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view spandsp-0.0.6pre17/tests/fax_tester.c @ 4:26cd8f1ef0b1
import spandsp-0.0.6pre17
| author | Peter Meerwald <pmeerw@cosy.sbg.ac.at> |
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| date | Fri, 25 Jun 2010 15:50:58 +0200 |
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/* * SpanDSP - a series of DSP components for telephony * * faxtester_tests.c * * Written by Steve Underwood <steveu@coppice.org> * * Copyright (C) 2008 Steve Underwood * * All rights reserved. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU Lesser General Public License version 2.1, * 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 Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser 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_tester.c,v 1.23 2009/11/02 13:25:20 steveu Exp $ */ /*! \file */ #if defined(HAVE_CONFIG_H) #include <config.h> #endif #include <inttypes.h> #include <stdlib.h> #include <stdio.h> #include <string.h> #if defined(HAVE_TGMATH_H) #include <tgmath.h> #endif #if defined(HAVE_MATH_H) #include <math.h> #endif #include "floating_fudge.h" #include <assert.h> #include <fcntl.h> #include <time.h> #include <unistd.h> #if defined(HAVE_LIBXML_XMLMEMORY_H) #include <libxml/xmlmemory.h> #endif #if defined(HAVE_LIBXML_PARSER_H) #include <libxml/parser.h> #endif #if defined(HAVE_LIBXML_XINCLUDE_H) #include <libxml/xinclude.h> #endif //#if defined(WITH_SPANDSP_INTERNALS) #define SPANDSP_EXPOSE_INTERNAL_STRUCTURES //#endif #include "spandsp.h" #include "fax_tester.h" #define HDLC_FRAMING_OK_THRESHOLD 5 static void timer_update(faxtester_state_t *s, int len) { s->timer += len; if (s->timer > s->timeout) { s->timeout = 0x7FFFFFFFFFFFFFFFLL; if (s->front_end_step_timeout_handler) s->front_end_step_timeout_handler(s, s->front_end_step_timeout_user_data); } } /*- End of function --------------------------------------------------------*/ static void front_end_step_complete(faxtester_state_t *s) { if (s->front_end_step_complete_handler) s->front_end_step_complete_handler(s, s->front_end_step_complete_user_data); } /*- End of function --------------------------------------------------------*/ void faxtester_send_hdlc_flags(faxtester_state_t *s, int flags) { hdlc_tx_flags(&(s->modems.hdlc_tx), flags); } /*- End of function --------------------------------------------------------*/ void faxtester_send_hdlc_msg(faxtester_state_t *s, const uint8_t *msg, int len, int crc_ok) { hdlc_tx_frame(&(s->modems.hdlc_tx), msg, len); if (!crc_ok) hdlc_tx_corrupt_frame(&(s->modems.hdlc_tx)); } /*- End of function --------------------------------------------------------*/ static void hdlc_underflow_handler(void *user_data) { faxtester_state_t *s; uint8_t buf[400]; s = (faxtester_state_t *) user_data; if (s->image_buffer) { /* We are sending an ECM image */ if (s->image_ptr < s->image_len) { buf[0] = 0xFF; buf[1] = 0x03; buf[2] = 0x06; buf[3] = s->image_ptr/s->ecm_frame_size; memcpy(buf + 4, &s->image_buffer[s->image_ptr], s->ecm_frame_size); hdlc_tx_frame(&(s->modems.hdlc_tx), buf, 4 + s->ecm_frame_size); if (s->corrupt_crc >= 0 && s->corrupt_crc == s->image_ptr/s->ecm_frame_size) hdlc_tx_corrupt_frame(&(s->modems.hdlc_tx)); s->image_ptr += s->ecm_frame_size; return; } else { /* The actual image is over. We are sending the final RCP frames. */ if (s->image_bit_ptr > 2) { s->image_bit_ptr--; buf[0] = 0xFF; buf[1] = 0x03; buf[2] = 0x86; hdlc_tx_frame(&(s->modems.hdlc_tx), buf, 3); return; } else { /* All done. */ s->image_buffer = NULL; } } } front_end_step_complete(s); } /*- End of function --------------------------------------------------------*/ static void modem_tx_status(void *user_data, int status) { faxtester_state_t *s; s = (faxtester_state_t *) user_data; printf("Tx status is %s (%d)\n", signal_status_to_str(status), status); switch (status) { case SIG_STATUS_SHUTDOWN_COMPLETE: front_end_step_complete(s); break; } } /*- End of function --------------------------------------------------------*/ static void tone_detected(void *user_data, int tone, int level, int delay) { faxtester_state_t *s; s = (faxtester_state_t *) user_data; span_log(&s->logging, SPAN_LOG_FLOW, "%s (%d) declared (%ddBm0)\n", modem_connect_tone_to_str(tone), tone, level); if (tone != MODEM_CONNECT_TONES_NONE) { s->tone_on_time = s->timer; } else { span_log(&s->logging, SPAN_LOG_FLOW, "Tone was on for %fs\n", (float) (s->timer - s->tone_on_time)/SAMPLE_RATE + 0.55); } s->tone_state = tone; if (tone == MODEM_CONNECT_TONES_NONE) front_end_step_complete(s); } /*- End of function --------------------------------------------------------*/ static int non_ecm_get_bit(void *user_data) { faxtester_state_t *s; int bit; s = (faxtester_state_t *) user_data; if (s->image_bit_ptr == 0) { if (s->image_ptr >= s->image_len) { s->image_buffer = NULL; return SIG_STATUS_END_OF_DATA; } s->image_bit_ptr = 8; s->image_ptr++; } s->image_bit_ptr--; bit = (s->image_buffer[s->image_ptr] >> (7 - s->image_bit_ptr)) & 0x01; //printf("Rx bit - %d\n", bit); return bit; } /*- End of function --------------------------------------------------------*/ void faxtester_set_non_ecm_image_buffer(faxtester_state_t *s, const uint8_t *buf, int len) { s->image_ptr = 0; s->image_bit_ptr = 8; s->image_len = len; s->image_buffer = buf; } /*- End of function --------------------------------------------------------*/ void faxtester_set_ecm_image_buffer(faxtester_state_t *s, const uint8_t *buf, int len, int block, int frame_size, int crc_hit) { int start; start = 256*frame_size*block; if (len > start + 256*frame_size) len = start + 256*frame_size; s->ecm_frame_size = frame_size; s->image_ptr = start; s->image_bit_ptr = 8; s->image_len = len; s->image_buffer = buf; s->corrupt_crc = crc_hit; /* Send the first frame */ hdlc_underflow_handler(s); } /*- End of function --------------------------------------------------------*/ static void non_ecm_rx_status(void *user_data, int status) { faxtester_state_t *s; s = (faxtester_state_t *) user_data; span_log(&s->logging, SPAN_LOG_FLOW, "Non-ECM carrier status is %s (%d)\n", signal_status_to_str(status), status); switch (status) { case SIG_STATUS_TRAINING_FAILED: s->modems.rx_trained = FALSE; break; case SIG_STATUS_TRAINING_SUCCEEDED: /* The modem is now trained */ s->modems.rx_trained = TRUE; break; case SIG_STATUS_CARRIER_UP: s->modems.rx_signal_present = TRUE; break; case SIG_STATUS_CARRIER_DOWN: if (s->modems.rx_trained) { if (s->real_time_frame_handler) s->real_time_frame_handler(s, s->real_time_frame_user_data, TRUE, NULL, 0); } s->modems.rx_signal_present = FALSE; s->modems.rx_trained = FALSE; break; } } /*- End of function --------------------------------------------------------*/ static void non_ecm_put_bit(void *user_data, int bit) { faxtester_state_t *s; if (bit < 0) { non_ecm_rx_status(user_data, bit); return; } s = (faxtester_state_t *) user_data; } /*- End of function --------------------------------------------------------*/ static void hdlc_rx_status(void *user_data, int status) { faxtester_state_t *s; s = (faxtester_state_t *) user_data; fprintf(stderr, "HDLC carrier status is %s (%d)\n", signal_status_to_str(status), status); switch (status) { case SIG_STATUS_TRAINING_FAILED: s->modems.rx_trained = FALSE; break; case SIG_STATUS_TRAINING_SUCCEEDED: /* The modem is now trained */ s->modems.rx_trained = TRUE; break; case SIG_STATUS_CARRIER_UP: s->modems.rx_signal_present = TRUE; break; case SIG_STATUS_CARRIER_DOWN: s->modems.rx_signal_present = FALSE; s->modems.rx_trained = FALSE; break; } } /*- End of function --------------------------------------------------------*/ static void hdlc_accept(void *user_data, const uint8_t *msg, int len, int ok) { faxtester_state_t *s; if (len < 0) { hdlc_rx_status(user_data, len); return; } s = (faxtester_state_t *) user_data; if (s->real_time_frame_handler) s->real_time_frame_handler(s, s->real_time_frame_user_data, TRUE, msg, len); } /*- End of function --------------------------------------------------------*/ static int v17_v21_rx(void *user_data, const int16_t amp[], int len) { faxtester_state_t *t; fax_modems_state_t *s; t = (faxtester_state_t *) user_data; s = &t->modems; v17_rx(&s->v17_rx, amp, len); fsk_rx(&s->v21_rx, amp, len); if (s->rx_trained) { /* The fast modem has trained, so we no longer need to run the slow one in parallel. */ span_log(&t->logging, SPAN_LOG_FLOW, "Switching from V.17 + V.21 to V.17 (%.2fdBm0)\n", v17_rx_signal_power(&s->v17_rx)); s->rx_handler = (span_rx_handler_t *) &v17_rx; s->rx_user_data = &s->v17_rx; } return 0; } /*- End of function --------------------------------------------------------*/ static int v27ter_v21_rx(void *user_data, const int16_t amp[], int len) { faxtester_state_t *t; fax_modems_state_t *s; t = (faxtester_state_t *) user_data; s = &t->modems; v27ter_rx(&s->v27ter_rx, amp, len); fsk_rx(&s->v21_rx, amp, len); if (s->rx_trained) { /* The fast modem has trained, so we no longer need to run the slow one in parallel. */ span_log(&t->logging, SPAN_LOG_FLOW, "Switching from V.27ter + V.21 to V.27ter (%.2fdBm0)\n", v27ter_rx_signal_power(&s->v27ter_rx)); s->rx_handler = (span_rx_handler_t *) &v27ter_rx; s->rx_user_data = &s->v27ter_rx; } return 0; } /*- End of function --------------------------------------------------------*/ static int v29_v21_rx(void *user_data, const int16_t amp[], int len) { faxtester_state_t *t; fax_modems_state_t *s; t = (faxtester_state_t *) user_data; s = &t->modems; v29_rx(&s->v29_rx, amp, len); fsk_rx(&s->v21_rx, amp, len); if (s->rx_trained) { /* The fast modem has trained, so we no longer need to run the slow one in parallel. */ span_log(&t->logging, SPAN_LOG_FLOW, "Switching from V.29 + V.21 to V.29 (%.2fdBm0)\n", v29_rx_signal_power(&s->v29_rx)); s->rx_handler = (span_rx_handler_t *) &v29_rx; s->rx_user_data = &s->v29_rx; } return 0; } /*- End of function --------------------------------------------------------*/ int faxtester_rx(faxtester_state_t *s, int16_t *amp, int len) { int i; for (i = 0; i < len; i++) amp[i] = dc_restore(&(s->modems.dc_restore), amp[i]); s->modems.rx_handler(s->modems.rx_user_data, amp, len); timer_update(s, len); if (s->wait_for_silence) { if (!s->modems.rx_signal_present) { s->wait_for_silence = FALSE; front_end_step_complete(s); } } return 0; } /*- End of function --------------------------------------------------------*/ int faxtester_tx(faxtester_state_t *s, int16_t *amp, int max_len) { int len; int required_len; required_len = max_len; len = 0; if (s->transmit) { while ((len += s->modems.tx_handler(s->modems.tx_user_data, amp + len, max_len - len)) < max_len) { /* Allow for a change of tx handler within a block */ front_end_step_complete(s); if (!s->transmit) { if (s->modems.transmit_on_idle) { /* Pad to the requested length with silence */ memset(amp + len, 0, (max_len - len)*sizeof(int16_t)); len = max_len; } break; } } } else { if (s->modems.transmit_on_idle) { /* Pad to the requested length with silence */ memset(amp, 0, max_len*sizeof(int16_t)); len = max_len; } } return len; } /*- End of function --------------------------------------------------------*/ void faxtest_set_rx_silence(faxtester_state_t *s) { s->wait_for_silence = TRUE; } /*- End of function --------------------------------------------------------*/ void faxtester_set_rx_type(void *user_data, int type, int bit_rate, int short_train, int use_hdlc) { faxtester_state_t *s; put_bit_func_t put_bit_func; void *put_bit_user_data; fax_modems_state_t *t; int tone; s = (faxtester_state_t *) user_data; t = &s->modems; span_log(&s->logging, SPAN_LOG_FLOW, "Set rx type %d\n", type); if (s->current_rx_type == type) return; s->current_rx_type = type; if (use_hdlc) { put_bit_func = (put_bit_func_t) hdlc_rx_put_bit; put_bit_user_data = (void *) &t->hdlc_rx; hdlc_rx_init(&t->hdlc_rx, FALSE, FALSE, HDLC_FRAMING_OK_THRESHOLD, hdlc_accept, s); } else { put_bit_func = non_ecm_put_bit; put_bit_user_data = (void *) s; } switch (type) { case T30_MODEM_CED: case T30_MODEM_CNG: if (type == T30_MODEM_CED) tone = MODEM_CONNECT_TONES_FAX_CED; else tone = MODEM_CONNECT_TONES_FAX_CNG; modem_connect_tones_rx_init(&t->connect_rx, tone, tone_detected, (void *) s); t->rx_handler = (span_rx_handler_t *) &modem_connect_tones_rx; t->rx_user_data = &t->connect_rx; s->tone_state = MODEM_CONNECT_TONES_NONE; break; case T30_MODEM_V21: if (s->flush_handler) s->flush_handler(s, s->flush_user_data, 3); fsk_rx_init(&t->v21_rx, &preset_fsk_specs[FSK_V21CH2], FSK_FRAME_MODE_SYNC, (put_bit_func_t) hdlc_rx_put_bit, put_bit_user_data); fsk_rx_signal_cutoff(&t->v21_rx, -45.5); t->rx_handler = (span_rx_handler_t *) &fsk_rx; t->rx_user_data = &t->v21_rx; break; case T30_MODEM_V27TER: v27ter_rx_restart(&t->v27ter_rx, bit_rate, FALSE); v27ter_rx_set_put_bit(&t->v27ter_rx, put_bit_func, put_bit_user_data); t->rx_handler = (span_rx_handler_t *) &v27ter_v21_rx; t->rx_user_data = s; break; case T30_MODEM_V29: v29_rx_restart(&t->v29_rx, bit_rate, FALSE); v29_rx_set_put_bit(&t->v29_rx, put_bit_func, put_bit_user_data); t->rx_handler = (span_rx_handler_t *) &v29_v21_rx; t->rx_user_data = s; break; case T30_MODEM_V17: v17_rx_restart(&t->v17_rx, bit_rate, short_train); v17_rx_set_put_bit(&t->v17_rx, put_bit_func, put_bit_user_data); t->rx_handler = (span_rx_handler_t *) &v17_v21_rx; t->rx_user_data = s; break; case T30_MODEM_DONE: span_log(&s->logging, SPAN_LOG_FLOW, "FAX exchange complete\n"); default: t->rx_handler = (span_rx_handler_t *) &span_dummy_rx; t->rx_user_data = s; break; } } /*- End of function --------------------------------------------------------*/ void faxtester_set_tx_type(void *user_data, int type, int bit_rate, int short_train, int use_hdlc) { faxtester_state_t *s; get_bit_func_t get_bit_func; void *get_bit_user_data; fax_modems_state_t *t; int tone; s = (faxtester_state_t *) user_data; t = &s->modems; span_log(&s->logging, SPAN_LOG_FLOW, "Set tx type %d\n", type); if (s->current_tx_type == type) return; if (use_hdlc) { get_bit_func = (get_bit_func_t) hdlc_tx_get_bit; get_bit_user_data = (void *) &t->hdlc_tx; } else { get_bit_func = non_ecm_get_bit; get_bit_user_data = (void *) s; } switch (type) { case T30_MODEM_PAUSE: silence_gen_alter(&t->silence_gen, ms_to_samples(short_train)); t->tx_handler = (span_tx_handler_t *) &silence_gen; t->tx_user_data = &t->silence_gen; s->transmit = TRUE; break; case T30_MODEM_CED: case T30_MODEM_CNG: if (type == T30_MODEM_CED) tone = MODEM_CONNECT_TONES_FAX_CED; else tone = MODEM_CONNECT_TONES_FAX_CNG; modem_connect_tones_tx_init(&t->connect_tx, tone); t->tx_handler = (span_tx_handler_t *) &modem_connect_tones_tx; t->tx_user_data = &t->connect_tx; s->transmit = TRUE; break; case T30_MODEM_V21: fsk_tx_init(&t->v21_tx, &preset_fsk_specs[FSK_V21CH2], get_bit_func, get_bit_user_data); fsk_tx_set_modem_status_handler(&t->v21_tx, modem_tx_status, (void *) s); t->tx_handler = (span_tx_handler_t *) &fsk_tx; t->tx_user_data = &t->v21_tx; s->transmit = TRUE; break; case T30_MODEM_V27TER: v27ter_tx_restart(&t->v27ter_tx, bit_rate, t->use_tep); v27ter_tx_set_get_bit(&t->v27ter_tx, get_bit_func, get_bit_user_data); v27ter_tx_set_modem_status_handler(&t->v27ter_tx, modem_tx_status, (void *) s); t->tx_handler = (span_tx_handler_t *) &v27ter_tx; t->tx_user_data = &t->v27ter_tx; /* For any fast modem, set 200ms of preamble flags */ hdlc_tx_flags(&t->hdlc_tx, bit_rate/(8*5)); s->transmit = TRUE; break; case T30_MODEM_V29: v29_tx_restart(&t->v29_tx, bit_rate, t->use_tep); v29_tx_set_get_bit(&t->v29_tx, get_bit_func, get_bit_user_data); v29_tx_set_modem_status_handler(&t->v29_tx, modem_tx_status, (void *) s); t->tx_handler = (span_tx_handler_t *) &v29_tx; t->tx_user_data = &t->v29_tx; /* For any fast modem, set 200ms of preamble flags */ hdlc_tx_flags(&t->hdlc_tx, bit_rate/(8*5)); s->transmit = TRUE; break; case T30_MODEM_V17: v17_tx_restart(&t->v17_tx, bit_rate, t->use_tep, short_train); v17_tx_set_get_bit(&t->v17_tx, get_bit_func, get_bit_user_data); v17_tx_set_modem_status_handler(&t->v17_tx, modem_tx_status, (void *) s); t->tx_handler = (span_tx_handler_t *) &v17_tx; t->tx_user_data = &t->v17_tx; /* For any fast modem, set 200ms of preamble flags */ hdlc_tx_flags(&t->hdlc_tx, bit_rate/(8*5)); s->transmit = TRUE; break; case T30_MODEM_DONE: span_log(&s->logging, SPAN_LOG_FLOW, "FAX exchange complete\n"); /* Fall through */ default: silence_gen_alter(&t->silence_gen, 0); t->tx_handler = (span_tx_handler_t *) &silence_gen; t->tx_user_data = &t->silence_gen; s->transmit = FALSE; break; } s->current_tx_type = type; } /*- End of function --------------------------------------------------------*/ void faxtester_set_timeout(faxtester_state_t *s, int timeout) { if (timeout >= 0) s->timeout = s->timer + timeout*SAMPLE_RATE/1000; else s->timeout = 0x7FFFFFFFFFFFFFFFLL; } /*- End of function --------------------------------------------------------*/ void faxtester_set_transmit_on_idle(faxtester_state_t *s, int transmit_on_idle) { s->modems.transmit_on_idle = transmit_on_idle; } /*- End of function --------------------------------------------------------*/ void faxtester_set_tep_mode(faxtester_state_t *s, int use_tep) { s->modems.use_tep = use_tep; } /*- End of function --------------------------------------------------------*/ void faxtester_set_real_time_frame_handler(faxtester_state_t *s, faxtester_real_time_frame_handler_t *handler, void *user_data) { s->real_time_frame_handler = handler; s->real_time_frame_user_data = user_data; } /*- End of function --------------------------------------------------------*/ void faxtester_set_front_end_step_complete_handler(faxtester_state_t *s, faxtester_front_end_step_complete_handler_t *handler, void *user_data) { s->front_end_step_complete_handler = handler; s->front_end_step_complete_user_data = user_data; } /*- End of function --------------------------------------------------------*/ void faxtester_set_front_end_step_timeout_handler(faxtester_state_t *s, faxtester_front_end_step_complete_handler_t *handler, void *user_data) { s->front_end_step_timeout_handler = handler; s->front_end_step_timeout_user_data = user_data; } /*- End of function --------------------------------------------------------*/ static void faxtester_fax_modems_init(fax_modems_state_t *s, int use_tep, void *user_data) { s->use_tep = use_tep; hdlc_rx_init(&s->hdlc_rx, FALSE, FALSE, HDLC_FRAMING_OK_THRESHOLD, hdlc_accept, user_data); hdlc_tx_init(&s->hdlc_tx, FALSE, 2, FALSE, hdlc_underflow_handler, user_data); fsk_rx_init(&s->v21_rx, &preset_fsk_specs[FSK_V21CH2], FSK_FRAME_MODE_SYNC, (put_bit_func_t) hdlc_rx_put_bit, &s->hdlc_rx); fsk_rx_signal_cutoff(&s->v21_rx, -45.5); fsk_tx_init(&s->v21_tx, &preset_fsk_specs[FSK_V21CH2], (get_bit_func_t) hdlc_tx_get_bit, &s->hdlc_tx); fsk_tx_set_modem_status_handler(&s->v21_tx, modem_tx_status, user_data); v17_rx_init(&s->v17_rx, 14400, non_ecm_put_bit, user_data); v17_tx_init(&s->v17_tx, 14400, s->use_tep, non_ecm_get_bit, user_data); v17_tx_set_modem_status_handler(&s->v17_tx, modem_tx_status, user_data); v29_rx_init(&s->v29_rx, 9600, non_ecm_put_bit, user_data); v29_rx_signal_cutoff(&s->v29_rx, -45.5); v29_tx_init(&s->v29_tx, 9600, s->use_tep, non_ecm_get_bit, user_data); v29_tx_set_modem_status_handler(&s->v29_tx, modem_tx_status, user_data); v27ter_rx_init(&s->v27ter_rx, 4800, non_ecm_put_bit, user_data); v27ter_tx_init(&s->v27ter_tx, 4800, s->use_tep, non_ecm_get_bit, user_data); v27ter_tx_set_modem_status_handler(&s->v27ter_tx, modem_tx_status, user_data); silence_gen_init(&s->silence_gen, 0); modem_connect_tones_tx_init(&s->connect_tx, MODEM_CONNECT_TONES_FAX_CNG); modem_connect_tones_rx_init(&s->connect_rx, MODEM_CONNECT_TONES_FAX_CNG, tone_detected, user_data); dc_restore_init(&s->dc_restore); s->rx_signal_present = FALSE; s->rx_handler = (span_rx_handler_t *) &span_dummy_rx; s->rx_user_data = NULL; s->tx_handler = (span_tx_handler_t *) &silence_gen; s->tx_user_data = &s->silence_gen; } /*- End of function --------------------------------------------------------*/ faxtester_state_t *faxtester_init(faxtester_state_t *s, int calling_party) { if (s == NULL) { if ((s = (faxtester_state_t *) malloc(sizeof(*s))) == NULL) return NULL; } memset(s, 0, sizeof(*s)); span_log_init(&s->logging, SPAN_LOG_NONE, NULL); span_log_set_protocol(&s->logging, "TST"); faxtester_fax_modems_init(&s->modems, FALSE, s); faxtester_set_timeout(s, -1); faxtester_set_tx_type(s, T30_MODEM_NONE, 0, FALSE, FALSE); return s; } /*- End of function --------------------------------------------------------*/ int faxtester_release(faxtester_state_t *s) { return 0; } /*- End of function --------------------------------------------------------*/ int faxtester_free(faxtester_state_t *s) { free(s); return 0; } /*- End of function --------------------------------------------------------*/ void faxtester_set_flush_handler(faxtester_state_t *s, faxtester_flush_handler_t *handler, void *user_data) { s->flush_handler = handler; s->flush_user_data = user_data; } /*- End of function --------------------------------------------------------*/ /*- End of file ------------------------------------------------------------*/