This is the reference C implementation of Argon2, the password-hashing function that won the Password Hashing Competition (PHC).
Argon2 is a password-hashing function that summarizes the state of the art in the design of memory-hard functions and can be used to hash passwords for credential storage, key derivation, or other applications.
It has a simple design aimed at the highest memory filling rate and effective use of multiple computing units, while still providing defense against tradeoff attacks (by exploiting the cache and memory organization of the recent processors).
Argon2 has three variants: Argon2i, Argon2d, and Argon2id. Argon2d is faster and uses data-depending memory access, which makes it highly resistant against GPU cracking attacks and suitable for applications with no threats from side-channel timing attacks (eg. cryptocurrencies). Argon2i instead uses data-independent memory access, which is preferred for password hashing and password-based key derivation, but it is slower as it makes more passes over the memory to protect from tradeoff attacks. Argon2id is a hybrid of Argon2i and Argon2d, using a combination of data-depending and data-independent memory accesses, which gives some of Argon2i's resistance to side-channel cache timing attacks and much of Argon2d's resistance to GPU cracking attacks.
Argon2i, Argon2d, and Argon2id are parametrized by:
- A time cost, which defines the amount of computation realized and therefore the execution time, given in number of iterations
- A memory cost, which defines the memory usage, given in kibibytes
- A parallelism degree, which defines the number of parallel threads
The Argon2 document gives detailed specs and design rationale.
Please report bugs as issues on this repository.
make
builds the executable argon2
, the static library libargon2.a
,
and the shared library libargon2.so
(or libargon2.dylib
on OSX).
Make sure to run make test
to verify that your build produces valid
results. make install PREFIX=/usr
installs it to your system.
argon2
is a command-line utility to test specific Argon2 instances
on your system. To show usage instructions, run
./argon2 -h
as
Usage: ./argon2 [-h] salt [-i|-d|-id] [-t iterations] [-m memory] [-p parallelism] [-l hash length] [-e|-r] [-v (10|13)]
Password is read from stdin
Parameters:
salt The salt to use, at least 8 characters
-i Use Argon2i (this is the default)
-d Use Argon2d instead of Argon2i
-id Use Argon2id instead of Argon2i
-t N Sets the number of iterations to N (default = 3)
-m N Sets the memory usage of 2^N KiB (default 12)
-p N Sets parallelism to N threads (default 1)
-l N Sets hash output length to N bytes (default 32)
-e Output only encoded hash
-r Output only the raw bytes of the hash
-v (10|13) Argon2 version (defaults to the most recent version, currently 13)
-h Print argon2 usage
For example, to hash "password" using "somesalt" as a salt and doing 2 iterations, consuming 64 MiB, using four parallel threads and an output hash of 24 bytes
$ echo -n "password" | ./argon2 somesalt -t 2 -m 16 -p 4 -l 24
Type: Argon2i
Iterations: 2
Memory: 65536 KiB
Parallelism: 4
Hash: 45d7ac72e76f242b20b77b9bf9bf9d5915894e669a24e6c6
Encoded: $argon2i$v=19$m=65536,t=2,p=4$c29tZXNhbHQ$RdescudvJCsgt3ub+b+dWRWJTmaaJObG
0.188 seconds
Verification ok
libargon2
provides an API to both low-level and high-level functions
for using Argon2.
The example program below hashes the string "password" with Argon2i
using the high-level API and then using the low-level API. While the
high-level API takes the three cost parameters (time, memory, and
parallelism), the password input buffer, the salt input buffer, and the
output buffers, the low-level API takes in these and additional parameters
, as defined in include/argon2.h
.
There are many additional parameters, but we will highlight three of them here.
-
The
secret
parameter, which is used for keyed hashing. This allows a secret key to be input at hashing time (from some external location) and be folded into the value of the hash. This means that even if your salts and hashes are compromized, an attacker cannot brute-force to find the password without the key. -
The
ad
parameter, which is used to fold any additional data into the hash value. Functionally, this behaves almost exactly like thesecret
orsalt
parameters; thead
parameter is folding into the value of the hash. However, this parameter is used for different data. Thesalt
should be a random string stored alongside your password. Thesecret
should be a random key only usable at hashing time. Thead
is for any other data. -
The
flags
parameter, which determines which memory should be securely erased. This is useful if you want to securly delete thepwd
orsecret
fields right after they are used. To do this setflags
to eitherARGON2_FLAG_CLEAR_PASSWORD
orARGON2_FLAG_CLEAR_SECRET
. To change how internal memory is cleared, change the global flagFLAG_clear_internal_memory
(defaults to clearing internal memory).
Here the time cost t_cost
is set to 2 iterations, the
memory cost m_cost
is set to 216 kibibytes (64 mebibytes),
and parallelism is set to 1 (single-thread).
Compile for example as gcc test.c libargon2.a -Isrc -o test
, if the program
below is named test.c
and placed in the project's root directory.
#include "argon2.h"
#include <stdio.h>
#include <string.h>
#include <stdlib.h>
#define HASHLEN 32
#define SALTLEN 16
#define PWD "password"
int main(void)
{
uint8_t hash1[HASHLEN];
uint8_t hash2[HASHLEN];
uint8_t salt[SALTLEN];
memset( salt, 0x00, SALTLEN );
uint8_t *pwd = (uint8_t *)strdup(PWD);
uint32_t pwdlen = strlen((char *)pwd);
uint32_t t_cost = 2; // 1-pass computation
uint32_t m_cost = (1<<16); // 64 mebibytes memory usage
uint32_t parallelism = 1; // number of threads and lanes
// high-level API
argon2i_hash_raw(t_cost, m_cost, parallelism, pwd, pwdlen, salt, SALTLEN, hash1, HASHLEN);
// low-level API
argon2_context context = {
hash2, /* output array, at least HASHLEN in size */
HASHLEN, /* digest length */
pwd, /* password array */
pwdlen, /* password length */
salt, /* salt array */
SALTLEN, /* salt length */
NULL, 0, /* optional secret data */
NULL, 0, /* optional associated data */
t_cost, m_cost, parallelism, parallelism,
ARGON2_VERSION_13, /* algorithm version */
NULL, NULL, /* custom memory allocation / deallocation functions */
/* by default only internal memory is cleared (pwd is not wiped) */
ARGON2_DEFAULT_FLAGS
};
int rc = argon2i_ctx( &context );
if(ARGON2_OK != rc) {
printf("Error: %s\n", argon2_error_message(rc));
exit(1);
}
free(pwd);
for( int i=0; i<HASHLEN; ++i ) printf( "%02x", hash1[i] ); printf( "\n" );
if (memcmp(hash1, hash2, HASHLEN)) {
for( int i=0; i<HASHLEN; ++i ) {
printf( "%02x", hash2[i] );
}
printf("\nfail\n");
}
else printf("ok\n");
return 0;
}
To use Argon2d instead of Argon2i call argon2d_hash
instead of
argon2i_hash
using the high-level API, and argon2d
instead of
argon2i
using the low-level API. Similarly for Argon2id, call argond2id_hash
and argon2id
.
To produce the crypt-like encoding rather than the raw hash, call
argon2i_hash_encoded
for Argon2i, argon2d_hash_encoded
for Argon2d, and
argon2id_hash_encoded
for Argon2id
See include/argon2.h
for API details.
Note: in this example the salt is set to the all-0x00
string for the
sake of simplicity, but in your application you should use a random salt.
make bench
creates the executable bench
, which measures the execution
time of various Argon2 instances:
$ ./bench
Argon2d 1 iterations 1 MiB 1 threads: 5.91 cpb 5.91 Mcycles
Argon2i 1 iterations 1 MiB 1 threads: 4.64 cpb 4.64 Mcycles
0.0041 seconds
Argon2d 1 iterations 1 MiB 2 threads: 2.76 cpb 2.76 Mcycles
Argon2i 1 iterations 1 MiB 2 threads: 2.87 cpb 2.87 Mcycles
0.0038 seconds
Argon2d 1 iterations 1 MiB 4 threads: 3.25 cpb 3.25 Mcycles
Argon2i 1 iterations 1 MiB 4 threads: 3.57 cpb 3.57 Mcycles
0.0048 seconds
(...)
Argon2d 1 iterations 4096 MiB 2 threads: 2.15 cpb 8788.08 Mcycles
Argon2i 1 iterations 4096 MiB 2 threads: 2.15 cpb 8821.59 Mcycles
13.0112 seconds
Argon2d 1 iterations 4096 MiB 4 threads: 1.79 cpb 7343.72 Mcycles
Argon2i 1 iterations 4096 MiB 4 threads: 2.72 cpb 11124.86 Mcycles
19.3974 seconds
(...)
Bindings are available for the following languages (make sure to read their documentation):
- Elixir by @riverrun
- Go by @tvdburgt
- Haskell by @ocharles
- JavaScript (native), by @ranisalt
- JavaScript (native), by @jdconley
- JavaScript (ffi), by @cjlarose
- JavaScript (browser), by @antelle
- JVM by @phXql
- Lua (native) by @thibaultCha
- Lua (ffi) by @thibaultCha
- OCaml by @Khady
- Python (native), by @flamewow
- Python (ffi), by @hynek
- Ruby by @technion
- Rust by @quininer
- C#/.NET CoreCLR by @kmaragon
- Perl by @leont
There are two sets of test suites. One is a low level test for the hash function, the other tests the higher level API. Both of these are built and executed by running:
make test
Except for the components listed below, the Argon2 code in this repository is copyright (c) 2015 Daniel Dinu, Dmitry Khovratovich (main authors), Jean-Philippe Aumasson and Samuel Neves, and dual licensed under the CC0 License and the Apache 2.0 License. For more info see the LICENSE file.
The string encoding routines in src/encoding.c
are
copyright (c) 2015 Thomas Pornin, and under
CC0 License.
The BLAKE2 code in src/blake2/
is copyright (c) Samuel
Neves, 2013-2015, and under
CC0 License.
All licenses are therefore GPL-compatible.