scriptPubKeys .
*/
std : : string ScriptToAsmStr ( const CScript & script , const bool fAttemptSighashDecode )
{
std : : string str ;
opcodetype opcode ;
std : : vector < unsigned char > vch ;
CScript : : const_iterator pc = script . begin ( ) ;
while ( pc < script . end ( ) ) {
if ( ! str . empty ( ) ) {
str + = " " ;
}
if ( ! script . GetOp ( pc , opcode , vch ) ) {
str + = " [error] " ;
return str ;
}
if ( 0 < = opcode & & opcode < = OP_PUSHDATA4 ) {
if ( vch . size ( ) < = static_cast < std : : vector < unsigned char > : : size_type > ( 4 ) ) {
str + = strprintf ( " %d " , CScriptNum ( vch , false ) . getint ( ) ) ;
} else {
// the IsUnspendable check makes sure not to try to decode OP_RETURN data that may match the format of a signature
if ( fAttemptSighashDecode & & ! script . IsUnspendable ( ) ) {
std : : string strSigHashDecode ;
// goal: only attempt to decode a defined sighash type from data that looks like a signature within a scriptSig.
// this won't decode correctly formatted public keys in Pubkey or Multisig scripts due to
// the restrictions on the pubkey formats (see IsCompressedOrUncompressedPubKey) being incongruous with the
// checks in CheckSignatureEncoding.
if ( CheckSignatureEncoding ( vch , SCRIPT_VERIFY_STRICTENC , NULL ) ) {
const unsigned char chSigHashType = vch . back ( ) ;
if ( mapSigHashTypes . count ( chSigHashType ) ) {
strSigHashDecode = " [ " + mapSigHashTypes . find ( chSigHashType ) - > second + " ] " ;
vch . pop_back ( ) ; // remove the sighash type byte. it will be replaced by the decode.
}
}
str + = HexStr ( vch ) + strSigHashDecode ;
} else {
str + = HexStr ( vch ) ;
}
}
} else {
str + = GetOpName ( opcode ) ;
}
}
return str ;
}
std : : string EncodeHexTx ( const CTransaction & tx , const int serializeFlags )
{
CDataStream ssTx ( SER_NETWORK , PROTOCOL_VERSION | serializeFlags ) ;
ssTx < < tx ;
return HexStr ( ssTx . begin ( ) , ssTx . end ( ) ) ;
}
void ScriptPubKeyToUniv ( const CScript & scriptPubKey ,
UniValue & out , bool fIncludeHex )
{
txnouttype type ;
std : : vector < CTxDestination > addresses ;
int nRequired ;
out . pushKV ( " asm " , ScriptToAsmStr ( scriptPubKey ) ) ;
if ( fIncludeHex )
out . pushKV ( " hex " , HexStr ( scriptPubKey . begin ( ) , scriptPubKey . end ( ) ) ) ;
if ( ! ExtractDestinations ( scriptPubKey , type , addresses , nRequired ) ) {
out . pushKV ( " type " , GetTxnOutputType ( type ) ) ;
return ;
}
out . pushKV ( " reqSigs " , nRequired ) ;
out . pushKV ( " type " , GetTxnOutputType ( type ) ) ;
UniValue a ( UniValue : : VARR ) ;
for ( const CTxDestination & addr : addresses )
a . push_back ( CBitcoinAddress ( addr ) . ToString ( ) ) ;
out . pushKV ( " addresses " , a ) ;
}
void TxToUniv ( const CTransaction & tx , const uint256 & hashBlock , UniValue & entry )
{
entry . pushKV ( " txid " , tx . GetHash ( ) . GetHex ( ) ) ;
entry . pushKV ( " hash " , tx . GetWitnessHash ( ) . GetHex ( ) ) ;
entry . pushKV ( " version " , tx . nVersion ) ;
entry . pushKV ( " size " , ( int ) : : GetSerializeSize ( tx , SER_NETWORK , PROTOCOL_VERSION ) ) ;
entry . pushKV ( " vsize " , ( GetTransactionWeight ( tx ) + WITNESS_SCALE_FACTOR - 1 ) / WITNESS_SCALE_FACTOR ) ;
entry . pushKV ( " locktime " , ( int64_t ) tx . nLockTime ) ;
UniValue vin ( UniValue : : VARR ) ;
for ( unsigned int i = 0 ; i < tx . vin . size ( ) ; i + + ) {
const CTxIn & txin = tx . vin [ i ] ;
UniValue in ( UniValue : : VOBJ ) ;
if ( tx . IsCoinBase ( ) )
in . pushKV ( " coinbase " , HexStr ( txin . scriptSig . begin ( ) , txin . scriptSig . end ( ) ) ) ;
else {
in . pushKV ( " txid " , txin . prevout . hash . GetHex ( ) ) ;
in . pushKV ( " vout " , ( int64_t ) txin . prevout . n ) ;
UniValue o ( UniValue : : VOBJ ) ;
o . pushKV ( " asm " , ScriptToAsmStr ( txin . scriptSig , true ) ) ;
o . pushKV ( " hex " , HexStr ( txin . scriptSig . begin ( ) , txin . scriptSig . end ( ) ) ) ;
in . pushKV ( " scriptSig " , o ) ;
if ( ! tx . vin [ i ] . scriptWitness . IsNull ( ) ) {
UniValue txinwitness ( UniValue : : VARR ) ;
for ( const auto & item : tx . vin [ i ] . scriptWitness . stack ) {
txinwitness . push_back ( HexStr ( item . begin ( ) , item . end ( ) ) ) ;
}
in . pushKV ( " txinwitness " , txinwitness ) ;
}
}
in . pushKV ( " sequence " , ( int64_t ) txin . nSequence ) ;
vin . push_back ( in ) ;
}
entry . pushKV ( " vin " , vin ) ;
UniValue vout ( UniValue : : VARR ) ;
for ( unsigned int i = 0 ; i < tx . vout . size ( ) ; i + + ) {
const CTxOut & txout = tx . vout [ i ] ;
UniValue out ( UniValue : : VOBJ ) ;
UniValue outValue ( UniValue : : VNUM , FormatMoney ( txout . nValue ) ) ;
out . pushKV ( " value " , outValue ) ;
out . pushKV ( " n " , ( int64_t ) i ) ;
UniValue o ( UniValue : : VOBJ ) ;
ScriptPubKeyToUniv ( txout . scriptPubKey , o , true ) ;
out . pushKV ( " scriptPubKey " , o ) ;
vout . push_back ( out ) ;
}
entry . pushKV ( " vout " , vout ) ;
if ( ! hashBlock . IsNull ( ) )
entry . pushKV ( " blockhash " , hashBlock . GetHex ( ) ) ;
entry . pushKV ( " hex " , EncodeHexTx ( tx ) ) ; // the hex-encoded transaction. used the name "hex" to be consistent with the verbose output of "getrawtransaction".
}