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/*
* Argon2 reference source code package - reference C implementations
*
* Copyright 2015
* Daniel Dinu, Dmitry Khovratovich, Jean-Philippe Aumasson, and Samuel Neves
*
* You may use this work under the terms of a Creative Commons CC0 1.0
* License/Waiver or the Apache Public License 2.0, at your option. The terms of
* these licenses can be found at:
*
* - CC0 1.0 Universal : http://creativecommons.org/publicdomain/zero/1.0
* - Apache 2.0 : http://www.apache.org/licenses/LICENSE-2.0
*
* You should have received a copy of both of these licenses along with this
* software. If not, they may be obtained at the above URLs.
*/
#ifndef ARGON2_H
#define ARGON2_H
#include <stdint.h>
#include <stddef.h>
#include <limits.h>
#if defined(__cplusplus)
extern "C" {
#endif
/* Symbols visibility control */
#ifdef A2_VISCTL
#define ARGON2_PUBLIC __attribute__((visibility("default")))
#elif _MSC_VER
#define ARGON2_PUBLIC __declspec(dllexport)
#else
#define ARGON2_PUBLIC
#endif
/*
* Argon2 input parameter restrictions
*/
/* Minimum and maximum number of lanes (degree of parallelism) */
#define ARGON2_MIN_LANES UINT32_C(1)
#define ARGON2_MAX_LANES UINT32_C(0xFFFFFF)
/* Minimum and maximum number of threads */
#define ARGON2_MIN_THREADS UINT32_C(1)
#define ARGON2_MAX_THREADS UINT32_C(0xFFFFFF)
/* Number of synchronization points between lanes per pass */
#define ARGON2_SYNC_POINTS UINT32_C(4)
/* Minimum and maximum digest size in bytes */
#define ARGON2_MIN_OUTLEN UINT32_C(4)
#define ARGON2_MAX_OUTLEN UINT32_C(0xFFFFFFFF)
/* Minimum and maximum number of memory blocks (each of BLOCK_SIZE bytes) */
#define ARGON2_MIN_MEMORY (2 * ARGON2_SYNC_POINTS) /* 2 blocks per slice */
#define ARGON2_MIN(a, b) ((a) < (b) ? (a) : (b))
/* Max memory size is addressing-space/2, topping at 2^32 blocks (4 TB) */
#define ARGON2_MAX_MEMORY_BITS \
ARGON2_MIN(UINT32_C(32), (sizeof(void *) * CHAR_BIT - 10 - 1))
#define ARGON2_MAX_MEMORY \
ARGON2_MIN(UINT32_C(0xFFFFFFFF), UINT64_C(1) << ARGON2_MAX_MEMORY_BITS)
/* Minimum and maximum number of passes */
#define ARGON2_MIN_TIME UINT32_C(1)
#define ARGON2_MAX_TIME UINT32_C(0xFFFFFFFF)
/* Minimum and maximum password length in bytes */
#define ARGON2_MIN_PWD_LENGTH UINT32_C(0)
#define ARGON2_MAX_PWD_LENGTH UINT32_C(0xFFFFFFFF)
/* Minimum and maximum associated data length in bytes */
#define ARGON2_MIN_AD_LENGTH UINT32_C(0)
#define ARGON2_MAX_AD_LENGTH UINT32_C(0xFFFFFFFF)
/* Minimum and maximum salt length in bytes */
#define ARGON2_MIN_SALT_LENGTH UINT32_C(8)
#define ARGON2_MAX_SALT_LENGTH UINT32_C(0xFFFFFFFF)
/* Minimum and maximum key length in bytes */
#define ARGON2_MIN_SECRET UINT32_C(0)
#define ARGON2_MAX_SECRET UINT32_C(0xFFFFFFFF)
/* Flags to determine which fields are securely wiped (default = no wipe). */
#define ARGON2_DEFAULT_FLAGS UINT32_C(0)
#define ARGON2_FLAG_CLEAR_PASSWORD (UINT32_C(1) << 0)
#define ARGON2_FLAG_CLEAR_SECRET (UINT32_C(1) << 1)
/* Global flag to determine if we are wiping internal memory buffers. This flag
* is defined in core.c and deafults to 1 (wipe internal memory). */
extern int FLAG_clear_internal_memory;
/* Error codes */
typedef enum Argon2_ErrorCodes {
ARGON2_OK = 0,
ARGON2_OUTPUT_PTR_NULL = -1,
ARGON2_OUTPUT_TOO_SHORT = -2,
ARGON2_OUTPUT_TOO_LONG = -3,
ARGON2_PWD_TOO_SHORT = -4,
ARGON2_PWD_TOO_LONG = -5,
ARGON2_SALT_TOO_SHORT = -6,
ARGON2_SALT_TOO_LONG = -7,
ARGON2_AD_TOO_SHORT = -8,
ARGON2_AD_TOO_LONG = -9,
ARGON2_SECRET_TOO_SHORT = -10,
ARGON2_SECRET_TOO_LONG = -11,
ARGON2_TIME_TOO_SMALL = -12,
ARGON2_TIME_TOO_LARGE = -13,
ARGON2_MEMORY_TOO_LITTLE = -14,
ARGON2_MEMORY_TOO_MUCH = -15,
ARGON2_LANES_TOO_FEW = -16,
ARGON2_LANES_TOO_MANY = -17,
ARGON2_PWD_PTR_MISMATCH = -18, /* NULL ptr with non-zero length */
ARGON2_SALT_PTR_MISMATCH = -19, /* NULL ptr with non-zero length */
ARGON2_SECRET_PTR_MISMATCH = -20, /* NULL ptr with non-zero length */
ARGON2_AD_PTR_MISMATCH = -21, /* NULL ptr with non-zero length */
ARGON2_MEMORY_ALLOCATION_ERROR = -22,
ARGON2_FREE_MEMORY_CBK_NULL = -23,
ARGON2_ALLOCATE_MEMORY_CBK_NULL = -24,
ARGON2_INCORRECT_PARAMETER = -25,
ARGON2_INCORRECT_TYPE = -26,
ARGON2_OUT_PTR_MISMATCH = -27,
ARGON2_THREADS_TOO_FEW = -28,
ARGON2_THREADS_TOO_MANY = -29,
ARGON2_MISSING_ARGS = -30,
ARGON2_ENCODING_FAIL = -31,
ARGON2_DECODING_FAIL = -32,
ARGON2_THREAD_FAIL = -33,
ARGON2_DECODING_LENGTH_FAIL = -34,
ARGON2_VERIFY_MISMATCH = -35
} argon2_error_codes;
/* Memory allocator types --- for external allocation */
typedef int (*allocate_fptr)(uint8_t **memory, size_t bytes_to_allocate);
typedef void (*deallocate_fptr)(uint8_t *memory, size_t bytes_to_allocate);
/* Argon2 external data structures */
/*
*****
* Context: structure to hold Argon2 inputs:
* output array and its length,
* password and its length,
* salt and its length,
* secret and its length,
* associated data and its length,
* number of passes, amount of used memory (in KBytes, can be rounded up a bit)
* number of parallel threads that will be run.
* All the parameters above affect the output hash value.
* Additionally, two function pointers can be provided to allocate and
* deallocate the memory (if NULL, memory will be allocated internally).
* Also, three flags indicate whether to erase password, secret as soon as they
* are pre-hashed (and thus not needed anymore), and the entire memory
*****
* Simplest situation: you have output array out[8], password is stored in
* pwd[32], salt is stored in salt[16], you do not have keys nor associated
* data. You need to spend 1 GB of RAM and you run 5 passes of Argon2d with
* 4 parallel lanes.
* You want to erase the password, but you're OK with last pass not being
* erased. You want to use the default memory allocator.
* Then you initialize:
Argon2_Context(out,8,pwd,32,salt,16,NULL,0,NULL,0,5,1<<20,4,4,NULL,NULL,true,false,false,false)
*/
typedef struct Argon2_Context {
uint8_t *out; /* output array */
uint32_t outlen; /* digest length */
uint8_t *pwd; /* password array */
uint32_t pwdlen; /* password length */
uint8_t *salt; /* salt array */
uint32_t saltlen; /* salt length */
uint8_t *secret; /* key array */
uint32_t secretlen; /* key length */
uint8_t *ad; /* associated data array */
uint32_t adlen; /* associated data length */
uint32_t t_cost; /* number of passes */
uint32_t m_cost; /* amount of memory requested (KB) */
uint32_t lanes; /* number of lanes */
uint32_t threads; /* maximum number of threads */
uint32_t version; /* version number */
allocate_fptr allocate_cbk; /* pointer to memory allocator */
deallocate_fptr free_cbk; /* pointer to memory deallocator */
uint32_t flags; /* array of bool options */
} argon2_context;
/* Argon2 primitive type */
typedef enum Argon2_type {
Argon2_d = 0,
Argon2_i = 1,
Argon2_id = 2
} argon2_type;
/* Version of the algorithm */
typedef enum Argon2_version {
ARGON2_VERSION_10 = 0x10,
ARGON2_VERSION_13 = 0x13,
ARGON2_VERSION_NUMBER = ARGON2_VERSION_13
} argon2_version;
/*
* Function that gives the string representation of an argon2_type.
* @param type The argon2_type that we want the string for
* @param uppercase Whether the string should have the first letter uppercase
* @return NULL if invalid type, otherwise the string representation.
*/
ARGON2_PUBLIC const char *argon2_type2string(argon2_type type, int uppercase);
/*
* Function that performs memory-hard hashing with certain degree of parallelism
* @param context Pointer to the Argon2 internal structure
* @return Error code if smth is wrong, ARGON2_OK otherwise
*/
ARGON2_PUBLIC int argon2_ctx(argon2_context *context, argon2_type type);
/**
* Hashes a password with Argon2i, producing an encoded hash
* @param t_cost Number of iterations
* @param m_cost Sets memory usage to m_cost kibibytes
* @param parallelism Number of threads and compute lanes
* @param pwd Pointer to password
* @param pwdlen Password size in bytes
* @param salt Pointer to salt
* @param saltlen Salt size in bytes
* @param hashlen Desired length of the hash in bytes
* @param encoded Buffer where to write the encoded hash
* @param encodedlen Size of the buffer (thus max size of the encoded hash)
* @pre Different parallelism levels will give different results
* @pre Returns ARGON2_OK if successful
*/
ARGON2_PUBLIC int argon2i_hash_encoded(const uint32_t t_cost,
const uint32_t m_cost,
const uint32_t parallelism,
const void *pwd, const size_t pwdlen,
const void *salt, const size_t saltlen,
const size_t hashlen, char *encoded,
const size_t encodedlen);
/**
* Hashes a password with Argon2i, producing a raw hash by allocating memory at
* @hash
* @param t_cost Number of iterations
* @param m_cost Sets memory usage to m_cost kibibytes
* @param parallelism Number of threads and compute lanes
* @param pwd Pointer to password
* @param pwdlen Password size in bytes
* @param salt Pointer to salt
* @param saltlen Salt size in bytes
* @param hash Buffer where to write the raw hash - updated by the function
* @param hashlen Desired length of the hash in bytes
* @pre Different parallelism levels will give different results
* @pre Returns ARGON2_OK if successful
*/
ARGON2_PUBLIC int argon2i_hash_raw(const uint32_t t_cost, const uint32_t m_cost,
const uint32_t parallelism, const void *pwd,
const size_t pwdlen, const void *salt,
const size_t saltlen, void *hash,
const size_t hashlen);
ARGON2_PUBLIC int argon2d_hash_encoded(const uint32_t t_cost,
const uint32_t m_cost,
const uint32_t parallelism,
const void *pwd, const size_t pwdlen,
const void *salt, const size_t saltlen,
const size_t hashlen, char *encoded,
const size_t encodedlen);
ARGON2_PUBLIC int argon2d_hash_raw(const uint32_t t_cost, const uint32_t m_cost,
const uint32_t parallelism, const void *pwd,
const size_t pwdlen, const void *salt,
const size_t saltlen, void *hash,
const size_t hashlen);
ARGON2_PUBLIC int argon2id_hash_encoded(const uint32_t t_cost,
const uint32_t m_cost,
const uint32_t parallelism,
const void *pwd, const size_t pwdlen,
const void *salt, const size_t saltlen,
const size_t hashlen, char *encoded,
const size_t encodedlen);
ARGON2_PUBLIC int argon2id_hash_raw(const uint32_t t_cost,
const uint32_t m_cost,
const uint32_t parallelism, const void *pwd,
const size_t pwdlen, const void *salt,
const size_t saltlen, void *hash,
const size_t hashlen);
/* generic function underlying the above ones */
ARGON2_PUBLIC int argon2_hash(const uint32_t t_cost, const uint32_t m_cost,
const uint32_t parallelism, const void *pwd,
const size_t pwdlen, const void *salt,
const size_t saltlen, void *hash,
const size_t hashlen, char *encoded,
const size_t encodedlen, argon2_type type,
const uint32_t version);
/**
* Verifies a password against an encoded string
* Encoded string is restricted as in validate_inputs()
* @param encoded String encoding parameters, salt, hash
* @param pwd Pointer to password
* @pre Returns ARGON2_OK if successful
*/
ARGON2_PUBLIC int argon2i_verify(const char *encoded, const void *pwd,
const size_t pwdlen);
ARGON2_PUBLIC int argon2d_verify(const char *encoded, const void *pwd,
const size_t pwdlen);
ARGON2_PUBLIC int argon2id_verify(const char *encoded, const void *pwd,
const size_t pwdlen);
/* generic function underlying the above ones */
ARGON2_PUBLIC int argon2_verify(const char *encoded, const void *pwd,
const size_t pwdlen, argon2_type type);
/**
* Argon2d: Version of Argon2 that picks memory blocks depending
* on the password and salt. Only for side-channel-free
* environment!!
*****
* @param context Pointer to current Argon2 context
* @return Zero if successful, a non zero error code otherwise
*/
ARGON2_PUBLIC int argon2d_ctx(argon2_context *context);
/**
* Argon2i: Version of Argon2 that picks memory blocks
* independent on the password and salt. Good for side-channels,
* but worse w.r.t. tradeoff attacks if only one pass is used.
*****
* @param context Pointer to current Argon2 context
* @return Zero if successful, a non zero error code otherwise
*/
ARGON2_PUBLIC int argon2i_ctx(argon2_context *context);
/**
* Argon2id: Version of Argon2 where the first half-pass over memory is
* password-independent, the rest are password-dependent (on the password and
* salt). OK against side channels (they reduce to 1/2-pass Argon2i), and
* better with w.r.t. tradeoff attacks (similar to Argon2d).
*****
* @param context Pointer to current Argon2 context
* @return Zero if successful, a non zero error code otherwise
*/
ARGON2_PUBLIC int argon2id_ctx(argon2_context *context);
/**
* Verify if a given password is correct for Argon2d hashing
* @param context Pointer to current Argon2 context
* @param hash The password hash to verify. The length of the hash is
* specified by the context outlen member
* @return Zero if successful, a non zero error code otherwise
*/
ARGON2_PUBLIC int argon2d_verify_ctx(argon2_context *context, const char *hash);
/**
* Verify if a given password is correct for Argon2i hashing
* @param context Pointer to current Argon2 context
* @param hash The password hash to verify. The length of the hash is
* specified by the context outlen member
* @return Zero if successful, a non zero error code otherwise
*/
ARGON2_PUBLIC int argon2i_verify_ctx(argon2_context *context, const char *hash);
/**
* Verify if a given password is correct for Argon2id hashing
* @param context Pointer to current Argon2 context
* @param hash The password hash to verify. The length of the hash is
* specified by the context outlen member
* @return Zero if successful, a non zero error code otherwise
*/
ARGON2_PUBLIC int argon2id_verify_ctx(argon2_context *context,
const char *hash);
/* generic function underlying the above ones */
ARGON2_PUBLIC int argon2_verify_ctx(argon2_context *context, const char *hash,
argon2_type type);
/**
* Get the associated error message for given error code
* @return The error message associated with the given error code
*/
ARGON2_PUBLIC const char *argon2_error_message(int error_code);
/**
* Returns the encoded hash length for the given input parameters
* @param t_cost Number of iterations
* @param m_cost Memory usage in kibibytes
* @param parallelism Number of threads; used to compute lanes
* @param saltlen Salt size in bytes
* @param hashlen Hash size in bytes
* @return The encoded hash length in bytes
*/
ARGON2_PUBLIC size_t argon2_encodedlen(uint32_t t_cost, uint32_t m_cost,
uint32_t parallelism, uint32_t saltlen,
uint32_t hashlen, argon2_type type);
#if defined(__cplusplus)
}
#endif
#endif