#include #include #include #include #include #include #include #include #include #include #include #include "bscconfig.h" #ifndef BUILD_MGCP_TRANSCODING #error "Requires MGCP transcoding enabled (see --enable-mgcp-transcoding)" #endif #include "openbsc/mgcp_transcode.h" uint8_t *audio_frame_l16[] = { }; struct rtp_packets { float t; int len; char *data; }; struct rtp_packets audio_packets_l16[] = { /* RTP: SeqNo=1, TS=160 */ {0.020000, 332, "\x80\x0B\x00\x01\x00\x00\x00\xA0\x11\x22\x33\x44" "\x00\x00\x40\x13\x5A\x9E\x40\x13\x00\x00\xBF\xED\xA5\x62\xBF\xED" "\x00\x00\x40\x13\x5A\x9E\x40\x13\x00\x00\xBF\xED\xA5\x62\xBF\xED" "\x00\x00\x40\x13\x5A\x9E\x40\x13\x00\x00\xBF\xED\xA5\x62\xBF\xED" "\x00\x00\x40\x13\x5A\x9E\x40\x13\x00\x00\xBF\xED\xA5\x62\xBF\xED" "\x00\x00\x40\x13\x5A\x9E\x40\x13\x00\x00\xBF\xED\xA5\x62\xBF\xED" "\x00\x00\x40\x13\x5A\x9E\x40\x13\x00\x00\xBF\xED\xA5\x62\xBF\xED" "\x00\x00\x40\x13\x5A\x9E\x40\x13\x00\x00\xBF\xED\xA5\x62\xBF\xED" "\x00\x00\x40\x13\x5A\x9E\x40\x13\x00\x00\xBF\xED\xA5\x62\xBF\xED" "\x00\x00\x40\x13\x5A\x9E\x40\x13\x00\x00\xBF\xED\xA5\x62\xBF\xED" "\x00\x00\x40\x13\x5A\x9E\x40\x13\x00\x00\xBF\xED\xA5\x62\xBF\xED" "\x00\x00\x40\x13\x5A\x9E\x40\x13\x00\x00\xBF\xED\xA5\x62\xBF\xED" "\x00\x00\x40\x13\x5A\x9E\x40\x13\x00\x00\xBF\xED\xA5\x62\xBF\xED" "\x00\x00\x40\x13\x5A\x9E\x40\x13\x00\x00\xBF\xED\xA5\x62\xBF\xED" "\x00\x00\x40\x13\x5A\x9E\x40\x13\x00\x00\xBF\xED\xA5\x62\xBF\xED" "\x00\x00\x40\x13\x5A\x9E\x40\x13\x00\x00\xBF\xED\xA5\x62\xBF\xED" "\x00\x00\x40\x13\x5A\x9E\x40\x13\x00\x00\xBF\xED\xA5\x62\xBF\xED" "\x00\x00\x40\x13\x5A\x9E\x40\x13\x00\x00\xBF\xED\xA5\x62\xBF\xED" "\x00\x00\x40\x13\x5A\x9E\x40\x13\x00\x00\xBF\xED\xA5\x62\xBF\xED" "\x00\x00\x40\x13\x5A\x9E\x40\x13\x00\x00\xBF\xED\xA5\x62\xBF\xED" "\x00\x00\x40\x13\x5A\x9E\x40\x13\x00\x00\xBF\xED\xA5\x62\xBF\xED" }, }; struct rtp_packets audio_packets_gsm[] = { /* RTP: SeqNo=1, TS=160 */ {0.020000, 45, "\x80\x03\x00\x01\x00\x00\x00\xA0\x11\x22\x33\x44" "\xD4\x7C\xE3\xE9\x62\x50\x39\xF0\xF8\xB4\x68\xEA\x6C\x0E\x81\x1B" "\x56\x2A\xD5\xBC\x69\x9C\xD1\xF0\x66\x7A\xEC\x49\x7A\x33\x3D\x0A" "\xDE" }, }; struct rtp_packets audio_packets_gsm_invalid_size[] = { /* RTP: SeqNo=1, TS=160 */ {0.020000, 41, "\x80\x03\x00\x01\x00\x00\x00\xA0\x11\x22\x33\x44" "\xD4\x7C\xE3\xE9\x62\x50\x39\xF0\xF8\xB4\x68\xEA\x6C\x0E\x81\x1B" "\x56\x2A\xD5\xBC\x69\x9C\xD1\xF0\x66\x7A\xEC\x49\x7A\x33\x3D\x0A" "\xDE" }, }; struct rtp_packets audio_packets_gsm_invalid_data[] = { /* RTP: SeqNo=1, TS=160 */ {0.020000, 45, "\x80\x03\x00\x01\x00\x00\x00\xA0\x11\x22\x33\x44" "\xEE\xEE\xEE\xEE\xEE\xEE\xEE\xEE\xEE\xEE\xEE\xEE\xEE\xEE\xEE\xEE" "\xEE\xEE\xEE\xEE\xEE\xEE\xEE\xEE\xEE\xEE\xEE\xEE\xEE\xEE\xEE\xEE" "\xEE" }, }; struct rtp_packets audio_packets_gsm_invalid_ptype[] = { /* RTP: SeqNo=1, TS=160 */ {0.020000, 45, "\x80\x08\x00\x01\x00\x00\x00\xA0\x11\x22\x33\x44" "\xD4\x7C\xE3\xE9\x62\x50\x39\xF0\xF8\xB4\x68\xEA\x6C\x0E\x81\x1B" "\x56\x2A\xD5\xBC\x69\x9C\xD1\xF0\x66\x7A\xEC\x49\x7A\x33\x3D\x0A" "\xDE" }, }; struct rtp_packets audio_packets_g729[] = { /* RTP: SeqNo=1, TS=160 */ {0.020000, 32, "\x80\x12\x00\x01\x00\x00\x00\xA0\x11\x22\x33\x44" "\xAF\xC2\x81\x40\x00\xFA\xCE\xA4\x21\x7C\xC5\xC3\x4F\xA5\x98\xF5" "\xB2\x95\xC4\xAD" }, }; struct rtp_packets audio_packets_pcma[] = { /* RTP: SeqNo=1, TS=160 */ {0.020000, 172, "\x80\x08\x00\x01\x00\x00\x00\xA0\x11\x22\x33\x44" "\xD5\xA5\xA3\xA5\xD5\x25\x23\x25\xD5\xA5\xA3\xA5\xD5\x25\x23\x25" "\xD5\xA5\xA3\xA5\xD5\x25\x23\x25\xD5\xA5\xA3\xA5\xD5\x25\x23\x25" "\xD5\xA5\xA3\xA5\xD5\x25\x23\x25\xD5\xA5\xA3\xA5\xD5\x25\x23\x25" "\xD5\xA5\xA3\xA5\xD5\x25\x23\x25\xD5\xA5\xA3\xA5\xD5\x25\x23\x25" "\xD5\xA5\xA3\xA5\xD5\x25\x23\x25\xD5\xA5\xA3\xA5\xD5\x25\x23\x25" "\xD5\xA5\xA3\xA5\xD5\x25\x23\x25\xD5\xA5\xA3\xA5\xD5\x25\x23\x25" "\xD5\xA5\xA3\xA5\xD5\x25\x23\x25\xD5\xA5\xA3\xA5\xD5\x25\x23\x25" "\xD5\xA5\xA3\xA5\xD5\x25\x23\x25\xD5\xA5\xA3\xA5\xD5\x25\x23\x25" "\xD5\xA5\xA3\xA5\xD5\x25\x23\x25\xD5\xA5\xA3\xA5\xD5\x25\x23\x25" "\xD5\xA5\xA3\xA5\xD5\x25\x23\x25\xD5\xA5\xA3\xA5\xD5\x25\x23\x25" }, }; static int audio_name_to_type(const char *name) { if (!strcasecmp(name, "gsm")) return 3; #ifdef HAVE_BCG729 else if (!strcasecmp(name, "g729")) return 18; #endif else if (!strcasecmp(name, "pcma")) return 8; else if (!strcasecmp(name, "l16")) return 11; return -1; } int mgcp_get_trans_frame_size(void *state_, int nsamples, int dst); static int transcode_test(const char *srcfmt, const char *dstfmt, uint8_t *src_pkts, size_t src_pkt_size) { char buf[4096] = {0x80, 0}; int rc; struct mgcp_rtp_end *dst_end; struct mgcp_rtp_end *src_end; struct mgcp_trunk_config tcfg = {{0}}; struct mgcp_endpoint endp = {0}; struct mgcp_process_rtp_state *state; int in_size; int in_samples = 160; int len, cont; printf("== Transcoding test ==\n"); printf("converting %s -> %s\n", srcfmt, dstfmt); tcfg.endpoints = &endp; tcfg.number_endpoints = 1; endp.tcfg = &tcfg; mgcp_free_endp(&endp); dst_end = &endp.bts_end; src_end = &endp.net_end; src_end->payload_type = audio_name_to_type(srcfmt); dst_end->payload_type = audio_name_to_type(dstfmt); rc = mgcp_transcoding_setup(&endp, dst_end, src_end); if (rc < 0) errx(1, "setup failed: %s", strerror(-rc)); state = dst_end->rtp_process_data; OSMO_ASSERT(state != NULL); in_size = mgcp_transcoding_get_frame_size(state, in_samples, 0); OSMO_ASSERT(sizeof(buf) >= in_size + 12); memcpy(buf, src_pkts, src_pkt_size); len = src_pkt_size; cont = mgcp_transcoding_process_rtp(&endp, dst_end, buf, &len, sizeof(buf)); if (cont < 0) errx(1, "processing failed: %s", strerror(-cont)); if (len < 24) { printf("encoded: %s\n", osmo_hexdump((unsigned char *)buf, len)); } else { const char *str = osmo_hexdump((unsigned char *)buf, len); int i = 0; const int prefix = 4; const int cutlen = 48; int nchars = 0; printf("encoded:\n"); do { nchars = printf("%*s%-.*s", prefix, "", cutlen, str + i); i += nchars - prefix; printf("\n"); } while (nchars - prefix >= cutlen); } return 0; } static int test_repacking(int in_samples, int out_samples, int no_transcode) { char buf[4096] = {0x80, 0}; int cc, rc; struct mgcp_rtp_end *dst_end; struct mgcp_rtp_end *src_end; struct mgcp_config *cfg; struct mgcp_trunk_config tcfg = {{0}}; struct mgcp_endpoint endp = {0}; struct mgcp_process_rtp_state *state; int in_cnt; int out_size; int in_size; uint32_t ts = 0; uint16_t seq = 0; const char *srcfmt = "pcma"; const char *dstfmt = no_transcode ? "pcma" : "l16"; cfg = mgcp_config_alloc(); tcfg.endpoints = &endp; tcfg.number_endpoints = 1; tcfg.cfg = cfg; endp.tcfg = &tcfg; endp.cfg = cfg; mgcp_free_endp(&endp); dst_end = &endp.bts_end; src_end = &endp.net_end; printf("== Transcoding test ==\n"); printf("converting %s -> %s\n", srcfmt, dstfmt); src_end->payload_type = audio_name_to_type(srcfmt); dst_end->payload_type = audio_name_to_type(dstfmt); if (out_samples) { dst_end->frame_duration_den = dst_end->rate; dst_end->frame_duration_num = out_samples; dst_end->frames_per_packet = 1; dst_end->force_output_ptime = 1; } rc = mgcp_transcoding_setup(&endp, dst_end, src_end); if (rc < 0) errx(1, "setup failed: %s", strerror(-rc)); state = dst_end->rtp_process_data; OSMO_ASSERT(state != NULL); in_size = mgcp_transcoding_get_frame_size(state, in_samples, 0); OSMO_ASSERT(sizeof(buf) >= in_size + 12); out_size = mgcp_transcoding_get_frame_size(state, -1, 1); OSMO_ASSERT(sizeof(buf) >= out_size + 12); buf[1] = src_end->payload_type; *(uint16_t*)(buf+2) = htons(1); *(uint32_t*)(buf+4) = htonl(0); *(uint32_t*)(buf+8) = htonl(0xaabbccdd); for (in_cnt = 0; in_cnt < 16; in_cnt++) { int cont; int len; /* fake PCMA data */ printf("generating %d %s input samples\n", in_samples, srcfmt); for (cc = 0; cc < in_samples; cc++) buf[12+cc] = cc; *(uint16_t*)(buf+2) = htonl(seq); *(uint32_t*)(buf+4) = htonl(ts); seq += 1; ts += in_samples; cc += 12; /* include RTP header */ len = cc; do { cont = mgcp_transcoding_process_rtp(&endp, dst_end, buf, &len, sizeof(buf)); if (cont == -EAGAIN) { fprintf(stderr, "Got EAGAIN\n"); break; } if (cont < 0) errx(1, "processing failed: %s", strerror(-cont)); len -= 12; /* ignore RTP header */ printf("got %d %s output frames (%d octets)\n", len / out_size, dstfmt, len); len = cont; } while (len > 0); } return 0; } int main(int argc, char **argv) { osmo_init_logging(&log_info); printf("=== Transcoding Good Cases ===\n"); transcode_test("l16", "l16", (uint8_t *)audio_packets_l16[0].data, audio_packets_l16[0].len); transcode_test("l16", "gsm", (uint8_t *)audio_packets_l16[0].data, audio_packets_l16[0].len); transcode_test("l16", "pcma", (uint8_t *)audio_packets_l16[0].data, audio_packets_l16[0].len); transcode_test("gsm", "l16", (uint8_t *)audio_packets_gsm[0].data, audio_packets_gsm[0].len); transcode_test("gsm", "gsm", (uint8_t *)audio_packets_gsm[0].data, audio_packets_gsm[0].len); transcode_test("gsm", "pcma", (uint8_t *)audio_packets_gsm[0].data, audio_packets_gsm[0].len); transcode_test("pcma", "l16", (uint8_t *)audio_packets_pcma[0].data, audio_packets_pcma[0].len); transcode_test("pcma", "gsm", (uint8_t *)audio_packets_pcma[0].data, audio_packets_pcma[0].len); transcode_test("pcma", "pcma", (uint8_t *)audio_packets_pcma[0].data, audio_packets_pcma[0].len); printf("=== Transcoding Bad Cases ===\n"); printf("Invalid size:\n"); transcode_test("gsm", "pcma", (uint8_t *)audio_packets_gsm_invalid_size[0].data, audio_packets_gsm_invalid_size[0].len); printf("Invalid data:\n"); transcode_test("gsm", "pcma", (uint8_t *)audio_packets_gsm_invalid_data[0].data, audio_packets_gsm_invalid_data[0].len); printf("Invalid payload type:\n"); transcode_test("gsm", "pcma", (uint8_t *)audio_packets_gsm_invalid_ptype[0].data, audio_packets_gsm_invalid_ptype[0].len); printf("=== Repacking ===\n"); test_repacking(160, 160, 0); test_repacking(160, 160, 1); test_repacking(160, 80, 0); test_repacking(160, 80, 1); test_repacking(160, 320, 0); test_repacking(160, 320, 1); test_repacking(160, 240, 0); test_repacking(160, 240, 1); test_repacking(160, 100, 0); test_repacking(160, 100, 1); return 0; }