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// filters.cpp - written and placed in the public domain by Wei Dai
# include "pch.h"
# include "config.h"
# if CRYPTOPP_MSC_VERSION
# pragma warning(disable: 4100 4189)
# endif
# if CRYPTOPP_GCC_DIAGNOSTIC_AVAILABLE
# pragma GCC diagnostic ignored "-Wunused-value"
# endif
# ifndef CRYPTOPP_IMPORTS
# include "filters.h"
# include "mqueue.h"
# include "fltrimpl.h"
# include "argnames.h"
# include "smartptr.h"
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# include "stdcpp.h"
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# include "misc.h"
NAMESPACE_BEGIN ( CryptoPP )
Filter : : Filter ( BufferedTransformation * attachment )
: m_attachment ( attachment ) , m_inputPosition ( 0 ) , m_continueAt ( 0 )
{
}
BufferedTransformation * Filter : : NewDefaultAttachment ( ) const
{
return new MessageQueue ;
}
BufferedTransformation * Filter : : AttachedTransformation ( )
{
if ( m_attachment . get ( ) = = NULL )
m_attachment . reset ( NewDefaultAttachment ( ) ) ;
return m_attachment . get ( ) ;
}
const BufferedTransformation * Filter : : AttachedTransformation ( ) const
{
if ( m_attachment . get ( ) = = NULL )
const_cast < Filter * > ( this ) - > m_attachment . reset ( NewDefaultAttachment ( ) ) ;
return m_attachment . get ( ) ;
}
void Filter : : Detach ( BufferedTransformation * newOut )
{
m_attachment . reset ( newOut ) ;
}
void Filter : : Insert ( Filter * filter )
{
filter - > m_attachment . reset ( m_attachment . release ( ) ) ;
m_attachment . reset ( filter ) ;
}
size_t Filter : : CopyRangeTo2 ( BufferedTransformation & target , lword & begin , lword end , const std : : string & channel , bool blocking ) const
{
return AttachedTransformation ( ) - > CopyRangeTo2 ( target , begin , end , channel , blocking ) ;
}
size_t Filter : : TransferTo2 ( BufferedTransformation & target , lword & transferBytes , const std : : string & channel , bool blocking )
{
return AttachedTransformation ( ) - > TransferTo2 ( target , transferBytes , channel , blocking ) ;
}
void Filter : : Initialize ( const NameValuePairs & parameters , int propagation )
{
m_inputPosition = m_continueAt = 0 ;
IsolatedInitialize ( parameters ) ;
PropagateInitialize ( parameters , propagation ) ;
}
bool Filter : : Flush ( bool hardFlush , int propagation , bool blocking )
{
switch ( m_continueAt )
{
case 0 :
if ( IsolatedFlush ( hardFlush , blocking ) )
return true ;
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// fall through
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case 1 :
if ( OutputFlush ( 1 , hardFlush , propagation , blocking ) )
return true ;
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// fall through
default : ; ;
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}
return false ;
}
bool Filter : : MessageSeriesEnd ( int propagation , bool blocking )
{
switch ( m_continueAt )
{
case 0 :
if ( IsolatedMessageSeriesEnd ( blocking ) )
return true ;
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// fall through
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case 1 :
if ( ShouldPropagateMessageSeriesEnd ( ) & & OutputMessageSeriesEnd ( 1 , propagation , blocking ) )
return true ;
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// fall through
default : ; ;
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}
return false ;
}
void Filter : : PropagateInitialize ( const NameValuePairs & parameters , int propagation )
{
if ( propagation )
AttachedTransformation ( ) - > Initialize ( parameters , propagation - 1 ) ;
}
size_t Filter : : OutputModifiable ( int outputSite , byte * inString , size_t length , int messageEnd , bool blocking , const std : : string & channel )
{
if ( messageEnd )
messageEnd - - ;
size_t result = AttachedTransformation ( ) - > ChannelPutModifiable2 ( channel , inString , length , messageEnd , blocking ) ;
m_continueAt = result ? outputSite : 0 ;
return result ;
}
size_t Filter : : Output ( int outputSite , const byte * inString , size_t length , int messageEnd , bool blocking , const std : : string & channel )
{
if ( messageEnd )
messageEnd - - ;
size_t result = AttachedTransformation ( ) - > ChannelPut2 ( channel , inString , length , messageEnd , blocking ) ;
m_continueAt = result ? outputSite : 0 ;
return result ;
}
bool Filter : : OutputFlush ( int outputSite , bool hardFlush , int propagation , bool blocking , const std : : string & channel )
{
if ( propagation & & AttachedTransformation ( ) - > ChannelFlush ( channel , hardFlush , propagation - 1 , blocking ) )
{
m_continueAt = outputSite ;
return true ;
}
m_continueAt = 0 ;
return false ;
}
bool Filter : : OutputMessageSeriesEnd ( int outputSite , int propagation , bool blocking , const std : : string & channel )
{
if ( propagation & & AttachedTransformation ( ) - > ChannelMessageSeriesEnd ( channel , propagation - 1 , blocking ) )
{
m_continueAt = outputSite ;
return true ;
}
m_continueAt = 0 ;
return false ;
}
// *************************************************************
void MeterFilter : : ResetMeter ( )
{
m_currentMessageBytes = m_totalBytes = m_currentSeriesMessages = m_totalMessages = m_totalMessageSeries = 0 ;
m_rangesToSkip . clear ( ) ;
}
void MeterFilter : : AddRangeToSkip ( unsigned int message , lword position , lword size , bool sortNow )
{
MessageRange r = { message , position , size } ;
m_rangesToSkip . push_back ( r ) ;
if ( sortNow )
std : : sort ( m_rangesToSkip . begin ( ) , m_rangesToSkip . end ( ) ) ;
}
size_t MeterFilter : : PutMaybeModifiable ( byte * begin , size_t length , int messageEnd , bool blocking , bool modifiable )
{
if ( ! m_transparent )
return 0 ;
size_t t ;
FILTER_BEGIN ;
m_begin = begin ;
m_length = length ;
while ( m_length > 0 | | messageEnd )
{
if ( m_length > 0 & & ! m_rangesToSkip . empty ( ) & & m_rangesToSkip . front ( ) . message = = m_totalMessages & & m_currentMessageBytes + m_length > m_rangesToSkip . front ( ) . position )
{
FILTER_OUTPUT_MAYBE_MODIFIABLE ( 1 , m_begin , t = ( size_t ) SaturatingSubtract ( m_rangesToSkip . front ( ) . position , m_currentMessageBytes ) , false , modifiable ) ;
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CRYPTOPP_ASSERT ( t < m_length ) ;
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m_begin + = t ;
m_length - = t ;
m_currentMessageBytes + = t ;
m_totalBytes + = t ;
if ( m_currentMessageBytes + m_length < m_rangesToSkip . front ( ) . position + m_rangesToSkip . front ( ) . size )
t = m_length ;
else
{
t = ( size_t ) SaturatingSubtract ( m_rangesToSkip . front ( ) . position + m_rangesToSkip . front ( ) . size , m_currentMessageBytes ) ;
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CRYPTOPP_ASSERT ( t < = m_length ) ;
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m_rangesToSkip . pop_front ( ) ;
}
m_begin + = t ;
m_length - = t ;
m_currentMessageBytes + = t ;
m_totalBytes + = t ;
}
else
{
FILTER_OUTPUT_MAYBE_MODIFIABLE ( 2 , m_begin , m_length , messageEnd , modifiable ) ;
m_currentMessageBytes + = m_length ;
m_totalBytes + = m_length ;
m_length = 0 ;
if ( messageEnd )
{
m_currentMessageBytes = 0 ;
m_currentSeriesMessages + + ;
m_totalMessages + + ;
messageEnd = false ;
}
}
}
FILTER_END_NO_MESSAGE_END ;
}
size_t MeterFilter : : Put2 ( const byte * begin , size_t length , int messageEnd , bool blocking )
{
return PutMaybeModifiable ( const_cast < byte * > ( begin ) , length , messageEnd , blocking , false ) ;
}
size_t MeterFilter : : PutModifiable2 ( byte * begin , size_t length , int messageEnd , bool blocking )
{
return PutMaybeModifiable ( begin , length , messageEnd , blocking , true ) ;
}
bool MeterFilter : : IsolatedMessageSeriesEnd ( bool blocking )
{
CRYPTOPP_UNUSED ( blocking ) ;
m_currentMessageBytes = 0 ;
m_currentSeriesMessages = 0 ;
m_totalMessageSeries + + ;
return false ;
}
// *************************************************************
void FilterWithBufferedInput : : BlockQueue : : ResetQueue ( size_t blockSize , size_t maxBlocks )
{
m_buffer . New ( blockSize * maxBlocks ) ;
m_blockSize = blockSize ;
m_maxBlocks = maxBlocks ;
m_size = 0 ;
m_begin = m_buffer ;
}
byte * FilterWithBufferedInput : : BlockQueue : : GetBlock ( )
{
if ( m_size > = m_blockSize )
{
byte * ptr = m_begin ;
if ( ( m_begin + = m_blockSize ) = = m_buffer . end ( ) )
m_begin = m_buffer ;
m_size - = m_blockSize ;
return ptr ;
}
else
return NULL ;
}
byte * FilterWithBufferedInput : : BlockQueue : : GetContigousBlocks ( size_t & numberOfBytes )
{
numberOfBytes = STDMIN ( numberOfBytes , STDMIN ( size_t ( m_buffer . end ( ) - m_begin ) , m_size ) ) ;
byte * ptr = m_begin ;
m_begin + = numberOfBytes ;
m_size - = numberOfBytes ;
if ( m_size = = 0 | | m_begin = = m_buffer . end ( ) )
m_begin = m_buffer ;
return ptr ;
}
size_t FilterWithBufferedInput : : BlockQueue : : GetAll ( byte * outString )
{
// Avoid passing NULL pointer to memcpy
if ( ! outString ) return 0 ;
size_t size = m_size ;
size_t numberOfBytes = m_maxBlocks * m_blockSize ;
const byte * ptr = GetContigousBlocks ( numberOfBytes ) ;
memcpy ( outString , ptr , numberOfBytes ) ;
memcpy ( outString + numberOfBytes , m_begin , m_size ) ;
m_size = 0 ;
return size ;
}
void FilterWithBufferedInput : : BlockQueue : : Put ( const byte * inString , size_t length )
{
// Avoid passing NULL pointer to memcpy
if ( ! inString | | ! length ) return ;
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CRYPTOPP_ASSERT ( m_size + length < = m_buffer . size ( ) ) ;
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byte * end = ( m_size < size_t ( m_buffer . end ( ) - m_begin ) ) ? m_begin + m_size : m_begin + m_size - m_buffer . size ( ) ;
size_t len = STDMIN ( length , size_t ( m_buffer . end ( ) - end ) ) ;
memcpy ( end , inString , len ) ;
if ( len < length )
memcpy ( m_buffer , inString + len , length - len ) ;
m_size + = length ;
}
FilterWithBufferedInput : : FilterWithBufferedInput ( BufferedTransformation * attachment )
: Filter ( attachment ) , m_firstSize ( SIZE_MAX ) , m_blockSize ( 0 ) , m_lastSize ( SIZE_MAX ) , m_firstInputDone ( false )
{
}
FilterWithBufferedInput : : FilterWithBufferedInput ( size_t firstSize , size_t blockSize , size_t lastSize , BufferedTransformation * attachment )
: Filter ( attachment ) , m_firstSize ( firstSize ) , m_blockSize ( blockSize ) , m_lastSize ( lastSize ) , m_firstInputDone ( false )
{
if ( m_firstSize = = SIZE_MAX | | m_blockSize < 1 | | m_lastSize = = SIZE_MAX )
throw InvalidArgument ( " FilterWithBufferedInput: invalid buffer size " ) ;
m_queue . ResetQueue ( 1 , m_firstSize ) ;
}
void FilterWithBufferedInput : : IsolatedInitialize ( const NameValuePairs & parameters )
{
InitializeDerivedAndReturnNewSizes ( parameters , m_firstSize , m_blockSize , m_lastSize ) ;
if ( m_firstSize = = SIZE_MAX | | m_blockSize < 1 | | m_lastSize = = SIZE_MAX )
throw InvalidArgument ( " FilterWithBufferedInput: invalid buffer size " ) ;
m_queue . ResetQueue ( 1 , m_firstSize ) ;
m_firstInputDone = false ;
}
bool FilterWithBufferedInput : : IsolatedFlush ( bool hardFlush , bool blocking )
{
if ( ! blocking )
throw BlockingInputOnly ( " FilterWithBufferedInput " ) ;
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if ( hardFlush )
ForceNextPut ( ) ;
FlushDerived ( ) ;
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return false ;
}
size_t FilterWithBufferedInput : : PutMaybeModifiable ( byte * inString , size_t length , int messageEnd , bool blocking , bool modifiable )
{
if ( ! blocking )
throw BlockingInputOnly ( " FilterWithBufferedInput " ) ;
if ( length ! = 0 )
{
size_t newLength = m_queue . CurrentSize ( ) + length ;
if ( ! m_firstInputDone & & newLength > = m_firstSize )
{
size_t len = m_firstSize - m_queue . CurrentSize ( ) ;
m_queue . Put ( inString , len ) ;
FirstPut ( m_queue . GetContigousBlocks ( m_firstSize ) ) ;
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CRYPTOPP_ASSERT ( m_queue . CurrentSize ( ) = = 0 ) ;
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m_queue . ResetQueue ( m_blockSize , ( 2 * m_blockSize + m_lastSize - 2 ) / m_blockSize ) ;
inString + = len ;
newLength - = m_firstSize ;
m_firstInputDone = true ;
}
if ( m_firstInputDone )
{
if ( m_blockSize = = 1 )
{
while ( newLength > m_lastSize & & m_queue . CurrentSize ( ) > 0 )
{
size_t len = newLength - m_lastSize ;
byte * ptr = m_queue . GetContigousBlocks ( len ) ;
NextPutModifiable ( ptr , len ) ;
newLength - = len ;
}
if ( newLength > m_lastSize )
{
size_t len = newLength - m_lastSize ;
NextPutMaybeModifiable ( inString , len , modifiable ) ;
inString + = len ;
newLength - = len ;
}
}
else
{
while ( newLength > = m_blockSize + m_lastSize & & m_queue . CurrentSize ( ) > = m_blockSize )
{
NextPutModifiable ( m_queue . GetBlock ( ) , m_blockSize ) ;
newLength - = m_blockSize ;
}
if ( newLength > = m_blockSize + m_lastSize & & m_queue . CurrentSize ( ) > 0 )
{
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CRYPTOPP_ASSERT ( m_queue . CurrentSize ( ) < m_blockSize ) ;
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size_t len = m_blockSize - m_queue . CurrentSize ( ) ;
m_queue . Put ( inString , len ) ;
inString + = len ;
NextPutModifiable ( m_queue . GetBlock ( ) , m_blockSize ) ;
newLength - = m_blockSize ;
}
if ( newLength > = m_blockSize + m_lastSize )
{
size_t len = RoundDownToMultipleOf ( newLength - m_lastSize , m_blockSize ) ;
NextPutMaybeModifiable ( inString , len , modifiable ) ;
inString + = len ;
newLength - = len ;
}
}
}
m_queue . Put ( inString , newLength - m_queue . CurrentSize ( ) ) ;
}
if ( messageEnd )
{
if ( ! m_firstInputDone & & m_firstSize = = 0 )
FirstPut ( NULL ) ;
SecByteBlock temp ( m_queue . CurrentSize ( ) ) ;
m_queue . GetAll ( temp ) ;
LastPut ( temp , temp . size ( ) ) ;
m_firstInputDone = false ;
m_queue . ResetQueue ( 1 , m_firstSize ) ;
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// Cast to void to suppress Coverity finding
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( void ) Output ( 1 , NULL , 0 , messageEnd , blocking ) ;
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}
return 0 ;
}
void FilterWithBufferedInput : : ForceNextPut ( )
{
if ( ! m_firstInputDone )
return ;
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if ( m_blockSize > 1 )
{
while ( m_queue . CurrentSize ( ) > = m_blockSize )
NextPutModifiable ( m_queue . GetBlock ( ) , m_blockSize ) ;
}
else
{
size_t len ;
while ( ( len = m_queue . CurrentSize ( ) ) > 0 )
NextPutModifiable ( m_queue . GetContigousBlocks ( len ) , len ) ;
}
}
void FilterWithBufferedInput : : NextPutMultiple ( const byte * inString , size_t length )
{
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CRYPTOPP_ASSERT ( m_blockSize > 1 ) ; // m_blockSize = 1 should always override this function
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while ( length > 0 )
{
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CRYPTOPP_ASSERT ( length > = m_blockSize ) ;
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NextPutSingle ( inString ) ;
inString + = m_blockSize ;
length - = m_blockSize ;
}
}
// *************************************************************
void Redirector : : Initialize ( const NameValuePairs & parameters , int propagation )
{
m_target = parameters . GetValueWithDefault ( " RedirectionTargetPointer " , ( BufferedTransformation * ) NULL ) ;
m_behavior = parameters . GetIntValueWithDefault ( " RedirectionBehavior " , PASS_EVERYTHING ) ;
if ( m_target & & GetPassSignals ( ) )
m_target - > Initialize ( parameters , propagation ) ;
}
// *************************************************************
ProxyFilter : : ProxyFilter ( BufferedTransformation * filter , size_t firstSize , size_t lastSize , BufferedTransformation * attachment )
: FilterWithBufferedInput ( firstSize , 1 , lastSize , attachment ) , m_filter ( filter )
{
if ( m_filter . get ( ) )
m_filter - > Attach ( new OutputProxy ( * this , false ) ) ;
}
bool ProxyFilter : : IsolatedFlush ( bool hardFlush , bool blocking )
{
return m_filter . get ( ) ? m_filter - > Flush ( hardFlush , - 1 , blocking ) : false ;
}
void ProxyFilter : : SetFilter ( Filter * filter )
{
m_filter . reset ( filter ) ;
if ( filter )
{
OutputProxy * proxy ;
member_ptr < OutputProxy > temp ( proxy = new OutputProxy ( * this , false ) ) ;
m_filter - > TransferAllTo ( * proxy ) ;
m_filter - > Attach ( temp . release ( ) ) ;
}
}
void ProxyFilter : : NextPutMultiple ( const byte * s , size_t len )
{
if ( m_filter . get ( ) )
m_filter - > Put ( s , len ) ;
}
void ProxyFilter : : NextPutModifiable ( byte * s , size_t len )
{
if ( m_filter . get ( ) )
m_filter - > PutModifiable ( s , len ) ;
}
// *************************************************************
void RandomNumberSink : : IsolatedInitialize ( const NameValuePairs & parameters )
{
parameters . GetRequiredParameter ( " RandomNumberSink " , " RandomNumberGeneratorPointer " , m_rng ) ;
}
size_t RandomNumberSink : : Put2 ( const byte * begin , size_t length , int messageEnd , bool blocking )
{
CRYPTOPP_UNUSED ( messageEnd ) ; CRYPTOPP_UNUSED ( blocking ) ;
m_rng - > IncorporateEntropy ( begin , length ) ;
return 0 ;
}
size_t ArraySink : : Put2 ( const byte * begin , size_t length , int messageEnd , bool blocking )
{
CRYPTOPP_UNUSED ( messageEnd ) ; CRYPTOPP_UNUSED ( blocking ) ;
// Avoid passing NULL pointer to memcpy. Using memmove due to
// Valgrind finding on overlapping buffers.
size_t copied = 0 ;
if ( m_buf & & begin )
{
copied = STDMIN ( length , SaturatingSubtract ( m_size , m_total ) ) ;
memmove ( m_buf + m_total , begin , copied ) ;
}
m_total + = copied ;
return length - copied ;
}
byte * ArraySink : : CreatePutSpace ( size_t & size )
{
size = SaturatingSubtract ( m_size , m_total ) ;
return m_buf + m_total ;
}
void ArraySink : : IsolatedInitialize ( const NameValuePairs & parameters )
{
ByteArrayParameter array ;
if ( ! parameters . GetValue ( Name : : OutputBuffer ( ) , array ) )
throw InvalidArgument ( " ArraySink: missing OutputBuffer argument " ) ;
m_buf = array . begin ( ) ;
m_size = array . size ( ) ;
}
size_t ArrayXorSink : : Put2 ( const byte * begin , size_t length , int messageEnd , bool blocking )
{
CRYPTOPP_UNUSED ( messageEnd ) ; CRYPTOPP_UNUSED ( blocking ) ;
// Avoid passing NULL pointer to xorbuf
size_t copied = 0 ;
if ( m_buf & & begin )
{
copied = STDMIN ( length , SaturatingSubtract ( m_size , m_total ) ) ;
xorbuf ( m_buf + m_total , begin , copied ) ;
}
m_total + = copied ;
return length - copied ;
}
// *************************************************************
StreamTransformationFilter : : StreamTransformationFilter ( StreamTransformation & c , BufferedTransformation * attachment , BlockPaddingScheme padding , bool allowAuthenticatedSymmetricCipher )
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: FilterWithBufferedInput ( attachment )
, m_cipher ( c ) , m_padding ( DEFAULT_PADDING ) , m_optimalBufferSize ( 0 )
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{
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CRYPTOPP_ASSERT ( c . MinLastBlockSize ( ) = = 0 | | c . MinLastBlockSize ( ) > c . MandatoryBlockSize ( ) ) ;
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if ( ! allowAuthenticatedSymmetricCipher & & dynamic_cast < AuthenticatedSymmetricCipher * > ( & c ) ! = 0 )
throw InvalidArgument ( " StreamTransformationFilter: please use AuthenticatedEncryptionFilter and AuthenticatedDecryptionFilter for AuthenticatedSymmetricCipher " ) ;
IsolatedInitialize ( MakeParameters ( Name : : BlockPaddingScheme ( ) , padding ) ) ;
}
size_t StreamTransformationFilter : : LastBlockSize ( StreamTransformation & c , BlockPaddingScheme padding )
{
if ( c . MinLastBlockSize ( ) > 0 )
return c . MinLastBlockSize ( ) ;
else if ( c . MandatoryBlockSize ( ) > 1 & & ! c . IsForwardTransformation ( ) & & padding ! = NO_PADDING & & padding ! = ZEROS_PADDING )
return c . MandatoryBlockSize ( ) ;
else
return 0 ;
}
void StreamTransformationFilter : : InitializeDerivedAndReturnNewSizes ( const NameValuePairs & parameters , size_t & firstSize , size_t & blockSize , size_t & lastSize )
{
BlockPaddingScheme padding = parameters . GetValueWithDefault ( Name : : BlockPaddingScheme ( ) , DEFAULT_PADDING ) ;
bool isBlockCipher = ( m_cipher . MandatoryBlockSize ( ) > 1 & & m_cipher . MinLastBlockSize ( ) = = 0 ) ;
if ( padding = = DEFAULT_PADDING )
m_padding = isBlockCipher ? PKCS_PADDING : NO_PADDING ;
else
m_padding = padding ;
if ( ! isBlockCipher & & ( m_padding = = PKCS_PADDING | | m_padding = = ONE_AND_ZEROS_PADDING ) )
throw InvalidArgument ( " StreamTransformationFilter: PKCS_PADDING and ONE_AND_ZEROS_PADDING cannot be used with " + m_cipher . AlgorithmName ( ) ) ;
firstSize = 0 ;
blockSize = m_cipher . MandatoryBlockSize ( ) ;
lastSize = LastBlockSize ( m_cipher , m_padding ) ;
}
void StreamTransformationFilter : : FirstPut ( const byte * inString )
{
CRYPTOPP_UNUSED ( inString ) ;
m_optimalBufferSize = m_cipher . OptimalBlockSize ( ) ;
m_optimalBufferSize = ( unsigned int ) STDMAX ( m_optimalBufferSize , RoundDownToMultipleOf ( 4096U , m_optimalBufferSize ) ) ;
}
void StreamTransformationFilter : : NextPutMultiple ( const byte * inString , size_t length )
{
if ( ! length )
return ;
size_t s = m_cipher . MandatoryBlockSize ( ) ;
do
{
size_t len = m_optimalBufferSize ;
byte * space = HelpCreatePutSpace ( * AttachedTransformation ( ) , DEFAULT_CHANNEL , s , length , len ) ;
if ( len < length )
{
if ( len = = m_optimalBufferSize )
len - = m_cipher . GetOptimalBlockSizeUsed ( ) ;
len = RoundDownToMultipleOf ( len , s ) ;
}
else
len = length ;
m_cipher . ProcessString ( space , inString , len ) ;
AttachedTransformation ( ) - > PutModifiable ( space , len ) ;
inString + = len ;
length - = len ;
}
while ( length > 0 ) ;
}
void StreamTransformationFilter : : NextPutModifiable ( byte * inString , size_t length )
{
m_cipher . ProcessString ( inString , length ) ;
AttachedTransformation ( ) - > PutModifiable ( inString , length ) ;
}
void StreamTransformationFilter : : LastPut ( const byte * inString , size_t length )
{
byte * space = NULL ;
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switch ( m_padding )
{
case NO_PADDING :
case ZEROS_PADDING :
if ( length > 0 )
{
size_t minLastBlockSize = m_cipher . MinLastBlockSize ( ) ;
bool isForwardTransformation = m_cipher . IsForwardTransformation ( ) ;
if ( isForwardTransformation & & m_padding = = ZEROS_PADDING & & ( minLastBlockSize = = 0 | | length < minLastBlockSize ) )
{
// do padding
size_t blockSize = STDMAX ( minLastBlockSize , ( size_t ) m_cipher . MandatoryBlockSize ( ) ) ;
space = HelpCreatePutSpace ( * AttachedTransformation ( ) , DEFAULT_CHANNEL , blockSize ) ;
if ( inString ) { memcpy ( space , inString , length ) ; }
memset ( space + length , 0 , blockSize - length ) ;
m_cipher . ProcessLastBlock ( space , space , blockSize ) ;
AttachedTransformation ( ) - > Put ( space , blockSize ) ;
}
else
{
if ( minLastBlockSize = = 0 )
{
if ( isForwardTransformation )
throw InvalidDataFormat ( " StreamTransformationFilter: plaintext length is not a multiple of block size and NO_PADDING is specified " ) ;
else
throw InvalidCiphertext ( " StreamTransformationFilter: ciphertext length is not a multiple of block size " ) ;
}
space = HelpCreatePutSpace ( * AttachedTransformation ( ) , DEFAULT_CHANNEL , length , m_optimalBufferSize ) ;
m_cipher . ProcessLastBlock ( space , inString , length ) ;
AttachedTransformation ( ) - > Put ( space , length ) ;
}
}
break ;
case PKCS_PADDING :
case ONE_AND_ZEROS_PADDING :
unsigned int s ;
s = m_cipher . MandatoryBlockSize ( ) ;
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CRYPTOPP_ASSERT ( s > 1 ) ;
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space = HelpCreatePutSpace ( * AttachedTransformation ( ) , DEFAULT_CHANNEL , s , m_optimalBufferSize ) ;
if ( m_cipher . IsForwardTransformation ( ) )
{
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CRYPTOPP_ASSERT ( length < s ) ;
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if ( inString ) { memcpy ( space , inString , length ) ; }
if ( m_padding = = PKCS_PADDING )
{
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CRYPTOPP_ASSERT ( s < 256 ) ;
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byte pad = byte ( s - length ) ;
memset ( space + length , pad , s - length ) ;
}
else
{
space [ length ] = 0x80 ;
memset ( space + length + 1 , 0 , s - length - 1 ) ;
}
m_cipher . ProcessData ( space , space , s ) ;
AttachedTransformation ( ) - > Put ( space , s ) ;
}
else
{
if ( length ! = s )
throw InvalidCiphertext ( " StreamTransformationFilter: ciphertext length is not a multiple of block size " ) ;
m_cipher . ProcessData ( space , inString , s ) ;
if ( m_padding = = PKCS_PADDING )
{
byte pad = space [ s - 1 ] ;
if ( pad < 1 | | pad > s | | std : : find_if ( space + s - pad , space + s , std : : bind2nd ( std : : not_equal_to < byte > ( ) , pad ) ) ! = space + s )
throw InvalidCiphertext ( " StreamTransformationFilter: invalid PKCS #7 block padding found " ) ;
length = s - pad ;
}
else
{
while ( length > 1 & & space [ length - 1 ] = = 0 )
- - length ;
if ( space [ - - length ] ! = 0x80 )
throw InvalidCiphertext ( " StreamTransformationFilter: invalid ones-and-zeros padding found " ) ;
}
AttachedTransformation ( ) - > Put ( space , length ) ;
}
break ;
default :
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CRYPTOPP_ASSERT ( false ) ;
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}
}
// *************************************************************
HashFilter : : HashFilter ( HashTransformation & hm , BufferedTransformation * attachment , bool putMessage , int truncatedDigestSize , const std : : string & messagePutChannel , const std : : string & hashPutChannel )
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: m_hashModule ( hm ) , m_putMessage ( putMessage ) , m_digestSize ( 0 ) , m_space ( NULL )
, m_messagePutChannel ( messagePutChannel ) , m_hashPutChannel ( hashPutChannel )
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{
m_digestSize = truncatedDigestSize < 0 ? m_hashModule . DigestSize ( ) : truncatedDigestSize ;
Detach ( attachment ) ;
}
void HashFilter : : IsolatedInitialize ( const NameValuePairs & parameters )
{
m_putMessage = parameters . GetValueWithDefault ( Name : : PutMessage ( ) , false ) ;
int s = parameters . GetIntValueWithDefault ( Name : : TruncatedDigestSize ( ) , - 1 ) ;
m_digestSize = s < 0 ? m_hashModule . DigestSize ( ) : s ;
}
size_t HashFilter : : Put2 ( const byte * inString , size_t length , int messageEnd , bool blocking )
{
FILTER_BEGIN ;
if ( m_putMessage )
FILTER_OUTPUT3 ( 1 , 0 , inString , length , 0 , m_messagePutChannel ) ;
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if ( inString & & length )
m_hashModule . Update ( inString , length ) ;
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if ( messageEnd )
{
{
size_t size ;
m_space = HelpCreatePutSpace ( * AttachedTransformation ( ) , m_hashPutChannel , m_digestSize , m_digestSize , size = m_digestSize ) ;
m_hashModule . TruncatedFinal ( m_space , m_digestSize ) ;
}
FILTER_OUTPUT3 ( 2 , 0 , m_space , m_digestSize , messageEnd , m_hashPutChannel ) ;
}
FILTER_END_NO_MESSAGE_END ;
}
// *************************************************************
HashVerificationFilter : : HashVerificationFilter ( HashTransformation & hm , BufferedTransformation * attachment , word32 flags , int truncatedDigestSize )
: FilterWithBufferedInput ( attachment )
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, m_hashModule ( hm ) , m_flags ( 0 ) , m_digestSize ( 0 ) , m_verified ( false )
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{
IsolatedInitialize ( MakeParameters ( Name : : HashVerificationFilterFlags ( ) , flags ) ( Name : : TruncatedDigestSize ( ) , truncatedDigestSize ) ) ;
}
void HashVerificationFilter : : InitializeDerivedAndReturnNewSizes ( const NameValuePairs & parameters , size_t & firstSize , size_t & blockSize , size_t & lastSize )
{
m_flags = parameters . GetValueWithDefault ( Name : : HashVerificationFilterFlags ( ) , ( word32 ) DEFAULT_FLAGS ) ;
int s = parameters . GetIntValueWithDefault ( Name : : TruncatedDigestSize ( ) , - 1 ) ;
m_digestSize = s < 0 ? m_hashModule . DigestSize ( ) : s ;
m_verified = false ;
firstSize = m_flags & HASH_AT_BEGIN ? m_digestSize : 0 ;
blockSize = 1 ;
lastSize = m_flags & HASH_AT_BEGIN ? 0 : m_digestSize ;
}
void HashVerificationFilter : : FirstPut ( const byte * inString )
{
if ( m_flags & HASH_AT_BEGIN )
{
m_expectedHash . New ( m_digestSize ) ;
if ( inString ) { memcpy ( m_expectedHash , inString , m_expectedHash . size ( ) ) ; }
if ( m_flags & PUT_HASH )
AttachedTransformation ( ) - > Put ( inString , m_expectedHash . size ( ) ) ;
}
}
void HashVerificationFilter : : NextPutMultiple ( const byte * inString , size_t length )
{
m_hashModule . Update ( inString , length ) ;
if ( m_flags & PUT_MESSAGE )
AttachedTransformation ( ) - > Put ( inString , length ) ;
}
void HashVerificationFilter : : LastPut ( const byte * inString , size_t length )
{
if ( m_flags & HASH_AT_BEGIN )
{
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CRYPTOPP_ASSERT ( length = = 0 ) ;
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m_verified = m_hashModule . TruncatedVerify ( m_expectedHash , m_digestSize ) ;
}
else
{
m_verified = ( length = = m_digestSize & & m_hashModule . TruncatedVerify ( inString , length ) ) ;
if ( m_flags & PUT_HASH )
AttachedTransformation ( ) - > Put ( inString , length ) ;
}
if ( m_flags & PUT_RESULT )
AttachedTransformation ( ) - > Put ( m_verified ) ;
if ( ( m_flags & THROW_EXCEPTION ) & & ! m_verified )
throw HashVerificationFailed ( ) ;
}
// *************************************************************
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AuthenticatedEncryptionFilter : : AuthenticatedEncryptionFilter ( AuthenticatedSymmetricCipher & c , BufferedTransformation * attachment ,
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bool putAAD , int truncatedDigestSize , const std : : string & macChannel , BlockPaddingScheme padding )
: StreamTransformationFilter ( c , attachment , padding , true )
, m_hf ( c , new OutputProxy ( * this , false ) , putAAD , truncatedDigestSize , AAD_CHANNEL , macChannel )
{
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CRYPTOPP_ASSERT ( c . IsForwardTransformation ( ) ) ;
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}
void AuthenticatedEncryptionFilter : : IsolatedInitialize ( const NameValuePairs & parameters )
{
m_hf . IsolatedInitialize ( parameters ) ;
StreamTransformationFilter : : IsolatedInitialize ( parameters ) ;
}
byte * AuthenticatedEncryptionFilter : : ChannelCreatePutSpace ( const std : : string & channel , size_t & size )
{
if ( channel . empty ( ) )
return StreamTransformationFilter : : CreatePutSpace ( size ) ;
if ( channel = = AAD_CHANNEL )
return m_hf . CreatePutSpace ( size ) ;
throw InvalidChannelName ( " AuthenticatedEncryptionFilter " , channel ) ;
}
size_t AuthenticatedEncryptionFilter : : ChannelPut2 ( const std : : string & channel , const byte * begin , size_t length , int messageEnd , bool blocking )
{
if ( channel . empty ( ) )
return StreamTransformationFilter : : Put2 ( begin , length , messageEnd , blocking ) ;
if ( channel = = AAD_CHANNEL )
return m_hf . Put2 ( begin , length , 0 , blocking ) ;
throw InvalidChannelName ( " AuthenticatedEncryptionFilter " , channel ) ;
}
void AuthenticatedEncryptionFilter : : LastPut ( const byte * inString , size_t length )
{
StreamTransformationFilter : : LastPut ( inString , length ) ;
m_hf . MessageEnd ( ) ;
}
// *************************************************************
AuthenticatedDecryptionFilter : : AuthenticatedDecryptionFilter ( AuthenticatedSymmetricCipher & c , BufferedTransformation * attachment , word32 flags , int truncatedDigestSize , BlockPaddingScheme padding )
: FilterWithBufferedInput ( attachment )
, m_hashVerifier ( c , new OutputProxy ( * this , false ) )
, m_streamFilter ( c , new OutputProxy ( * this , false ) , padding , true )
{
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CRYPTOPP_ASSERT ( ! c . IsForwardTransformation ( ) | | c . IsSelfInverting ( ) ) ;
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IsolatedInitialize ( MakeParameters ( Name : : BlockPaddingScheme ( ) , padding ) ( Name : : AuthenticatedDecryptionFilterFlags ( ) , flags ) ( Name : : TruncatedDigestSize ( ) , truncatedDigestSize ) ) ;
}
void AuthenticatedDecryptionFilter : : InitializeDerivedAndReturnNewSizes ( const NameValuePairs & parameters , size_t & firstSize , size_t & blockSize , size_t & lastSize )
{
word32 flags = parameters . GetValueWithDefault ( Name : : AuthenticatedDecryptionFilterFlags ( ) , ( word32 ) DEFAULT_FLAGS ) ;
m_hashVerifier . Initialize ( CombinedNameValuePairs ( parameters , MakeParameters ( Name : : HashVerificationFilterFlags ( ) , flags ) ) ) ;
m_streamFilter . Initialize ( parameters ) ;
firstSize = m_hashVerifier . m_firstSize ;
blockSize = 1 ;
lastSize = m_hashVerifier . m_lastSize ;
}
byte * AuthenticatedDecryptionFilter : : ChannelCreatePutSpace ( const std : : string & channel , size_t & size )
{
if ( channel . empty ( ) )
return m_streamFilter . CreatePutSpace ( size ) ;
if ( channel = = AAD_CHANNEL )
return m_hashVerifier . CreatePutSpace ( size ) ;
throw InvalidChannelName ( " AuthenticatedDecryptionFilter " , channel ) ;
}
size_t AuthenticatedDecryptionFilter : : ChannelPut2 ( const std : : string & channel , const byte * begin , size_t length , int messageEnd , bool blocking )
{
if ( channel . empty ( ) )
{
if ( m_lastSize > 0 )
m_hashVerifier . ForceNextPut ( ) ;
return FilterWithBufferedInput : : Put2 ( begin , length , messageEnd , blocking ) ;
}
if ( channel = = AAD_CHANNEL )
return m_hashVerifier . Put2 ( begin , length , 0 , blocking ) ;
throw InvalidChannelName ( " AuthenticatedDecryptionFilter " , channel ) ;
}
void AuthenticatedDecryptionFilter : : FirstPut ( const byte * inString )
{
m_hashVerifier . Put ( inString , m_firstSize ) ;
}
void AuthenticatedDecryptionFilter : : NextPutMultiple ( const byte * inString , size_t length )
{
m_streamFilter . Put ( inString , length ) ;
}
void AuthenticatedDecryptionFilter : : LastPut ( const byte * inString , size_t length )
{
m_streamFilter . MessageEnd ( ) ;
m_hashVerifier . PutMessageEnd ( inString , length ) ;
}
// *************************************************************
void SignerFilter : : IsolatedInitialize ( const NameValuePairs & parameters )
{
m_putMessage = parameters . GetValueWithDefault ( Name : : PutMessage ( ) , false ) ;
m_messageAccumulator . reset ( m_signer . NewSignatureAccumulator ( m_rng ) ) ;
}
size_t SignerFilter : : Put2 ( const byte * inString , size_t length , int messageEnd , bool blocking )
{
FILTER_BEGIN ;
m_messageAccumulator - > Update ( inString , length ) ;
if ( m_putMessage )
FILTER_OUTPUT ( 1 , inString , length , 0 ) ;
if ( messageEnd )
{
m_buf . New ( m_signer . SignatureLength ( ) ) ;
m_signer . Sign ( m_rng , m_messageAccumulator . release ( ) , m_buf ) ;
FILTER_OUTPUT ( 2 , m_buf , m_buf . size ( ) , messageEnd ) ;
m_messageAccumulator . reset ( m_signer . NewSignatureAccumulator ( m_rng ) ) ;
}
FILTER_END_NO_MESSAGE_END ;
}
SignatureVerificationFilter : : SignatureVerificationFilter ( const PK_Verifier & verifier , BufferedTransformation * attachment , word32 flags )
: FilterWithBufferedInput ( attachment )
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, m_verifier ( verifier ) , m_flags ( 0 ) , m_verified ( 0 )
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{
IsolatedInitialize ( MakeParameters ( Name : : SignatureVerificationFilterFlags ( ) , flags ) ) ;
}
void SignatureVerificationFilter : : InitializeDerivedAndReturnNewSizes ( const NameValuePairs & parameters , size_t & firstSize , size_t & blockSize , size_t & lastSize )
{
m_flags = parameters . GetValueWithDefault ( Name : : SignatureVerificationFilterFlags ( ) , ( word32 ) DEFAULT_FLAGS ) ;
m_messageAccumulator . reset ( m_verifier . NewVerificationAccumulator ( ) ) ;
size_t size = m_verifier . SignatureLength ( ) ;
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CRYPTOPP_ASSERT ( size ! = 0 ) ; // TODO: handle recoverable signature scheme
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m_verified = false ;
firstSize = m_flags & SIGNATURE_AT_BEGIN ? size : 0 ;
blockSize = 1 ;
lastSize = m_flags & SIGNATURE_AT_BEGIN ? 0 : size ;
}
void SignatureVerificationFilter : : FirstPut ( const byte * inString )
{
if ( m_flags & SIGNATURE_AT_BEGIN )
{
if ( m_verifier . SignatureUpfront ( ) )
m_verifier . InputSignature ( * m_messageAccumulator , inString , m_verifier . SignatureLength ( ) ) ;
else
{
m_signature . New ( m_verifier . SignatureLength ( ) ) ;
if ( inString ) { memcpy ( m_signature , inString , m_signature . size ( ) ) ; }
}
if ( m_flags & PUT_SIGNATURE )
AttachedTransformation ( ) - > Put ( inString , m_signature . size ( ) ) ;
}
else
{
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CRYPTOPP_ASSERT ( ! m_verifier . SignatureUpfront ( ) ) ;
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}
}
void SignatureVerificationFilter : : NextPutMultiple ( const byte * inString , size_t length )
{
m_messageAccumulator - > Update ( inString , length ) ;
if ( m_flags & PUT_MESSAGE )
AttachedTransformation ( ) - > Put ( inString , length ) ;
}
void SignatureVerificationFilter : : LastPut ( const byte * inString , size_t length )
{
if ( m_flags & SIGNATURE_AT_BEGIN )
{
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CRYPTOPP_ASSERT ( length = = 0 ) ;
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m_verifier . InputSignature ( * m_messageAccumulator , m_signature , m_signature . size ( ) ) ;
m_verified = m_verifier . VerifyAndRestart ( * m_messageAccumulator ) ;
}
else
{
m_verifier . InputSignature ( * m_messageAccumulator , inString , length ) ;
m_verified = m_verifier . VerifyAndRestart ( * m_messageAccumulator ) ;
if ( m_flags & PUT_SIGNATURE )
AttachedTransformation ( ) - > Put ( inString , length ) ;
}
if ( m_flags & PUT_RESULT )
AttachedTransformation ( ) - > Put ( m_verified ) ;
if ( ( m_flags & THROW_EXCEPTION ) & & ! m_verified )
throw SignatureVerificationFailed ( ) ;
}
// *************************************************************
size_t Source : : PumpAll2 ( bool blocking )
{
unsigned int messageCount = UINT_MAX ;
do {
RETURN_IF_NONZERO ( PumpMessages2 ( messageCount , blocking ) ) ;
} while ( messageCount = = UINT_MAX ) ;
return 0 ;
}
bool Store : : GetNextMessage ( )
{
if ( ! m_messageEnd & & ! AnyRetrievable ( ) )
{
m_messageEnd = true ;
return true ;
}
else
return false ;
}
unsigned int Store : : CopyMessagesTo ( BufferedTransformation & target , unsigned int count , const std : : string & channel ) const
{
if ( m_messageEnd | | count = = 0 )
return 0 ;
else
{
CopyTo ( target , ULONG_MAX , channel ) ;
if ( GetAutoSignalPropagation ( ) )
target . ChannelMessageEnd ( channel , GetAutoSignalPropagation ( ) - 1 ) ;
return 1 ;
}
}
void StringStore : : StoreInitialize ( const NameValuePairs & parameters )
{
ConstByteArrayParameter array ;
if ( ! parameters . GetValue ( Name : : InputBuffer ( ) , array ) )
throw InvalidArgument ( " StringStore: missing InputBuffer argument " ) ;
m_store = array . begin ( ) ;
m_length = array . size ( ) ;
m_count = 0 ;
}
size_t StringStore : : TransferTo2 ( BufferedTransformation & target , lword & transferBytes , const std : : string & channel , bool blocking )
{
lword position = 0 ;
size_t blockedBytes = CopyRangeTo2 ( target , position , transferBytes , channel , blocking ) ;
m_count + = ( size_t ) position ;
transferBytes = position ;
return blockedBytes ;
}
size_t StringStore : : CopyRangeTo2 ( BufferedTransformation & target , lword & begin , lword end , const std : : string & channel , bool blocking ) const
{
size_t i = UnsignedMin ( m_length , m_count + begin ) ;
size_t len = UnsignedMin ( m_length - i , end - begin ) ;
size_t blockedBytes = target . ChannelPut2 ( channel , m_store + i , len , 0 , blocking ) ;
if ( ! blockedBytes )
begin + = len ;
return blockedBytes ;
}
void RandomNumberStore : : StoreInitialize ( const NameValuePairs & parameters )
{
parameters . GetRequiredParameter ( " RandomNumberStore " , " RandomNumberGeneratorPointer " , m_rng ) ;
int length ;
parameters . GetRequiredIntParameter ( " RandomNumberStore " , " RandomNumberStoreSize " , length ) ;
m_length = length ;
}
size_t RandomNumberStore : : TransferTo2 ( BufferedTransformation & target , lword & transferBytes , const std : : string & channel , bool blocking )
{
if ( ! blocking )
throw NotImplemented ( " RandomNumberStore: nonblocking transfer is not implemented by this object " ) ;
transferBytes = UnsignedMin ( transferBytes , m_length - m_count ) ;
m_rng - > GenerateIntoBufferedTransformation ( target , channel , transferBytes ) ;
m_count + = transferBytes ;
return 0 ;
}
size_t NullStore : : CopyRangeTo2 ( BufferedTransformation & target , lword & begin , lword end , const std : : string & channel , bool blocking ) const
{
static const byte nullBytes [ 128 ] = { 0 } ;
while ( begin < end )
{
size_t len = ( size_t ) STDMIN ( end - begin , lword ( 128 ) ) ;
size_t blockedBytes = target . ChannelPut2 ( channel , nullBytes , len , 0 , blocking ) ;
if ( blockedBytes )
return blockedBytes ;
begin + = len ;
}
return 0 ;
}
size_t NullStore : : TransferTo2 ( BufferedTransformation & target , lword & transferBytes , const std : : string & channel , bool blocking )
{
lword begin = 0 ;
size_t blockedBytes = NullStore : : CopyRangeTo2 ( target , begin , transferBytes , channel , blocking ) ;
transferBytes = begin ;
m_size - = begin ;
return blockedBytes ;
}
NAMESPACE_END
# endif