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// Copyright (c) 2009-2010 Satoshi Nakamoto
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// Copyright (c) 2009-2012 The Bitcoin developers
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// Distributed under the MIT/X11 software license, see the accompanying
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// file COPYING or http://www.opensource.org/licenses/mit-license.php.
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# ifndef BITCOIN_BIGNUM_H
# define BITCOIN_BIGNUM_H
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# include <stdexcept>
# include <vector>
# include <openssl/bn.h>
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# include "util.h" // for uint64
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/** Errors thrown by the bignum class */
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class bignum_error : public std : : runtime_error
{
public :
explicit bignum_error ( const std : : string & str ) : std : : runtime_error ( str ) { }
} ;
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/** RAII encapsulated BN_CTX (OpenSSL bignum context) */
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class CAutoBN_CTX
{
protected :
BN_CTX * pctx ;
BN_CTX * operator = ( BN_CTX * pnew ) { return pctx = pnew ; }
public :
CAutoBN_CTX ( )
{
pctx = BN_CTX_new ( ) ;
if ( pctx = = NULL )
throw bignum_error ( " CAutoBN_CTX : BN_CTX_new() returned NULL " ) ;
}
~ CAutoBN_CTX ( )
{
if ( pctx ! = NULL )
BN_CTX_free ( pctx ) ;
}
operator BN_CTX * ( ) { return pctx ; }
BN_CTX & operator * ( ) { return * pctx ; }
BN_CTX * * operator & ( ) { return & pctx ; }
bool operator ! ( ) { return ( pctx = = NULL ) ; }
} ;
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/** C++ wrapper for BIGNUM (OpenSSL bignum) */
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class CBigNum : public BIGNUM
{
public :
CBigNum ( )
{
BN_init ( this ) ;
}
CBigNum ( const CBigNum & b )
{
BN_init ( this ) ;
if ( ! BN_copy ( this , & b ) )
{
BN_clear_free ( this ) ;
throw bignum_error ( " CBigNum::CBigNum(const CBigNum&) : BN_copy failed " ) ;
}
}
CBigNum & operator = ( const CBigNum & b )
{
if ( ! BN_copy ( this , & b ) )
throw bignum_error ( " CBigNum::operator= : BN_copy failed " ) ;
return ( * this ) ;
}
~ CBigNum ( )
{
BN_clear_free ( this ) ;
}
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//CBigNum(char n) is not portable. Use 'signed char' or 'unsigned char'.
CBigNum ( signed char n ) { BN_init ( this ) ; if ( n > = 0 ) setulong ( n ) ; else setint64 ( n ) ; }
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CBigNum ( short n ) { BN_init ( this ) ; if ( n > = 0 ) setulong ( n ) ; else setint64 ( n ) ; }
CBigNum ( int n ) { BN_init ( this ) ; if ( n > = 0 ) setulong ( n ) ; else setint64 ( n ) ; }
CBigNum ( long n ) { BN_init ( this ) ; if ( n > = 0 ) setulong ( n ) ; else setint64 ( n ) ; }
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CBigNum ( int64 n ) { BN_init ( this ) ; setint64 ( n ) ; }
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CBigNum ( unsigned char n ) { BN_init ( this ) ; setulong ( n ) ; }
CBigNum ( unsigned short n ) { BN_init ( this ) ; setulong ( n ) ; }
CBigNum ( unsigned int n ) { BN_init ( this ) ; setulong ( n ) ; }
CBigNum ( unsigned long n ) { BN_init ( this ) ; setulong ( n ) ; }
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CBigNum ( uint64 n ) { BN_init ( this ) ; setuint64 ( n ) ; }
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explicit CBigNum ( uint256 n ) { BN_init ( this ) ; setuint256 ( n ) ; }
explicit CBigNum ( const std : : vector < unsigned char > & vch )
{
BN_init ( this ) ;
setvch ( vch ) ;
}
void setulong ( unsigned long n )
{
if ( ! BN_set_word ( this , n ) )
throw bignum_error ( " CBigNum conversion from unsigned long : BN_set_word failed " ) ;
}
unsigned long getulong ( ) const
{
return BN_get_word ( this ) ;
}
unsigned int getuint ( ) const
{
return BN_get_word ( this ) ;
}
int getint ( ) const
{
unsigned long n = BN_get_word ( this ) ;
if ( ! BN_is_negative ( this ) )
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return ( n > ( unsigned long ) std : : numeric_limits < int > : : max ( ) ? std : : numeric_limits < int > : : max ( ) : n ) ;
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else
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return ( n > ( unsigned long ) std : : numeric_limits < int > : : max ( ) ? std : : numeric_limits < int > : : min ( ) : - ( int ) n ) ;
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}
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void setint64 ( int64 sn )
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{
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unsigned char pch [ sizeof ( sn ) + 6 ] ;
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unsigned char * p = pch + 4 ;
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bool fNegative ;
uint64 n ;
if ( sn < ( int64 ) 0 )
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{
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// Since the minimum signed integer cannot be represented as positive so long as its type is signed, and it's not well-defined what happens if you make it unsigned before negating it, we instead increment the negative integer by 1, convert it, then increment the (now positive) unsigned integer by 1 to compensate
n = - ( sn + 1 ) ;
+ + n ;
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fNegative = true ;
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} else {
n = sn ;
fNegative = false ;
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}
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bool fLeadingZeroes = true ;
for ( int i = 0 ; i < 8 ; i + + )
{
unsigned char c = ( n > > 56 ) & 0xff ;
n < < = 8 ;
if ( fLeadingZeroes )
{
if ( c = = 0 )
continue ;
if ( c & 0x80 )
* p + + = ( fNegative ? 0x80 : 0 ) ;
else if ( fNegative )
c | = 0x80 ;
fLeadingZeroes = false ;
}
* p + + = c ;
}
unsigned int nSize = p - ( pch + 4 ) ;
pch [ 0 ] = ( nSize > > 24 ) & 0xff ;
pch [ 1 ] = ( nSize > > 16 ) & 0xff ;
pch [ 2 ] = ( nSize > > 8 ) & 0xff ;
pch [ 3 ] = ( nSize ) & 0xff ;
BN_mpi2bn ( pch , p - pch , this ) ;
}
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void setuint64 ( uint64 n )
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{
unsigned char pch [ sizeof ( n ) + 6 ] ;
unsigned char * p = pch + 4 ;
bool fLeadingZeroes = true ;
for ( int i = 0 ; i < 8 ; i + + )
{
unsigned char c = ( n > > 56 ) & 0xff ;
n < < = 8 ;
if ( fLeadingZeroes )
{
if ( c = = 0 )
continue ;
if ( c & 0x80 )
* p + + = 0 ;
fLeadingZeroes = false ;
}
* p + + = c ;
}
unsigned int nSize = p - ( pch + 4 ) ;
pch [ 0 ] = ( nSize > > 24 ) & 0xff ;
pch [ 1 ] = ( nSize > > 16 ) & 0xff ;
pch [ 2 ] = ( nSize > > 8 ) & 0xff ;
pch [ 3 ] = ( nSize ) & 0xff ;
BN_mpi2bn ( pch , p - pch , this ) ;
}
void setuint256 ( uint256 n )
{
unsigned char pch [ sizeof ( n ) + 6 ] ;
unsigned char * p = pch + 4 ;
bool fLeadingZeroes = true ;
unsigned char * pbegin = ( unsigned char * ) & n ;
unsigned char * psrc = pbegin + sizeof ( n ) ;
while ( psrc ! = pbegin )
{
unsigned char c = * ( - - psrc ) ;
if ( fLeadingZeroes )
{
if ( c = = 0 )
continue ;
if ( c & 0x80 )
* p + + = 0 ;
fLeadingZeroes = false ;
}
* p + + = c ;
}
unsigned int nSize = p - ( pch + 4 ) ;
pch [ 0 ] = ( nSize > > 24 ) & 0xff ;
pch [ 1 ] = ( nSize > > 16 ) & 0xff ;
pch [ 2 ] = ( nSize > > 8 ) & 0xff ;
pch [ 3 ] = ( nSize > > 0 ) & 0xff ;
BN_mpi2bn ( pch , p - pch , this ) ;
}
uint256 getuint256 ( )
{
unsigned int nSize = BN_bn2mpi ( this , NULL ) ;
if ( nSize < 4 )
return 0 ;
std : : vector < unsigned char > vch ( nSize ) ;
BN_bn2mpi ( this , & vch [ 0 ] ) ;
if ( vch . size ( ) > 4 )
vch [ 4 ] & = 0x7f ;
uint256 n = 0 ;
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for ( unsigned int i = 0 , j = vch . size ( ) - 1 ; i < sizeof ( n ) & & j > = 4 ; i + + , j - - )
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( ( unsigned char * ) & n ) [ i ] = vch [ j ] ;
return n ;
}
void setvch ( const std : : vector < unsigned char > & vch )
{
std : : vector < unsigned char > vch2 ( vch . size ( ) + 4 ) ;
unsigned int nSize = vch . size ( ) ;
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// BIGNUM's byte stream format expects 4 bytes of
// big endian size data info at the front
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vch2 [ 0 ] = ( nSize > > 24 ) & 0xff ;
vch2 [ 1 ] = ( nSize > > 16 ) & 0xff ;
vch2 [ 2 ] = ( nSize > > 8 ) & 0xff ;
vch2 [ 3 ] = ( nSize > > 0 ) & 0xff ;
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// swap data to big endian
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reverse_copy ( vch . begin ( ) , vch . end ( ) , vch2 . begin ( ) + 4 ) ;
BN_mpi2bn ( & vch2 [ 0 ] , vch2 . size ( ) , this ) ;
}
std : : vector < unsigned char > getvch ( ) const
{
unsigned int nSize = BN_bn2mpi ( this , NULL ) ;
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if ( nSize < = 4 )
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return std : : vector < unsigned char > ( ) ;
std : : vector < unsigned char > vch ( nSize ) ;
BN_bn2mpi ( this , & vch [ 0 ] ) ;
vch . erase ( vch . begin ( ) , vch . begin ( ) + 4 ) ;
reverse ( vch . begin ( ) , vch . end ( ) ) ;
return vch ;
}
CBigNum & SetCompact ( unsigned int nCompact )
{
unsigned int nSize = nCompact > > 24 ;
std : : vector < unsigned char > vch ( 4 + nSize ) ;
vch [ 3 ] = nSize ;
if ( nSize > = 1 ) vch [ 4 ] = ( nCompact > > 16 ) & 0xff ;
if ( nSize > = 2 ) vch [ 5 ] = ( nCompact > > 8 ) & 0xff ;
if ( nSize > = 3 ) vch [ 6 ] = ( nCompact > > 0 ) & 0xff ;
BN_mpi2bn ( & vch [ 0 ] , vch . size ( ) , this ) ;
return * this ;
}
unsigned int GetCompact ( ) const
{
unsigned int nSize = BN_bn2mpi ( this , NULL ) ;
std : : vector < unsigned char > vch ( nSize ) ;
nSize - = 4 ;
BN_bn2mpi ( this , & vch [ 0 ] ) ;
unsigned int nCompact = nSize < < 24 ;
if ( nSize > = 1 ) nCompact | = ( vch [ 4 ] < < 16 ) ;
if ( nSize > = 2 ) nCompact | = ( vch [ 5 ] < < 8 ) ;
if ( nSize > = 3 ) nCompact | = ( vch [ 6 ] < < 0 ) ;
return nCompact ;
}
void SetHex ( const std : : string & str )
{
// skip 0x
const char * psz = str . c_str ( ) ;
while ( isspace ( * psz ) )
psz + + ;
bool fNegative = false ;
if ( * psz = = ' - ' )
{
fNegative = true ;
psz + + ;
}
if ( psz [ 0 ] = = ' 0 ' & & tolower ( psz [ 1 ] ) = = ' x ' )
psz + = 2 ;
while ( isspace ( * psz ) )
psz + + ;
// hex string to bignum
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static signed char phexdigit [ 256 ] = { 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 1 , 2 , 3 , 4 , 5 , 6 , 7 , 8 , 9 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0xa , 0xb , 0xc , 0xd , 0xe , 0xf , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0xa , 0xb , 0xc , 0xd , 0xe , 0xf , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 } ;
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* this = 0 ;
while ( isxdigit ( * psz ) )
{
* this < < = 4 ;
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int n = phexdigit [ ( unsigned char ) * psz + + ] ;
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* this + = n ;
}
if ( fNegative )
* this = 0 - * this ;
}
std : : string ToString ( int nBase = 10 ) const
{
CAutoBN_CTX pctx ;
CBigNum bnBase = nBase ;
CBigNum bn0 = 0 ;
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std : : string str ;
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CBigNum bn = * this ;
BN_set_negative ( & bn , false ) ;
CBigNum dv ;
CBigNum rem ;
if ( BN_cmp ( & bn , & bn0 ) = = 0 )
return " 0 " ;
while ( BN_cmp ( & bn , & bn0 ) > 0 )
{
if ( ! BN_div ( & dv , & rem , & bn , & bnBase , pctx ) )
throw bignum_error ( " CBigNum::ToString() : BN_div failed " ) ;
bn = dv ;
unsigned int c = rem . getulong ( ) ;
str + = " 0123456789abcdef " [ c ] ;
}
if ( BN_is_negative ( this ) )
str + = " - " ;
reverse ( str . begin ( ) , str . end ( ) ) ;
return str ;
}
std : : string GetHex ( ) const
{
return ToString ( 16 ) ;
}
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unsigned int GetSerializeSize ( int nType = 0 , int nVersion = PROTOCOL_VERSION ) const
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{
return : : GetSerializeSize ( getvch ( ) , nType , nVersion ) ;
}
template < typename Stream >
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void Serialize ( Stream & s , int nType = 0 , int nVersion = PROTOCOL_VERSION ) const
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{
: : Serialize ( s , getvch ( ) , nType , nVersion ) ;
}
template < typename Stream >
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void Unserialize ( Stream & s , int nType = 0 , int nVersion = PROTOCOL_VERSION )
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{
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std : : vector < unsigned char > vch ;
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: : Unserialize ( s , vch , nType , nVersion ) ;
setvch ( vch ) ;
}
bool operator ! ( ) const
{
return BN_is_zero ( this ) ;
}
CBigNum & operator + = ( const CBigNum & b )
{
if ( ! BN_add ( this , this , & b ) )
throw bignum_error ( " CBigNum::operator+= : BN_add failed " ) ;
return * this ;
}
CBigNum & operator - = ( const CBigNum & b )
{
* this = * this - b ;
return * this ;
}
CBigNum & operator * = ( const CBigNum & b )
{
CAutoBN_CTX pctx ;
if ( ! BN_mul ( this , this , & b , pctx ) )
throw bignum_error ( " CBigNum::operator*= : BN_mul failed " ) ;
return * this ;
}
CBigNum & operator / = ( const CBigNum & b )
{
* this = * this / b ;
return * this ;
}
CBigNum & operator % = ( const CBigNum & b )
{
* this = * this % b ;
return * this ;
}
CBigNum & operator < < = ( unsigned int shift )
{
if ( ! BN_lshift ( this , this , shift ) )
throw bignum_error ( " CBigNum:operator<<= : BN_lshift failed " ) ;
return * this ;
}
CBigNum & operator > > = ( unsigned int shift )
{
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// Note: BN_rshift segfaults on 64-bit if 2^shift is greater than the number
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// if built on ubuntu 9.04 or 9.10, probably depends on version of OpenSSL
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CBigNum a = 1 ;
a < < = shift ;
if ( BN_cmp ( & a , this ) > 0 )
{
* this = 0 ;
return * this ;
}
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if ( ! BN_rshift ( this , this , shift ) )
throw bignum_error ( " CBigNum:operator>>= : BN_rshift failed " ) ;
return * this ;
}
CBigNum & operator + + ( )
{
// prefix operator
if ( ! BN_add ( this , this , BN_value_one ( ) ) )
throw bignum_error ( " CBigNum::operator++ : BN_add failed " ) ;
return * this ;
}
const CBigNum operator + + ( int )
{
// postfix operator
const CBigNum ret = * this ;
+ + ( * this ) ;
return ret ;
}
CBigNum & operator - - ( )
{
// prefix operator
CBigNum r ;
if ( ! BN_sub ( & r , this , BN_value_one ( ) ) )
throw bignum_error ( " CBigNum::operator-- : BN_sub failed " ) ;
* this = r ;
return * this ;
}
const CBigNum operator - - ( int )
{
// postfix operator
const CBigNum ret = * this ;
- - ( * this ) ;
return ret ;
}
friend inline const CBigNum operator - ( const CBigNum & a , const CBigNum & b ) ;
friend inline const CBigNum operator / ( const CBigNum & a , const CBigNum & b ) ;
friend inline const CBigNum operator % ( const CBigNum & a , const CBigNum & b ) ;
} ;
inline const CBigNum operator + ( const CBigNum & a , const CBigNum & b )
{
CBigNum r ;
if ( ! BN_add ( & r , & a , & b ) )
throw bignum_error ( " CBigNum::operator+ : BN_add failed " ) ;
return r ;
}
inline const CBigNum operator - ( const CBigNum & a , const CBigNum & b )
{
CBigNum r ;
if ( ! BN_sub ( & r , & a , & b ) )
throw bignum_error ( " CBigNum::operator- : BN_sub failed " ) ;
return r ;
}
inline const CBigNum operator - ( const CBigNum & a )
{
CBigNum r ( a ) ;
BN_set_negative ( & r , ! BN_is_negative ( & r ) ) ;
return r ;
}
inline const CBigNum operator * ( const CBigNum & a , const CBigNum & b )
{
CAutoBN_CTX pctx ;
CBigNum r ;
if ( ! BN_mul ( & r , & a , & b , pctx ) )
throw bignum_error ( " CBigNum::operator* : BN_mul failed " ) ;
return r ;
}
inline const CBigNum operator / ( const CBigNum & a , const CBigNum & b )
{
CAutoBN_CTX pctx ;
CBigNum r ;
if ( ! BN_div ( & r , NULL , & a , & b , pctx ) )
throw bignum_error ( " CBigNum::operator/ : BN_div failed " ) ;
return r ;
}
inline const CBigNum operator % ( const CBigNum & a , const CBigNum & b )
{
CAutoBN_CTX pctx ;
CBigNum r ;
if ( ! BN_mod ( & r , & a , & b , pctx ) )
throw bignum_error ( " CBigNum::operator% : BN_div failed " ) ;
return r ;
}
inline const CBigNum operator < < ( const CBigNum & a , unsigned int shift )
{
CBigNum r ;
if ( ! BN_lshift ( & r , & a , shift ) )
throw bignum_error ( " CBigNum:operator<< : BN_lshift failed " ) ;
return r ;
}
inline const CBigNum operator > > ( const CBigNum & a , unsigned int shift )
{
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CBigNum r = a ;
r > > = shift ;
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return r ;
}
inline bool operator = = ( const CBigNum & a , const CBigNum & b ) { return ( BN_cmp ( & a , & b ) = = 0 ) ; }
inline bool operator ! = ( const CBigNum & a , const CBigNum & b ) { return ( BN_cmp ( & a , & b ) ! = 0 ) ; }
inline bool operator < = ( const CBigNum & a , const CBigNum & b ) { return ( BN_cmp ( & a , & b ) < = 0 ) ; }
inline bool operator > = ( const CBigNum & a , const CBigNum & b ) { return ( BN_cmp ( & a , & b ) > = 0 ) ; }
inline bool operator < ( const CBigNum & a , const CBigNum & b ) { return ( BN_cmp ( & a , & b ) < 0 ) ; }
inline bool operator > ( const CBigNum & a , const CBigNum & b ) { return ( BN_cmp ( & a , & b ) > 0 ) ; }
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# endif