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freeswitch_rs/include/switch_core_asr.c

373 lines
9.8 KiB
C

/*
* FreeSWITCH Modular Media Switching Software Library / Soft-Switch Application
* Copyright (C) 2005-2014, 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):
*
* Anthony Minessale II <anthm@freeswitch.org>
* Michael Jerris <mike@jerris.com>
* Paul D. Tinsley <pdt at jackhammer.org>
* Christopher M. Rienzo <chris@rienzo.com>
* Luke Dashjr <luke@openmethods.com> (OpenMethods, LLC)
*
*
* switch_core_asr.c -- Main Core Library (Speech Detection Interface)
*
*/
#include <switch.h>
#include "private/switch_core_pvt.h"
SWITCH_DECLARE(switch_status_t) switch_core_asr_open(switch_asr_handle_t *ah,
const char *module_name,
const char *codec, int rate, const char *dest, switch_asr_flag_t *flags, switch_memory_pool_t *pool)
{
switch_status_t status;
char *module_name_dup = NULL;
char *param = NULL;
int free_pool = 0;
if (!pool) {
if ((status = switch_core_new_memory_pool(&pool)) != SWITCH_STATUS_SUCCESS) {
return status;
}
free_pool = 1;
}
if (strchr(module_name, ':')) {
module_name_dup = switch_core_strdup(pool, module_name);
if ((param = strchr(module_name_dup, ':'))) {
*param++ = '\0';
module_name = module_name_dup;
}
}
switch_assert(ah != NULL);
if ((ah->asr_interface = switch_loadable_module_get_asr_interface(module_name)) == 0) {
switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "Invalid ASR module [%s]!\n", module_name);
if (free_pool) {
switch_core_destroy_memory_pool(&pool);
}
return SWITCH_STATUS_GENERR;
}
ah->flags = *flags;
ah->memory_pool = pool;
if (free_pool) {
switch_set_flag(ah, SWITCH_ASR_FLAG_FREE_POOL);
}
if (param) {
ah->param = param;
}
ah->rate = rate;
ah->name = switch_core_strdup(ah->memory_pool, module_name);
ah->samplerate = rate;
ah->native_rate = rate;
status = ah->asr_interface->asr_open(ah, codec, rate, dest, flags);
if (status != SWITCH_STATUS_SUCCESS) {
if (switch_test_flag(ah, SWITCH_ASR_FLAG_FREE_POOL)) {
switch_core_destroy_memory_pool(&ah->memory_pool);
}
UNPROTECT_INTERFACE(ah->asr_interface);
}
return status;
}
SWITCH_DECLARE(switch_status_t) switch_core_asr_load_grammar(switch_asr_handle_t *ah, const char *grammar, const char *name)
{
switch_status_t status = SWITCH_STATUS_SUCCESS;
char *param_string = NULL;
char *data = NULL;
char *lgrammar = NULL;
switch_assert(ah != NULL);
if (zstr(grammar)) {
status = SWITCH_STATUS_FALSE;
goto done;
}
/* Set ASR parameters from params in the grammar string
* Params are defined as follows {name1=val1,name2=val2,name3=val3}grammar text
*/
lgrammar = strdup(grammar);
data = lgrammar;
/* strip leading spaces */
while (data && *data == ' ') {
data++;
}
if (zstr(data)) {
status = SWITCH_STATUS_FALSE;
goto done;
}
/* extract params */
if (*data == '{') {
param_string = data + 1;
data = switch_find_end_paren(data, '{', '}');
if (zstr(data)) {
status = SWITCH_STATUS_FALSE;
goto done;
} else {
*data = '\0';
data++;
}
}
/* set ASR params */
if (!zstr(param_string)) {
char *param[256] = { 0 };
int i;
int argc = switch_separate_string(param_string, ',', param, (sizeof(param) / sizeof(param[0])));
for (i = 0; i < argc && param[i]; ++i) {
char *param_pair[2] = { 0 };
if (switch_separate_string(param[i], '=', param_pair, (sizeof(param_pair) / sizeof(param_pair[0]))) == 2) {
switch_core_asr_text_param(ah, param_pair[0], param_pair[1]);
}
}
}
status = ah->asr_interface->asr_load_grammar(ah, data, name);
done:
switch_safe_free(lgrammar);
return status;
}
SWITCH_DECLARE(switch_status_t) switch_core_asr_unload_grammar(switch_asr_handle_t *ah, const char *name)
{
switch_status_t status;
switch_assert(ah != NULL);
status = ah->asr_interface->asr_unload_grammar(ah, name);
return status;
}
SWITCH_DECLARE(switch_status_t) switch_core_asr_enable_grammar(switch_asr_handle_t *ah, const char *name)
{
switch_status_t status = SWITCH_STATUS_FALSE;
switch_assert(ah != NULL);
if (ah->asr_interface->asr_enable_grammar) {
status = ah->asr_interface->asr_enable_grammar(ah, name);
}
return status;
}
SWITCH_DECLARE(switch_status_t) switch_core_asr_disable_grammar(switch_asr_handle_t *ah, const char *name)
{
switch_status_t status = SWITCH_STATUS_FALSE;
switch_assert(ah != NULL);
if (ah->asr_interface->asr_disable_grammar) {
status = ah->asr_interface->asr_disable_grammar(ah, name);
}
return status;
}
SWITCH_DECLARE(switch_status_t) switch_core_asr_disable_all_grammars(switch_asr_handle_t *ah)
{
switch_status_t status = SWITCH_STATUS_FALSE;
switch_assert(ah != NULL);
if (ah->asr_interface->asr_disable_all_grammars) {
status = ah->asr_interface->asr_disable_all_grammars(ah);
}
return status;
}
SWITCH_DECLARE(switch_status_t) switch_core_asr_pause(switch_asr_handle_t *ah)
{
switch_assert(ah != NULL);
return ah->asr_interface->asr_pause(ah);
}
SWITCH_DECLARE(switch_status_t) switch_core_asr_resume(switch_asr_handle_t *ah)
{
switch_assert(ah != NULL);
return ah->asr_interface->asr_resume(ah);
}
SWITCH_DECLARE(switch_status_t) switch_core_asr_close(switch_asr_handle_t *ah, switch_asr_flag_t *flags)
{
switch_status_t status;
switch_assert(ah != NULL);
status = ah->asr_interface->asr_close(ah, flags);
switch_set_flag(ah, SWITCH_ASR_FLAG_CLOSED);
switch_safe_free(ah->dbuf);
switch_resample_destroy(&ah->resampler);
UNPROTECT_INTERFACE(ah->asr_interface);
if (switch_test_flag(ah, SWITCH_ASR_FLAG_FREE_POOL)) {
switch_core_destroy_memory_pool(&ah->memory_pool);
}
return status;
}
SWITCH_DECLARE(switch_status_t) switch_core_asr_feed(switch_asr_handle_t *ah, void *data, unsigned int len, switch_asr_flag_t *flags)
{
switch_size_t orig_len = len;
switch_assert(ah != NULL);
if (ah->native_rate && ah->samplerate && ah->native_rate != ah->samplerate) {
if (!ah->resampler) {
if (switch_resample_create(&ah->resampler,
ah->samplerate, ah->native_rate, (uint32_t) orig_len, SWITCH_RESAMPLE_QUALITY, 1) != SWITCH_STATUS_SUCCESS) {
switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_CRIT, "Unable to create resampler!\n");
return SWITCH_STATUS_GENERR;
}
}
switch_resample_process(ah->resampler, data, len / 2);
if (ah->resampler->to_len * 2 > orig_len) {
if (ah->dbuflen < ah->resampler->to_len * 2) {
void *mem;
ah->dbuflen = ah->resampler->to_len * 2;
mem = realloc(ah->dbuf, ah->dbuflen);
switch_assert(mem);
ah->dbuf = mem;
}
switch_assert(ah->resampler->to_len * 2 <= ah->dbuflen);
memcpy(ah->dbuf, ah->resampler->to, ah->resampler->to_len * 2);
data = ah->dbuf;
} else {
memcpy(data, ah->resampler->to, ah->resampler->to_len * 2);
}
len = ah->resampler->to_len * 2;
}
return ah->asr_interface->asr_feed(ah, data, len, flags);
}
SWITCH_DECLARE(switch_status_t) switch_core_asr_feed_dtmf(switch_asr_handle_t *ah, const switch_dtmf_t *dtmf, switch_asr_flag_t *flags)
{
switch_status_t status = SWITCH_STATUS_SUCCESS;
switch_assert(ah != NULL);
if (ah->asr_interface->asr_feed_dtmf) {
status = ah->asr_interface->asr_feed_dtmf(ah, dtmf, flags);
}
return status;
}
SWITCH_DECLARE(switch_status_t) switch_core_asr_check_results(switch_asr_handle_t *ah, switch_asr_flag_t *flags)
{
switch_assert(ah != NULL);
return ah->asr_interface->asr_check_results(ah, flags);
}
SWITCH_DECLARE(switch_status_t) switch_core_asr_get_results(switch_asr_handle_t *ah, char **xmlstr, switch_asr_flag_t *flags)
{
switch_assert(ah != NULL);
return ah->asr_interface->asr_get_results(ah, xmlstr, flags);
}
SWITCH_DECLARE(switch_status_t) switch_core_asr_get_result_headers(switch_asr_handle_t *ah, switch_event_t **headers, switch_asr_flag_t *flags)
{
switch_assert(ah != NULL);
if (ah->asr_interface->asr_get_result_headers) {
return ah->asr_interface->asr_get_result_headers(ah, headers, flags);
} else {
/* Since this is not always implemented, return success if the function can't be called */
return SWITCH_STATUS_SUCCESS;
}
}
SWITCH_DECLARE(switch_status_t) switch_core_asr_start_input_timers(switch_asr_handle_t *ah)
{
switch_status_t status = SWITCH_STATUS_SUCCESS;
switch_assert(ah != NULL);
if (ah->asr_interface->asr_start_input_timers) {
status = ah->asr_interface->asr_start_input_timers(ah);
}
return status;
}
SWITCH_DECLARE(void) switch_core_asr_text_param(switch_asr_handle_t *ah, char *param, const char *val)
{
switch_assert(ah != NULL);
if (ah->asr_interface->asr_text_param) {
ah->asr_interface->asr_text_param(ah, param, val);
}
}
SWITCH_DECLARE(void) switch_core_asr_numeric_param(switch_asr_handle_t *ah, char *param, int val)
{
switch_assert(ah != NULL);
if (ah->asr_interface->asr_numeric_param) {
ah->asr_interface->asr_numeric_param(ah, param, val);
}
}
SWITCH_DECLARE(void) switch_core_asr_float_param(switch_asr_handle_t *ah, char *param, double val)
{
switch_assert(ah != NULL);
if (ah->asr_interface->asr_float_param) {
ah->asr_interface->asr_float_param(ah, param, val);
}
}
/* For Emacs:
* Local Variables:
* mode:c
* indent-tabs-mode:t
* tab-width:4
* c-basic-offset:4
* End:
* For VIM:
* vim:set softtabstop=4 shiftwidth=4 tabstop=4 noet:
*/