freeswitch/tests/unit/switch_ivr_play_say.c

368 lines
16 KiB
C

/*
* FreeSWITCH Modular Media Switching Software Library / Soft-Switch Application
* Copyright (C) 2005-2019, Anthony Minessale II <anthm@freeswitch.org>
*
* Version: MPL 1.1
*
* The contents of this file are subject to the Mozilla Public License Version
* 1.1 (the "License"); you may not use this file except in compliance with
* the License. You may obtain a copy of the License at
* http://www.mozilla.org/MPL/
*
* Software distributed under the License is distributed on an "AS IS" basis,
* WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License
* for the specific language governing rights and limitations under the
* License.
*
* The Original Code is FreeSWITCH Modular Media Switching Software Library / Soft-Switch Application
*
* The Initial Developer of the Original Code is
* Anthony Minessale II <anthm@freeswitch.org>
* Portions created by the Initial Developer are Copyright (C)
* the Initial Developer. All Rights Reserved.
*
* Contributor(s):
* Chris Rienzo <chris@signalwire.com>
*
*
* switch_ivr_play_say.c -- IVR tests
*
*/
#include <switch.h>
#include <stdlib.h>
#include <test/switch_test.h>
static switch_status_t partial_play_and_collect_input_callback(switch_core_session_t *session, void *input, switch_input_type_t input_type, void *data, __attribute__((unused))unsigned int len)
{
switch_status_t status = SWITCH_STATUS_SUCCESS;
int *count = (int *)data;
if (input_type == SWITCH_INPUT_TYPE_EVENT) {
switch_event_t *event = (switch_event_t *)input;
if (event->event_id == SWITCH_EVENT_DETECTED_SPEECH) {
const char *speech_type = switch_event_get_header(event, "Speech-Type");
if (zstr(speech_type) || strcmp(speech_type, "detected-partial-speech")) {
return status;
}
(*count)++;
switch_log_printf(SWITCH_CHANNEL_SESSION_LOG(session), SWITCH_LOG_INFO, "partial events count: %d\n", *count);
char *body = switch_event_get_body(event);
switch_log_printf(SWITCH_CHANNEL_SESSION_LOG(session), SWITCH_LOG_NOTICE, "body=[%s]\n", body);
}
} else if (input_type == SWITCH_INPUT_TYPE_DTMF) {
// never mind
}
return status;
}
FST_CORE_BEGIN("./conf_playsay")
{
FST_SUITE_BEGIN(switch_ivr_play_say)
{
FST_SETUP_BEGIN()
{
fst_requires_module("mod_tone_stream");
fst_requires_module("mod_sndfile");
fst_requires_module("mod_dptools");
fst_requires_module("mod_test");
}
FST_SETUP_END()
FST_TEARDOWN_BEGIN()
{
}
FST_TEARDOWN_END()
FST_SESSION_BEGIN(play_and_collect_input_failure)
{
char terminator_collected = 0;
char *digits_collected = NULL;
cJSON *recognition_result = NULL;
// args
const char *play_files = "silence_stream://2000";
const char *speech_engine = "test";
const char *terminators = "#";
int min_digits = 1;
int max_digits = 3;
int digit_timeout = 15000;
int no_input_timeout = digit_timeout;
int speech_complete_timeout = digit_timeout;
int speech_recognition_timeout = digit_timeout;
char *speech_grammar_args = switch_core_session_sprintf(fst_session, "{start-input-timers=false,no-input-timeout=%d,vad-silence-ms=%d,speech-timeout=%d,language=en-US}default",
no_input_timeout, speech_complete_timeout, speech_recognition_timeout);
switch_status_t status;
// collect input - 1#
fst_sched_recv_dtmf("+1", "1");
fst_sched_recv_dtmf("+2", "2");
fst_sched_recv_dtmf("+3", "3");
status = switch_ivr_play_and_collect_input(fst_session, play_files, speech_engine, speech_grammar_args, min_digits, max_digits, terminators, digit_timeout, &recognition_result, &digits_collected, &terminator_collected, NULL);
fst_check(recognition_result == NULL);
fst_check(status == SWITCH_STATUS_SUCCESS); // might be break?
fst_check_string_equals(cJSON_GetObjectCstr(recognition_result, "text"), NULL);
fst_check_string_equals(digits_collected, "123");
fst_check(terminator_collected == 0);
cJSON_Delete(recognition_result);
}
FST_SESSION_END()
FST_SESSION_BEGIN(play_and_collect_input_success)
{
char terminator_collected = 0;
char *digits_collected = NULL;
cJSON *recognition_result = NULL;
// args
const char *play_files = "silence_stream://1000";
const char *speech_engine = "test";
const char *terminators = "#";
int min_digits = 1;
int max_digits = 99;
int digit_timeout = 5000;
int no_input_timeout = digit_timeout;
int speech_complete_timeout = digit_timeout;
int speech_recognition_timeout = 60000;
char *speech_grammar_args = switch_core_session_sprintf(fst_session, "{start-input-timers=false,no-input-timeout=%d,vad-silence-ms=%d,speech-timeout=%d,language=en-US}default",
no_input_timeout, speech_complete_timeout, speech_recognition_timeout);
switch_status_t status;
// collect input - 1#
fst_sched_recv_dtmf("+2", "1#");
terminator_collected = 0;
digits_collected = NULL;
recognition_result = NULL;
fst_time_mark();
status = switch_ivr_play_and_collect_input(fst_session, play_files, speech_engine, speech_grammar_args, min_digits, max_digits, terminators, digit_timeout, &recognition_result, &digits_collected, &terminator_collected, NULL);
fst_check(recognition_result == NULL);
// check results
fst_check_duration(2500, 1000); // should return immediately when term digit is received
fst_check(status == SWITCH_STATUS_SUCCESS); // might be break?
fst_check_string_equals(cJSON_GetObjectCstr(recognition_result, "text"), NULL);
fst_check_string_equals(digits_collected, "1");
fst_check(terminator_collected == '#');
// collect input - 1# again, same session
fst_sched_recv_dtmf("+2", "1#");
terminator_collected = 0;
digits_collected = NULL;
if (recognition_result) cJSON_Delete(recognition_result);
recognition_result = NULL;
fst_time_mark();
status = switch_ivr_play_and_collect_input(fst_session, play_files, speech_engine, speech_grammar_args, min_digits, max_digits, terminators, digit_timeout, &recognition_result, &digits_collected, &terminator_collected, NULL);
// check results
fst_check(status == SWITCH_STATUS_SUCCESS); // might be break?
fst_check_duration(2500, 1000); // should return immediately when term digit is received
fst_check_string_equals(cJSON_GetObjectCstr(recognition_result, "text"), NULL);
fst_check_string_equals(digits_collected, "1");
fst_check(terminator_collected == '#');
// collect input - 1
fst_sched_recv_dtmf("+2", "1");
terminator_collected = 0;
digits_collected = NULL;
if (recognition_result) cJSON_Delete(recognition_result);
recognition_result = NULL;
fst_time_mark();
status = switch_ivr_play_and_collect_input(fst_session, play_files, speech_engine, speech_grammar_args, min_digits, max_digits, terminators, digit_timeout, &recognition_result, &digits_collected, &terminator_collected, NULL);
fst_check(recognition_result == NULL);
// check results
fst_check(status == SWITCH_STATUS_SUCCESS); // might be break?
fst_check_duration(7000, 1000); // should return after timeout when prompt finishes playing
fst_check_string_equals(cJSON_GetObjectCstr(recognition_result, "text"), NULL);
fst_check_string_equals(digits_collected, "1");
fst_check(terminator_collected == 0);
// collect input - 12#
fst_sched_recv_dtmf("+2", "12#");
terminator_collected = 0;
digits_collected = NULL;
if (recognition_result) cJSON_Delete(recognition_result);
recognition_result = NULL;
fst_time_mark();
status = switch_ivr_play_and_collect_input(fst_session, play_files, speech_engine, speech_grammar_args, min_digits, max_digits, terminators, digit_timeout, &recognition_result, &digits_collected, &terminator_collected, NULL);
fst_check(recognition_result == NULL);
// check results
fst_check(status == SWITCH_STATUS_SUCCESS); // might be break?
fst_check_duration(2500, 1000); // should return after timeout when prompt finishes playing
fst_check_string_equals(cJSON_GetObjectCstr(recognition_result, "text"), NULL);
fst_check_string_equals(digits_collected, "12");
fst_check(terminator_collected == '#');
// collect input - 12# - long spacing
fst_sched_recv_dtmf("+2", "1");
fst_sched_recv_dtmf("+4", "2");
fst_sched_recv_dtmf("+6", "3");
fst_sched_recv_dtmf("+8", "4");
fst_sched_recv_dtmf("+10", "#");
terminator_collected = 0;
digits_collected = NULL;
if (recognition_result) cJSON_Delete(recognition_result);
recognition_result = NULL;
fst_time_mark();
status = switch_ivr_play_and_collect_input(fst_session, play_files, speech_engine, speech_grammar_args, min_digits, max_digits, terminators, digit_timeout, &recognition_result, &digits_collected, &terminator_collected, NULL);
fst_check(recognition_result == NULL);
// check results
fst_check(status == SWITCH_STATUS_SUCCESS); // might be break?
fst_check_duration(10000, 1000); // should return when dtmf terminator is pressed
fst_check_string_equals(cJSON_GetObjectCstr(recognition_result, "text"), NULL);
fst_check_string_equals(digits_collected, "1234");
fst_check(terminator_collected == '#');
// collect input - make an utterance
speech_complete_timeout = 500; // 'auto' mode...
speech_grammar_args = switch_core_session_sprintf(fst_session, "{start-input-timers=false,no-input-timeout=%d,vad-silence-ms=%d,speech-timeout=%d,language=en-US}default",
no_input_timeout, speech_complete_timeout, speech_recognition_timeout);
switch_ivr_displace_session(fst_session, "file_string://silence_stream://500,0!tone_stream://%%(2000,0,350,440)", 0, "r");
terminator_collected = 0;
digits_collected = NULL;
if (recognition_result) cJSON_Delete(recognition_result);
recognition_result = NULL;
fst_time_mark();
status = switch_ivr_play_and_collect_input(fst_session, play_files, speech_engine, speech_grammar_args, min_digits, max_digits, terminators, digit_timeout, &recognition_result, &digits_collected, &terminator_collected, NULL);
fst_requires(recognition_result);
// check results
fst_check(status == SWITCH_STATUS_SUCCESS); // might be break?
fst_check_duration(2500, 1000); // returns when utterance is done
fst_check_string_equals(cJSON_GetObjectCstr(recognition_result, "text"), "agent");
fst_check_string_equals(digits_collected, NULL);
fst_check(terminator_collected == 0);
// single digit test
fst_sched_recv_dtmf("+2", "2");
max_digits = 1;
terminator_collected = 0;
digits_collected = NULL;
if (recognition_result) cJSON_Delete(recognition_result);
recognition_result = NULL;
fst_time_mark();
status = switch_ivr_play_and_collect_input(fst_session, play_files, speech_engine, speech_grammar_args, min_digits, max_digits, terminators, digit_timeout, &recognition_result, &digits_collected, &terminator_collected, NULL);
fst_check(recognition_result == NULL);
// check results
fst_check(status == SWITCH_STATUS_SUCCESS); // might be break?
fst_check_duration(2500, 1000); // returns when single digit is pressed
fst_check_string_equals(cJSON_GetObjectCstr(recognition_result, "text"), NULL);
fst_check_string_equals(digits_collected, "2");
fst_check(terminator_collected == 0);
// three digit test
fst_sched_recv_dtmf("+2", "259");
min_digits = 1;
max_digits = 3;
terminator_collected = 0;
digits_collected = NULL;
if (recognition_result) cJSON_Delete(recognition_result);
recognition_result = NULL;
fst_time_mark();
status = switch_ivr_play_and_collect_input(fst_session, play_files, speech_engine, speech_grammar_args, min_digits, max_digits, terminators, digit_timeout, &recognition_result, &digits_collected, &terminator_collected, NULL);
fst_check(recognition_result == NULL);
// check results
fst_check(status == SWITCH_STATUS_SUCCESS); // might be break?
fst_check_duration(2000, 1000); // returns when single digit is pressed
fst_check_string_equals(cJSON_GetObjectCstr(recognition_result, "text"), NULL);
fst_check_string_equals(digits_collected, "259");
fst_check(terminator_collected == 0);
// min digit test
fst_sched_recv_dtmf("+2", "25");
min_digits = 3;
max_digits = 3;
terminator_collected = 0;
digits_collected = NULL;
if (recognition_result) cJSON_Delete(recognition_result);
recognition_result = NULL;
fst_time_mark();
status = switch_ivr_play_and_collect_input(fst_session, play_files, speech_engine, speech_grammar_args, min_digits, max_digits, terminators, digit_timeout, &recognition_result, &digits_collected, &terminator_collected, NULL);
fst_requires(recognition_result);
// check results
fst_check(status == SWITCH_STATUS_SUCCESS); // might be break?
fst_check_duration(7000, 1000); // inter-digit timeout after 2nd digit pressed
fst_check_string_equals(cJSON_GetObjectCstr(recognition_result, "text"), "");
fst_check_string_equals(digits_collected, NULL);
fst_check(terminator_collected == 0);
if (recognition_result) cJSON_Delete(recognition_result);
recognition_result = NULL;
}
FST_SESSION_END()
FST_SESSION_BEGIN(play_and_collect_input_partial)
{
char terminator_collected = 0;
char *digits_collected = NULL;
cJSON *recognition_result = NULL;
// args
const char *play_files = "silence_stream://1000";
const char *speech_engine = "test";
const char *terminators = "#";
int min_digits = 1;
int max_digits = 99;
int digit_timeout = 500;
int no_input_timeout = digit_timeout;
int speech_complete_timeout = digit_timeout;
int speech_recognition_timeout = 60000;
char *speech_grammar_args = switch_core_session_sprintf(fst_session, "{start-input-timers=false,no-input-timeout=%d,vad-silence-ms=%d,speech-timeout=%d,language=en-US,partial=true}default",
no_input_timeout, speech_complete_timeout, speech_recognition_timeout);
switch_status_t status;
switch_ivr_displace_session(fst_session, "file_string://silence_stream://500,0!tone_stream://%%(2000,0,350,440)", 0, "r");
terminator_collected = 0;
digits_collected = NULL;
if (recognition_result) cJSON_Delete(recognition_result);
recognition_result = NULL;
fst_time_mark();
status = switch_ivr_play_and_collect_input(fst_session, play_files, speech_engine, speech_grammar_args, min_digits, max_digits, terminators, digit_timeout, &recognition_result, &digits_collected, &terminator_collected, NULL);
fst_requires(recognition_result);
// check results
fst_check(status == SWITCH_STATUS_SUCCESS); // might be break?
fst_check_duration(2500, 1000); // returns when utterance is done
fst_check_string_equals(cJSON_GetObjectCstr(recognition_result, "text"), "agent");
fst_check_string_equals(digits_collected, NULL);
fst_check(terminator_collected == 0);
switch_ivr_displace_session(fst_session, "file_string://silence_stream://500,0!tone_stream://%%(2000,0,350,440)", 0, "r");
terminator_collected = 0;
digits_collected = NULL;
if (recognition_result) cJSON_Delete(recognition_result);
recognition_result = NULL;
switch_input_args_t collect_input_args = { 0 };
switch_input_args_t *args = NULL;
int count = 0;
args = &collect_input_args;
args->input_callback = partial_play_and_collect_input_callback;
args->buf = &count;
args->buflen = sizeof(int);
fst_time_mark();
status = switch_ivr_play_and_collect_input(fst_session, play_files, speech_engine, speech_grammar_args, min_digits, max_digits, terminators, digit_timeout, &recognition_result, &digits_collected, &terminator_collected, args);
fst_requires(recognition_result);
// check results
fst_check(status == SWITCH_STATUS_SUCCESS); // might be break?
fst_check_duration(2500, 1000); // returns when utterance is done
fst_check_string_equals(cJSON_GetObjectCstr(recognition_result, "text"), "agent");
fst_check_string_equals(digits_collected, NULL);
fst_check(terminator_collected == 0);
switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_INFO, "xxx count = %d\n", count);
fst_check(count == 3); // 3 partial results
cJSON_Delete(recognition_result);
}
FST_SESSION_END()
}
FST_SUITE_END()
}
FST_CORE_END()