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author | Matt A. Tobin <mattatobin@localhost.localdomain> | 2018-02-02 04:16:08 -0500 |
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committer | Matt A. Tobin <mattatobin@localhost.localdomain> | 2018-02-02 04:16:08 -0500 |
commit | 5f8de423f190bbb79a62f804151bc24824fa32d8 (patch) | |
tree | 10027f336435511475e392454359edea8e25895d /netwerk/srtp/src/crypto/cipher/cipher.c | |
parent | 49ee0794b5d912db1f95dce6eb52d781dc210db5 (diff) | |
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Add m-esr52 at 52.6.0
Diffstat (limited to 'netwerk/srtp/src/crypto/cipher/cipher.c')
-rw-r--r-- | netwerk/srtp/src/crypto/cipher/cipher.c | 421 |
1 files changed, 421 insertions, 0 deletions
diff --git a/netwerk/srtp/src/crypto/cipher/cipher.c b/netwerk/srtp/src/crypto/cipher/cipher.c new file mode 100644 index 000000000..f668fc166 --- /dev/null +++ b/netwerk/srtp/src/crypto/cipher/cipher.c @@ -0,0 +1,421 @@ +/* + * cipher.c + * + * cipher meta-functions + * + * David A. McGrew + * Cisco Systems, Inc. + * + */ + +/* + * + * Copyright (c) 2001-2006, Cisco Systems, Inc. + * All rights reserved. + * + * Redistribution and use in source and binary forms, with or without + * modification, are permitted provided that the following conditions + * are met: + * + * Redistributions of source code must retain the above copyright + * notice, this list of conditions and the following disclaimer. + * + * Redistributions in binary form must reproduce the above + * copyright notice, this list of conditions and the following + * disclaimer in the documentation and/or other materials provided + * with the distribution. + * + * Neither the name of the Cisco Systems, Inc. nor the names of its + * contributors may be used to endorse or promote products derived + * from this software without specific prior written permission. + * + * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS + * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT + * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS + * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE + * COPYRIGHT HOLDERS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, + * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES + * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR + * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) + * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, + * STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) + * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED + * OF THE POSSIBILITY OF SUCH DAMAGE. + * + */ + +#include "cipher.h" +#include "rand_source.h" /* used in invertibiltiy tests */ +#include "alloc.h" /* for crypto_alloc(), crypto_free() */ + +debug_module_t mod_cipher = { + 0, /* debugging is off by default */ + "cipher" /* printable module name */ +}; + +err_status_t +cipher_output(cipher_t *c, uint8_t *buffer, int num_octets_to_output) { + + /* zeroize the buffer */ + octet_string_set_to_zero(buffer, num_octets_to_output); + + /* exor keystream into buffer */ + return cipher_encrypt(c, buffer, (unsigned int *) &num_octets_to_output); +} + +/* some bookkeeping functions */ + +int +cipher_get_key_length(const cipher_t *c) { + return c->key_len; +} + +/* + * cipher_type_test(ct, test_data) tests a cipher of type ct against + * test cases provided in a list test_data of values of key, salt, iv, + * plaintext, and ciphertext that is known to be good + */ + +#define SELF_TEST_BUF_OCTETS 128 +#define NUM_RAND_TESTS 128 +#define MAX_KEY_LEN 64 + +err_status_t +cipher_type_test(const cipher_type_t *ct, const cipher_test_case_t *test_data) { + const cipher_test_case_t *test_case = test_data; + cipher_t *c; + err_status_t status; + uint8_t buffer[SELF_TEST_BUF_OCTETS]; + uint8_t buffer2[SELF_TEST_BUF_OCTETS]; + unsigned int len; + int i, j, case_num = 0; + + debug_print(mod_cipher, "running self-test for cipher %s", + ct->description); + + /* + * check to make sure that we have at least one test case, and + * return an error if we don't - we need to be paranoid here + */ + if (test_case == NULL) + return err_status_cant_check; + + /* + * loop over all test cases, perform known-answer tests of both the + * encryption and decryption functions + */ + while (test_case != NULL) { + + /* allocate cipher */ + status = cipher_type_alloc(ct, &c, test_case->key_length_octets); + if (status) + return status; + + /* + * test the encrypt function + */ + debug_print(mod_cipher, "testing encryption", NULL); + + /* initialize cipher */ + status = cipher_init(c, test_case->key, direction_encrypt); + if (status) { + cipher_dealloc(c); + return status; + } + + /* copy plaintext into test buffer */ + if (test_case->ciphertext_length_octets > SELF_TEST_BUF_OCTETS) { + cipher_dealloc(c); + return err_status_bad_param; + } + for (i=0; i < test_case->plaintext_length_octets; i++) + buffer[i] = test_case->plaintext[i]; + + debug_print(mod_cipher, "plaintext: %s", + octet_string_hex_string(buffer, + test_case->plaintext_length_octets)); + + /* set the initialization vector */ + status = cipher_set_iv(c, test_case->idx); + if (status) { + cipher_dealloc(c); + return status; + } + + /* encrypt */ + len = test_case->plaintext_length_octets; + status = cipher_encrypt(c, buffer, &len); + if (status) { + cipher_dealloc(c); + return status; + } + + debug_print(mod_cipher, "ciphertext: %s", + octet_string_hex_string(buffer, + test_case->ciphertext_length_octets)); + + /* compare the resulting ciphertext with that in the test case */ + if (len != (unsigned int)test_case->ciphertext_length_octets) + return err_status_algo_fail; + status = err_status_ok; + for (i=0; i < test_case->ciphertext_length_octets; i++) + if (buffer[i] != test_case->ciphertext[i]) { + status = err_status_algo_fail; + debug_print(mod_cipher, "test case %d failed", case_num); + debug_print(mod_cipher, "(failure at byte %d)", i); + break; + } + if (status) { + + debug_print(mod_cipher, "c computed: %s", + octet_string_hex_string(buffer, + 2*test_case->plaintext_length_octets)); + debug_print(mod_cipher, "c expected: %s", + octet_string_hex_string(test_case->ciphertext, + 2*test_case->plaintext_length_octets)); + + cipher_dealloc(c); + return err_status_algo_fail; + } + + /* + * test the decrypt function + */ + debug_print(mod_cipher, "testing decryption", NULL); + + /* re-initialize cipher for decryption */ + status = cipher_init(c, test_case->key, direction_decrypt); + if (status) { + cipher_dealloc(c); + return status; + } + + /* copy ciphertext into test buffer */ + if (test_case->ciphertext_length_octets > SELF_TEST_BUF_OCTETS) { + cipher_dealloc(c); + return err_status_bad_param; + } + for (i=0; i < test_case->ciphertext_length_octets; i++) + buffer[i] = test_case->ciphertext[i]; + + debug_print(mod_cipher, "ciphertext: %s", + octet_string_hex_string(buffer, + test_case->plaintext_length_octets)); + + /* set the initialization vector */ + status = cipher_set_iv(c, test_case->idx); + if (status) { + cipher_dealloc(c); + return status; + } + + /* decrypt */ + len = test_case->ciphertext_length_octets; + status = cipher_decrypt(c, buffer, &len); + if (status) { + cipher_dealloc(c); + return status; + } + + debug_print(mod_cipher, "plaintext: %s", + octet_string_hex_string(buffer, + test_case->plaintext_length_octets)); + + /* compare the resulting plaintext with that in the test case */ + if (len != (unsigned int)test_case->plaintext_length_octets) + return err_status_algo_fail; + status = err_status_ok; + for (i=0; i < test_case->plaintext_length_octets; i++) + if (buffer[i] != test_case->plaintext[i]) { + status = err_status_algo_fail; + debug_print(mod_cipher, "test case %d failed", case_num); + debug_print(mod_cipher, "(failure at byte %d)", i); + } + if (status) { + + debug_print(mod_cipher, "p computed: %s", + octet_string_hex_string(buffer, + 2*test_case->plaintext_length_octets)); + debug_print(mod_cipher, "p expected: %s", + octet_string_hex_string(test_case->plaintext, + 2*test_case->plaintext_length_octets)); + + cipher_dealloc(c); + return err_status_algo_fail; + } + + /* deallocate the cipher */ + status = cipher_dealloc(c); + if (status) + return status; + + /* + * the cipher passed the test case, so move on to the next test + * case in the list; if NULL, we'l proceed to the next test + */ + test_case = test_case->next_test_case; + ++case_num; + } + + /* now run some random invertibility tests */ + + /* allocate cipher, using paramaters from the first test case */ + test_case = test_data; + status = cipher_type_alloc(ct, &c, test_case->key_length_octets); + if (status) + return status; + + rand_source_init(); + + for (j=0; j < NUM_RAND_TESTS; j++) { + unsigned length; + int plaintext_len; + uint8_t key[MAX_KEY_LEN]; + uint8_t iv[MAX_KEY_LEN]; + + /* choose a length at random (leaving room for IV and padding) */ + length = rand() % (SELF_TEST_BUF_OCTETS - 64); + debug_print(mod_cipher, "random plaintext length %d\n", length); + status = rand_source_get_octet_string(buffer, length); + if (status) return status; + + debug_print(mod_cipher, "plaintext: %s", + octet_string_hex_string(buffer, length)); + + /* copy plaintext into second buffer */ + for (i=0; (unsigned int)i < length; i++) + buffer2[i] = buffer[i]; + + /* choose a key at random */ + if (test_case->key_length_octets > MAX_KEY_LEN) + return err_status_cant_check; + status = rand_source_get_octet_string(key, test_case->key_length_octets); + if (status) return status; + + /* chose a random initialization vector */ + status = rand_source_get_octet_string(iv, MAX_KEY_LEN); + if (status) return status; + + /* initialize cipher */ + status = cipher_init(c, key, direction_encrypt); + if (status) { + cipher_dealloc(c); + return status; + } + + /* set initialization vector */ + status = cipher_set_iv(c, test_case->idx); + if (status) { + cipher_dealloc(c); + return status; + } + + /* encrypt buffer with cipher */ + plaintext_len = length; + status = cipher_encrypt(c, buffer, &length); + if (status) { + cipher_dealloc(c); + return status; + } + debug_print(mod_cipher, "ciphertext: %s", + octet_string_hex_string(buffer, length)); + + /* + * re-initialize cipher for decryption, re-set the iv, then + * decrypt the ciphertext + */ + status = cipher_init(c, key, direction_decrypt); + if (status) { + cipher_dealloc(c); + return status; + } + status = cipher_set_iv(c, test_case->idx); + if (status) { + cipher_dealloc(c); + return status; + } + status = cipher_decrypt(c, buffer, &length); + if (status) { + cipher_dealloc(c); + return status; + } + + debug_print(mod_cipher, "plaintext[2]: %s", + octet_string_hex_string(buffer, length)); + + /* compare the resulting plaintext with the original one */ + if (length != (unsigned)plaintext_len) + return err_status_algo_fail; + status = err_status_ok; + for (i=0; i < plaintext_len; i++) + if (buffer[i] != buffer2[i]) { + status = err_status_algo_fail; + debug_print(mod_cipher, "random test case %d failed", case_num); + debug_print(mod_cipher, "(failure at byte %d)", i); + } + if (status) { + cipher_dealloc(c); + return err_status_algo_fail; + } + + } + + status = cipher_dealloc(c); + if (status) + return status; + + return err_status_ok; +} + + +/* + * cipher_type_self_test(ct) performs cipher_type_test on ct's internal + * list of test data. + */ + +err_status_t +cipher_type_self_test(const cipher_type_t *ct) { + return cipher_type_test(ct, ct->test_data); +} + +/* + * cipher_bits_per_second(c, l, t) computes (an estimate of) the + * number of bits that a cipher implementation can encrypt in a second + * + * c is a cipher (which MUST be allocated and initialized already), l + * is the length in octets of the test data to be encrypted, and t is + * the number of trials + * + * if an error is encountered, the value 0 is returned + */ + +uint64_t +cipher_bits_per_second(cipher_t *c, int octets_in_buffer, int num_trials) { + int i; + v128_t nonce; + clock_t timer; + unsigned char *enc_buf; + unsigned int len = octets_in_buffer; + + enc_buf = (unsigned char*) crypto_alloc(octets_in_buffer); + if (enc_buf == NULL) + return 0; /* indicate bad parameters by returning null */ + + /* time repeated trials */ + v128_set_to_zero(&nonce); + timer = clock(); + for(i=0; i < num_trials; i++, nonce.v32[3] = i) { + cipher_set_iv(c, &nonce); + cipher_encrypt(c, enc_buf, &len); + } + timer = clock() - timer; + + crypto_free(enc_buf); + + if (timer == 0) { + /* Too fast! */ + return 0; + } + + return (uint64_t)CLOCKS_PER_SEC * num_trials * 8 * octets_in_buffer / timer; +} |