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// cryptlib.cpp - originally written and placed in the public domain by Wei Dai
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# include "pch.h"
# include "config.h"
# if CRYPTOPP_MSC_VERSION
# pragma warning(disable: 4127 4189 4459)
# endif
# if CRYPTOPP_GCC_DIAGNOSTIC_AVAILABLE
# pragma GCC diagnostic ignored "-Wunused-value"
# pragma GCC diagnostic ignored "-Wunused-variable"
# pragma GCC diagnostic ignored "-Wunused-parameter"
# endif
# ifndef CRYPTOPP_IMPORTS
# include "cryptlib.h"
# include "misc.h"
# include "filters.h"
# include "algparam.h"
# include "fips140.h"
# include "argnames.h"
# include "fltrimpl.h"
# include "trdlocal.h"
# include "osrng.h"
# include "secblock.h"
# include "smartptr.h"
// http://www.cygwin.com/faq.html#faq.api.winsock
# if (defined(__CYGWIN__) || defined(__CYGWIN32__)) && defined(PREFER_WINDOWS_STYLE_SOCKETS)
# error Cygwin does not support Windows style sockets. See http: //www.cygwin.com/faq.html#faq.api.winsock
# endif
NAMESPACE_BEGIN ( CryptoPP )
CRYPTOPP_COMPILE_ASSERT ( sizeof ( byte ) = = 1 ) ;
CRYPTOPP_COMPILE_ASSERT ( sizeof ( word16 ) = = 2 ) ;
CRYPTOPP_COMPILE_ASSERT ( sizeof ( word32 ) = = 4 ) ;
CRYPTOPP_COMPILE_ASSERT ( sizeof ( word64 ) = = 8 ) ;
# ifdef CRYPTOPP_NATIVE_DWORD_AVAILABLE
CRYPTOPP_COMPILE_ASSERT ( sizeof ( dword ) = = 2 * sizeof ( word ) ) ;
# endif
# if HAVE_GCC_INIT_PRIORITY
CRYPTOPP_COMPILE_ASSERT ( CRYPTOPP_INIT_PRIORITY > = 101 ) ;
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const std : : string DEFAULT_CHANNEL __attribute__ ( ( init_priority ( CRYPTOPP_INIT_PRIORITY + 25 ) ) ) = " " ;
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const std : : string AAD_CHANNEL __attribute__ ( ( init_priority ( CRYPTOPP_INIT_PRIORITY + 26 ) ) ) = " AAD " ;
# elif HAVE_MSC_INIT_PRIORITY
# pragma warning(disable: 4073)
# pragma init_seg(lib)
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const std : : string DEFAULT_CHANNEL = " " ;
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const std : : string AAD_CHANNEL = " AAD " ;
# pragma warning(default: 4073)
# else
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static const std : : string s1 ( " " ) , s2 ( " AAD " ) ;
const std : : string DEFAULT_CHANNEL = s1 ;
const std : : string AAD_CHANNEL = s2 ;
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# endif
class NullNameValuePairs : public NameValuePairs
{
public :
bool GetVoidValue ( const char * name , const std : : type_info & valueType , void * pValue ) const
{ CRYPTOPP_UNUSED ( name ) ; CRYPTOPP_UNUSED ( valueType ) ; CRYPTOPP_UNUSED ( pValue ) ; return false ; }
} ;
# if HAVE_GCC_INIT_PRIORITY
const simple_ptr < NullNameValuePairs > s_pNullNameValuePairs __attribute__ ( ( init_priority ( CRYPTOPP_INIT_PRIORITY + 30 ) ) ) = new NullNameValuePairs ;
const NameValuePairs & g_nullNameValuePairs = * s_pNullNameValuePairs . m_p ;
# else
const simple_ptr < NullNameValuePairs > s_pNullNameValuePairs ( new NullNameValuePairs ) ;
const NameValuePairs & g_nullNameValuePairs = * s_pNullNameValuePairs . m_p ;
# endif
BufferedTransformation & TheBitBucket ( )
{
static BitBucket bitBucket ;
return bitBucket ;
}
Algorithm : : Algorithm ( bool checkSelfTestStatus )
{
if ( checkSelfTestStatus & & FIPS_140_2_ComplianceEnabled ( ) )
{
if ( GetPowerUpSelfTestStatus ( ) = = POWER_UP_SELF_TEST_NOT_DONE & & ! PowerUpSelfTestInProgressOnThisThread ( ) )
throw SelfTestFailure ( " Cryptographic algorithms are disabled before the power-up self tests are performed. " ) ;
if ( GetPowerUpSelfTestStatus ( ) = = POWER_UP_SELF_TEST_FAILED )
throw SelfTestFailure ( " Cryptographic algorithms are disabled after a power-up self test failed. " ) ;
}
}
void SimpleKeyingInterface : : SetKey ( const byte * key , size_t length , const NameValuePairs & params )
{
this - > ThrowIfInvalidKeyLength ( length ) ;
this - > UncheckedSetKey ( key , ( unsigned int ) length , params ) ;
}
void SimpleKeyingInterface : : SetKeyWithRounds ( const byte * key , size_t length , int rounds )
{
SetKey ( key , length , MakeParameters ( Name : : Rounds ( ) , rounds ) ) ;
}
void SimpleKeyingInterface : : SetKeyWithIV ( const byte * key , size_t length , const byte * iv , size_t ivLength )
{
SetKey ( key , length , MakeParameters ( Name : : IV ( ) , ConstByteArrayParameter ( iv , ivLength ) ) ) ;
}
void SimpleKeyingInterface : : ThrowIfInvalidKeyLength ( size_t length )
{
if ( ! IsValidKeyLength ( length ) )
throw InvalidKeyLength ( GetAlgorithm ( ) . AlgorithmName ( ) , length ) ;
}
void SimpleKeyingInterface : : ThrowIfResynchronizable ( )
{
if ( IsResynchronizable ( ) )
throw InvalidArgument ( GetAlgorithm ( ) . AlgorithmName ( ) + " : this object requires an IV " ) ;
}
void SimpleKeyingInterface : : ThrowIfInvalidIV ( const byte * iv )
{
if ( ! iv & & IVRequirement ( ) = = UNPREDICTABLE_RANDOM_IV )
throw InvalidArgument ( GetAlgorithm ( ) . AlgorithmName ( ) + " : this object cannot use a null IV " ) ;
}
size_t SimpleKeyingInterface : : ThrowIfInvalidIVLength ( int size )
{
if ( size < 0 )
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return ( size_t ) IVSize ( ) ;
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else if ( ( size_t ) size < MinIVLength ( ) )
throw InvalidArgument ( GetAlgorithm ( ) . AlgorithmName ( ) + " : IV length " + IntToString ( size ) + " is less than the minimum of " + IntToString ( MinIVLength ( ) ) ) ;
else if ( ( size_t ) size > MaxIVLength ( ) )
throw InvalidArgument ( GetAlgorithm ( ) . AlgorithmName ( ) + " : IV length " + IntToString ( size ) + " exceeds the maximum of " + IntToString ( MaxIVLength ( ) ) ) ;
else
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return ( size_t ) size ;
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}
const byte * SimpleKeyingInterface : : GetIVAndThrowIfInvalid ( const NameValuePairs & params , size_t & size )
{
ConstByteArrayParameter ivWithLength ;
const byte * iv ;
bool found = false ;
try { found = params . GetValue ( Name : : IV ( ) , ivWithLength ) ; }
catch ( const NameValuePairs : : ValueTypeMismatch & ) { }
if ( found )
{
iv = ivWithLength . begin ( ) ;
ThrowIfInvalidIV ( iv ) ;
size = ThrowIfInvalidIVLength ( ( int ) ivWithLength . size ( ) ) ;
return iv ;
}
else if ( params . GetValue ( Name : : IV ( ) , iv ) )
{
ThrowIfInvalidIV ( iv ) ;
size = IVSize ( ) ;
return iv ;
}
else
{
ThrowIfResynchronizable ( ) ;
size = 0 ;
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return NULLPTR ;
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}
}
void SimpleKeyingInterface : : GetNextIV ( RandomNumberGenerator & rng , byte * IV )
{
rng . GenerateBlock ( IV , IVSize ( ) ) ;
}
size_t BlockTransformation : : AdvancedProcessBlocks ( const byte * inBlocks , const byte * xorBlocks , byte * outBlocks , size_t length , word32 flags ) const
{
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CRYPTOPP_ASSERT ( inBlocks ) ;
CRYPTOPP_ASSERT ( outBlocks ) ;
CRYPTOPP_ASSERT ( length ) ;
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size_t blockSize = BlockSize ( ) ;
size_t inIncrement = ( flags & ( BT_InBlockIsCounter | BT_DontIncrementInOutPointers ) ) ? 0 : blockSize ;
size_t xorIncrement = xorBlocks ? blockSize : 0 ;
size_t outIncrement = ( flags & BT_DontIncrementInOutPointers ) ? 0 : blockSize ;
if ( flags & BT_ReverseDirection )
{
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CRYPTOPP_ASSERT ( length % blockSize = = 0 ) ;
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inBlocks + = length - blockSize ;
xorBlocks + = length - blockSize ;
outBlocks + = length - blockSize ;
inIncrement = 0 - inIncrement ;
xorIncrement = 0 - xorIncrement ;
outIncrement = 0 - outIncrement ;
}
while ( length > = blockSize )
{
if ( flags & BT_XorInput )
{
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// Coverity finding. However, xorBlocks is never NULL if BT_XorInput.
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CRYPTOPP_ASSERT ( xorBlocks ) ;
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# if defined(__COVERITY__)
if ( xorBlocks )
# endif
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xorbuf ( outBlocks , xorBlocks , inBlocks , blockSize ) ;
ProcessBlock ( outBlocks ) ;
}
else
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{
// xorBlocks can be NULL. See, for example, ECB_OneWay::ProcessData.
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ProcessAndXorBlock ( inBlocks , xorBlocks , outBlocks ) ;
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}
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if ( flags & BT_InBlockIsCounter )
const_cast < byte * > ( inBlocks ) [ blockSize - 1 ] + + ;
inBlocks + = inIncrement ;
outBlocks + = outIncrement ;
xorBlocks + = xorIncrement ;
length - = blockSize ;
}
return length ;
}
unsigned int BlockTransformation : : OptimalDataAlignment ( ) const
{
return GetAlignmentOf < word32 > ( ) ;
}
unsigned int StreamTransformation : : OptimalDataAlignment ( ) const
{
return GetAlignmentOf < word32 > ( ) ;
}
unsigned int HashTransformation : : OptimalDataAlignment ( ) const
{
return GetAlignmentOf < word32 > ( ) ;
}
void StreamTransformation : : ProcessLastBlock ( byte * outString , const byte * inString , size_t length )
{
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CRYPTOPP_ASSERT ( MinLastBlockSize ( ) = = 0 ) ; // this function should be overridden otherwise
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if ( length = = MandatoryBlockSize ( ) )
ProcessData ( outString , inString , length ) ;
else if ( length ! = 0 )
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throw NotImplemented ( AlgorithmName ( ) + " : this object doesn't support a special last block " ) ;
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}
void AuthenticatedSymmetricCipher : : SpecifyDataLengths ( lword headerLength , lword messageLength , lword footerLength )
{
if ( headerLength > MaxHeaderLength ( ) )
throw InvalidArgument ( GetAlgorithm ( ) . AlgorithmName ( ) + " : header length " + IntToString ( headerLength ) + " exceeds the maximum of " + IntToString ( MaxHeaderLength ( ) ) ) ;
if ( messageLength > MaxMessageLength ( ) )
throw InvalidArgument ( GetAlgorithm ( ) . AlgorithmName ( ) + " : message length " + IntToString ( messageLength ) + " exceeds the maximum of " + IntToString ( MaxMessageLength ( ) ) ) ;
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if ( footerLength > MaxFooterLength ( ) )
throw InvalidArgument ( GetAlgorithm ( ) . AlgorithmName ( ) + " : footer length " + IntToString ( footerLength ) + " exceeds the maximum of " + IntToString ( MaxFooterLength ( ) ) ) ;
UncheckedSpecifyDataLengths ( headerLength , messageLength , footerLength ) ;
}
void AuthenticatedSymmetricCipher : : EncryptAndAuthenticate ( byte * ciphertext , byte * mac , size_t macSize , const byte * iv , int ivLength , const byte * header , size_t headerLength , const byte * message , size_t messageLength )
{
Resynchronize ( iv , ivLength ) ;
SpecifyDataLengths ( headerLength , messageLength ) ;
Update ( header , headerLength ) ;
ProcessString ( ciphertext , message , messageLength ) ;
TruncatedFinal ( mac , macSize ) ;
}
bool AuthenticatedSymmetricCipher : : DecryptAndVerify ( byte * message , const byte * mac , size_t macLength , const byte * iv , int ivLength , const byte * header , size_t headerLength , const byte * ciphertext , size_t ciphertextLength )
{
Resynchronize ( iv , ivLength ) ;
SpecifyDataLengths ( headerLength , ciphertextLength ) ;
Update ( header , headerLength ) ;
ProcessString ( message , ciphertext , ciphertextLength ) ;
return TruncatedVerify ( mac , macLength ) ;
}
unsigned int RandomNumberGenerator : : GenerateBit ( )
{
return GenerateByte ( ) & 1 ;
}
byte RandomNumberGenerator : : GenerateByte ( )
{
byte b ;
GenerateBlock ( & b , 1 ) ;
return b ;
}
word32 RandomNumberGenerator : : GenerateWord32 ( word32 min , word32 max )
{
const word32 range = max - min ;
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const unsigned int maxBits = BitPrecision ( range ) ;
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word32 value ;
do
{
GenerateBlock ( ( byte * ) & value , sizeof ( value ) ) ;
value = Crop ( value , maxBits ) ;
} while ( value > range ) ;
return value + min ;
}
// Stack recursion below... GenerateIntoBufferedTransformation calls GenerateBlock,
// and GenerateBlock calls GenerateIntoBufferedTransformation. Ad infinitum. Also
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// see http://github.com/weidai11/cryptopp/issues/38.
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//
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// According to Wei, RandomNumberGenerator is an interface, and it should not
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// be instantiable. Its now spilt milk, and we are going to CRYPTOPP_ASSERT it in Debug
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// builds to alert the programmer and throw in Release builds. Developers have
// a reference implementation in case its needed. If a programmer
// unintentionally lands here, then they should ensure use of a
// RandomNumberGenerator pointer or reference so polymorphism can provide the
// proper runtime dispatching.
void RandomNumberGenerator : : GenerateBlock ( byte * output , size_t size )
{
CRYPTOPP_UNUSED ( output ) , CRYPTOPP_UNUSED ( size ) ;
#if 0
// This breaks AutoSeededX917RNG<T> generators.
throw NotImplemented ( " RandomNumberGenerator: GenerateBlock not implemented " ) ;
# endif
ArraySink s ( output , size ) ;
GenerateIntoBufferedTransformation ( s , DEFAULT_CHANNEL , size ) ;
}
void RandomNumberGenerator : : DiscardBytes ( size_t n )
{
GenerateIntoBufferedTransformation ( TheBitBucket ( ) , DEFAULT_CHANNEL , n ) ;
}
void RandomNumberGenerator : : GenerateIntoBufferedTransformation ( BufferedTransformation & target , const std : : string & channel , lword length )
{
FixedSizeSecBlock < byte , 256 > buffer ;
while ( length )
{
size_t len = UnsignedMin ( buffer . size ( ) , length ) ;
GenerateBlock ( buffer , len ) ;
size_t rem = target . ChannelPut ( channel , buffer , len ) ;
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CRYPTOPP_UNUSED ( rem ) ; CRYPTOPP_ASSERT ( rem = = 0 ) ;
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length - = len ;
}
}
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//! \class ClassNullRNG
//! \brief Random Number Generator that does not produce random numbers
//! \details ClassNullRNG can be used for functions that require a RandomNumberGenerator
//! but don't actually use it. The class throws NotImplemented when a generation function is called.
//! \sa NullRNG()
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class ClassNullRNG : public RandomNumberGenerator
{
public :
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//! \brief The name of the generator
//! \returns the string \a NullRNGs
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std : : string AlgorithmName ( ) const { return " NullRNG " ; }
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# if defined(CRYPTOPP_DOXYGEN_PROCESSING)
//! \brief An implementation that throws NotImplemented
byte GenerateByte ( ) { }
//! \brief An implementation that throws NotImplemented
unsigned int GenerateBit ( ) { }
//! \brief An implementation that throws NotImplemented
word32 GenerateWord32 ( word32 min , word32 max ) { }
# endif
//! \brief An implementation that throws NotImplemented
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void GenerateBlock ( byte * output , size_t size )
{
CRYPTOPP_UNUSED ( output ) ; CRYPTOPP_UNUSED ( size ) ;
throw NotImplemented ( " NullRNG: NullRNG should only be passed to functions that don't need to generate random bytes " ) ;
}
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# if defined(CRYPTOPP_DOXYGEN_PROCESSING)
//! \brief An implementation that throws NotImplemented
void GenerateIntoBufferedTransformation ( BufferedTransformation & target , const std : : string & channel , lword length ) { }
//! \brief An implementation that throws NotImplemented
void IncorporateEntropy ( const byte * input , size_t length ) { }
//! \brief An implementation that returns \p false
bool CanIncorporateEntropy ( ) const { }
//! \brief An implementation that does nothing
void DiscardBytes ( size_t n ) { }
//! \brief An implementation that does nothing
void Shuffle ( IT begin , IT end ) { }
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private :
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Clonable * Clone ( ) const { return NULLPTR ; }
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# endif
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} ;
RandomNumberGenerator & NullRNG ( )
{
static ClassNullRNG s_nullRNG ;
return s_nullRNG ;
}
bool HashTransformation : : TruncatedVerify ( const byte * digestIn , size_t digestLength )
{
ThrowIfInvalidTruncatedSize ( digestLength ) ;
SecByteBlock digest ( digestLength ) ;
TruncatedFinal ( digest , digestLength ) ;
return VerifyBufsEqual ( digest , digestIn , digestLength ) ;
}
void HashTransformation : : ThrowIfInvalidTruncatedSize ( size_t size ) const
{
if ( size > DigestSize ( ) )
throw InvalidArgument ( " HashTransformation: can't truncate a " + IntToString ( DigestSize ( ) ) + " byte digest to " + IntToString ( size ) + " bytes " ) ;
}
unsigned int BufferedTransformation : : GetMaxWaitObjectCount ( ) const
{
const BufferedTransformation * t = AttachedTransformation ( ) ;
return t ? t - > GetMaxWaitObjectCount ( ) : 0 ;
}
void BufferedTransformation : : GetWaitObjects ( WaitObjectContainer & container , CallStack const & callStack )
{
BufferedTransformation * t = AttachedTransformation ( ) ;
if ( t )
t - > GetWaitObjects ( container , callStack ) ; // reduce clutter by not adding to stack here
}
void BufferedTransformation : : Initialize ( const NameValuePairs & parameters , int propagation )
{
CRYPTOPP_UNUSED ( propagation ) ;
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CRYPTOPP_ASSERT ( ! AttachedTransformation ( ) ) ;
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IsolatedInitialize ( parameters ) ;
}
bool BufferedTransformation : : Flush ( bool hardFlush , int propagation , bool blocking )
{
CRYPTOPP_UNUSED ( propagation ) ;
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CRYPTOPP_ASSERT ( ! AttachedTransformation ( ) ) ;
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return IsolatedFlush ( hardFlush , blocking ) ;
}
bool BufferedTransformation : : MessageSeriesEnd ( int propagation , bool blocking )
{
CRYPTOPP_UNUSED ( propagation ) ;
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CRYPTOPP_ASSERT ( ! AttachedTransformation ( ) ) ;
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return IsolatedMessageSeriesEnd ( blocking ) ;
}
byte * BufferedTransformation : : ChannelCreatePutSpace ( const std : : string & channel , size_t & size )
{
if ( channel . empty ( ) )
return CreatePutSpace ( size ) ;
else
throw NoChannelSupport ( AlgorithmName ( ) ) ;
}
size_t BufferedTransformation : : ChannelPut2 ( const std : : string & channel , const byte * begin , size_t length , int messageEnd , bool blocking )
{
if ( channel . empty ( ) )
return Put2 ( begin , length , messageEnd , blocking ) ;
else
throw NoChannelSupport ( AlgorithmName ( ) ) ;
}
size_t BufferedTransformation : : ChannelPutModifiable2 ( const std : : string & channel , byte * begin , size_t length , int messageEnd , bool blocking )
{
if ( channel . empty ( ) )
return PutModifiable2 ( begin , length , messageEnd , blocking ) ;
else
return ChannelPut2 ( channel , begin , length , messageEnd , blocking ) ;
}
bool BufferedTransformation : : ChannelFlush ( const std : : string & channel , bool completeFlush , int propagation , bool blocking )
{
if ( channel . empty ( ) )
return Flush ( completeFlush , propagation , blocking ) ;
else
throw NoChannelSupport ( AlgorithmName ( ) ) ;
}
bool BufferedTransformation : : ChannelMessageSeriesEnd ( const std : : string & channel , int propagation , bool blocking )
{
if ( channel . empty ( ) )
return MessageSeriesEnd ( propagation , blocking ) ;
else
throw NoChannelSupport ( AlgorithmName ( ) ) ;
}
lword BufferedTransformation : : MaxRetrievable ( ) const
{
if ( AttachedTransformation ( ) )
return AttachedTransformation ( ) - > MaxRetrievable ( ) ;
else
return CopyTo ( TheBitBucket ( ) ) ;
}
bool BufferedTransformation : : AnyRetrievable ( ) const
{
if ( AttachedTransformation ( ) )
return AttachedTransformation ( ) - > AnyRetrievable ( ) ;
else
{
byte b ;
return Peek ( b ) ! = 0 ;
}
}
size_t BufferedTransformation : : Get ( byte & outByte )
{
if ( AttachedTransformation ( ) )
return AttachedTransformation ( ) - > Get ( outByte ) ;
else
return Get ( & outByte , 1 ) ;
}
size_t BufferedTransformation : : Get ( byte * outString , size_t getMax )
{
if ( AttachedTransformation ( ) )
return AttachedTransformation ( ) - > Get ( outString , getMax ) ;
else
{
ArraySink arraySink ( outString , getMax ) ;
return ( size_t ) TransferTo ( arraySink , getMax ) ;
}
}
size_t BufferedTransformation : : Peek ( byte & outByte ) const
{
if ( AttachedTransformation ( ) )
return AttachedTransformation ( ) - > Peek ( outByte ) ;
else
return Peek ( & outByte , 1 ) ;
}
size_t BufferedTransformation : : Peek ( byte * outString , size_t peekMax ) const
{
if ( AttachedTransformation ( ) )
return AttachedTransformation ( ) - > Peek ( outString , peekMax ) ;
else
{
ArraySink arraySink ( outString , peekMax ) ;
return ( size_t ) CopyTo ( arraySink , peekMax ) ;
}
}
lword BufferedTransformation : : Skip ( lword skipMax )
{
if ( AttachedTransformation ( ) )
return AttachedTransformation ( ) - > Skip ( skipMax ) ;
else
return TransferTo ( TheBitBucket ( ) , skipMax ) ;
}
lword BufferedTransformation : : TotalBytesRetrievable ( ) const
{
if ( AttachedTransformation ( ) )
return AttachedTransformation ( ) - > TotalBytesRetrievable ( ) ;
else
return MaxRetrievable ( ) ;
}
unsigned int BufferedTransformation : : NumberOfMessages ( ) const
{
if ( AttachedTransformation ( ) )
return AttachedTransformation ( ) - > NumberOfMessages ( ) ;
else
return CopyMessagesTo ( TheBitBucket ( ) ) ;
}
bool BufferedTransformation : : AnyMessages ( ) const
{
if ( AttachedTransformation ( ) )
return AttachedTransformation ( ) - > AnyMessages ( ) ;
else
return NumberOfMessages ( ) ! = 0 ;
}
bool BufferedTransformation : : GetNextMessage ( )
{
if ( AttachedTransformation ( ) )
return AttachedTransformation ( ) - > GetNextMessage ( ) ;
else
{
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CRYPTOPP_ASSERT ( ! AnyMessages ( ) ) ;
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return false ;
}
}
unsigned int BufferedTransformation : : SkipMessages ( unsigned int count )
{
if ( AttachedTransformation ( ) )
return AttachedTransformation ( ) - > SkipMessages ( count ) ;
else
return TransferMessagesTo ( TheBitBucket ( ) , count ) ;
}
size_t BufferedTransformation : : TransferMessagesTo2 ( BufferedTransformation & target , unsigned int & messageCount , const std : : string & channel , bool blocking )
{
if ( AttachedTransformation ( ) )
return AttachedTransformation ( ) - > TransferMessagesTo2 ( target , messageCount , channel , blocking ) ;
else
{
unsigned int maxMessages = messageCount ;
for ( messageCount = 0 ; messageCount < maxMessages & & AnyMessages ( ) ; messageCount + + )
{
size_t blockedBytes ;
lword transferredBytes ;
while ( AnyRetrievable ( ) )
{
transferredBytes = LWORD_MAX ;
blockedBytes = TransferTo2 ( target , transferredBytes , channel , blocking ) ;
if ( blockedBytes > 0 )
return blockedBytes ;
}
if ( target . ChannelMessageEnd ( channel , GetAutoSignalPropagation ( ) , blocking ) )
return 1 ;
bool result = GetNextMessage ( ) ;
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CRYPTOPP_UNUSED ( result ) ; CRYPTOPP_ASSERT ( result ) ;
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}
return 0 ;
}
}
unsigned int BufferedTransformation : : CopyMessagesTo ( BufferedTransformation & target , unsigned int count , const std : : string & channel ) const
{
if ( AttachedTransformation ( ) )
return AttachedTransformation ( ) - > CopyMessagesTo ( target , count , channel ) ;
else
return 0 ;
}
void BufferedTransformation : : SkipAll ( )
{
if ( AttachedTransformation ( ) )
AttachedTransformation ( ) - > SkipAll ( ) ;
else
{
while ( SkipMessages ( ) ) { }
while ( Skip ( ) ) { }
}
}
size_t BufferedTransformation : : TransferAllTo2 ( BufferedTransformation & target , const std : : string & channel , bool blocking )
{
if ( AttachedTransformation ( ) )
return AttachedTransformation ( ) - > TransferAllTo2 ( target , channel , blocking ) ;
else
{
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CRYPTOPP_ASSERT ( ! NumberOfMessageSeries ( ) ) ;
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unsigned int messageCount ;
do
{
messageCount = UINT_MAX ;
size_t blockedBytes = TransferMessagesTo2 ( target , messageCount , channel , blocking ) ;
if ( blockedBytes )
return blockedBytes ;
}
while ( messageCount ! = 0 ) ;
lword byteCount ;
do
{
byteCount = ULONG_MAX ;
size_t blockedBytes = TransferTo2 ( target , byteCount , channel , blocking ) ;
if ( blockedBytes )
return blockedBytes ;
}
while ( byteCount ! = 0 ) ;
return 0 ;
}
}
void BufferedTransformation : : CopyAllTo ( BufferedTransformation & target , const std : : string & channel ) const
{
if ( AttachedTransformation ( ) )
AttachedTransformation ( ) - > CopyAllTo ( target , channel ) ;
else
{
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CRYPTOPP_ASSERT ( ! NumberOfMessageSeries ( ) ) ;
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while ( CopyMessagesTo ( target , UINT_MAX , channel ) ) { }
}
}
void BufferedTransformation : : SetRetrievalChannel ( const std : : string & channel )
{
if ( AttachedTransformation ( ) )
AttachedTransformation ( ) - > SetRetrievalChannel ( channel ) ;
}
size_t BufferedTransformation : : ChannelPutWord16 ( const std : : string & channel , word16 value , ByteOrder order , bool blocking )
{
PutWord ( false , order , m_buf , value ) ;
return ChannelPut ( channel , m_buf , 2 , blocking ) ;
}
size_t BufferedTransformation : : ChannelPutWord32 ( const std : : string & channel , word32 value , ByteOrder order , bool blocking )
{
PutWord ( false , order , m_buf , value ) ;
return ChannelPut ( channel , m_buf , 4 , blocking ) ;
}
size_t BufferedTransformation : : PutWord16 ( word16 value , ByteOrder order , bool blocking )
{
return ChannelPutWord16 ( DEFAULT_CHANNEL , value , order , blocking ) ;
}
size_t BufferedTransformation : : PutWord32 ( word32 value , ByteOrder order , bool blocking )
{
return ChannelPutWord32 ( DEFAULT_CHANNEL , value , order , blocking ) ;
}
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// Issue 340
# if CRYPTOPP_GCC_DIAGNOSTIC_AVAILABLE
# pragma GCC diagnostic push
# pragma GCC diagnostic ignored "-Wconversion"
# pragma GCC diagnostic ignored "-Wsign-conversion"
# endif
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size_t BufferedTransformation : : PeekWord16 ( word16 & value , ByteOrder order ) const
{
byte buf [ 2 ] = { 0 , 0 } ;
size_t len = Peek ( buf , 2 ) ;
if ( order )
value = ( buf [ 0 ] < < 8 ) | buf [ 1 ] ;
else
value = ( buf [ 1 ] < < 8 ) | buf [ 0 ] ;
return len ;
}
size_t BufferedTransformation : : PeekWord32 ( word32 & value , ByteOrder order ) const
{
byte buf [ 4 ] = { 0 , 0 , 0 , 0 } ;
size_t len = Peek ( buf , 4 ) ;
if ( order )
value = ( buf [ 0 ] < < 24 ) | ( buf [ 1 ] < < 16 ) | ( buf [ 2 ] < < 8 ) | buf [ 3 ] ;
else
value = ( buf [ 3 ] < < 24 ) | ( buf [ 2 ] < < 16 ) | ( buf [ 1 ] < < 8 ) | buf [ 0 ] ;
return len ;
}
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// Issue 340
# if CRYPTOPP_GCC_DIAGNOSTIC_AVAILABLE
# pragma GCC diagnostic pop
# endif
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size_t BufferedTransformation : : GetWord16 ( word16 & value , ByteOrder order )
{
return ( size_t ) Skip ( PeekWord16 ( value , order ) ) ;
}
size_t BufferedTransformation : : GetWord32 ( word32 & value , ByteOrder order )
{
return ( size_t ) Skip ( PeekWord32 ( value , order ) ) ;
}
void BufferedTransformation : : Attach ( BufferedTransformation * newOut )
{
if ( AttachedTransformation ( ) & & AttachedTransformation ( ) - > Attachable ( ) )
AttachedTransformation ( ) - > Attach ( newOut ) ;
else
Detach ( newOut ) ;
}
void GeneratableCryptoMaterial : : GenerateRandomWithKeySize ( RandomNumberGenerator & rng , unsigned int keySize )
{
GenerateRandom ( rng , MakeParameters ( " KeySize " , ( int ) keySize ) ) ;
}
class PK_DefaultEncryptionFilter : public Unflushable < Filter >
{
public :
PK_DefaultEncryptionFilter ( RandomNumberGenerator & rng , const PK_Encryptor & encryptor , BufferedTransformation * attachment , const NameValuePairs & parameters )
: m_rng ( rng ) , m_encryptor ( encryptor ) , m_parameters ( parameters )
{
Detach ( attachment ) ;
}
size_t Put2 ( const byte * inString , size_t length , int messageEnd , bool blocking )
{
FILTER_BEGIN ;
m_plaintextQueue . Put ( inString , length ) ;
if ( messageEnd )
{
{
size_t plaintextLength ;
if ( ! SafeConvert ( m_plaintextQueue . CurrentSize ( ) , plaintextLength ) )
throw InvalidArgument ( " PK_DefaultEncryptionFilter: plaintext too long " ) ;
size_t ciphertextLength = m_encryptor . CiphertextLength ( plaintextLength ) ;
SecByteBlock plaintext ( plaintextLength ) ;
m_plaintextQueue . Get ( plaintext , plaintextLength ) ;
m_ciphertext . resize ( ciphertextLength ) ;
m_encryptor . Encrypt ( m_rng , plaintext , plaintextLength , m_ciphertext , m_parameters ) ;
}
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FILTER_OUTPUT ( 1 , m_ciphertext , m_ciphertext . size ( ) , messageEnd ) ;
}
FILTER_END_NO_MESSAGE_END ;
}
RandomNumberGenerator & m_rng ;
const PK_Encryptor & m_encryptor ;
const NameValuePairs & m_parameters ;
ByteQueue m_plaintextQueue ;
SecByteBlock m_ciphertext ;
} ;
BufferedTransformation * PK_Encryptor : : CreateEncryptionFilter ( RandomNumberGenerator & rng , BufferedTransformation * attachment , const NameValuePairs & parameters ) const
{
return new PK_DefaultEncryptionFilter ( rng , * this , attachment , parameters ) ;
}
class PK_DefaultDecryptionFilter : public Unflushable < Filter >
{
public :
PK_DefaultDecryptionFilter ( RandomNumberGenerator & rng , const PK_Decryptor & decryptor , BufferedTransformation * attachment , const NameValuePairs & parameters )
: m_rng ( rng ) , m_decryptor ( decryptor ) , m_parameters ( parameters )
{
Detach ( attachment ) ;
}
size_t Put2 ( const byte * inString , size_t length , int messageEnd , bool blocking )
{
FILTER_BEGIN ;
m_ciphertextQueue . Put ( inString , length ) ;
if ( messageEnd )
{
{
size_t ciphertextLength ;
if ( ! SafeConvert ( m_ciphertextQueue . CurrentSize ( ) , ciphertextLength ) )
throw InvalidArgument ( " PK_DefaultDecryptionFilter: ciphertext too long " ) ;
size_t maxPlaintextLength = m_decryptor . MaxPlaintextLength ( ciphertextLength ) ;
SecByteBlock ciphertext ( ciphertextLength ) ;
m_ciphertextQueue . Get ( ciphertext , ciphertextLength ) ;
m_plaintext . resize ( maxPlaintextLength ) ;
m_result = m_decryptor . Decrypt ( m_rng , ciphertext , ciphertextLength , m_plaintext , m_parameters ) ;
if ( ! m_result . isValidCoding )
throw InvalidCiphertext ( m_decryptor . AlgorithmName ( ) + " : invalid ciphertext " ) ;
}
FILTER_OUTPUT ( 1 , m_plaintext , m_result . messageLength , messageEnd ) ;
}
FILTER_END_NO_MESSAGE_END ;
}
RandomNumberGenerator & m_rng ;
const PK_Decryptor & m_decryptor ;
const NameValuePairs & m_parameters ;
ByteQueue m_ciphertextQueue ;
SecByteBlock m_plaintext ;
DecodingResult m_result ;
} ;
BufferedTransformation * PK_Decryptor : : CreateDecryptionFilter ( RandomNumberGenerator & rng , BufferedTransformation * attachment , const NameValuePairs & parameters ) const
{
return new PK_DefaultDecryptionFilter ( rng , * this , attachment , parameters ) ;
}
size_t PK_Signer : : Sign ( RandomNumberGenerator & rng , PK_MessageAccumulator * messageAccumulator , byte * signature ) const
{
member_ptr < PK_MessageAccumulator > m ( messageAccumulator ) ;
return SignAndRestart ( rng , * m , signature , false ) ;
}
size_t PK_Signer : : SignMessage ( RandomNumberGenerator & rng , const byte * message , size_t messageLen , byte * signature ) const
{
member_ptr < PK_MessageAccumulator > m ( NewSignatureAccumulator ( rng ) ) ;
m - > Update ( message , messageLen ) ;
return SignAndRestart ( rng , * m , signature , false ) ;
}
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size_t PK_Signer : : SignMessageWithRecovery ( RandomNumberGenerator & rng , const byte * recoverableMessage , size_t recoverableMessageLength ,
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const byte * nonrecoverableMessage , size_t nonrecoverableMessageLength , byte * signature ) const
{
member_ptr < PK_MessageAccumulator > m ( NewSignatureAccumulator ( rng ) ) ;
InputRecoverableMessage ( * m , recoverableMessage , recoverableMessageLength ) ;
m - > Update ( nonrecoverableMessage , nonrecoverableMessageLength ) ;
return SignAndRestart ( rng , * m , signature , false ) ;
}
bool PK_Verifier : : Verify ( PK_MessageAccumulator * messageAccumulator ) const
{
member_ptr < PK_MessageAccumulator > m ( messageAccumulator ) ;
return VerifyAndRestart ( * m ) ;
}
bool PK_Verifier : : VerifyMessage ( const byte * message , size_t messageLen , const byte * signature , size_t signatureLength ) const
{
member_ptr < PK_MessageAccumulator > m ( NewVerificationAccumulator ( ) ) ;
InputSignature ( * m , signature , signatureLength ) ;
m - > Update ( message , messageLen ) ;
return VerifyAndRestart ( * m ) ;
}
DecodingResult PK_Verifier : : Recover ( byte * recoveredMessage , PK_MessageAccumulator * messageAccumulator ) const
{
member_ptr < PK_MessageAccumulator > m ( messageAccumulator ) ;
return RecoverAndRestart ( recoveredMessage , * m ) ;
}
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DecodingResult PK_Verifier : : RecoverMessage ( byte * recoveredMessage ,
const byte * nonrecoverableMessage , size_t nonrecoverableMessageLength ,
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const byte * signature , size_t signatureLength ) const
{
member_ptr < PK_MessageAccumulator > m ( NewVerificationAccumulator ( ) ) ;
InputSignature ( * m , signature , signatureLength ) ;
m - > Update ( nonrecoverableMessage , nonrecoverableMessageLength ) ;
return RecoverAndRestart ( recoveredMessage , * m ) ;
}
void SimpleKeyAgreementDomain : : GenerateKeyPair ( RandomNumberGenerator & rng , byte * privateKey , byte * publicKey ) const
{
GeneratePrivateKey ( rng , privateKey ) ;
GeneratePublicKey ( rng , privateKey , publicKey ) ;
}
void AuthenticatedKeyAgreementDomain : : GenerateStaticKeyPair ( RandomNumberGenerator & rng , byte * privateKey , byte * publicKey ) const
{
GenerateStaticPrivateKey ( rng , privateKey ) ;
GenerateStaticPublicKey ( rng , privateKey , publicKey ) ;
}
void AuthenticatedKeyAgreementDomain : : GenerateEphemeralKeyPair ( RandomNumberGenerator & rng , byte * privateKey , byte * publicKey ) const
{
GenerateEphemeralPrivateKey ( rng , privateKey ) ;
GenerateEphemeralPublicKey ( rng , privateKey , publicKey ) ;
}
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// Allow a distro or packager to override the build-time version
// http://github.com/weidai11/cryptopp/issues/371
# ifndef CRYPTOPP_BUILD_VERSION
# define CRYPTOPP_BUILD_VERSION CRYPTOPP_VERSION
# endif
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int LibraryVersion ( CRYPTOPP_NOINLINE_DOTDOTDOT )
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{
return CRYPTOPP_BUILD_VERSION ;
}
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NAMESPACE_END
# endif