/* * srtp_driver.c * * a test driver for libSRTP * * David A. McGrew * Cisco Systems, Inc. */ /* * * Copyright (c) 2001-2005, 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 /* for memcpy() */ #include /* for clock() */ #include /* for malloc(), free() */ #include /* for print(), fflush() */ #include /* for getopt() */ #include "srtp.h" #ifdef HAVE_NETINET_IN_H # include #elif defined HAVE_WINSOCK2_H # include #endif #define PRINT_REFERENCE_PACKET 1 err_status_t srtp_validate(void); err_status_t srtp_create_big_policy(srtp_policy_t **list); err_status_t srtp_test_remove_stream(void); double srtp_bits_per_second(int msg_len_octets, const srtp_policy_t *policy); double srtp_rejections_per_second(int msg_len_octets, const srtp_policy_t *policy); void srtp_do_timing(const srtp_policy_t *policy); void srtp_do_rejection_timing(const srtp_policy_t *policy); err_status_t srtp_test(const srtp_policy_t *policy); err_status_t srtp_session_print_policy(srtp_t srtp); err_status_t srtp_print_policy(const srtp_policy_t *policy); char * srtp_packet_to_string(srtp_hdr_t *hdr, int packet_len); double mips_estimate(int num_trials, int *ignore); extern uint8_t test_key[30]; void usage(char *prog_name) { printf("usage: %s [ -t ][ -c ][ -v ][-d ]* [ -l ]\n" " -t run timing test\n" " -r run rejection timing test\n" " -c run codec timing test\n" " -v run validation tests\n" " -d turn on debugging module \n" " -l list debugging modules\n", prog_name); exit(1); } /* * The policy_array is a null-terminated array of policy structs. it * is declared at the end of this file */ extern const srtp_policy_t *policy_array[]; /* the wildcard_policy is declared below; it has a wildcard ssrc */ extern const srtp_policy_t wildcard_policy; /* * mod_driver debug module - debugging module for this test driver * * we use the crypto_kernel debugging system in this driver, which * makes the interface uniform and increases portability */ debug_module_t mod_driver = { 0, /* debugging is off by default */ "driver" /* printable name for module */ }; int main (int argc, char *argv[]) { char q; unsigned do_timing_test = 0; unsigned do_rejection_test = 0; unsigned do_codec_timing = 0; unsigned do_validation = 0; unsigned do_list_mods = 0; err_status_t status; /* * verify that the compiler has interpreted the header data * structure srtp_hdr_t correctly */ if (sizeof(srtp_hdr_t) != 12) { printf("error: srtp_hdr_t has incorrect size\n"); exit(1); } /* initialize srtp library */ status = srtp_init(); if (status) { printf("error: srtp init failed with error code %d\n", status); exit(1); } /* load srtp_driver debug module */ status = crypto_kernel_load_debug_module(&mod_driver); if (status) { printf("error: load of srtp_driver debug module failed " "with error code %d\n", status); exit(1); } /* process input arguments */ while (1) { q = getopt(argc, argv, "trcvld:"); if (q == -1) break; switch (q) { case 't': do_timing_test = 1; break; case 'r': do_rejection_test = 1; break; case 'c': do_codec_timing = 1; break; case 'v': do_validation = 1; break; case 'l': do_list_mods = 1; break; case 'd': status = crypto_kernel_set_debug_module(optarg, 1); if (status) { printf("error: set debug module (%s) failed\n", optarg); exit(1); } break; default: usage(argv[0]); } } if (!do_validation && !do_timing_test && !do_codec_timing && !do_list_mods && !do_rejection_test) usage(argv[0]); if (do_list_mods) { status = crypto_kernel_list_debug_modules(); if (status) { printf("error: list of debug modules failed\n"); exit(1); } } if (do_validation) { const srtp_policy_t **policy = policy_array; srtp_policy_t *big_policy; /* loop over policy array, testing srtp for each policy */ while (*policy != NULL) { printf("testing srtp_protect and srtp_unprotect\n"); if (srtp_test(*policy) == err_status_ok) printf("passed\n\n"); else { printf("failed\n"); exit(1); } policy++; } /* create a big policy list and run tests on it */ status = srtp_create_big_policy(&big_policy); if (status) { printf("unexpected failure with error code %d\n", status); exit(1); } printf("testing srtp_protect and srtp_unprotect with big policy\n"); if (srtp_test(big_policy) == err_status_ok) printf("passed\n\n"); else { printf("failed\n"); exit(1); } /* run test on wildcard policy */ printf("testing srtp_protect and srtp_unprotect on " "wildcard ssrc policy\n"); if (srtp_test(&wildcard_policy) == err_status_ok) printf("passed\n\n"); else { printf("failed\n"); exit(1); } /* * run validation test against the reference packets - note * that this test only covers the default policy */ printf("testing srtp_protect and srtp_unprotect against " "reference packets\n"); if (srtp_validate() == err_status_ok) printf("passed\n\n"); else { printf("failed\n"); exit(1); } /* * test the function srtp_remove_stream() */ printf("testing srtp_remove_stream()..."); if (srtp_test_remove_stream() == err_status_ok) printf("passed\n"); else { printf("failed\n"); exit(1); } } if (do_timing_test) { const srtp_policy_t **policy = policy_array; /* loop over policies, run timing test for each */ while (*policy != NULL) { srtp_print_policy(*policy); srtp_do_timing(*policy); policy++; } } if (do_rejection_test) { const srtp_policy_t **policy = policy_array; /* loop over policies, run rejection timing test for each */ while (*policy != NULL) { srtp_print_policy(*policy); srtp_do_rejection_timing(*policy); policy++; } } if (do_codec_timing) { srtp_policy_t policy; int ignore; double mips = mips_estimate(1000000000, &ignore); crypto_policy_set_rtp_default(&policy.rtp); crypto_policy_set_rtcp_default(&policy.rtcp); policy.ssrc.type = ssrc_specific; policy.ssrc.value = 0xdecafbad; policy.key = test_key; policy.next = NULL; printf("mips estimate: %e\n", mips); printf("testing srtp processing time for voice codecs:\n"); printf("codec\t\tlength (octets)\t\tsrtp instructions/second\n"); printf("G.711\t\t%d\t\t\t%e\n", 80, (double) mips * (80 * 8) / srtp_bits_per_second(80, &policy) / .01 ); printf("G.711\t\t%d\t\t\t%e\n", 160, (double) mips * (160 * 8) / srtp_bits_per_second(160, &policy) / .02); printf("G.726-32\t%d\t\t\t%e\n", 40, (double) mips * (40 * 8) / srtp_bits_per_second(40, &policy) / .01 ); printf("G.726-32\t%d\t\t\t%e\n", 80, (double) mips * (80 * 8) / srtp_bits_per_second(80, &policy) / .02); printf("G.729\t\t%d\t\t\t%e\n", 10, (double) mips * (10 * 8) / srtp_bits_per_second(10, &policy) / .01 ); printf("G.729\t\t%d\t\t\t%e\n", 20, (double) mips * (20 * 8) / srtp_bits_per_second(20, &policy) / .02 ); } return 0; } /* * srtp_create_test_packet(len, ssrc) returns a pointer to a * (malloced) example RTP packet whose data field has the length given * by pkt_octet_len and the SSRC value ssrc. The total length of the * packet is twelve octets longer, since the header is at the * beginning. There is room at the end of the packet for a trailer, * and the four octets following the packet are filled with 0xff * values to enable testing for overwrites. * * note that the location of the test packet can (and should) be * deallocated with the free() call once it is no longer needed. */ srtp_hdr_t * srtp_create_test_packet(int pkt_octet_len, uint32_t ssrc) { int i; uint8_t *buffer; srtp_hdr_t *hdr; int bytes_in_hdr = 12; /* allocate memory for test packet */ hdr = malloc(pkt_octet_len + bytes_in_hdr + SRTP_MAX_TRAILER_LEN + 4); if (!hdr) return NULL; hdr->version = 2; /* RTP version two */ hdr->p = 0; /* no padding needed */ hdr->x = 0; /* no header extension */ hdr->cc = 0; /* no CSRCs */ hdr->m = 0; /* marker bit */ hdr->pt = 0xf; /* payload type */ hdr->seq = htons(0x1234); /* sequence number */ hdr->ts = htonl(0xdecafbad); /* timestamp */ hdr->ssrc = htonl(ssrc); /* synch. source */ buffer = (uint8_t *)hdr; buffer += bytes_in_hdr; /* set RTP data to 0xab */ for (i=0; i < pkt_octet_len; i++) *buffer++ = 0xab; /* set post-data value to 0xffff to enable overrun checking */ for (i=0; i < SRTP_MAX_TRAILER_LEN+4; i++) *buffer++ = 0xff; return hdr; } void srtp_do_timing(const srtp_policy_t *policy) { int len; /* * note: the output of this function is formatted so that it * can be used in gnuplot. '#' indicates a comment, and "\r\n" * terminates a record */ printf("# testing srtp throughput:\r\n"); printf("# mesg length (octets)\tthroughput (megabits per second)\r\n"); for (len=16; len <= 2048; len *= 2) printf("%d\t\t\t%f\r\n", len, srtp_bits_per_second(len, policy) / 1.0E6); /* these extra linefeeds let gnuplot know that a dataset is done */ printf("\r\n\r\n"); } void srtp_do_rejection_timing(const srtp_policy_t *policy) { int len; /* * note: the output of this function is formatted so that it * can be used in gnuplot. '#' indicates a comment, and "\r\n" * terminates a record */ printf("# testing srtp rejection throughput:\r\n"); printf("# mesg length (octets)\trejections per second\r\n"); for (len=8; len <= 2048; len *= 2) printf("%d\t\t\t%e\r\n", len, srtp_rejections_per_second(len, policy)); /* these extra linefeeds let gnuplot know that a dataset is done */ printf("\r\n\r\n"); } #define MAX_MSG_LEN 1024 double srtp_bits_per_second(int msg_len_octets, const srtp_policy_t *policy) { srtp_t srtp; srtp_hdr_t *mesg; int i; clock_t timer; int num_trials = 100000; int len; uint32_t ssrc; err_status_t status; /* * allocate and initialize an srtp session */ status = srtp_create(&srtp, policy); if (status) { printf("error: srtp_create() failed with error code %d\n", status); exit(1); } /* * if the ssrc is unspecified, use a predetermined one */ if (policy->ssrc.type != ssrc_specific) { ssrc = 0xdeadbeef; } else { ssrc = policy->ssrc.value; } /* * create a test packet */ mesg = srtp_create_test_packet(msg_len_octets, ssrc); if (mesg == NULL) return 0.0; /* indicate failure by returning zero */ timer = clock(); for (i=0; i < num_trials; i++) { err_status_t status; len = msg_len_octets + 12; /* add in rtp header length */ /* srtp protect message */ status = srtp_protect(srtp, mesg, &len); if (status) { printf("error: srtp_protect() failed with error code %d\n", status); exit(1); } /* increment message number */ mesg->seq = htons(ntohs(mesg->seq) + 1); } timer = clock() - timer; free(mesg); return (double) (msg_len_octets) * 8 * num_trials * CLOCKS_PER_SEC / timer; } double srtp_rejections_per_second(int msg_len_octets, const srtp_policy_t *policy) { srtp_ctx_t *srtp; srtp_hdr_t *mesg; int i; int len; clock_t timer; int num_trials = 1000000; uint32_t ssrc = policy->ssrc.value; err_status_t status; /* * allocate and initialize an srtp session */ status = srtp_create(&srtp, policy); if (status) { printf("error: srtp_create() failed with error code %d\n", status); exit(1); } mesg = srtp_create_test_packet(msg_len_octets, ssrc); if (mesg == NULL) return 0.0; /* indicate failure by returning zero */ len = msg_len_octets; srtp_protect(srtp, (srtp_hdr_t *)mesg, &len); timer = clock(); for (i=0; i < num_trials; i++) { len = msg_len_octets; srtp_unprotect(srtp, (srtp_hdr_t *)mesg, &len); } timer = clock() - timer; free(mesg); return (double) num_trials * CLOCKS_PER_SEC / timer; } void err_check(err_status_t s) { if (s == err_status_ok) return; else fprintf(stderr, "error: unexpected srtp failure (code %d)\n", s); exit (1); } err_status_t srtp_test(const srtp_policy_t *policy) { int i; srtp_t srtp_sender; srtp_t srtp_rcvr; err_status_t status = err_status_ok; srtp_hdr_t *hdr, *hdr2; uint8_t hdr_enc[64]; uint8_t *pkt_end; int msg_len_octets, msg_len_enc; int len; int tag_length = policy->rtp.auth_tag_len; uint32_t ssrc; srtp_policy_t *rcvr_policy; err_check(srtp_create(&srtp_sender, policy)); /* print out policy */ err_check(srtp_session_print_policy(srtp_sender)); /* * initialize data buffer, using the ssrc in the policy unless that * value is a wildcard, in which case we'll just use an arbitrary * one */ if (policy->ssrc.type != ssrc_specific) ssrc = 0xdecafbad; else ssrc = policy->ssrc.value; msg_len_octets = 28; hdr = srtp_create_test_packet(msg_len_octets, ssrc); if (hdr == NULL) return err_status_alloc_fail; hdr2 = srtp_create_test_packet(msg_len_octets, ssrc); if (hdr2 == NULL) { free(hdr); return err_status_alloc_fail; } /* set message length */ len = msg_len_octets; debug_print(mod_driver, "before protection:\n%s", srtp_packet_to_string(hdr, len)); #if PRINT_REFERENCE_PACKET debug_print(mod_driver, "reference packet before protection:\n%s", octet_string_hex_string((uint8_t *)hdr, len)); #endif err_check(srtp_protect(srtp_sender, hdr, &len)); debug_print(mod_driver, "after protection:\n%s", srtp_packet_to_string(hdr, len)); #if PRINT_REFERENCE_PACKET debug_print(mod_driver, "after protection:\n%s", octet_string_hex_string((uint8_t *)hdr, len)); #endif /* save protected message and length */ memcpy(hdr_enc, hdr, len); msg_len_enc = len; /* * check for overrun of the srtp_protect() function * * The packet is followed by a value of 0xfffff; if the value of the * data following the packet is different, then we know that the * protect function is overwriting the end of the packet. */ pkt_end = (uint8_t *)hdr + sizeof(srtp_hdr_t) + msg_len_octets + tag_length; for (i = 0; i < 4; i++) if (pkt_end[i] != 0xff) { fprintf(stdout, "overwrite in srtp_protect() function " "(expected %x, found %x in trailing octet %d)\n", 0xff, ((uint8_t *)hdr)[i], i); free(hdr); free(hdr2); return err_status_algo_fail; } /* * if the policy includes confidentiality, check that ciphertext is * different than plaintext * * Note that this check will give false negatives, with some small * probability, especially if the packets are short. For that * reason, we skip this check if the plaintext is less than four * octets long. */ if ((policy->rtp.sec_serv & sec_serv_conf) && (msg_len_octets >= 4)) { printf("testing that ciphertext is distinct from plaintext..."); status = err_status_algo_fail; for (i=12; i < msg_len_octets+12; i++) if (((uint8_t *)hdr)[i] != ((uint8_t *)hdr2)[i]) { status = err_status_ok; } if (status) { printf("failed\n"); free(hdr); free(hdr2); return status; } printf("passed\n"); } /* * if the policy uses a 'wildcard' ssrc, then we need to make a copy * of the policy that changes the direction to inbound * * we always copy the policy into the rcvr_policy, since otherwise * the compiler would fret about the constness of the policy */ rcvr_policy = malloc(sizeof(srtp_policy_t)); if (rcvr_policy == NULL) return err_status_alloc_fail; memcpy(rcvr_policy, policy, sizeof(srtp_policy_t)); if (policy->ssrc.type == ssrc_any_outbound) { rcvr_policy->ssrc.type = ssrc_any_inbound; } err_check(srtp_create(&srtp_rcvr, rcvr_policy)); err_check(srtp_unprotect(srtp_rcvr, hdr, &len)); debug_print(mod_driver, "after unprotection:\n%s", srtp_packet_to_string(hdr, len)); /* verify that the unprotected packet matches the origial one */ for (i=0; i < msg_len_octets; i++) if (((uint8_t *)hdr)[i] != ((uint8_t *)hdr2)[i]) { fprintf(stdout, "mismatch at octet %d\n", i); status = err_status_algo_fail; } if (status) { free(hdr); free(hdr2); return status; } /* * if the policy includes authentication, then test for false positives */ if (policy->rtp.sec_serv & sec_serv_auth) { char *data = ((char *)hdr) + 12; printf("testing for false positives in replay check..."); /* set message length */ len = msg_len_enc; /* unprotect a second time - should fail with a replay error */ status = srtp_unprotect(srtp_rcvr, hdr_enc, &len); if (status != err_status_replay_fail) { printf("failed with error code %d\n", status); free(hdr); free(hdr2); return status; } else { printf("passed\n"); } printf("testing for false positives in auth check..."); /* increment sequence number in header */ hdr->seq++; /* set message length */ len = msg_len_octets; /* apply protection */ err_check(srtp_protect(srtp_sender, hdr, &len)); /* flip bits in packet */ data[0] ^= 0xff; /* unprotect, and check for authentication failure */ status = srtp_unprotect(srtp_rcvr, hdr, &len); if (status != err_status_auth_fail) { printf("failed\n"); free(hdr); free(hdr2); return status; } else { printf("passed\n"); } } err_check(srtp_dealloc(srtp_sender)); err_check(srtp_dealloc(srtp_rcvr)); free(hdr); free(hdr2); return err_status_ok; } err_status_t srtp_session_print_policy(srtp_t srtp) { char *serv_descr[4] = { "none", "confidentiality", "authentication", "confidentiality and authentication" }; char *direction[3] = { "unknown", "outbound", "inbound" }; srtp_stream_t stream; /* sanity checking */ if (srtp == NULL) return err_status_fail; /* if there's a template stream, print it out */ if (srtp->stream_template != NULL) { stream = srtp->stream_template; printf("# SSRC: any %s\r\n" "# rtp cipher: %s\r\n" "# rtp auth: %s\r\n" "# rtp services: %s\r\n" "# rtcp cipher: %s\r\n" "# rtcp auth: %s\r\n" "# rtcp services: %s\r\n", direction[stream->direction], stream->rtp_cipher->type->description, stream->rtp_auth->type->description, serv_descr[stream->rtp_services], stream->rtcp_cipher->type->description, stream->rtcp_auth->type->description, serv_descr[stream->rtcp_services]); } /* loop over streams in session, printing the policy of each */ stream = srtp->stream_list; while (stream != NULL) { if (stream->rtp_services > sec_serv_conf_and_auth) return err_status_bad_param; printf("# SSRC: 0x%08x\r\n" "# rtp cipher: %s\r\n" "# rtp auth: %s\r\n" "# rtp services: %s\r\n" "# rtcp cipher: %s\r\n" "# rtcp auth: %s\r\n" "# rtcp services: %s\r\n", stream->ssrc, stream->rtp_cipher->type->description, stream->rtp_auth->type->description, serv_descr[stream->rtp_services], stream->rtcp_cipher->type->description, stream->rtcp_auth->type->description, serv_descr[stream->rtcp_services]); /* advance to next stream in the list */ stream = stream->next; } return err_status_ok; } err_status_t srtp_print_policy(const srtp_policy_t *policy) { err_status_t status; srtp_t session; status = srtp_create(&session, policy); if (status) return status; status = srtp_session_print_policy(session); if (status) return status; status = srtp_dealloc(session); if (status) return status; return err_status_ok; } /* * srtp_print_packet(...) is for debugging only * it prints an RTP packet to the stdout * * note that this function is *not* threadsafe */ #include #define MTU 2048 char packet_string[MTU]; char * srtp_packet_to_string(srtp_hdr_t *hdr, int pkt_octet_len) { int octets_in_rtp_header = 12; uint8_t *data = ((uint8_t *)hdr)+octets_in_rtp_header; int hex_len = pkt_octet_len-octets_in_rtp_header; /* sanity checking */ if ((hdr == NULL) || (pkt_octet_len > MTU)) return NULL; /* write packet into string */ sprintf(packet_string, "(s)rtp packet: {\n" " version:\t%d\n" " p:\t\t%d\n" " x:\t\t%d\n" " cc:\t\t%d\n" " m:\t\t%d\n" " pt:\t\t%x\n" " seq:\t\t%x\n" " ts:\t\t%x\n" " ssrc:\t%x\n" " data:\t%s\n" "} (%d octets in total)\n", hdr->version, hdr->p, hdr->x, hdr->cc, hdr->m, hdr->pt, hdr->seq, hdr->ts, hdr->ssrc, octet_string_hex_string(data, hex_len), pkt_octet_len); return packet_string; } /* * mips_estimate() is a simple function to estimate the number of * instructions per second that the host can perform. note that this * function can be grossly wrong; you may want to have a manual sanity * check of its output! * * the 'ignore' pointer is there to convince the compiler to not just * optimize away the function */ double mips_estimate(int num_trials, int *ignore) { clock_t t; int i, sum; sum = 0; t = clock(); for (i=0; issrc.type = ssrc_specific; p->ssrc.value = ssrc++; p->next = tmp; tmp = p; i++; } *list = p; return err_status_ok; } err_status_t srtp_test_remove_stream() { err_status_t status; srtp_policy_t *policy_list; srtp_t session; srtp_stream_t stream; /* * srtp_get_stream() is a libSRTP internal function that we declare * here so that we can use it to verify the correct operation of the * library */ extern srtp_stream_t srtp_get_stream(srtp_t srtp, uint32_t ssrc); status = srtp_create_big_policy(&policy_list); if (status) return status; status = srtp_create(&session, policy_list); if (status) return status; /* * check for false positives by trying to remove a stream that's not * in the session */ status = srtp_remove_stream(session, htonl(0xaaaaaaaa)); if (status != err_status_no_ctx) return err_status_fail; /* * check for false negatives by removing stream 0x1, then * searching for streams 0x0 and 0x2 */ status = srtp_remove_stream(session, htonl(0x1)); if (status != err_status_ok) return err_status_fail; stream = srtp_get_stream(session, htonl(0x0)); if (stream == NULL) return err_status_fail; stream = srtp_get_stream(session, htonl(0x2)); if (stream == NULL) return err_status_fail; return err_status_ok; } /* * srtp policy definitions - these definitions are used above */ unsigned char test_key[30] = { 0xe1, 0xf9, 0x7a, 0x0d, 0x3e, 0x01, 0x8b, 0xe0, 0xd6, 0x4f, 0xa3, 0x2c, 0x06, 0xde, 0x41, 0x39, 0x0e, 0xc6, 0x75, 0xad, 0x49, 0x8a, 0xfe, 0xeb, 0xb6, 0x96, 0x0b, 0x3a, 0xab, 0xe6 }; const srtp_policy_t default_policy = { { ssrc_any_outbound, 0 }, /* SSRC */ { /* SRTP policy */ AES_128_ICM, /* cipher type */ 30, /* cipher key length in octets */ HMAC_SHA1, /* authentication func type */ 16, /* auth key length in octets */ 10, /* auth tag length in octets */ sec_serv_conf_and_auth /* security services flag */ }, { /* SRTCP policy */ AES_128_ICM, /* cipher type */ 30, /* cipher key length in octets */ HMAC_SHA1, /* authentication func type */ 16, /* auth key length in octets */ 10, /* auth tag length in octets */ sec_serv_conf_and_auth /* security services flag */ }, test_key, NULL }; const srtp_policy_t aes_tmmh_policy = { { ssrc_any_outbound, 0 }, /* SSRC */ { AES_128_ICM, /* cipher type */ 30, /* cipher key length in octets */ UST_TMMHv2, /* authentication func type */ 94, /* auth key length in octets */ 4, /* auth tag length in octets */ sec_serv_conf_and_auth /* security services flag */ }, { AES_128_ICM, /* cipher type */ 30, /* cipher key length in octets */ UST_TMMHv2, /* authentication func type */ 94, /* auth key length in octets */ 4, /* auth tag length in octets */ sec_serv_conf_and_auth /* security services flag */ }, test_key, NULL }; const srtp_policy_t tmmh_only_policy = { { ssrc_any_outbound, 0 }, /* SSRC */ { AES_128_ICM, /* cipher type */ 30, /* cipher key length in octets */ UST_TMMHv2, /* authentication func type */ 94, /* auth key length in octets */ 4, /* auth tag length in octets */ sec_serv_auth /* security services flag */ }, { AES_128_ICM, /* cipher type */ 30, /* cipher key length in octets */ UST_TMMHv2, /* authentication func type */ 94, /* auth key length in octets */ 4, /* auth tag length in octets */ sec_serv_auth /* security services flag */ }, test_key, NULL }; const srtp_policy_t aes_only_policy = { { ssrc_any_outbound, 0 }, /* SSRC */ { AES_128_ICM, /* cipher type */ 30, /* cipher key length in octets */ NULL_AUTH, /* authentication func type */ 0, /* auth key length in octets */ 0, /* auth tag length in octets */ sec_serv_conf /* security services flag */ }, { AES_128_ICM, /* cipher type */ 30, /* cipher key length in octets */ NULL_AUTH, /* authentication func type */ 0, /* auth key length in octets */ 0, /* auth tag length in octets */ sec_serv_conf /* security services flag */ }, test_key, NULL }; const srtp_policy_t hmac_only_policy = { { ssrc_any_outbound, 0 }, /* SSRC */ { NULL_CIPHER, /* cipher type */ 0, /* cipher key length in octets */ HMAC_SHA1, /* authentication func type */ 20, /* auth key length in octets */ 4, /* auth tag length in octets */ sec_serv_auth /* security services flag */ }, { NULL_CIPHER, /* cipher type */ 0, /* cipher key length in octets */ HMAC_SHA1, /* authentication func type */ 20, /* auth key length in octets */ 4, /* auth tag length in octets */ sec_serv_auth /* security services flag */ }, test_key, NULL }; const srtp_policy_t null_policy = { { ssrc_any_outbound, 0 }, /* SSRC */ { NULL_CIPHER, /* cipher type */ 0, /* cipher key length in octets */ NULL_AUTH, /* authentication func type */ 0, /* auth key length in octets */ 0, /* auth tag length in octets */ sec_serv_none /* security services flag */ }, { NULL_CIPHER, /* cipher type */ 0, /* cipher key length in octets */ NULL_AUTH, /* authentication func type */ 0, /* auth key length in octets */ 0, /* auth tag length in octets */ sec_serv_none /* security services flag */ }, test_key, NULL }; /* * an array of pointers to the policies listed above * * This array is used to test various aspects of libSRTP for * different cryptographic policies. The order of the elements * matters - the timing test generates output that can be used * in a plot (see the gnuplot script file 'timing'). If you * add to this list, you should do it at the end. */ #define USE_TMMH 0 const srtp_policy_t * policy_array[] = { &hmac_only_policy, #if USE_TMMH &tmmh_only_policy, #endif &aes_only_policy, #if USE_TMMH &aes_tmmh_policy, #endif &default_policy, &null_policy, NULL }; const srtp_policy_t wildcard_policy = { { ssrc_any_outbound, 0 }, /* SSRC */ { /* SRTP policy */ AES_128_ICM, /* cipher type */ 30, /* cipher key length in octets */ HMAC_SHA1, /* authentication func type */ 16, /* auth key length in octets */ 10, /* auth tag length in octets */ sec_serv_conf_and_auth /* security services flag */ }, { /* SRTCP policy */ AES_128_ICM, /* cipher type */ 30, /* cipher key length in octets */ HMAC_SHA1, /* authentication func type */ 16, /* auth key length in octets */ 10, /* auth tag length in octets */ sec_serv_conf_and_auth /* security services flag */ }, test_key, NULL };