Inheritance diagram for CBC_CTS_Decryption:
Definition at line 250 of file modes.h.
Public Types | |
enum | IV_Requirement { UNIQUE_IV = 0, RANDOM_IV, UNPREDICTABLE_RANDOM_IV, INTERNALLY_GENERATED_IV, NOT_RESYNCHRONIZABLE } |
Public Member Functions | |
unsigned int | MinLastBlockSize () const |
returns the minimum size of the last block, 0 indicating the last block is not special | |
void | ProcessLastBlock (byte *outString, const byte *inString, size_t length) |
for ciphers where the last block of data is special, encrypt or decrypt the last block of data | |
void | ProcessBlocks (byte *outString, const byte *inString, size_t numberOfBlocks) |
IV_Requirement | IVRequirement () const |
returns the minimal requirement for secure IVs | |
bool | RequireAlignedInput () const |
void | UncheckedSetKey (const byte *key, unsigned int length, const NameValuePairs ¶ms) |
unsigned int | MandatoryBlockSize () const |
returns block size, if input must be processed in blocks, otherwise 1 | |
bool | IsRandomAccess () const |
returns whether this cipher supports random access | |
bool | IsSelfInverting () const |
returns whether this transformation is self-inverting (e.g. xor with a keystream) | |
bool | IsForwardTransformation () const |
returns whether this is an encryption object | |
void | Resynchronize (const byte *iv) |
resynchronize with an IV | |
void | ProcessData (byte *outString, const byte *inString, size_t length) |
encrypt or decrypt an array of bytes of specified length | |
size_t | MinKeyLength () const |
returns smallest valid key length in bytes */ | |
size_t | MaxKeyLength () const |
returns largest valid key length in bytes */ | |
size_t | DefaultKeyLength () const |
returns default (recommended) key length in bytes */ | |
size_t | GetValidKeyLength (size_t n) const |
returns the smallest valid key length in bytes that is >= min(n, GetMaxKeyLength()) | |
bool | IsValidKeyLength (size_t n) const |
returns whether n is a valid key length | |
unsigned int | OptimalDataAlignment () const |
returns how input should be aligned for optimal performance | |
unsigned int | IVSize () const |
returns size of IVs used by this object | |
StreamTransformation & | Ref () |
return a reference to this object, | |
virtual unsigned int | OptimalBlockSize () const |
returns the input block size that is most efficient for this cipher | |
virtual unsigned int | GetOptimalBlockSizeUsed () const |
returns how much of the current block is used up | |
void | ProcessString (byte *inoutString, size_t length) |
same as ProcessData(inoutString, inoutString, length) | |
void | ProcessString (byte *outString, const byte *inString, size_t length) |
same as ProcessData(outString, inString, length) | |
byte | ProcessByte (byte input) |
implemented as {ProcessData(&input, &input, 1); return input;} | |
virtual void | Seek (lword n) |
for random access ciphers, seek to an absolute position | |
virtual std::string | AlgorithmName () const |
returns name of this algorithm, not universally implemented yet | |
virtual Clonable * | Clone () const |
this is not implemented by most classes yet | |
virtual void | SetKey (const byte *key, size_t length, const NameValuePairs ¶ms=g_nullNameValuePairs) |
set or reset the key of this object | |
void | SetKeyWithRounds (const byte *key, size_t length, int rounds) |
calls SetKey() with an NameValuePairs object that just specifies "Rounds" | |
void | SetKeyWithIV (const byte *key, size_t length, const byte *iv) |
calls SetKey() with an NameValuePairs object that just specifies "IV" | |
bool | IsResynchronizable () const |
returns whether this object can be resynchronized (i.e. supports initialization vectors) | |
bool | CanUseRandomIVs () const |
returns whether this object can use random IVs (in addition to ones returned by GetNextIV) | |
bool | CanUsePredictableIVs () const |
returns whether this object can use random but possibly predictable IVs (in addition to ones returned by GetNextIV) | |
bool | CanUseStructuredIVs () const |
returns whether this object can use structured IVs, for example a counter (in addition to ones returned by GetNextIV) | |
virtual void | GetNextIV (RandomNumberGenerator &rng, byte *IV) |
get a secure IV for the next message | |
Static Public Member Functions | |
static const char *__cdecl | StaticAlgorithmName () |
Protected Member Functions | |
void | ResizeBuffers () |
unsigned int | BlockSize () const |
virtual void | SetFeedbackSize (unsigned int feedbackSize) |
virtual const Algorithm & | GetAlgorithm () const=0 |
void | ThrowIfInvalidKeyLength (size_t length) |
void | ThrowIfResynchronizable () |
void | ThrowIfInvalidIV (const byte *iv) |
const byte * | GetIVAndThrowIfInvalid (const NameValuePairs ¶ms) |
void | AssertValidKeyLength (size_t length) const |
Protected Attributes | |
SecByteBlock | m_temp |
SecByteBlock | m_buffer |
BlockCipher * | m_cipher |
SecByteBlock | m_register |
enum SimpleKeyingInterface::IV_Requirement [inherited] |
UNIQUE_IV | |
RANDOM_IV | |
UNPREDICTABLE_RANDOM_IV | |
INTERNALLY_GENERATED_IV | |
NOT_RESYNCHRONIZABLE |
Definition at line 382 of file cryptlib.h.
void CBC_CTS_Decryption::ProcessLastBlock | ( | byte * | outString, | |
const byte * | inString, | |||
size_t | length | |||
) | [virtual] |
for ciphers where the last block of data is special, encrypt or decrypt the last block of data
For now the only use of this function is for CBC-CTS mode.
Reimplemented from StreamTransformation.
Definition at line 173 of file modes.cpp.
References CipherModeBase::BlockSize(), CipherModeBase::m_cipher, CipherModeBase::m_register, CBC_Decryption::m_temp, and BlockTransformation::ProcessBlock().
void BlockOrientedCipherModeBase::ProcessData | ( | byte * | outString, | |
const byte * | inString, | |||
size_t | length | |||
) | [virtual, inherited] |
encrypt or decrypt an array of bytes of specified length
Implements StreamTransformation.
Definition at line 95 of file modes.cpp.
References BlockTransformation::BlockAlignment(), CipherModeBase::BlockSize(), BlockOrientedCipherModeBase::m_buffer, CipherModeBase::m_cipher, and BlockOrientedCipherModeBase::RequireAlignedInput().
StreamTransformation& StreamTransformation::Ref | ( | ) | [inline, inherited] |
return a reference to this object,
This function is useful for passing a temporary StreamTransformation object to a function that takes a non-const reference.
Definition at line 470 of file cryptlib.h.
virtual unsigned int StreamTransformation::OptimalBlockSize | ( | ) | const [inline, virtual, inherited] |
returns the input block size that is most efficient for this cipher
Reimplemented in ECB_OneWay.
Definition at line 477 of file cryptlib.h.
Referenced by StreamTransformationFilter::FirstPut().
void SimpleKeyingInterface::SetKey | ( | const byte * | key, | |
size_t | length, | |||
const NameValuePairs & | params = g_nullNameValuePairs | |||
) | [virtual, inherited] |
set or reset the key of this object
params | is used to specify Rounds, BlockSize, etc |
Reimplemented in ECB_OneWay.
Definition at line 52 of file cryptlib.cpp.
References SimpleKeyingInterface::ThrowIfInvalidKeyLength().
Referenced by CBC_MAC< T >::CBC_MAC(), CipherModeFinalTemplate_CipherHolder< CIPHER, BASE >::CipherModeFinalTemplate_CipherHolder(), DMAC< T >::DMAC(), HMAC< T >::HMAC(), Weak::PanamaMAC< B >::PanamaMAC(), ECB_OneWay::SetKey(), SimpleKeyingInterface::SetKeyWithIV(), SimpleKeyingInterface::SetKeyWithRounds(), VMAC_Base::UncheckedSetKey(), and BlockOrientedCipherModeBase::UncheckedSetKey().
bool SimpleKeyingInterface::IsResynchronizable | ( | ) | const [inline, inherited] |
returns whether this object can be resynchronized (i.e. supports initialization vectors)
If this function returns true, and no IV is passed to SetKey() and CanUseStructuredIVs()==true, an IV of all 0's will be assumed.
Definition at line 388 of file cryptlib.h.
Referenced by SimpleKeyingInterface::ThrowIfInvalidIV(), SimpleKeyingInterface::ThrowIfResynchronizable(), and BlockOrientedCipherModeBase::UncheckedSetKey().
void SimpleKeyingInterface::GetNextIV | ( | RandomNumberGenerator & | rng, | |
byte * | IV | |||
) | [virtual, inherited] |
get a secure IV for the next message
This method should be called after you finish encrypting one message and are ready to start the next one. After calling it, you must call SetKey() or Resynchronize() before using this object again. This method is not implemented on decryption objects.
Reimplemented in VMAC_Base.
Definition at line 96 of file cryptlib.cpp.
References RandomNumberGenerator::GenerateBlock(), and SimpleKeyingInterface::IVSize().
Referenced by VMAC_Base::GetNextIV().