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libar2simplified.h
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libar2simplified.h
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/* See LICENSE file for copyright and license details. */
#ifndef LIBAR2SIMPLIFIED_H
#define LIBAR2SIMPLIFIED_H
#include <libar2.h>
/**
* Get a recommended set of hashing parameter
*
* These shall not be taken too seriously, they are
* just for getting you up and running. You should
* tweak the them to your requirements.
*
* @param side_channel_free Whether the environment is considered safe
* enought against side-channel attacks, use 0 if
* you don't know (it is very unlikely that it is)
* @return Hashing parameters than can be used for
* `libar2simplified_crypt` or `libar2simplified_decode`
*/
#if defined(__GNUC__)
__attribute__((const))
#endif
const char *libar2simplified_recommendation(int side_channel_free);
/* These are useful when the database stores parameters and
* hash separately, when the application uses a pepper, or
* when composing multiple hash functions: */
/**
* Encode hashing parameters, with or without hashing result
*
* This function extends the standard format for Argon2 by
* letting the exact salt or tag (hash) be unspecified, but
* the length specified using an asterisk-prefixed, decimal
* integer
*
* `params->key` and `params->ad` will not be included in
* the returned string
*
* @param params The hashing parameters, if `params->salt`
* is `NULL` the salt's length is encoded
* instead of an actual salt
* @param hash The tag, or `NULL` the tag's length is
* encoded instead of an actual tag
* @return The hashing parameter string,
* or `NULL` on failure; shall be dellocated
* using free(3) when no longer needed
*/
LIBAR2_PUBLIC__ LIBAR2_NONNULL__(1)
char *libar2simplified_encode(const struct libar2_argon2_parameters *params, void *hash);
/**
* Encode tag (hashing result) without parameters
*
* @param params The hashing parameters (used to get the tag length)
* @param hash The binary tag (hashing result)
* @return `hash` encoded with base64, or `NULL`
* on failure; shall be dellocated using
* free(3) when no longer needed
*/
LIBAR2_PUBLIC__ LIBAR2_NONNULL__(1, 2)
char *libar2simplified_encode_hash(const struct libar2_argon2_parameters *params, void *hash);
/**
* Decode hashing parameters
*
* If the salt's lengths is encoded, but not an
* actual salt, a random salt will be created
*
* The hashing string does not encode information
* about `params->key` or `params->ad`, therefore
* `params->key` and `params->ad` will be set to
* `NULL` and `params->keylen` and `params->adlen`
* will be set to 0; where `params` is the returned
* pointer
*
* @param str The hashing parameter string to decode
* @param tagp Output parameter for the tag (hash result), or `NULL`.
* Unless `NULL`, `NULL` will be stored in `*tagp` if `str`
* includes a tag length instead of an actual tag, otherwise
* unless `NULL`, the beginning of the tag, in `str`, will
* be stored in `*tagp`. `*endp` will (unless `endp` or
* `*tagp` is `NULL`) mark the end of the tag.
* @param endp Output parameter for the end of the hashing parameter
* string, or `NULL`. Unless `NULL`, one position beyond the
* last byte in `str` determined to be part of the hashing
* parameter string will be stored in `*endp`. The application
* shall make sure that `**endp` is a valid termination of
* the hashing parameter string; typically this would be a ':'
* or a NUL byte.
* @param random_byte_generator Random number generator function, used to generate salt if
* `str` does not contain one. The function shall output `n`
* random bytes (only the lower 6 bits in each byte need to
* be random) to `out` and return 0. On failure, the function
* shall return -1. If `NULL`, the function will use a random
* number generator provided by the C standard library or the
* operating system.
* @return Decoded hashing parameters. Shall be deallocated using
* free(3) when no longer needed. Be aware than the allocation
* size of the returned object will exceed the size of the
* return type.
*/
LIBAR2_PUBLIC__ LIBAR2_NONNULL__(1)
struct libar2_argon2_parameters *
libar2simplified_decode(const char *str, char **tagp, char **endp, int (*random_byte_generator)(char *out, size_t n));
/**
* Decode hashing parameters
*
* If the salt's lengths is encoded, but not an
* actual salt, a random salt will be created
*
* The hashing string does not encode information
* about `params->key` or `params->ad`, therefore
* `params->key` and `params->ad` will be set to
* `NULL` and `params->keylen` and `params->adlen`
* will be set to 0; where `params` is the returned
* pointer
*
* @param str The hashing parameter string to decode
* @param tagp Output parameter for the tag (hash result), or `NULL`.
* Unless `NULL`, `NULL` will be stored in `*tagp` if `str`
* includes a tag length instead of an actual tag, otherwise
* unless `NULL`, the beginning of the tag, in `str`, will
* be stored in `*tagp`. `*endp` will (unless `endp` or
* `*tagp` is `NULL`) mark the end of the tag.
* @param endp Output parameter for the end of the hashing parameter
* string, or `NULL`. Unless `NULL`, one position beyond the
* last byte in `str` determined to be part of the hashing
* parameter string will be stored in `*endp`. The application
* shall make sure that `**endp` is a valid termination of
* the hashing parameter string; typically this would be a ':'
* or a NUL byte.
* @param random_byte_generator Random number generator function, used to generate salt if
* `str` does not contain one. The function shall output `n`
* random bytes (only the lower 6 bits in each byte need to
* be random) to `out` and return 0. On failure, the function
* shall return -1. If `NULL`, the function will use a random
* number generator provided by the C standard library or the
* operating system.
* @param user_data Will be parsed as is as the third argument of
* `random_byte_generator` and is otherwise unused.
* @return Decoded hashing parameters. Shall be deallocated using
* free(3) when no longer needed. Be aware than the allocation
* size of the returned object will exceed the size of the
* return type.
*/
LIBAR2_PUBLIC__ LIBAR2_NONNULL__(1)
struct libar2_argon2_parameters *
libar2simplified_decode_r(const char *str, char **tagp, char **endp,
int (*random_byte_generator)(char *out, size_t n, void *user_data), void *user_data);
/**
* Calculate a password hash
*
* @param hash Output parameter for the tag (hash result).
* This must be a buffer than is at least
* `libar2_hash_buf_size(params)` bytes large.
* @param msg The message (password) to hash. Will be
* erased (not deallocated) some time before
* the function returns.
* @param msglen The number of bytes in `msg`
* @param params Hashing parameters
* @return 0 on success, -1 on failure
*/
LIBAR2_PUBLIC__ LIBAR2_NONNULL__(1, 4)
int libar2simplified_hash(void *hash, void *msg, size_t msglen, struct libar2_argon2_parameters *params);
/* This one is useful you just want to do it crypt(3)-style: */
/**
* Calculate a password hash
*
* This function works like crypt(3), except that it only supports
* Argon2, it will erase the input password, the return buffer is
* provided in the third parameter or (if `NULL`) is dynamically
* allocated, and it will generate a salt if one is not provided
*
* Assumming `params` contains a salt and a tag (hash), `msg`
* is (in all likelyhood) the password it was created with if
* the returned string is identical to `params`. It is
* recommended, to hinder timing attack, that this check is done
* by comparing all characters in the strings, even if a mismatch
* is found early.
*
* This function is generally not recommend. It should only be
* used for /etc/shadow and similar files. Other applications should
* use `libar2simplified_hash` and provide an application-specific,
* random, pepper. Applications are also recommended to use
* `libar2simplified_hash` so that they can compose password hashing
* functions and automatically harden passwords, without knowing
* their plain-text, when the hashing configuration is determined
* to be too weak.
*
* @param msg The password to hash. NB! Will be erased (not
* deallocated) some time before the function returns.
* @param params Hashing parameter string
* @param rv Output parameter for the hasing, or `NULL`.
* Unless `NULL`, this must be a buffer than is at least
* `libar2_hash_buf_size(libar2simplified_decode(params,
* NULL, NULL, NULL))` bytes large.
* @return The hashing result, including hashing parameters.
* `NULL` on failure. On success, `rv` is returned
* unless `rv` is `NULL`. If `rv` is `NULL`, the
* returned shall be deallocated using free(3) when
* it is no longer needed
*/
LIBAR2_PUBLIC__ LIBAR2_NONNULL__(1, 2)
char *libar2simplified_crypt(char *msg, const char *params, char *rv);
/* Lower-level functions: */
/**
* Initialises the context argument for `libar2_hash`,
* with all auto-erase options turned off
*
* This function provides a dynamic memory management
* functions that erase memory before it is deallocated.
* It also also provides a multi-threading support using
* a thread pool.
*
* @param ctxp Output parameter
*/
LIBAR2_PUBLIC__
void libar2simplified_init_context(struct libar2_context *ctxp);
#endif