Mercurial > hg > audiostuff
view spandsp-0.0.6pre17/tests/fax_tests.c @ 6:22a74b01a099 default tip
implement more meaningful test program
| author | Peter Meerwald <pmeerw@cosy.sbg.ac.at> |
|---|---|
| date | Fri, 25 Jun 2010 16:14:50 +0200 |
| parents | 26cd8f1ef0b1 |
| children |
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/* * SpanDSP - a series of DSP components for telephony * * fax_tests.c * * Written by Steve Underwood <steveu@coppice.org> * * Copyright (C) 2003 Steve Underwood * * All rights reserved. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License version 2, as * published by the Free Software Foundation. * * 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. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. * * $Id: fax_tests.c,v 1.102 2009/05/30 15:23:13 steveu Exp $ */ /*! \page fax_tests_page FAX tests \section fax_tests_page_sec_1 What does it do? \section fax_tests_page_sec_2 How does it work? */ #if defined(HAVE_CONFIG_H) #include "config.h" #endif #include <stdlib.h> #include <stdio.h> #include <unistd.h> #include <string.h> #include <assert.h> #include <sndfile.h> //#if defined(WITH_SPANDSP_INTERNALS) #define SPANDSP_EXPOSE_INTERNAL_STRUCTURES //#endif #include "spandsp.h" #include "spandsp-sim.h" #include "fax_utils.h" #define SAMPLES_PER_CHUNK 160 #define INPUT_TIFF_FILE_NAME "../test-data/itu/fax/itutests.tif" #define OUTPUT_FILE_NAME_WAVE "fax_tests.wav" #define FAX_MACHINES 2 struct machine_s { int chan; int16_t amp[SAMPLES_PER_CHUNK]; int len; fax_state_t *fax; awgn_state_t *awgn; int done; int succeeded; char tag[50]; int error_delay; int total_audio_time; } machines[FAX_MACHINES]; int use_receiver_not_ready = FALSE; int test_local_interrupt = FALSE; int t30_state_to_wreck = -1; static int phase_b_handler(t30_state_t *s, void *user_data, int result) { int i; char tag[20]; i = (int) (intptr_t) user_data; snprintf(tag, sizeof(tag), "%c: Phase B:", i); printf("%c: Phase B handler on channel %c - (0x%X) %s\n", i, i, result, t30_frametype(result)); log_rx_parameters(s, tag); return T30_ERR_OK; } /*- End of function --------------------------------------------------------*/ static int phase_d_handler(t30_state_t *s, void *user_data, int result) { int i; char tag[20]; i = (int) (intptr_t) user_data; snprintf(tag, sizeof(tag), "%c: Phase D:", i); printf("%c: Phase D handler on channel %c - (0x%X) %s\n", i, i, result, t30_frametype(result)); log_transfer_statistics(s, tag); log_tx_parameters(s, tag); log_rx_parameters(s, tag); if (use_receiver_not_ready) t30_set_receiver_not_ready(s, 3); if (test_local_interrupt) { if (i == 0) { printf("%d: Initiating interrupt request\n", i); t30_local_interrupt_request(s, TRUE); } else { switch (result) { case T30_PIP: case T30_PRI_MPS: case T30_PRI_EOM: case T30_PRI_EOP: printf("%d: Accepting interrupt request\n", i); t30_local_interrupt_request(s, TRUE); break; case T30_PIN: break; } } } return T30_ERR_OK; } /*- End of function --------------------------------------------------------*/ static void phase_e_handler(t30_state_t *s, void *user_data, int result) { int i; t30_stats_t t; char tag[20]; i = (intptr_t) user_data; snprintf(tag, sizeof(tag), "%c: Phase E:", i); printf("%c: Phase E handler on channel %c - (%d) %s\n", i, i, result, t30_completion_code_to_str(result)); log_transfer_statistics(s, tag); log_tx_parameters(s, tag); log_rx_parameters(s, tag); t30_get_transfer_statistics(s, &t); machines[i - 'A'].succeeded = (result == T30_ERR_OK) && (t.pages_tx == 12 || t.pages_rx == 12); machines[i - 'A'].done = TRUE; } /*- End of function --------------------------------------------------------*/ static void real_time_frame_handler(t30_state_t *s, void *user_data, int direction, const uint8_t *msg, int len) { int i; i = (intptr_t) user_data; printf("%c: Real time frame handler on channel %c - %s, %s, length = %d\n", i, i, (direction) ? "line->T.30" : "T.30->line", t30_frametype(msg[2]), len); } /*- End of function --------------------------------------------------------*/ static int document_handler(t30_state_t *s, void *user_data, int event) { int i; i = (intptr_t) user_data; printf("%c: Document handler on channel %c - event %d\n", i, i, event); return FALSE; } /*- End of function --------------------------------------------------------*/ int main(int argc, char *argv[]) { SNDFILE *wave_handle; SNDFILE *input_wave_handle; int i; int j; int k; struct machine_s *mc; int outframes; char buf[128 + 1]; int16_t silence[SAMPLES_PER_CHUNK]; int16_t out_amp[2*SAMPLES_PER_CHUNK]; int alldone; const char *input_tiff_file_name; const char *input_audio_file_name; int log_audio; int use_ecm; int use_tep; int use_transmit_on_idle; int use_line_hits; int polled_mode; int reverse_flow; int use_page_limits; int supported_modems; int signal_level; int noise_level; float signal_scaling; time_t start_time; time_t end_time; char *page_header_info; int opt; t30_state_t *t30; logging_state_t *logging; log_audio = FALSE; input_tiff_file_name = INPUT_TIFF_FILE_NAME; input_audio_file_name = NULL; use_ecm = FALSE; use_line_hits = FALSE; use_tep = FALSE; polled_mode = FALSE; page_header_info = NULL; reverse_flow = FALSE; use_transmit_on_idle = TRUE; use_receiver_not_ready = FALSE; use_page_limits = FALSE; signal_level = 0; noise_level = -99; supported_modems = T30_SUPPORT_V27TER | T30_SUPPORT_V29 | T30_SUPPORT_V17; while ((opt = getopt(argc, argv, "ehH:i:I:lm:n:prRs:tTw:")) != -1) { switch (opt) { case 'e': use_ecm = TRUE; break; case 'h': use_line_hits = TRUE; break; case 'H': page_header_info = optarg; break; case 'i': input_tiff_file_name = optarg; break; case 'I': input_audio_file_name = optarg; break; case 'l': log_audio = TRUE; break; case 'm': supported_modems = atoi(optarg); break; case 'n': noise_level = atoi(optarg); break; case 'p': polled_mode = TRUE; break; case 'r': reverse_flow = TRUE; break; case 'R': use_receiver_not_ready = TRUE; break; case 's': signal_level = atoi(optarg); break; case 't': use_tep = TRUE; break; case 'T': use_page_limits = TRUE; break; case 'w': t30_state_to_wreck = atoi(optarg); break; default: //usage(); exit(2); break; } } input_wave_handle = NULL; if (input_audio_file_name) { if ((input_wave_handle = sf_open_telephony_read(input_audio_file_name, 1)) == NULL) { fprintf(stderr, " Cannot open audio file '%s'\n", input_audio_file_name); exit(2); } } wave_handle = NULL; if (log_audio) { if ((wave_handle = sf_open_telephony_write(OUTPUT_FILE_NAME_WAVE, 2)) == NULL) { fprintf(stderr, " Cannot create audio file '%s'\n", OUTPUT_FILE_NAME_WAVE); exit(2); } } memset(silence, 0, sizeof(silence)); for (j = 0; j < FAX_MACHINES; j++) { machines[j].chan = j; mc = &machines[j]; i = mc->chan + 1; sprintf(buf, "%d%d%d%d%d%d%d%d", i, i, i, i, i, i, i, i); if (reverse_flow) mc->fax = fax_init(NULL, (mc->chan & 1) ? TRUE : FALSE); else mc->fax = fax_init(NULL, (mc->chan & 1) ? FALSE : TRUE); mc->awgn = NULL; signal_scaling = 1.0f; if (noise_level > -99) { mc->awgn = awgn_init_dbm0(NULL, 1234567, noise_level); signal_scaling = powf(10.0f, signal_level/20.0f); printf("Signal scaling %f\n", signal_scaling); } fax_set_transmit_on_idle(mc->fax, use_transmit_on_idle); fax_set_tep_mode(mc->fax, use_tep); t30 = fax_get_t30_state(mc->fax); t30_set_tx_ident(t30, buf); t30_set_tx_sub_address(t30, "Sub-address"); t30_set_tx_sender_ident(t30, "Sender ID"); t30_set_tx_password(t30, "Password"); t30_set_tx_polled_sub_address(t30, "Polled sub-address"); t30_set_tx_selective_polling_address(t30, "Selective polling address"); t30_set_tx_page_header_info(t30, page_header_info); t30_set_tx_nsf(t30, (const uint8_t *) "\x50\x00\x00\x00Spandsp\x00", 12); t30_set_ecm_capability(t30, use_ecm); t30_set_supported_t30_features(t30, T30_SUPPORT_IDENTIFICATION | T30_SUPPORT_SELECTIVE_POLLING | T30_SUPPORT_SUB_ADDRESSING); if ((mc->chan & 1)) t30_set_minimum_scan_line_time(t30, 40); t30_set_supported_image_sizes(t30, T30_SUPPORT_US_LETTER_LENGTH | T30_SUPPORT_US_LEGAL_LENGTH | T30_SUPPORT_UNLIMITED_LENGTH | T30_SUPPORT_215MM_WIDTH | T30_SUPPORT_255MM_WIDTH | T30_SUPPORT_303MM_WIDTH); t30_set_supported_resolutions(t30, T30_SUPPORT_STANDARD_RESOLUTION | T30_SUPPORT_FINE_RESOLUTION | T30_SUPPORT_SUPERFINE_RESOLUTION | T30_SUPPORT_R8_RESOLUTION | T30_SUPPORT_R16_RESOLUTION | T30_SUPPORT_300_300_RESOLUTION | T30_SUPPORT_400_400_RESOLUTION | T30_SUPPORT_600_600_RESOLUTION | T30_SUPPORT_1200_1200_RESOLUTION | T30_SUPPORT_300_600_RESOLUTION | T30_SUPPORT_400_800_RESOLUTION | T30_SUPPORT_600_1200_RESOLUTION); t30_set_supported_modems(t30, supported_modems); if (use_ecm) t30_set_supported_compressions(t30, T30_SUPPORT_T4_1D_COMPRESSION | T30_SUPPORT_T4_2D_COMPRESSION | T30_SUPPORT_T6_COMPRESSION); if ((mc->chan & 1)) { if (polled_mode) { if (use_page_limits) t30_set_tx_file(t30, input_tiff_file_name, 3, 6); else t30_set_tx_file(t30, input_tiff_file_name, -1, -1); } else { sprintf(buf, "fax_tests_%d.tif", (mc->chan + 1)/2); t30_set_rx_file(t30, buf, -1); t30_set_rx_encoding(t30, T4_COMPRESSION_ITU_T6); } } else { if (polled_mode) { sprintf(buf, "fax_tests_%d.tif", (mc->chan + 1)/2); t30_set_rx_file(t30, buf, -1); t30_set_rx_encoding(t30, T4_COMPRESSION_ITU_T6); } else { if (use_page_limits) t30_set_tx_file(t30, input_tiff_file_name, 3, 6); else t30_set_tx_file(t30, input_tiff_file_name, -1, -1); } } t30_set_phase_b_handler(t30, phase_b_handler, (void *) (intptr_t) mc->chan + 'A'); t30_set_phase_d_handler(t30, phase_d_handler, (void *) (intptr_t) mc->chan + 'A'); t30_set_phase_e_handler(t30, phase_e_handler, (void *) (intptr_t) mc->chan + 'A'); t30_set_real_time_frame_handler(t30, real_time_frame_handler, (void *) (intptr_t) mc->chan + 'A'); t30_set_document_handler(t30, document_handler, (void *) (intptr_t) mc->chan + 'A'); sprintf(mc->tag, "FAX-%d", j + 1); logging = t30_get_logging_state(t30); span_log_set_level(logging, SPAN_LOG_SHOW_SEVERITY | SPAN_LOG_SHOW_PROTOCOL | SPAN_LOG_SHOW_TAG | SPAN_LOG_SHOW_SAMPLE_TIME | SPAN_LOG_FLOW); span_log_set_tag(logging, mc->tag); span_log_set_level(&t30->t4.logging, SPAN_LOG_SHOW_SEVERITY | SPAN_LOG_SHOW_PROTOCOL | SPAN_LOG_SHOW_TAG | SPAN_LOG_SHOW_SAMPLE_TIME | SPAN_LOG_FLOW); span_log_set_tag(&t30->t4.logging, mc->tag); logging = fax_get_logging_state(mc->fax); span_log_set_level(logging, SPAN_LOG_SHOW_SEVERITY | SPAN_LOG_SHOW_PROTOCOL | SPAN_LOG_SHOW_TAG | SPAN_LOG_SHOW_SAMPLE_TIME | SPAN_LOG_FLOW); span_log_set_tag(logging, mc->tag); memset(mc->amp, 0, sizeof(mc->amp)); mc->total_audio_time = 0; mc->done = FALSE; } time(&start_time); for (;;) { alldone = TRUE; for (j = 0; j < FAX_MACHINES; j++) { mc = &machines[j]; if ((j & 1) == 0 && input_audio_file_name) { mc->len = sf_readf_short(input_wave_handle, mc->amp, SAMPLES_PER_CHUNK); if (mc->len == 0) break; } else { mc->len = fax_tx(mc->fax, mc->amp, SAMPLES_PER_CHUNK); if (mc->awgn) { for (k = 0; k < mc->len; k++) mc->amp[k] = ((int16_t) (mc->amp[k]*signal_scaling)) + awgn(mc->awgn); } } mc->total_audio_time += SAMPLES_PER_CHUNK; if (!use_transmit_on_idle) { /* The receive side always expects a full block of samples, but the transmit side may not be sending any when it doesn't need to. We may need to pad with some silence. */ if (mc->len < SAMPLES_PER_CHUNK) { memset(mc->amp + mc->len, 0, sizeof(int16_t)*(SAMPLES_PER_CHUNK - mc->len)); mc->len = SAMPLES_PER_CHUNK; } } t30 = fax_get_t30_state(mc->fax); logging = t30_get_logging_state(t30); span_log_bump_samples(logging, mc->len); logging = fax_get_logging_state(mc->fax); span_log_bump_samples(logging, mc->len); if (log_audio) { for (k = 0; k < mc->len; k++) out_amp[2*k + j] = mc->amp[k]; } if (machines[j ^ 1].len < SAMPLES_PER_CHUNK) memset(machines[j ^ 1].amp + machines[j ^ 1].len, 0, sizeof(int16_t)*(SAMPLES_PER_CHUNK - machines[j ^ 1].len)); t30 = fax_get_t30_state(mc->fax); #if defined(WITH_SPANDSP_INTERNALS) if (use_line_hits) { /* TODO: This applies very crude line hits. improve it */ if (t30->state == 22) { if (++mc->error_delay == 100) { fprintf(stderr, "HIT %d!\n", j); mc->error_delay = 0; for (k = 0; k < 5; k++) mc->amp[k] = 0; } } } if (t30->state == t30_state_to_wreck) memset(machines[j ^ 1].amp, 0, sizeof(int16_t)*SAMPLES_PER_CHUNK); #endif if (fax_rx(mc->fax, machines[j ^ 1].amp, SAMPLES_PER_CHUNK)) break; if (!mc->done) alldone = FALSE; } if (log_audio) { outframes = sf_writef_short(wave_handle, out_amp, SAMPLES_PER_CHUNK); if (outframes != SAMPLES_PER_CHUNK) break; } if (alldone || j < FAX_MACHINES) break; } time(&end_time); for (j = 0; j < FAX_MACHINES; j++) { mc = &machines[j]; fax_release(mc->fax); } if (log_audio) { if (sf_close(wave_handle)) { fprintf(stderr, " Cannot close audio file '%s'\n", OUTPUT_FILE_NAME_WAVE); exit(2); } } if (input_audio_file_name) { if (sf_close(input_wave_handle)) { fprintf(stderr, " Cannot close audio file '%s'\n", input_audio_file_name); exit(2); } } printf("Total audio time = %ds (wall time %ds)\n", machines[0].total_audio_time/8000, (int) (end_time - start_time)); return 0; } /*- End of function --------------------------------------------------------*/ /*- End of file ------------------------------------------------------------*/