Security Scol plugin
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The BLAKE2b cryptographic hash function. More...
#include <blake2.h>
Public Types | |
typedef BLAKE2b_State | State |
typedef BLAKE2b_ParameterBlock | ParameterBlock |
Public Types inherited from SimpleKeyingInterface | |
enum | IV_Requirement { UNIQUE_IV = 0 , RANDOM_IV , UNPREDICTABLE_RANDOM_IV , INTERNALLY_GENERATED_IV , NOT_RESYNCHRONIZABLE } |
Secure IVs requirements as enumerated values. More... | |
Public Member Functions | |
CRYPTOPP_CONSTANT (DEFAULT_KEYLENGTH=BLAKE2b_Info::DEFAULT_KEYLENGTH) | |
CRYPTOPP_CONSTANT (MIN_KEYLENGTH=BLAKE2b_Info::MIN_KEYLENGTH) | |
CRYPTOPP_CONSTANT (MAX_KEYLENGTH=BLAKE2b_Info::MAX_KEYLENGTH) | |
CRYPTOPP_CONSTANT (DIGESTSIZE=BLAKE2b_Info::DIGESTSIZE) | |
CRYPTOPP_CONSTANT (BLOCKSIZE=BLAKE2b_Info::BLOCKSIZE) | |
CRYPTOPP_CONSTANT (SALTSIZE=BLAKE2b_Info::SALTSIZE) | |
CRYPTOPP_CONSTANT (PERSONALIZATIONSIZE=BLAKE2b_Info::PERSONALIZATIONSIZE) | |
CRYPTOPP_STATIC_CONSTEXPR const char * | StaticAlgorithmName () |
BLAKE2b (bool treeMode=false, unsigned int digestSize=DIGESTSIZE) | |
Construct a BLAKE2b hash. | |
BLAKE2b (unsigned int digestSize) | |
Construct a BLAKE2s hash. | |
BLAKE2b (const byte *key, size_t keyLength, const byte *salt=NULLPTR, size_t saltLength=0, const byte *personalization=NULLPTR, size_t personalizationLength=0, bool treeMode=false, unsigned int digestSize=DIGESTSIZE) | |
Construct a BLAKE2b hash. | |
std::string | AlgorithmName () const |
Retrieve the object's name. | |
unsigned int | BlockSize () const |
Provides the block size of the compression function. | |
unsigned int | DigestSize () const |
unsigned int | OptimalDataAlignment () const |
Provides input and output data alignment for optimal performance. | |
void | Update (const byte *input, size_t length) |
Updates a hash with additional input. | |
void | Restart () |
Restart the hash. | |
void | Restart (const BLAKE2b_ParameterBlock &block, const word64 counter[2]) |
Restart a hash with parameter block and counter. | |
void | SetTreeMode (bool mode) |
Set tree mode. | |
bool | GetTreeMode () const |
Get tree mode. | |
void | TruncatedFinal (byte *hash, size_t size) |
Computes the hash of the current message. | |
std::string | AlgorithmProvider () const |
Retrieve the provider of this algorithm. | |
Public Member Functions inherited from SimpleKeyingInterfaceImpl< MessageAuthenticationCode, BLAKE2b_Info > | |
size_t | MinKeyLength () const |
The minimum key length used by the algorithm. | |
size_t | MaxKeyLength () const |
The maximum key length used by the algorithm. | |
size_t | DefaultKeyLength () const |
The default key length used by the algorithm. | |
size_t | GetValidKeyLength (size_t keylength) const |
Provides a valid key length for the algorithm. | |
SimpleKeyingInterface::IV_Requirement | IVRequirement () const |
The default IV requirements for the algorithm. | |
unsigned int | IVSize () const |
The initialization vector length for the algorithm. | |
Public Member Functions inherited from SimpleKeyingInterface | |
virtual bool | IsValidKeyLength (size_t keylength) const |
Returns whether keylength is a valid key length. | |
virtual void | SetKey (const byte *key, size_t length, const NameValuePairs ¶ms=g_nullNameValuePairs) |
Sets or reset the key of this object. | |
void | SetKeyWithRounds (const byte *key, size_t length, int rounds) |
Sets or reset the key of this object. | |
void | SetKeyWithIV (const byte *key, size_t length, const byte *iv, size_t ivLength) |
Sets or reset the key of this object. | |
void | SetKeyWithIV (const byte *key, size_t length, const byte *iv) |
Sets or reset the key of this object. | |
bool | IsResynchronizable () const |
Determines if the object can be resynchronized. | |
bool | CanUseRandomIVs () const |
Determines if the object can use random IVs. | |
bool | CanUsePredictableIVs () const |
Determines if the object can use random but possibly predictable IVs. | |
bool | CanUseStructuredIVs () const |
Determines if the object can use structured IVs. | |
unsigned int | DefaultIVLength () const |
Provides the default size of an IV. | |
virtual unsigned int | MinIVLength () const |
Provides the minimum size of an IV. | |
virtual unsigned int | MaxIVLength () const |
Provides the maximum size of an IV. | |
virtual void | Resynchronize (const byte *iv, int ivLength=-1) |
Resynchronize with an IV. | |
virtual void | GetNextIV (RandomNumberGenerator &rng, byte *iv) |
Retrieves a secure IV for the next message. | |
Public Member Functions inherited from HashTransformation | |
HashTransformation & | Ref () |
Provides a reference to this object. | |
virtual byte * | CreateUpdateSpace (size_t &size) |
Request space which can be written into by the caller. | |
virtual void | Final (byte *digest) |
Computes the hash of the current message. | |
unsigned int | TagSize () const |
virtual unsigned int | OptimalBlockSize () const |
Provides the input block size most efficient for this hash. | |
virtual void | CalculateDigest (byte *digest, const byte *input, size_t length) |
Updates the hash with additional input and computes the hash of the current message. | |
virtual bool | Verify (const byte *digest) |
Verifies the hash of the current message. | |
virtual bool | VerifyDigest (const byte *digest, const byte *input, size_t length) |
Updates the hash with additional input and verifies the hash of the current message. | |
virtual void | CalculateTruncatedDigest (byte *digest, size_t digestSize, const byte *input, size_t length) |
Updates the hash with additional input and computes the hash of the current message. | |
virtual bool | TruncatedVerify (const byte *digest, size_t digestLength) |
Verifies the hash of the current message. | |
virtual bool | VerifyTruncatedDigest (const byte *digest, size_t digestLength, const byte *input, size_t length) |
Updates the hash with additional input and verifies the hash of the current message. | |
Public Member Functions inherited from Algorithm | |
Algorithm (bool checkSelfTestStatus=true) | |
Interface for all crypto algorithms. | |
Public Member Functions inherited from Clonable | |
virtual Clonable * | Clone () const |
Copies this object. | |
Protected Member Functions | |
void | Compress (const byte *input) |
void | IncrementCounter (size_t count=BLOCKSIZE) |
void | UncheckedSetKey (const byte *key, unsigned int length, const CryptoPP::NameValuePairs ¶ms) |
Protected Member Functions inherited from SimpleKeyingInterface | |
virtual void | UncheckedSetKey (const byte *key, unsigned int length, const NameValuePairs ¶ms)=0 |
Sets the key for this object without performing parameter validation. | |
void | ThrowIfInvalidKeyLength (size_t length) |
Validates the key length. | |
void | ThrowIfResynchronizable () |
Validates the object. | |
void | ThrowIfInvalidIV (const byte *iv) |
Validates the IV. | |
size_t | ThrowIfInvalidIVLength (int length) |
Validates the IV length. | |
const byte * | GetIVAndThrowIfInvalid (const NameValuePairs ¶ms, size_t &size) |
Retrieves and validates the IV. | |
void | AssertValidKeyLength (size_t length) const |
Validates the key length. | |
Protected Member Functions inherited from HashTransformation | |
void | ThrowIfInvalidTruncatedSize (size_t size) const |
Validates a truncated digest size. | |
The BLAKE2b cryptographic hash function.
BLAKE2b can function as both a hash and keyed hash. If you want only the hash, then use the BLAKE2b constructor that accepts no parameters or digest size. If you want a keyed hash, then use the constructor that accpts the key as a parameter. Once a key and digest size are selected, its effectively immutable. The Restart() method that accepts a ParameterBlock does not allow you to change it.
typedef BLAKE2b_State BLAKE2b::State |
BLAKE2b::BLAKE2b | ( | bool | treeMode = false , |
unsigned int | digestSize = DIGESTSIZE |
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Construct a BLAKE2b hash.
digestSize | the digest size, in bytes |
treeMode | flag indicating tree mode |
Definition at line 336 of file blake2.cpp.
BLAKE2b::BLAKE2b | ( | unsigned int | digestSize | ) |
Construct a BLAKE2s hash.
digestSize | the digest size, in bytes |
treeMode flag is set to false
Definition at line 356 of file blake2.cpp.
BLAKE2b::BLAKE2b | ( | const byte * | key, |
size_t | keyLength, | ||
const byte * | salt = NULLPTR , |
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size_t | saltLength = 0 , |
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const byte * | personalization = NULLPTR , |
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size_t | personalizationLength = 0 , |
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bool | treeMode = false , |
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unsigned int | digestSize = DIGESTSIZE |
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Construct a BLAKE2b hash.
key | a byte array used to key the cipher |
keyLength | the size of the byte array |
salt | a byte array used as salt |
saltLength | the size of the byte array |
personalization | a byte array used as personalization string |
personalizationLength | the size of the byte array |
treeMode | flag indicating tree mode |
digestSize | the digest size, in bytes |
Definition at line 382 of file blake2.cpp.
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inlinevirtual |
Retrieve the object's name.
Object algorithm name follows the naming described in RFC 7693, The BLAKE2 Cryptographic Hash and Message Authentication Code (MAC). For example, "BLAKE2b-512" and "BLAKE2s-256".
Reimplemented from Algorithm.
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virtual |
Retrieve the provider of this algorithm.
The algorithm provider can be a name like "C++", "SSE", "NEON", "AESNI", "ARMv8" and "Power8". C++ is standard C++ code. Other labels, like SSE, usually indicate a specialized implementation using instructions from a higher instruction set architecture (ISA). Future labels may include external hardware like a hardware security module (HSM).
Generally speaking Wei Dai's original IA-32 ASM code falls under "SSE2". Labels like "SSSE3" and "SSE4.1" follow after Wei's code and use intrinsics instead of ASM.
Algorithms which combine different instructions or ISAs provide the dominant one. For example on x86 AES/GCM
returns "AESNI" rather than "CLMUL" or "AES+SSE4.1" or "AES+CLMUL" or "AES+SSE4.1+CLMUL".
Reimplemented from Algorithm.
Definition at line 212 of file blake2.cpp.
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inlinevirtual |
Provides the block size of the compression function.
BlockSize() will return 0 if the hash is not block based or does not have an equivalent block size. For example, Keccak and SHA-3 do not have a block size, but they do have an equivalent block size called rate expressed as r
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Reimplemented from HashTransformation.
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protected |
Definition at line 698 of file blake2.cpp.
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inlinevirtual |
Provides the digest size of the hash
Implements HashTransformation.
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inline |
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inlineprotected |
Definition at line 668 of file blake2.cpp.
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virtual |
Provides input and output data alignment for optimal performance.
Reimplemented from HashTransformation.
Definition at line 192 of file blake2.cpp.
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virtual |
Restart the hash.
Discards the current state, and restart for a new message
Reimplemented from HashTransformation.
Definition at line 468 of file blake2.cpp.
void BLAKE2b::Restart | ( | const BLAKE2b_ParameterBlock & | block, |
const word64 | counter[2] | ||
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Restart a hash with parameter block and counter.
block | parameter block |
counter | counter array |
Parameter block is persisted across calls to Restart().
Definition at line 505 of file blake2.cpp.
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inline |
Set tree mode.
mode | the new tree mode |
BLAKE2 has two finalization flags, called State::f[0] and State::f[1]. If treeMode=false
(default), then State::f[1] is never set. If treeMode=true
, then State::f[1] is set when State::f[0] is set. Tree mode is persisted across calls to Restart().
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inline |
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virtual |
Computes the hash of the current message.
digest | a pointer to the buffer to receive the hash |
digestSize | the size of the truncated digest, in bytes |
TruncatedFinal() calls Final() and then copies digestSize bytes to digest. The hash is restarted the hash for the next message.
COUNTOF(digest) <= DigestSize()
or COUNTOF(digest) <= HASH::DIGESTSIZE
ensures the output byte buffer is a valid size. Implements HashTransformation.
Definition at line 636 of file blake2.cpp.
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protected |
Definition at line 430 of file blake2.cpp.
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virtual |
Updates a hash with additional input.
input | the additional input as a buffer |
length | the size of the buffer, in bytes |
Implements HashTransformation.
Definition at line 573 of file blake2.cpp.