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|
/*
* irc-sasl.c - SASL authentication with IRC server
*
* Copyright (C) 2003-2013 Sebastien Helleu <flashcode@flashtux.org>
*
* This file is part of WeeChat, the extensible chat client.
*
* WeeChat is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 3 of the License, or
* (at your option) any later version.
*
* WeeChat is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with WeeChat. If not, see <http://www.gnu.org/licenses/>.
*/
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <arpa/inet.h>
#include <gcrypt.h>
#include "../weechat-plugin.h"
#include "irc.h"
#include "irc-sasl.h"
char *irc_sasl_mechanism_string[IRC_NUM_SASL_MECHANISMS] =
{ "plain", "dh-blowfish", "dh-aes", "external" };
/*
* Builds answer for SASL authentication, using mechanism "PLAIN".
*
* Note: result must be freed after use.
*/
char *
irc_sasl_mechanism_plain (const char *sasl_username, const char *sasl_password)
{
char *string, *answer_base64;
int length_username, length;
answer_base64 = NULL;
length_username = strlen (sasl_username);
length = ((length_username + 1) * 2) + strlen (sasl_password) + 1;
string = malloc (length);
if (string)
{
snprintf (string, length, "%s|%s|%s",
sasl_username, sasl_username, sasl_password);
string[length_username] = '\0';
string[(length_username * 2) + 1] = '\0';
answer_base64 = malloc (length * 4);
if (answer_base64)
weechat_string_encode_base64 (string, length - 1, answer_base64);
free (string);
}
return answer_base64;
}
/*
* Reads key sent by server (Diffie-Hellman key exchange).
*
* Returns:
* 1: OK
* 0: error
*/
int
irc_sasl_dh (const char *data_base64,
unsigned char **public_bin, unsigned char **secret_bin,
int *length_key)
{
char *data;
unsigned char *ptr_data;
int length_data, size, num_bits_prime_number, rc;
size_t num_written;
gcry_mpi_t data_prime_number, data_generator_number, data_server_pub_key;
gcry_mpi_t pub_key, priv_key, secret_mpi;
rc = 0;
data = NULL;
data_prime_number = NULL;
data_generator_number = NULL;
data_server_pub_key = NULL;
pub_key = NULL;
priv_key = NULL;
secret_mpi = NULL;
/* decode data */
data = malloc (strlen (data_base64) + 1);
length_data = weechat_string_decode_base64 (data_base64, data);
ptr_data = (unsigned char *)data;
/* extract prime number */
size = ntohs ((((unsigned int)ptr_data[1]) << 8) | ptr_data[0]);
ptr_data += 2;
length_data -= 2;
if (size > length_data)
goto dhend;
data_prime_number = gcry_mpi_new (size * 8);
gcry_mpi_scan (&data_prime_number, GCRYMPI_FMT_USG, ptr_data, size, NULL);
num_bits_prime_number = gcry_mpi_get_nbits (data_prime_number);
ptr_data += size;
length_data -= size;
/* extract generator number */
size = ntohs ((((unsigned int)ptr_data[1]) << 8) | ptr_data[0]);
ptr_data += 2;
length_data -= 2;
if (size > length_data)
goto dhend;
data_generator_number = gcry_mpi_new (size * 8);
gcry_mpi_scan (&data_generator_number, GCRYMPI_FMT_USG, ptr_data, size, NULL);
ptr_data += size;
length_data -= size;
/* extract server-generated public key */
size = ntohs ((((unsigned int)ptr_data[1]) << 8) | ptr_data[0]);
ptr_data += 2;
length_data -= 2;
if (size > length_data)
goto dhend;
data_server_pub_key = gcry_mpi_new (size * 8);
gcry_mpi_scan (&data_server_pub_key, GCRYMPI_FMT_USG, ptr_data, size, NULL);
/* generate keys */
pub_key = gcry_mpi_new (num_bits_prime_number);
priv_key = gcry_mpi_new (num_bits_prime_number);
gcry_mpi_randomize (priv_key, num_bits_prime_number, GCRY_STRONG_RANDOM);
/* pub_key = (g ^ priv_key) % p */
gcry_mpi_powm (pub_key, data_generator_number, priv_key, data_prime_number);
/* compute secret_bin */
*length_key = num_bits_prime_number / 8;
*secret_bin = malloc (*length_key);
secret_mpi = gcry_mpi_new (num_bits_prime_number);
/* secret_mpi = (y ^ priv_key) % p */
gcry_mpi_powm (secret_mpi, data_server_pub_key, priv_key, data_prime_number);
gcry_mpi_print (GCRYMPI_FMT_USG, *secret_bin, *length_key,
&num_written, secret_mpi);
/* create public_bin */
*public_bin = malloc (*length_key);
gcry_mpi_print (GCRYMPI_FMT_USG, *public_bin, *length_key,
&num_written, pub_key);
rc = 1;
dhend:
if (data)
free (data);
if (data_prime_number)
gcry_mpi_release (data_prime_number);
if (data_generator_number)
gcry_mpi_release (data_generator_number);
if (data_server_pub_key)
gcry_mpi_release (data_server_pub_key);
if (pub_key)
gcry_mpi_release (pub_key);
if (priv_key)
gcry_mpi_release (priv_key);
if (secret_mpi)
gcry_mpi_release (secret_mpi);
return rc;
}
/*
* Builds answer for SASL authentication, using mechanism "DH-BLOWFISH".
*
* Argument data_base64 is a concatenation of 3 strings, each string is composed
* of 2 bytes (length of string), followed by content of string:
* 1. a prime number
* 2. a generator number
* 3. server-generated public key
*
* Note: result must be freed after use.
*/
char *
irc_sasl_mechanism_dh_blowfish (const char *data_base64,
const char *sasl_username,
const char *sasl_password)
{
char *answer, *ptr_answer, *answer_base64;
unsigned char *password_clear, *password_crypted;
int length_key, length_username, length_password, length_answer;
unsigned char *public_bin, *secret_bin;
gcry_cipher_hd_t gcrypt_handle;
password_clear = NULL;
password_crypted = NULL;
answer = NULL;
answer_base64 = NULL;
secret_bin = NULL;
public_bin = NULL;
if (!irc_sasl_dh (data_base64, &public_bin, &secret_bin, &length_key))
goto bfend;
/* create password buffers (clear and crypted) */
length_password = strlen (sasl_password) +
((8 - (strlen (sasl_password) % 8)) % 8);
password_clear = malloc (length_password);
password_crypted = malloc (length_password);
memset (password_clear, 0, length_password);
memset (password_crypted, 0, length_password);
memcpy (password_clear, sasl_password, strlen (sasl_password));
/* crypt password using blowfish */
if (gcry_cipher_open (&gcrypt_handle, GCRY_CIPHER_BLOWFISH,
GCRY_CIPHER_MODE_ECB, 0) != 0)
goto bfend;
if (gcry_cipher_setkey (gcrypt_handle, secret_bin, length_key) != 0)
goto bfend;
if (gcry_cipher_encrypt (gcrypt_handle,
password_crypted, length_password,
password_clear, length_password) != 0)
goto bfend;
gcry_cipher_close (gcrypt_handle);
/*
* build answer for server, it is concatenation of:
* 1. key length (2 bytes)
* 2. public key ('length_key' bytes)
* 3. sasl_username ('length_username'+1 bytes)
* 4. encrypted password ('length_password' bytes)
*/
length_username = strlen (sasl_username) + 1;
length_answer = 2 + length_key + length_username + length_password;
answer = malloc (length_answer);
ptr_answer = answer;
*((unsigned int *)ptr_answer) = htons(length_key);
ptr_answer += 2;
memcpy (ptr_answer, public_bin, length_key);
ptr_answer += length_key;
memcpy (ptr_answer, sasl_username, length_username);
ptr_answer += length_username;
memcpy (ptr_answer, password_crypted, length_password);
/* encode answer to base64 */
answer_base64 = malloc (length_answer * 4);
if (answer_base64)
weechat_string_encode_base64 (answer, length_answer, answer_base64);
bfend:
if (secret_bin)
free (secret_bin);
if (public_bin)
free (public_bin);
if (password_clear)
free (password_clear);
if (password_crypted)
free (password_crypted);
if (answer)
free (answer);
return answer_base64;
}
/*
* Builds answer for SASL authentication, using mechanism "DH-AES".
*
* Argument data_base64 is a concatenation of 3 strings, each string is composed
* of 2 bytes (length of string), followed by content of string:
* 1. a prime number
* 2. a generator number
* 3. server-generated public key
*
* Note: result must be freed after use.
*/
char *
irc_sasl_mechanism_dh_aes (const char *data_base64,
const char *sasl_username,
const char *sasl_password)
{
char *answer, *ptr_answer, *answer_base64;
unsigned char *ptr_userpass, *userpass_clear, *userpass_crypted;
int length_key, length_answer;
int length_username, length_password, length_userpass;
unsigned char *public_bin, *secret_bin;
char iv[16];
int cipher_algo;
gcry_cipher_hd_t gcrypt_handle;
userpass_clear = NULL;
userpass_crypted = NULL;
answer = NULL;
answer_base64 = NULL;
secret_bin = NULL;
public_bin = NULL;
if (irc_sasl_dh(data_base64, &public_bin, &secret_bin, &length_key) == 0)
goto aesend;
/* Select cipher algorithm: key length * 8 = cipher bit size */
switch (length_key)
{
case 32:
cipher_algo = GCRY_CIPHER_AES256;
break;
case 24:
cipher_algo = GCRY_CIPHER_AES192;
break;
case 16:
cipher_algo = GCRY_CIPHER_AES128;
break;
default:
/* Invalid bit length */
goto aesend;
}
/* Generate the IV */
gcry_randomize (iv, sizeof (iv), GCRY_STRONG_RANDOM);
/* create user/pass buffers (clear and crypted) */
length_username = strlen (sasl_username) + 1;
length_password = strlen (sasl_password) + 1;
length_userpass = length_username + length_password +
((16 - ((length_username + length_password) % 16)) % 16);
ptr_userpass = userpass_clear = malloc (length_userpass);
userpass_crypted = malloc (length_userpass);
memset (userpass_clear, 0, length_password);
memset (userpass_crypted, 0, length_password);
memcpy (ptr_userpass, sasl_username, length_username);
ptr_userpass += length_username;
memcpy (ptr_userpass, sasl_password, length_password);
/* crypt password using AES in CBC mode */
if (gcry_cipher_open (&gcrypt_handle, cipher_algo,
GCRY_CIPHER_MODE_CBC, 0) != 0)
goto aesend;
if (gcry_cipher_setkey (gcrypt_handle, secret_bin, length_key) != 0)
goto aesend;
if (gcry_cipher_setiv (gcrypt_handle, iv, sizeof(iv)) != 0)
goto aesend;
if (gcry_cipher_encrypt (gcrypt_handle,
userpass_crypted, length_userpass,
userpass_clear, length_userpass) != 0)
goto aesend;
gcry_cipher_close (gcrypt_handle);
/*
* build answer for server, it is concatenation of:
* 1. key length (2 bytes)
* 2. public key ('length_key' bytes)
* 3. IV (sizeof (iv) bytes)
* 4. encrypted password ('length_userpass' bytes)
*/
length_answer = 2 + length_key + sizeof (iv) + length_userpass;
answer = malloc (length_answer);
ptr_answer = answer;
*((unsigned int *)ptr_answer) = htons(length_key);
ptr_answer += 2;
memcpy (ptr_answer, public_bin, length_key);
ptr_answer += length_key;
memcpy (ptr_answer, iv, sizeof (iv));
ptr_answer += sizeof (iv);
memcpy (ptr_answer, userpass_crypted, length_userpass);
/* encode answer to base64 */
answer_base64 = malloc (length_answer * 4);
if (answer_base64)
weechat_string_encode_base64 (answer, length_answer, answer_base64);
aesend:
if (secret_bin)
free (secret_bin);
if (public_bin)
free (public_bin);
if (userpass_clear)
free (userpass_clear);
if (userpass_crypted)
free (userpass_crypted);
if (answer)
free (answer);
return answer_base64;
}
|
