X-Git-Url: http://git.silcnet.org/gitweb/?a=blobdiff_plain;f=lib%2Fsilccrypt%2Fsilccipher.c;h=229cc22b91bdaf17306fba4dc6c6da7f03ac73ec;hb=9f20f0382b6229eca740925a73f96294f6dcedc6;hp=785cec1f5e07a99e26bc968871c4bae89269d456;hpb=b964e49e6fb7e7faaa19d38cd2ad5d5ebaf22ca6;p=crypto.git diff --git a/lib/silccrypt/silccipher.c b/lib/silccrypt/silccipher.c index 785cec1f..229cc22b 100644 --- a/lib/silccrypt/silccipher.c +++ b/lib/silccrypt/silccipher.c @@ -2,121 +2,132 @@ silccipher.c - Author: Pekka Riikonen + Author: Pekka Riikonen - Copyright (C) 1997 - 2001 Pekka Riikonen + Copyright (C) 1997 - 2008 Pekka Riikonen This program 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 2 of the License, or - (at your option) any later version. - + the Free Software Foundation; version 2 of the License. + This program 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. */ -/* $Id$ */ - -#include "silcincludes.h" +#include "silccrypto.h" #include "ciphers.h" /* Includes cipher definitions */ +#ifndef SILC_SYMBIAN /* Dynamically registered list of ciphers. */ SilcDList silc_cipher_list = NULL; +#endif /* SILC_SYMBIAN */ + +/* Macro to define cipher to cipher list */ +#define SILC_CDEF(name, alg_name, cipher, keylen, blocklen, ivlen, mode)\ +{ name, alg_name, silc_##cipher##_set_key, silc_##cipher##_set_iv, \ + silc_##cipher##_encrypt, silc_##cipher##_decrypt, \ + silc_##cipher##_init, silc_##cipher##_uninit, keylen, blocklen, ivlen, mode } /* Static list of ciphers for silc_cipher_register_default(). */ -SilcCipherObject silc_default_ciphers[] = +const SilcCipherObject silc_default_ciphers[] = { - { "aes-256-cbc", 16, 256, silc_aes_set_key, - silc_aes_set_key_with_string, silc_aes_encrypt_cbc, - silc_aes_decrypt_cbc, silc_aes_context_len }, - { "aes-192-cbc", 16, 192, silc_aes_set_key, - silc_aes_set_key_with_string, silc_aes_encrypt_cbc, - silc_aes_decrypt_cbc, silc_aes_context_len }, - { "aes-128-cbc", 16, 128, silc_aes_set_key, - silc_aes_set_key_with_string, silc_aes_encrypt_cbc, - silc_aes_decrypt_cbc, silc_aes_context_len }, - { "twofish-256-cbc", 16, 256, silc_twofish_set_key, - silc_twofish_set_key_with_string, - silc_twofish_encrypt_cbc, silc_twofish_decrypt_cbc, - silc_twofish_context_len }, - { "twofish-192-cbc", 16, 192, silc_twofish_set_key, - silc_twofish_set_key_with_string, - silc_twofish_encrypt_cbc, silc_twofish_decrypt_cbc, - silc_twofish_context_len }, - { "twofish-128-cbc", 16, 128, silc_twofish_set_key, - silc_twofish_set_key_with_string, - silc_twofish_encrypt_cbc, silc_twofish_decrypt_cbc, - silc_twofish_context_len }, - { "rc6-256-cbc", 16, 256, silc_rc6_set_key, silc_rc6_set_key_with_string, - silc_rc6_encrypt_cbc, silc_rc6_decrypt_cbc, - silc_rc6_context_len }, - { "rc6-192-cbc", 16, 192, silc_rc6_set_key, silc_rc6_set_key_with_string, - silc_rc6_encrypt_cbc, silc_rc6_decrypt_cbc, - silc_rc6_context_len }, - { "rc6-128-cbc", 16, 128, silc_rc6_set_key, silc_rc6_set_key_with_string, - silc_rc6_encrypt_cbc, silc_rc6_decrypt_cbc, - silc_rc6_context_len }, - { "mars-256-cbc", 16, 256, silc_mars_set_key, silc_mars_set_key_with_string, - silc_mars_encrypt_cbc, silc_mars_decrypt_cbc, - silc_mars_context_len }, - { "mars-192-cbc", 16, 192, silc_mars_set_key, silc_mars_set_key_with_string, - silc_mars_encrypt_cbc, silc_mars_decrypt_cbc, - silc_mars_context_len }, - { "mars-128-cbc", 16, 128, silc_mars_set_key, silc_mars_set_key_with_string, - silc_mars_encrypt_cbc, silc_mars_decrypt_cbc, - silc_mars_context_len }, - { "cast-256-cbc", 16, 256, silc_cast_set_key, silc_cast_set_key_with_string, - silc_cast_encrypt_cbc, silc_cast_decrypt_cbc, - silc_cast_context_len }, - { "cast-192-cbc", 16, 192, silc_cast_set_key, silc_cast_set_key_with_string, - silc_cast_encrypt_cbc, silc_cast_decrypt_cbc, - silc_cast_context_len }, - { "cast-128-cbc", 16, 128, silc_cast_set_key, silc_cast_set_key_with_string, - silc_cast_encrypt_cbc, silc_cast_decrypt_cbc, - silc_cast_context_len }, - { "none", 0, 0, silc_none_set_key, silc_none_set_key_with_string, - silc_none_encrypt_cbc, silc_none_decrypt_cbc, - silc_none_context_len }, - - { NULL, 0, 0, NULL, NULL, NULL, NULL, NULL } + SILC_CDEF("aes-256-ctr", "aes", aes, 256, 16, 16, SILC_CIPHER_MODE_CTR), + SILC_CDEF("aes-192-ctr", "aes", aes, 192, 16, 16, SILC_CIPHER_MODE_CTR), + SILC_CDEF("aes-128-ctr", "aes", aes, 128, 16, 16, SILC_CIPHER_MODE_CTR), + SILC_CDEF("aes-256-cbc", "aes", aes, 256, 16, 16, SILC_CIPHER_MODE_CBC), + SILC_CDEF("aes-192-cbc", "aes", aes, 192, 16, 16, SILC_CIPHER_MODE_CBC), + SILC_CDEF("aes-128-cbc", "aes", aes, 128, 16, 16, SILC_CIPHER_MODE_CBC), + SILC_CDEF("aes-256-cfb", "aes", aes, 256, 16, 16, SILC_CIPHER_MODE_CFB), + SILC_CDEF("aes-192-cfb", "aes", aes, 192, 16, 16, SILC_CIPHER_MODE_CFB), + SILC_CDEF("aes-128-cfb", "aes", aes, 128, 16, 16, SILC_CIPHER_MODE_CFB), + SILC_CDEF("aes-256-ecb", "aes", aes, 256, 16, 16, SILC_CIPHER_MODE_ECB), + SILC_CDEF("aes-192-ecb", "aes", aes, 192, 16, 16, SILC_CIPHER_MODE_ECB), + SILC_CDEF("aes-128-ecb", "aes", aes, 128, 16, 16, SILC_CIPHER_MODE_ECB), + SILC_CDEF("twofish-256-ctr", "twofish", twofish, 256, 16, 16, SILC_CIPHER_MODE_CTR), + SILC_CDEF("twofish-192-ctr", "twofish", twofish, 192, 16, 16, SILC_CIPHER_MODE_CTR), + SILC_CDEF("twofish-128-ctr", "twofish", twofish, 128, 16, 16, SILC_CIPHER_MODE_CTR), + SILC_CDEF("twofish-256-cbc", "twofish", twofish, 256, 16, 16, SILC_CIPHER_MODE_CBC), + SILC_CDEF("twofish-192-cbc", "twofish", twofish, 192, 16, 16, SILC_CIPHER_MODE_CBC), + SILC_CDEF("twofish-128-cbc", "twofish", twofish, 128, 16, 16, SILC_CIPHER_MODE_CBC), + SILC_CDEF("twofish-256-cfb", "twofish", twofish, 256, 16, 16, SILC_CIPHER_MODE_CFB), + SILC_CDEF("twofish-192-cfb", "twofish", twofish, 192, 16, 16, SILC_CIPHER_MODE_CFB), + SILC_CDEF("twofish-128-cfb", "twofish", twofish, 128, 16, 16, SILC_CIPHER_MODE_CFB), + SILC_CDEF("twofish-256-ecb", "twofish", twofish, 256, 16, 16, SILC_CIPHER_MODE_ECB), + SILC_CDEF("twofish-192-ecb", "twofish", twofish, 192, 16, 16, SILC_CIPHER_MODE_ECB), + SILC_CDEF("twofish-128-ecb", "twofish", twofish, 128, 16, 16, SILC_CIPHER_MODE_ECB), + SILC_CDEF("cast5-128-ctr", "cast5", cast5, 128, 8, 8, SILC_CIPHER_MODE_CTR), + SILC_CDEF("cast5-128-cbc", "cast5", cast5, 128, 8, 8, SILC_CIPHER_MODE_CBC), + SILC_CDEF("cast5-128-cfb", "cast5", cast5, 128, 8, 8, SILC_CIPHER_MODE_CFB), + SILC_CDEF("cast5-128-ecb", "cast5", cast5, 128, 8, 8, SILC_CIPHER_MODE_ECB), + SILC_CDEF("des-56-ctr", "des", des, 56, 8, 8, SILC_CIPHER_MODE_CTR), + SILC_CDEF("des-56-cbc", "des", des, 56, 8, 8, SILC_CIPHER_MODE_CBC), + SILC_CDEF("des-56-cfb", "des", des, 56, 8, 8, SILC_CIPHER_MODE_CFB), + SILC_CDEF("des-56-ecb", "des", des, 56, 8, 8, SILC_CIPHER_MODE_ECB), + SILC_CDEF("3des-168-ctr", "3des", 3des, 168, 8, 8, SILC_CIPHER_MODE_CTR), + SILC_CDEF("3des-168-cbc", "3des", 3des, 168, 8, 8, SILC_CIPHER_MODE_CBC), + SILC_CDEF("3des-168-cfb", "3des", 3des, 168, 8, 8, SILC_CIPHER_MODE_CFB), + SILC_CDEF("3des-168-ecb", "3des", 3des, 168, 8, 8, SILC_CIPHER_MODE_ECB), +#ifdef SILC_DEBUG + SILC_CDEF("none", "none", none, 0, 0, 0, 0), +#endif /* SILC_DEBUG */ + { NULL, NULL, NULL, 0, 0, 0, 0 } }; -/* Register a new cipher into SILC. This is used at the initialization of - the SILC. This function allocates a new object for the cipher to be - registered. Therefore, if memory has been allocated for the object sent - as argument it has to be free'd after this function returns succesfully. */ +/* Register new cipher */ -bool silc_cipher_register(SilcCipherObject *cipher) +SilcBool silc_cipher_register(const SilcCipherObject *cipher) { +#ifndef SILC_SYMBIAN SilcCipherObject *new; SILC_LOG_DEBUG(("Registering new cipher `%s'", cipher->name)); + /* Check if exists already */ + if (silc_cipher_list) { + SilcCipherObject *entry; + silc_dlist_start(silc_cipher_list); + while ((entry = silc_dlist_get(silc_cipher_list))) { + if (!strcmp(entry->name, cipher->name)) + return FALSE; + } + } + new = silc_calloc(1, sizeof(*new)); + if (!new) + return FALSE; new->name = strdup(cipher->name); - new->block_len = cipher->block_len; + if (!new->name) { + silc_free(new); + return FALSE; + } new->key_len = cipher->key_len; + new->block_len = cipher->block_len; + new->iv_len = cipher->iv_len; new->set_key = cipher->set_key; - new->set_key_with_string = cipher->set_key_with_string; + new->set_iv = cipher->set_iv; new->encrypt = cipher->encrypt; new->decrypt = cipher->decrypt; - new->context_len = cipher->context_len; + new->init = cipher->init; + new->uninit = cipher->uninit; + new->mode = cipher->mode; /* Add to list */ if (silc_cipher_list == NULL) silc_cipher_list = silc_dlist_init(); silc_dlist_add(silc_cipher_list, new); +#endif /* SILC_SYMBIAN */ return TRUE; } -/* Unregister a cipher from the SILC. */ +/* Unregister a cipher */ -bool silc_cipher_unregister(SilcCipherObject *cipher) +SilcBool silc_cipher_unregister(SilcCipherObject *cipher) { +#ifndef SILC_SYMBIAN SilcCipherObject *entry; SILC_LOG_DEBUG(("Unregistering cipher")); @@ -125,9 +136,11 @@ bool silc_cipher_unregister(SilcCipherObject *cipher) return FALSE; silc_dlist_start(silc_cipher_list); - while ((entry = silc_dlist_get(silc_cipher_list)) != SILC_LIST_END) { + while ((entry = silc_dlist_get(silc_cipher_list))) { if (cipher == SILC_ALL_CIPHERS || entry == cipher) { silc_dlist_del(silc_cipher_list, entry); + silc_free(entry->name); + silc_free(entry); if (silc_dlist_count(silc_cipher_list) == 0) { silc_dlist_uninit(silc_cipher_list); @@ -138,158 +151,296 @@ bool silc_cipher_unregister(SilcCipherObject *cipher) } } +#endif /* SILC_SYMBIAN */ return FALSE; } -/* Function that registers all the default ciphers (all builtin ciphers). - The application may use this to register the default ciphers if specific - ciphers in any specific order is not wanted. */ +/* Register default ciphers */ -bool silc_cipher_register_default(void) +SilcBool silc_cipher_register_default(void) { - int i; + /* We use builtin ciphers */ + return TRUE; +} - for (i = 0; silc_default_ciphers[i].name; i++) - silc_cipher_register(&(silc_default_ciphers[i])); +/* Unregister all ciphers */ + +SilcBool silc_cipher_unregister_all(void) +{ +#ifndef SILC_SYMBIAN + SilcCipherObject *entry; + if (!silc_cipher_list) + return FALSE; + + silc_dlist_start(silc_cipher_list); + while ((entry = silc_dlist_get(silc_cipher_list))) { + silc_cipher_unregister(entry); + if (!silc_cipher_list) + break; + } +#endif /* SILC_SYMBIAN */ return TRUE; } -/* Allocates a new SILC cipher object. Function returns 1 on succes and 0 +/* Allocates a new SILC cipher object. Function returns 1 on succes and 0 on error. The allocated cipher is returned in new_cipher argument. The caller must set the key to the cipher after this function has returned by calling the ciphers set_key function. */ -bool silc_cipher_alloc(const unsigned char *name, SilcCipher *new_cipher) +SilcBool silc_cipher_alloc(const char *name, SilcCipher *new_cipher) { - SilcCipherObject *entry; + SilcCipherObject *entry = NULL; + int i; SILC_LOG_DEBUG(("Allocating new cipher object")); - + +#ifndef SILC_SYMBIAN + /* First check registered list of ciphers */ if (silc_cipher_list) { silc_dlist_start(silc_cipher_list); - while ((entry = silc_dlist_get(silc_cipher_list)) != SILC_LIST_END) { - if (!strcmp(entry->name, name)) { - *new_cipher = silc_calloc(1, sizeof(**new_cipher)); - (*new_cipher)->cipher = entry; - (*new_cipher)->context = silc_calloc(1, entry->context_len()); - (*new_cipher)->set_iv = silc_cipher_set_iv; - (*new_cipher)->get_iv = silc_cipher_get_iv; - (*new_cipher)->get_key_len = silc_cipher_get_key_len; - (*new_cipher)->get_block_len = silc_cipher_get_block_len; - return TRUE; + while ((entry = silc_dlist_get(silc_cipher_list))) { + if (!strcmp(entry->name, name)) + break; + } + } +#endif /* SILC_SYMBIAN */ + + if (!entry) { + /* Check builtin list of ciphers */ + for (i = 0; silc_default_ciphers[i].name; i++) { + if (!strcmp(silc_default_ciphers[i].name, name)) { + entry = (SilcCipherObject *)&(silc_default_ciphers[i]); + break; } } } + if (entry) { + *new_cipher = silc_calloc(1, sizeof(**new_cipher)); + if (!(*new_cipher)) + return FALSE; + (*new_cipher)->cipher = entry; + (*new_cipher)->context = entry->init(entry); + if (!(*new_cipher)->context) { + silc_free(*new_cipher); + return FALSE; + } + + return TRUE; + } + return FALSE; } +/* Allocate cipher */ + +SilcBool silc_cipher_alloc_full(const char *alg_name, SilcUInt32 key_len, + SilcCipherMode mode, SilcCipher *new_cipher) +{ + char name[64]; + const char *mode_name; + + switch (mode) { + case SILC_CIPHER_MODE_ECB: + mode_name = "ecb"; + break; + case SILC_CIPHER_MODE_CBC: + mode_name = "cbc"; + break; + case SILC_CIPHER_MODE_CTR: + mode_name = "ctr"; + break; + case SILC_CIPHER_MODE_CFB: + mode_name = "cfb"; + break; + case SILC_CIPHER_MODE_OFB: + mode_name = "ofb"; + break; + default: + return FALSE; + break; + } + + silc_snprintf(name, sizeof(name), "%s-%d-%s", alg_name, key_len, mode_name); + + return silc_cipher_alloc(name, new_cipher); +} + /* Free's the given cipher. */ void silc_cipher_free(SilcCipher cipher) { if (cipher) { - silc_free(cipher->context); + cipher->cipher->uninit(cipher->cipher, cipher->context); + memset(cipher, 0, sizeof(*cipher)); silc_free(cipher); } } /* Returns TRUE if cipher `name' is supported. */ -bool silc_cipher_is_supported(const unsigned char *name) +SilcBool silc_cipher_is_supported(const char *name) { SilcCipherObject *entry; + int i; +#ifndef SILC_SYMBIAN + /* First check registered list of ciphers */ if (silc_cipher_list) { silc_dlist_start(silc_cipher_list); - while ((entry = silc_dlist_get(silc_cipher_list)) != SILC_LIST_END) { + while ((entry = silc_dlist_get(silc_cipher_list))) { if (!strcmp(entry->name, name)) return TRUE; } } +#endif /* SILC_SYMBIAN */ + + /* Check builtin list of ciphers */ + for (i = 0; silc_default_ciphers[i].name; i++) + if (!strcmp(silc_default_ciphers[i].name, name)) + return TRUE; return FALSE; } /* Returns comma separated list of supported ciphers. */ -char *silc_cipher_get_supported(void) +char *silc_cipher_get_supported(SilcBool only_registered) { - SilcCipherObject *entry; + SilcCipherObject *entry, *entry2; char *list = NULL; - int len; + int i, len = 0; - len = 0; +#ifndef SILC_SYMBIAN if (silc_cipher_list) { silc_dlist_start(silc_cipher_list); - while ((entry = silc_dlist_get(silc_cipher_list)) != SILC_LIST_END) { + while ((entry = silc_dlist_get(silc_cipher_list))) { + len += strlen(entry->name); + list = silc_realloc(list, len + 1); + + memcpy(list + (len - strlen(entry->name)), + entry->name, strlen(entry->name)); + memcpy(list + len, ",", 1); + len++; + } + } +#endif /* SILC_SYMBIAN */ + + if (!only_registered || !silc_cipher_list) { + for (i = 0; silc_default_ciphers[i].name; i++) { + entry = (SilcCipherObject *)&(silc_default_ciphers[i]); + + if (silc_cipher_list) { + silc_dlist_start(silc_cipher_list); + while ((entry2 = silc_dlist_get(silc_cipher_list))) { + if (!strcmp(entry2->name, entry->name)) + break; + } + if (entry2) + continue; + } + len += strlen(entry->name); list = silc_realloc(list, len + 1); - - memcpy(list + (len - strlen(entry->name)), + + memcpy(list + (len - strlen(entry->name)), entry->name, strlen(entry->name)); memcpy(list + len, ",", 1); len++; } - list[len - 1] = 0; } + list[len - 1] = 0; + return list; } /* Encrypts */ -bool silc_cipher_encrypt(SilcCipher cipher, const unsigned char *src, - unsigned char *dst, uint32 len, - unsigned char *iv) +SilcBool silc_cipher_encrypt(SilcCipher cipher, const unsigned char *src, + unsigned char *dst, SilcUInt32 len, + unsigned char *iv) { - return cipher->cipher->encrypt(cipher->context, src, dst, len, iv); + return cipher->cipher->encrypt(cipher, cipher->cipher, + cipher->context, src, dst, len, + iv ? iv : cipher->iv); } /* Decrypts */ -bool silc_cipher_decrypt(SilcCipher cipher, const unsigned char *src, - unsigned char *dst, uint32 len, - unsigned char *iv) +SilcBool silc_cipher_decrypt(SilcCipher cipher, const unsigned char *src, + unsigned char *dst, SilcUInt32 len, + unsigned char *iv) { - return cipher->cipher->decrypt(cipher->context, src, dst, len, iv); + return cipher->cipher->decrypt(cipher, cipher->cipher, + cipher->context, src, dst, len, + iv ? iv : cipher->iv); } /* Sets the key for the cipher */ -bool silc_cipher_set_key(SilcCipher cipher, const unsigned char *key, - uint32 keylen) +SilcBool silc_cipher_set_key(SilcCipher cipher, const unsigned char *key, + SilcUInt32 keylen, SilcBool encryption) { - return cipher->cipher->set_key(cipher->context, key, keylen); + return cipher->cipher->set_key(cipher, cipher->cipher, cipher->context, + (void *)key, keylen, encryption); } /* Sets the IV (initial vector) for the cipher. */ void silc_cipher_set_iv(SilcCipher cipher, const unsigned char *iv) { - memset(&cipher->iv, 0, sizeof(cipher->iv)); - memcpy(&cipher->iv, iv, cipher->cipher->block_len); + if (iv) + memmove(cipher->iv, iv, cipher->cipher->iv_len); + cipher->cipher->set_iv(cipher, cipher->cipher, cipher->context, cipher->iv); } -/* Returns the IV (initial vector) of the cipher. The IV is returned - to 'iv' argument. */ +/* Returns the IV (initial vector) of the cipher. */ -void silc_cipher_get_iv(SilcCipher cipher, unsigned char *iv) +unsigned char *silc_cipher_get_iv(SilcCipher cipher) { - memcpy(iv, &cipher->iv, cipher->cipher->block_len); + return cipher->iv; } /* Returns the key length of the cipher. */ -uint32 silc_cipher_get_key_len(SilcCipher cipher) +SilcUInt32 silc_cipher_get_key_len(SilcCipher cipher) { return cipher->cipher->key_len; } /* Returns the block size of the cipher. */ -uint32 silc_cipher_get_block_len(SilcCipher cipher) +SilcUInt32 silc_cipher_get_block_len(SilcCipher cipher) { return cipher->cipher->block_len; } + +/* Returns the IV length of the cipher. */ + +SilcUInt32 silc_cipher_get_iv_len(SilcCipher cipher) +{ + return cipher->cipher->iv_len; +} + +/* Returns the name of the cipher */ + +const char *silc_cipher_get_name(SilcCipher cipher) +{ + return (const char *)cipher->cipher->name; +} + +/* Returns the algorithm name of the cipher */ + +const char *silc_cipher_get_alg_name(SilcCipher cipher) +{ + return (const char *)cipher->cipher->alg_name; +} + +/* Returns cipher mode */ + +SilcCipherMode silc_cipher_get_mode(SilcCipher cipher) +{ + return cipher->cipher->mode; +}