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|
/* See LICENSE file for copyright and license details. */
#ifndef LIBBLAKE_H
#define LIBBLAKE_H
#include <stddef.h>
#include <stdint.h>
#if defined(__clang__)
# pragma clang diagnostic push
# pragma clang diagnostic ignored "-Wpadded"
# pragma clang diagnostic ignored "-Wvla"
#endif
#ifndef LIBBLAKE_PUBLIC__
# if defined(_MSC_VER)
# define LIBBLAKE_PUBLIC__ __declspec(dllexport)
# else
# define LIBBLAKE_PUBLIC__
# endif
#endif
#if defined(__GNUC__)
# define LIBBLAKE_PURE__ __attribute__((__pure__))
# define LIBBLAKE_CONST__ __attribute__((__const__))
#else
# define LIBBLAKE_PURE__
# define LIBBLAKE_CONST__
#endif
#if defined(__STDC_VERSION__)
# if __STDC_VERSION__ >= 201112L
# define LIBBLAKE_ALIGNED__(BYTES) _Alignas(BYTES)
# endif
#endif
#ifndef LIBBLAKE_ALIGNED__
# if defined(__GNUC__)
# define LIBBLAKE_ALIGNED__(BYTES) __attribute__((__aligned__(BYTES)))
# else
# define LIBBLAKE_ALIGNED__(BYTES)
# endif
#endif
/**
* Initialise the library
*/
LIBBLAKE_PUBLIC__ void
libblake_init(void);
/**
* Encode binary data to hexadecimal
*
* @param data The binary data to encode
* @param n The number of bytes to encode
* @param out Output buffer for the hexadecimal representation,
* must fit at least `2 * n` characters plus a NUL byte
* @param uppercase If non-zero, the output will be in upper case,
* if zero, the output will be in lower case
*/
LIBBLAKE_PUBLIC__ void
libblake_encode_hex(const void *data, size_t n, char out[/* static n * 2 + 1 */], int uppercase);
/**
* Decode binary data from hexadecimal
*
* @param data The hexadecimal data to decode
* @param n The maximum number of bytes to read from `data`;
* the function will stop reading when a NUL byte is
* encountered, even if `n` bytes have not been read
* @param out Output buffer for the binary data, or `NULL`
* @param validp Will be set to 0 if a byte that was not part of
* the encoding was encountered, and to 1 otherwise;
* must not be `NULL`
* @return The number of bytes written to `out`, or that
* would be written (if `out` is `NULL`)
*/
LIBBLAKE_PUBLIC__ size_t
libblake_decode_hex(const char *data, size_t n, void *out, int *validp);
/*********************************** BLAKE ***********************************/
/**
* The hash size, in bytes, for BLAKE224
*/
#define LIBBLAKE_BLAKE224_OUTPUT_SIZE (224 / 8)
/**
* The hash size, in bytes, for BLAKE256
*/
#define LIBBLAKE_BLAKE256_OUTPUT_SIZE (256 / 8)
/**
* The hash size, in bytes, for BLAKE384
*/
#define LIBBLAKE_BLAKE384_OUTPUT_SIZE (384 / 8)
/**
* The hash size, in bytes, for BLAKE512
*/
#define LIBBLAKE_BLAKE512_OUTPUT_SIZE (512 / 8)
/**
* The block size used by BLAKE224; it will only
* process a multiple of this number of bytes in
* each call to `libblake_blake224_update`
*/
#define LIBBLAKE_BLAKE224_BLOCK_SIZE 64
/**
* The block size used by BLAKE256; it will only
* process a multiple of this number of bytes in
* each call to `libblake_blake256_update`
*/
#define LIBBLAKE_BLAKE256_BLOCK_SIZE 64
/**
* The block size used by BLAKE384; it will only
* process a multiple of this number of bytes in
* each call to `libblake_blake384_update`
*/
#define LIBBLAKE_BLAKE384_BLOCK_SIZE 128
/**
* The block size used by BLAKE512; it will only
* process a multiple of this number of bytes in
* each call to `libblake_blake512_update`
*/
#define LIBBLAKE_BLAKE512_BLOCK_SIZE 128
/**
* State for BLAKEs hashing (BLAKE224 and BLAKE256)
*
* This structure should be considered internal
*/
struct libblake_blakes_state {
uint_least32_t h[8];
uint_least32_t s[4];
uint_least32_t t[2];
};
/**
* State for BLAKEb hashing (BLAKE384 and BLAKE512)
*
* This structure should be considered internal
*/
struct libblake_blakeb_state {
uint_least64_t h[8];
uint_least64_t s[4];
uint_least64_t t[2];
};
/**
* State for BLAKE224 hashing
*
* This structure should be opaque
*/
struct libblake_blake224_state { struct libblake_blakes_state s; };
/**
* State for BLAKE256 hashing
*
* This structure should be opaque
*/
struct libblake_blake256_state { struct libblake_blakes_state s; };
/**
* State for BLAKE384 hashing
*
* This structure should be opaque
*/
struct libblake_blake384_state { struct libblake_blakeb_state b; };
/**
* State for BLAKE512 hashing
*
* This structure should be opaque
*/
struct libblake_blake512_state { struct libblake_blakeb_state b; };
/**
* Initialise a state for hashing with BLAKE224
*
* @param state The state to initialise
* @param salt 16-byte salt to use, or `NULL` for an all-zeroes salt
*/
LIBBLAKE_PUBLIC__ void
libblake_blake224_init2(struct libblake_blake224_state *state, const uint_least8_t salt[16]);
/**
* Initialise a state for hashing with BLAKE224
* and an all-zeroes salt
*
* @param state The state to initialise
*/
LIBBLAKE_PUBLIC__ inline void
libblake_blake224_init(struct libblake_blake224_state *state) {
libblake_blake224_init2(state, NULL);
}
/**
* Process data for hashing with BLAKE224
*
* The function can only process multiples of 64 bytes,
* any data in excess of a 64-byte multiple will be
* ignored and must be processed when more data is
* available or using `libblake_blake224_digest`
* when the end of the input has been reached
*
* @param state The state of the hash function
* @param data The data to feed into the function
* @param len The maximum number of bytes to process
* @return The number of processed bytes
*/
LIBBLAKE_PUBLIC__ size_t
libblake_blake224_update(struct libblake_blake224_state *state, const void *data, size_t len);
/**
* Get the required allocation size of the
* input buffer for `libblake_blake224_digest`
*
* @param len The number of input whole bytes
* @param bits The number of input bits after the last whole bytes
* (may actually be greater than 7)
* @param suffix String of '0's and '1's of addition bits to add to the
* end of the input, or `NULL` (or the empty string) if none
* @return The number bytes required for the input buffer
*/
LIBBLAKE_PUBLIC__ LIBBLAKE_PURE__ size_t
libblake_blake224_digest_get_required_input_size(size_t len, size_t bits, const char *suffix);
/**
* Calculate the BLAKE224 hash of the input data
*
* The `state` parameter must have been initialised using
* the `libblake_blake224_init` function, after which, but
* before this function is called, `libblake_blake224_update`
* can be used to process data before this function is
* called. Already processed data shall not be input to
* this function.
*
* @param state The state of the hash function
* @param data Data to process; the function will write addition data to
* the end, therefore the size of this buffer must be at least
* `libblake_blake224_digest_get_required_input_size(len, bits, suffix)`
* bytes large
* @param len The number of input whole bytes
* @param bits The number of input bits after the last whole bytes
* (may actually be greater than 7); these bits shall
* be stored in `data[len]`'s (addition bytes will be used
* if `bits > 8`) lower bits
* @param suffix String of '0's and '1's of addition bits to add to the
* end of the input, or `NULL` (or the empty string) if none;
* the first character corresponds to the lowest indexed
* additional bit, and the last character corresponds to
* the highest indexed additional bit
* @param output Output buffer for the hash, which will be stored in raw
* binary representation; the size of this buffer must be
* at least `LIBBLAKE_BLAKE224_OUTPUT_SIZE` bytes
*/
LIBBLAKE_PUBLIC__ void
libblake_blake224_digest(struct libblake_blake224_state *state, void *data, size_t len, size_t bits,
const char *suffix, unsigned char output[static LIBBLAKE_BLAKE224_OUTPUT_SIZE]);
/**
* Initialise a state for hashing with BLAKE256
*
* @param state The state to initialise
* @param salt 16-byte salt to use, or `NULL` for an all-zeroes salt
*/
LIBBLAKE_PUBLIC__ void
libblake_blake256_init2(struct libblake_blake256_state *state, const uint_least8_t salt[16]);
/**
* Initialise a state for hashing with BLAKE256
* and an all-zeroes salt
*
* @param state The state to initialise
*/
LIBBLAKE_PUBLIC__ inline void
libblake_blake256_init(struct libblake_blake256_state *state) {
libblake_blake256_init2(state, NULL);
}
/**
* Process data for hashing with BLAKE256
*
* The function can only process multiples of 64 bytes,
* any data in excess of a 64-byte multiple will be
* ignored and must be processed when more data is
* available or using `libblake_blake256_digest`
* when the end of the input has been reached
*
* @param state The state of the hash function
* @param data The data to feed into the function
* @param len The maximum number of bytes to process
* @return The number of processed bytes
*/
LIBBLAKE_PUBLIC__ size_t
libblake_blake256_update(struct libblake_blake256_state *state, const void *data, size_t len);
/**
* Get the required allocation size of the
* input buffer for `libblake_blake256_digest`
*
* @param len The number of input whole bytes
* @param bits The number of input bits after the last whole bytes
* (may actually be greater than 7)
* @param suffix String of '0's and '1's of addition bits to add to the
* end of the input, or `NULL` (or the empty string) if none
* @return The number bytes required for the input buffer
*/
LIBBLAKE_PUBLIC__ LIBBLAKE_PURE__ inline size_t
libblake_blake256_digest_get_required_input_size(size_t len, size_t bits, const char *suffix) {
return libblake_blake224_digest_get_required_input_size(len, bits, suffix);
}
/**
* Calculate the BLAKE256 hash of the input data
*
* The `state` parameter must have been initialised using
* the `libblake_blake256_init` function, after which, but
* before this function is called, `libblake_blake256_update`
* can be used to process data before this function is
* called. Already processed data shall not be input to
* this function.
*
* @param state The state of the hash function
* @param data Data to process; the function will write addition data to
* the end, therefore the size of this buffer must be at least
* `libblake_blake256_digest_get_required_input_size(len, bits, suffix)`
* bytes large
* @param len The number of input whole bytes
* @param bits The number of input bits after the last whole bytes
* (may actually be greater than 7); these bits shall
* be stored in `data[len]`'s (addition bytes will be used
* if `bits > 8`) lower bits
* @param suffix String of '0's and '1's of addition bits to add to the
* end of the input, or `NULL` (or the empty string) if none;
* the first character corresponds to the lowest indexed
* additional bit, and the last character corresponds to
* the highest indexed additional bit
* @param output Output buffer for the hash, which will be stored in raw
* binary representation; the size of this buffer must be
* at least `LIBBLAKE_BLAKE256_OUTPUT_SIZE` bytes
*/
LIBBLAKE_PUBLIC__ void
libblake_blake256_digest(struct libblake_blake256_state *state, void *data, size_t len, size_t bits,
const char *suffix, unsigned char output[static LIBBLAKE_BLAKE256_OUTPUT_SIZE]);
/**
* Initialise a state for hashing with BLAKE384
*
* @param state The state to initialise
* @param salt 32-byte salt to use, or `NULL` for an all-zeroes salt
*/
LIBBLAKE_PUBLIC__ void
libblake_blake384_init2(struct libblake_blake384_state *state, const uint_least8_t salt[32]);
/**
* Initialise a state for hashing with BLAKE384
* and an all-zeroes salt
*
* @param state The state to initialise
*/
LIBBLAKE_PUBLIC__ inline void
libblake_blake384_init(struct libblake_blake384_state *state) {
libblake_blake384_init2(state, NULL);
}
/**
* Process data for hashing with BLAKE384
*
* The function can only process multiples of 128 bytes,
* any data in excess of a 128-byte multiple will
* be ignored and must be processed when more data
* is available or using `libblake_blake384_digest`
* when the end of the input has been reached
*
* @param state The state of the hash function
* @param data The data to feed into the function
* @param len The maximum number of bytes to process
* @return The number of processed bytes
*/
LIBBLAKE_PUBLIC__ size_t
libblake_blake384_update(struct libblake_blake384_state *state, const void *data, size_t len);
/**
* Get the required allocation size of the
* input buffer for `libblake_blake384_digest`
*
* @param len The number of input whole bytes
* @param bits The number of input bits after the last whole bytes
* (may actually be greater than 7)
* @param suffix String of '0's and '1's of addition bits to add to the
* end of the input, or `NULL` (or the empty string) if none
* @return The number bytes required for the input buffer
*/
LIBBLAKE_PUBLIC__ LIBBLAKE_PURE__ size_t
libblake_blake384_digest_get_required_input_size(size_t len, size_t bits, const char *suffix);
/**
* Calculate the BLAKE384 hash of the input data
*
* The `state` parameter must have been initialised using
* the `libblake_blake384_init` function, after which, but
* before this function is called, `libblake_blake384_update`
* can be used to process data before this function is
* called. Already processed data shall not be input to
* this function.
*
* @param state The state of the hash function
* @param data Data to process; the function will write addition data to
* the end, therefore the size of this buffer must be at least
* `libblake_blake384_digest_get_required_input_size(len, bits, suffix)`
* bytes large
* @param len The number of input whole bytes
* @param bits The number of input bits after the last whole bytes
* (may actually be greater than 7); these bits shall
* be stored in `data[len]`'s (addition bytes will be used
* if `bits > 8`) lower bits
* @param suffix String of '0's and '1's of addition bits to add to the
* end of the input, or `NULL` (or the empty string) if none;
* the first character corresponds to the lowest indexed
* additional bit, and the last character corresponds to
* the highest indexed additional bit
* @param output Output buffer for the hash, which will be stored in raw
* binary representation; the size of this buffer must be
* at least `LIBBLAKE_BLAKE384_OUTPUT_SIZE` bytes
*/
LIBBLAKE_PUBLIC__ void
libblake_blake384_digest(struct libblake_blake384_state *state, void *data, size_t len, size_t bits,
const char *suffix, unsigned char output[static LIBBLAKE_BLAKE384_OUTPUT_SIZE]);
/**
* Initialise a state for hashing with BLAKE512
*
* @param state The state to initialise
* @param salt 32-byte salt to use, or `NULL` for an all-zeroes salt
*/
LIBBLAKE_PUBLIC__ void
libblake_blake512_init2(struct libblake_blake512_state *state, const uint_least8_t salt[32]);
/**
* Initialise a state for hashing with BLAKE512
* and an all-zeroes salt
*
* @param state The state to initialise
*/
LIBBLAKE_PUBLIC__ inline void
libblake_blake512_init(struct libblake_blake512_state *state) {
libblake_blake512_init2(state, NULL);
}
/**
* Process data for hashing with BLAKE512
*
* The function can only process multiples of 128 bytes,
* any data in excess of a 128-byte multiple will
* be ignored and must be processed when more data
* is available or using `libblake_blake512_digest`
* when the end of the input has been reached
*
* @param state The state of the hash function
* @param data The data to feed into the function
* @param len The maximum number of bytes to process
* @return The number of processed bytes
*/
LIBBLAKE_PUBLIC__ size_t
libblake_blake512_update(struct libblake_blake512_state *state, const void *data, size_t len);
/**
* Get the required allocation size of the
* input buffer for `libblake_blake512_digest`
*
* @param len The number of input whole bytes
* @param bits The number of input bits after the last whole bytes
* (may actually be greater than 7)
* @param suffix String of '0's and '1's of addition bits to add to the
* end of the input, or `NULL` (or the empty string) if none
* @return The number bytes required for the input buffer
*/
LIBBLAKE_PUBLIC__ LIBBLAKE_PURE__ inline size_t
libblake_blake512_digest_get_required_input_size(size_t len, size_t bits, const char *suffix) {
return libblake_blake384_digest_get_required_input_size(len, bits, suffix);
}
/**
* Calculate the BLAKE512 hash of the input data
*
* The `state` parameter must have been initialised using
* the `libblake_blake512_init` function, after which, but
* before this function is called, `libblake_blake512_update`
* can be used to process data before this function is
* called. Already processed data shall not be input to
* this function.
*
* @param state The state of the hash function
* @param data Data to process; the function will write addition data to
* the end, therefore the size of this buffer must be at least
* `libblake_blake512_digest_get_required_input_size(len, bits, suffix)`
* bytes large
* @param len The number of input whole bytes
* @param bits The number of input bits after the last whole bytes
* (may actually be greater than 7); these bits shall
* be stored in `data[len]`'s (addition bytes will be used
* if `bits > 8`) lower bits
* @param suffix String of '0's and '1's of addition bits to add to the
* end of the input, or `NULL` (or the empty string) if none;
* the first character corresponds to the lowest indexed
* additional bit, and the last character corresponds to
* the highest indexed additional bit
* @param output Output buffer for the hash, which will be stored in raw
* binary representation; the size of this buffer must be
* at least `LIBBLAKE_BLAKE512_OUTPUT_SIZE` bytes
*/
LIBBLAKE_PUBLIC__ void
libblake_blake512_digest(struct libblake_blake512_state *state, void *data, size_t len, size_t bits,
const char *suffix, unsigned char output[static LIBBLAKE_BLAKE512_OUTPUT_SIZE]);
/*********************************** BLAKE2 ***********************************/
/**
* The block size used by BLAKE2s; it will only
* process a multiple of this number of bytes in
* each call to `libblake_blake2s_update` or
* `libblake_blake2s_force_update`
*/
#define LIBBLAKE_BLAKE2S_BLOCK_SIZE 64
/**
* The block size used by BLAKE2b; it will only
* process a multiple of this number of bytes in
* each call to `libblake_blake2b_update` or
* `libblake_blake2b_force_update`
*/
#define LIBBLAKE_BLAKE2B_BLOCK_SIZE 128
/**
* BLAKE2s hashing parameters
*/
struct libblake_blake2s_params {
/**
* The size of the output hash, in bytes (in its raw
* binary encoding, i.e. before encoded to hexadecimal
* or other text encoding)
*
* This value shall be between within [1, 32]
*/
uint_least8_t digest_len;
/**
* The size of the key, in bytes
*
* This value shall be 0 for unkeyed mode and within
* [1, 32] for keyed mode
*
* Keyed mode is used for MAC and PRF
*/
uint_least8_t key_len;
/**
* The fan-out on each non-root node in tree hashing,
* 0 for unlimited
*
* Set to 1 if, and only if, not using tree-hashing
*/
uint_least8_t fanout;
/**
* The maximum depth of the hashing tree, 255 for
* unlimited, 0 is forbidden
*
* It is recommended that 2 is used (the value will
* affect the resulting hashing) if the fan-out is
* unlimited
*
* Set to 1 if, and only if, not using tree-hashing
*/
uint_least8_t depth;
/**
* The number of bytes from the input to process at
* each leaf in the hashing tree; 0 if unlimited
*
* Set to 0 if not using tree-hashing
*/
uint_least32_t leaf_len;
/**
* The offset of the current node in the hashing tree
*
* For leaf nodes, this is the position in the input,
* that is being processed by the current node in the
* hashing tree, divided by `.leaf_len`, or 0 if
* `.leaf_len` is 0. For non-leaf nodes this value is
* further divided by the fan-out once per level
* removed from the leaf nodes.
*
* This value is limited to 48 bits.
*
* Set to 0 if not using tree-hashing
*/
uint_least64_t node_offset;
/**
* The depth of the current node in the hashing tree
*
* This value is 0 for the leaves, and plus 1 per
* level up the tree towards the root
*
* Set to 0 if not using tree-hashing
*/
uint_least8_t node_depth;
/**
* Inner hash (the intermediate hash produced at
* each node except the root node) length, in bytes
*
* This value shall be between within [1, 32] for
* tree-hashing
*
* Set to 0 if not using tree-hashing
*/
uint_least8_t inner_len;
uint_least8_t _padding[2]; /* to keep .salt and .pepper aligned as uint_least32_t */
/**
* 8-byte salt used to make the hash unique even if
* the input is not unique
*
* These is normally used in password hashing schemes
* to avoid duplicate hashing where two user's have
* the same password, and, more importantly, to prevent
* rainbow-table attacks
*
* This is normally not used when producing checksum
* for files, and should normally be all NUL bytes
* in such cases
*/
uint_least8_t salt[8];
/**
* 8-byte pepper ("personalisation") used to make the
* hash application-unique
*
* These is normally used (in the rare cases when it is
* used) in password hashing schemes as an extra level
* of security (through obscurity; something that is OK
* only when it is an _extra_ level of security). A pepper
* must not be stored in a password database; it should
* be compiled into the application that calculates the
* hash, to avoid it being accessed by a hacker when he
* gets access to the password table.
*
* This is normally not used when producing checksum for
* files, and should normally be all NUL bytes in such
* cases
*/
uint_least8_t pepper[8];
};
/**
* BLAKE2b hashing parameters
*/
struct libblake_blake2b_params {
/**
* The size of the output hash, in bytes (in its raw
* binary encoding, i.e. before encoded to hexadecimal
* other text encoding)
*
* This value shall be between within [1, 64]
*/
uint_least8_t digest_len;
/**
* The size of the key, in bytes
*
* This value shall be 0 for unkeyed mode and within
* [1, 64] for keyed mode
*
* Keyed mode is used for MAC and PRF
*/
uint_least8_t key_len;
/**
* The fan-out on each non-root node in tree hashing
*
* Set to 1 if, and only if, not using tree-hashing
*/
uint_least8_t fanout;
/**
* The maximum depth of the hashing tree, 255 for
* unlimited, 0 is forbidden
*
* It is recommended that 2 is used (the value will
* affect the resulting hashing) if the fan-out is
* unlimited
*
* Set to 1 if, and only if, not using tree-hashing
*/
uint_least8_t depth;
/**
* The number of bytes from the input to process at
* each leaf in the hashing tree; 0 if unlimited
*
* Set to 0 if not using tree-hashing
*/
uint_least32_t leaf_len;
/**
* The offset of the current node in the hashing tree
*
* For leaf nodes, this is the position in the input,
* that is being processed by the current node in the
* hashing tree, divided by `.leaf_len`, or 0 if
* `.leaf_len` is 0. For non-leaf nodes this value is
* further divided by the fan-out once per level
* removed from the leaf nodes.
*
* Set to 0 if not using tree-hashing
*/
uint_least64_t node_offset;
/**
* The depth of the current node in the hashing tree
*
* This value is 0 for the leaves, and plus 1 per
* level up the tree towards the root
*
* Set to 0 if not using tree-hashing
*/
uint_least8_t node_depth;
/**
* Inner hash (the intermediate hash produced at each
* node except the root node) length, in bytes
*
* This value shall be between within [1, 32] for
* tree-hashing
*
* Set to 0 if not using tree-hashing
*/
uint_least8_t inner_len;
uint_least8_t _padding[6]; /* to keep .salt and .pepper aligned as uint_least64_t */
/**
* 8-byte salt used to make the hash unique even if
* the input is not unique
*
* These is normally used in password hashing schemes
* to avoid duplicate hashing where two user's have the
* same password, and, more importantly, to prevent
* rainbow-table attacks
*
* This is normally not used when producing checksum
* for files, and should normally be all NUL bytes in
* such cases
*/
uint_least8_t salt[16];
/**
* 16-byte pepper ("personalisation") used to make the
* hash application-unique
*
* These is normally used (in the rare cases when it is
* used) in password hashing schemes as an extra level
* of security (through obscurity; something that is OK
* only when it is an _extra_ level of security). A pepper
* must not be stored in a password database; it should be
* compiled into the application that calculates the hash,
* to avoid it being accessed by a hacker when he gets
* access to the password table.
*
* This is normally not used when producing checksum for
* files, and should normally be all NUL bytes in such
* cases
*/
uint_least8_t pepper[16];
};
/**
* State for BLAKE2s hashing
*
* This structure should be opaque
*/
struct libblake_blake2s_state {
LIBBLAKE_ALIGNED__(32)
uint_least32_t h[8];
uint_least32_t t[2];
uint_least32_t f[2];
};
/**
* State for BLAKE2b hashing
*
* This structure should be opaque
*/
struct libblake_blake2b_state {
LIBBLAKE_ALIGNED__(32)
uint_least64_t h[8];
uint_least64_t t[2];
uint_least64_t f[2];
};
/**
* Initialise a state for hashing with BLAKE2s
*
* For keyed mode, which is used for MAC and PRF,
* after calling this function, the 64 first bytes
* input to the hash function shall be the key
* with NUL bytes appended to it (such that the
* length is 64 bytes, which is double the maximum
* allowed length of the key, but is the size
* block size used by BLAKE2s)
*
* @param state The state to initialise
* @param params Hashing parameters
*/
LIBBLAKE_PUBLIC__ void
libblake_blake2s_init(struct libblake_blake2s_state *state, const struct libblake_blake2s_params *params);
/**
* Process data for hashing with BLAKE2s
*
* The function can only process multiples of 64 bytes,
* but cannot process that last chunk of 64 bytes
* unless a non-multiple of 64 bytes is input to the
* function; any excess data will be ignored and must
* be processed when more data is available or using
* `libblake_blake2s_digest` when the end of the
* input has been reached
*
* @param state The state of the hash function
* @param data The data to feed into the function
* @param len The maximum number of bytes to process
* @return The number of processed bytes
*/
LIBBLAKE_PUBLIC__ size_t
libblake_blake2s_update(struct libblake_blake2s_state *state, const void *data, size_t len);
/**
* Process data for hashing with BLAKE2s
*
* The function can only process multiples of 64 bytes,
* any excess data will be ignored and must be
* processed when more data is available or using
* `libblake_blake2s_digest` when the end of the input
* has been reached
*
* Unlike `libblake_blake2s_update`, this function
* will all input data if `len` is a multiple of
* 64, however the application must make sure that
* there is more data to process
*
* @param state The state of the hash function
* @param data The data to feed into the function
* @param len The maximum number of bytes to process
* @return The number of processed bytes
*/
LIBBLAKE_PUBLIC__ size_t
libblake_blake2s_force_update(struct libblake_blake2s_state *state, const void *data, size_t len);
/**
* Get the required allocation size of the
* input buffer for `libblake_blake2s_digest`
*
* @param len The number of input bytes
* @return The number bytes required for the input buffer
*/
LIBBLAKE_PUBLIC__ LIBBLAKE_CONST__ size_t
libblake_blake2s_digest_get_required_input_size(size_t len);
/**
* Calculate the BLAKE2s hash of the input data
*
* The `state` parameter must have been initialised using
* the `libblake_blake2s_init` function, after which, but
* before this function is called, `libblake_blake2s_update`
* and `libblake_blake2s_force_update` can be used to
* process data before this function is called. Already
* processed data shall not be input to this function.
*
* @param state The state of the hash function
* @param data Data to process; the function will write addition data to
* the end, therefore the size of this buffer must be at least
* `libblake_blake2s_digest_get_required_input_size(len)`
* bytes large
* @param len The number of input bytes
* @param last_node Shall be non-0 the last node at each level in the
* hashing tree, include the root node, however, it
* shall be 0 if not using tree-hashing
* @param output_len The number of bytes to write to `output_len`; this
* shall be the value `params->digest_len` had when
* `libblake_blake2s_init` was called, where `params`
* is the second argument given to `libblake_blake2s_init`
* @param output Output buffer for the hash, which will be stored in raw
* binary representation; the size of this buffer must be
* at least `output_len` bytes
*/
LIBBLAKE_PUBLIC__ void
libblake_blake2s_digest(struct libblake_blake2s_state *state, void *data, size_t len, int last_node,
size_t output_len, unsigned char output[static output_len]);
/**
* Initialise a state for hashing with BLAKE2b
*
* For keyed mode, which is used for MAC and PRF,
* after calling this function, the 128 first bytes
* input to the hash function shall be the key
* with NUL bytes appended to it (such that the
* length is 128 bytes, which is double the maximum
* allowed length of the key, but is the size
* block size used by BLAKE2b)
*
* @param state The state to initialise
* @param params Hashing parameters
*/
LIBBLAKE_PUBLIC__ void
libblake_blake2b_init(struct libblake_blake2b_state *state, const struct libblake_blake2b_params *params);
/**
* Process data for hashing with BLAKE2b
*
* The function can only process multiples of 128 bytes,
* but cannot process that last chunk of 128 bytes
* unless a non-multiple of 128 bytes is input to the
* function; any excess data will be ignored and must
* be processed when more data is available or using
* `libblake_blake2b_digest` when the end of the
* input has been reached
*
* @param state The state of the hash function
* @param data The data to feed into the function
* @param len The maximum number of bytes to process
* @return The number of processed bytes
*/
LIBBLAKE_PUBLIC__ size_t
libblake_blake2b_update(struct libblake_blake2b_state *state, const void *data, size_t len);
/**
* Process data for hashing with BLAKE2b
*
* The function can only process multiples of 128 bytes,
* any excess data will be ignored and must be
* processed when more data is available or using
* `libblake_blake2s_digest` when the end of the input
* has been reached
*
* Unlike `libblake_blake2b_update`, this function
* will all input data if `len` is a multiple of
* 128, however the application must make sure that
* there is more data to process
*
* @param state The state of the hash function
* @param data The data to feed into the function
* @param len The maximum number of bytes to process
* @return The number of processed bytes
*/
LIBBLAKE_PUBLIC__ size_t
libblake_blake2b_force_update(struct libblake_blake2b_state *state, const void *data, size_t len);
/**
* Get the required allocation size of the
* input buffer for `libblake_blake2b_digest`
*
* @param len The number of input bytes
* @return The number bytes required for the input buffer
*/
LIBBLAKE_PUBLIC__ LIBBLAKE_CONST__ size_t
libblake_blake2b_digest_get_required_input_size(size_t len);
/**
* Calculate the BLAKE2b hash of the input data
*
* The `state` parameter must have been initialised using
* the `libblake_blake2b_init` function, after which, but
* before this function is called, `libblake_blake2b_update`
* and `libblake_blake2b_force_update` can be used to
* process data before this function is called. Already
* processed data shall not be input to this function.
*
* @param state The state of the hash function
* @param data Data to process; the function will write addition data to
* the end, therefore the size of this buffer must be at least
* `libblake_blake2b_digest_get_required_input_size(len)`
* bytes large
* @param len The number of input bytes
* @param last_node Shall be non-0 the last node at each level in the
* hashing tree, include the root node, however, it
* shall be 0 if not using tree-hashing
* @param output_len The number of bytes to write to `output_len`; this
* shall be the value `params->digest_len` had when
* `libblake_blake2b_init` was called, where `params`
* is the second argument given to `libblake_blake2b_init`
* @param output Output buffer for the hash, which will be stored in raw
* binary representation; the size of this buffer must be
* at least `output_len` bytes
*/
LIBBLAKE_PUBLIC__ void
libblake_blake2b_digest(struct libblake_blake2b_state *state, void *data, size_t len, int last_node,
size_t output_len, unsigned char output[static output_len]);
/*********************************** BLAKE2X (!!DRAFT!!) ***********************************/
/**
* The block size used by BLAKE2Xs; it will only
* process a multiple of this number of bytes in
* each call to `libblake_blake2xs_update` or
* `libblake_blake2xs_force_update`
*/
#define LIBBLAKE_BLAKE2XS_BLOCK_SIZE 64
/**
* The block size used by BLAKE2Xb; it will only
* process a multiple of this number of bytes in
* each call to `libblake_blake2xb_update` or
* `libblake_blake2xb_force_update`
*/
#define LIBBLAKE_BLAKE2XB_BLOCK_SIZE 128
/**
* BLAKE2Xs hashing parameters
*/
struct libblake_blake2xs_params {
uint_least8_t digest_len; /* in bytes, [1, 32] */
uint_least8_t key_len; /* in bytes, [0, 32] */
uint_least8_t fanout; /* normally 1 */
uint_least8_t depth; /* normally 1 */
uint_least32_t leaf_len; /* normally 0 */
uint_least32_t node_offset; /* normally 0 */
uint_least16_t xof_len; /* max if not known in advance */
uint_least8_t node_depth; /* normally 0 */
uint_least8_t inner_len; /* normally 0 */
uint_least8_t salt[8];
uint_least8_t pepper[8];
};
/**
* BLAKE2Xb hashing parameters
*/
struct libblake_blake2xb_params {
uint_least8_t digest_len; /* in bytes, [1, 64] */
uint_least8_t key_len; /* in bytes, [0, 64] */
uint_least8_t fanout; /* normally 1 */
uint_least8_t depth; /* normally 1 */
uint_least32_t leaf_len; /* normally 0 */
uint_least32_t node_offset; /* normally 0 */
uint_least32_t xof_len; /* max if not known in advance */
uint_least8_t node_depth; /* normally 0 */
uint_least8_t inner_len; /* normally 0 */
uint_least8_t _padding[2]; /* to keep .salt and .pepper aligned as uint_least32_t */
uint_least8_t salt[16];
uint_least8_t pepper[16];
};
/**
* State for BLAKE2Xs hashing
*
* This structure should be opaque
*/
struct libblake_blake2xs_state {
struct libblake_blake2s_state b2s;
struct libblake_blake2xs_params xof_params;
unsigned char intermediate[64];
};
/**
* State for BLAKE2Xb hashing
*
* This structure should be opaque
*/
struct libblake_blake2xb_state {
struct libblake_blake2b_state b2b;
struct libblake_blake2xb_params xof_params;
unsigned char intermediate[128];
};
/**
* Initialise a state for hashing with BLAKE2Xs
*
* NB! BLAKE2X has not been finalised as of 2022-02-20
*
* @param state The state to initialise
* @param params Hashing parameters
*/
LIBBLAKE_PUBLIC__ void
libblake_blake2xs_init(struct libblake_blake2xs_state *state, const struct libblake_blake2xs_params *params);
/**
* Process data for hashing with BLAKE2Xs
*
* The function can only process multiples of 64 bytes,
* but cannot process that last chunk of 64 bytes
* unless a non-multiple of 64 bytes is input to the
* function; any excess data will be ignored and must
* be processed when more data is available or using
* `libblake_blake2xs_predigest` when the end of the
* input has been reached
*
* @param state The state of the hash function
* @param data The data to feed into the function
* @param len The maximum number of bytes to process
* @return The number of processed bytes
*/
LIBBLAKE_PUBLIC__ inline size_t
libblake_blake2xs_update(struct libblake_blake2xs_state *state, const void *data, size_t len) {
return libblake_blake2s_update(&state->b2s, data, len);
}
/**
* Process data for hashing with BLAKE2Xs
*
* The function can only process multiples of 64 bytes,
* any excess data will be ignored and must be
* processed when more data is available or using
* `libblake_blake2xs_predigest` when the end of the
* input has been reached
*
* Unlike `libblake_blake2xs_update`, this function
* will all input data if `len` is a multiple of
* 64, however the application must make sure that
* there is more data to process
*
* @param state The state of the hash function
* @param data The data to feed into the function
* @param len The maximum number of bytes to process
* @return The number of processed bytes
*/
LIBBLAKE_PUBLIC__ inline size_t
libblake_blake2xs_force_update(struct libblake_blake2xs_state *state, const void *data, size_t len) {
return libblake_blake2s_force_update(&state->b2s, data, len);
}
/**
* Get the required allocation size of the
* input buffer for `libblake_blake2xs_predigest`
*
* @param len The number of input bytes
* @return The number bytes required for the input buffer
*/
LIBBLAKE_PUBLIC__ LIBBLAKE_PURE__ inline size_t
libblake_blake2xs_predigest_get_required_input_size(const struct libblake_blake2xs_state *state) {
return libblake_blake2s_digest_get_required_input_size((size_t)state->xof_params.digest_len);
}
/**
* Perform intermediate hashing calculation for
* a BLAKE2Xs hash at the end of the input data
*
* The `state` parameter must have been initialised using
* the `libblake_blake2xs_init` function, after which, but
* before this function is called, `libblake_blake2xs_update`
* and `libblake_blake2xs_force_update` can be used to
* process data before this function is called. Already
* processed data shall not be input to this function.
*
* @param state The state of the hash function
* @param data Data to process; the function will write addition data to
* the end, therefore the size of this buffer must be at least
* `libblake_blake2xs_digest_get_required_input_size(len)`
* bytes large
* @param len The number of input bytes
* @param last_node Shall be non-0 the last node at each level in the
* hashing tree, include the root node, however, it
* shall be 0 if not using tree-hashing
*/
LIBBLAKE_PUBLIC__ inline void
libblake_blake2xs_predigest(struct libblake_blake2xs_state *state, void *data, size_t len, int last_node) {
libblake_blake2s_digest(&state->b2s, data, len, last_node, (size_t)state->xof_params.digest_len, state->intermediate);
}
/**
* Calculate part of a BLAKE2Xs hashing
*
* All parts of the hash can be calculated in parallel
*
* The `state` parameter must have preprocessed
* using the `libblake_blake2xs_predigest` function
*
* @param state The state of the hash function
* @param i The index of the portion of the hash that
* shall be calculated, that is, the offset in
* the hash divided by 32, meaning that it
* shall be 0 when calculating the first 32
* bytes, and hash calculation stops when
* `i * 32` is equal to or greater than the
* desired hash length
* @param len Given the desired total hash length, in bytes,
* `length`, `len` shall be the minimum of `32`
* and `length - i * 32`
* @param output Output buffer for the hash offset by `i * 32`
*/
LIBBLAKE_PUBLIC__ void
libblake_blake2xs_digest(const struct libblake_blake2xs_state *state, uint_least32_t i,
uint_least8_t len, unsigned char output[static len]);
/**
* Initialise a state for hashing with BLAKE2Xb
*
* NB! BLAKE2X has not been finalised as of 2022-02-20
*
* @param state The state to initialise
* @param params Hashing parameters
*/
LIBBLAKE_PUBLIC__ void
libblake_blake2xb_init(struct libblake_blake2xb_state *state, const struct libblake_blake2xb_params *params);
/**
* Process data for hashing with BLAKE2Xb
*
* The function can only process multiples of 128 bytes,
* but cannot process that last chunk of 128 bytes
* unless a non-multiple of 128 bytes is input to the
* function; any excess data will be ignored and must
* be processed when more data is available or using
* `libblake_blake2xb_predigest` when the end of the
* input has been reached
*
* @param state The state of the hash function
* @param data The data to feed into the function
* @param len The maximum number of bytes to process
* @return The number of processed bytes
*/
LIBBLAKE_PUBLIC__ inline size_t
libblake_blake2xb_update(struct libblake_blake2xb_state *state, const void *data, size_t len) {
return libblake_blake2b_update(&state->b2b, data, len);
}
/**
* Process data for hashing with BLAKE2Xb
*
* The function can only process multiples of 128 bytes,
* any excess data will be ignored and must be
* processed when more data is available or using
* `libblake_blake2xs_predigest` when the end of the
* input has been reached
*
* Unlike `libblake_blake2xb_update`, this function
* will all input data if `len` is a multiple of
* 128, however the application must make sure that
* there is more data to process
*
* @param state The state of the hash function
* @param data The data to feed into the function
* @param len The maximum number of bytes to process
* @return The number of processed bytes
*/
LIBBLAKE_PUBLIC__ inline size_t
libblake_blake2xb_force_update(struct libblake_blake2xb_state *state, const void *data, size_t len) {
return libblake_blake2b_force_update(&state->b2b, data, len);
}
/**
* Get the required allocation size of the
* input buffer for `libblake_blake2xb_predigest`
*
* @param len The number of input bytes
* @return The number bytes required for the input buffer
*/
LIBBLAKE_PUBLIC__ LIBBLAKE_PURE__ inline size_t
libblake_blake2xb_predigest_get_required_input_size(const struct libblake_blake2xb_state *state) {
return libblake_blake2b_digest_get_required_input_size((size_t)state->xof_params.digest_len);
}
/**
* Perform intermediate hashing calculation for
* a BLAKE2Xb hash at the end of the input data
*
* The `state` parameter must have been initialised using
* the `libblake_blake2xb_init` function, after which, but
* before this function is called, `libblake_blake2xb_update`
* and `libblake_blake2xb_force_update` can be used to
* process data before this function is called. Already
* processed data shall not be input to this function.
*
* @param state The state of the hash function
* @param data Data to process; the function will write addition data to
* the end, therefore the size of this buffer must be at least
* `libblake_blake2xb_digest_get_required_input_size(len)`
* bytes large
* @param len The number of input bytes
* @param last_node Shall be non-0 the last node at each level in the
* hashing tree, include the root node, however, it
* shall be 0 if not using tree-hashing
*/
LIBBLAKE_PUBLIC__ inline void
libblake_blake2xb_predigest(struct libblake_blake2xb_state *state, void *data, size_t len, int last_node) {
libblake_blake2b_digest(&state->b2b, data, len, last_node, state->xof_params.digest_len, state->intermediate);
}
/**
* Calculate part of a BLAKE2Xb hashing
*
* All parts of the hash can be calculated in parallel
*
* The `state` parameter must have preprocessed
* using the `libblake_blake2xb_predigest` function
*
* @param state The state of the hash function
* @param i The index of the portion of the hash that
* shall be calculated, that is, the offset in
* the hash divided by 64, meaning that it
* shall be 0 when calculating the first 64
* bytes, and hash calculation stops when
* `i * 64` is equal to or greater than the
* desired hash length
* @param len Given the desired total hash length, in bytes,
* `length`, `len` shall be the minimum of `64`
* and `length - i * 64`
* @param output Output buffer for the hash offset by `i * 64`
*/
LIBBLAKE_PUBLIC__ void
libblake_blake2xb_digest(const struct libblake_blake2xb_state *state, uint_least32_t i,
uint_least8_t len, unsigned char output[static len]);
#if defined(__clang__)
# pragma clang diagnostic pop
#endif
#endif
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