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LeafOS / LeafOS-Project / android_vendor_qcom_opensource_arpal-lx / 2c54f94cdee4a5d3fd70ae30857feb158fea5b19 / . / utils / src / SVAInterface.cpp
blob: 2c2f5b890e3a923fa4e4c8a42ae57a4c689fc4e6 [file] [log] [blame]
/*
* Copyright (c) 2019-2021, The Linux Foundation. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are
* met:
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above
* copyright notice, this list of conditions and the following
* disclaimer in the documentation and/or other materials provided
* with the distribution.
* * Neither the name of The Linux Foundation nor the names of its
* contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED "AS IS" AND ANY EXPRESS OR IMPLIED
* WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT
* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS
* BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR
* BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
* WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE
* OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN
* IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
* Changes from Qualcomm Innovation Center are provided under the following license:
* Copyright (c) 2022 Qualcomm Innovation Center, Inc. All rights reserved.
* SPDX-License-Identifier: BSD-3-Clause-Clear
*/
#define LOG_TAG "PAL: SVAInterface"
#include "SVAInterface.h"
#include "detection_cmn_api.h"
#define ST_MAX_FSTAGE_CONF_LEVEL (100)
#define CUSTOM_CONFIG_OPAQUE_DATA_SIZE 12
#define CONF_LEVELS_INTF_VERSION_0002 0x02
SVAInterface::SVAInterface(std::shared_ptr<VUIStreamConfig> sm_cfg) {
sm_cfg_ = sm_cfg;
hist_duration_ = 0;
preroll_duration_ = 0;
conf_levels_intf_version_ = 0;
st_conf_levels_ = nullptr;
st_conf_levels_v2_ = nullptr;
det_model_id_ = 0;
std::memset(&detection_event_info_, 0,
sizeof(struct detection_event_info));
std::memset(&detection_event_info_multi_model_, 0,
sizeof(struct detection_event_info_pdk));
}
SVAInterface::~SVAInterface() {
if (st_conf_levels_) {
free(st_conf_levels_);
st_conf_levels_ = nullptr;
}
if (st_conf_levels_v2_) {
free(st_conf_levels_v2_);
st_conf_levels_v2_ = nullptr;
}
}
int32_t SVAInterface::ParseSoundModel(std::shared_ptr<VUIStreamConfig> sm_cfg,
struct pal_st_sound_model *sound_model,
st_module_type_t &first_stage_type,
std::vector<sm_pair_t> &model_list) {
int32_t status = 0;
int32_t i = 0;
struct pal_st_phrase_sound_model *phrase_sm = nullptr;
struct pal_st_sound_model *common_sm = nullptr;
uint8_t *ptr = nullptr;
uint8_t *sm_payload = nullptr;
uint8_t *sm_data = nullptr;
int32_t sm_size = 0;
SML_GlobalHeaderType *global_hdr = nullptr;
SML_HeaderTypeV3 *hdr_v3 = nullptr;
SML_BigSoundModelTypeV3 *big_sm = nullptr;
uint32_t offset = 0;
PAL_DBG(LOG_TAG, "Enter");
if (sound_model->type == PAL_SOUND_MODEL_TYPE_KEYPHRASE) {
phrase_sm = (struct pal_st_phrase_sound_model *)sound_model;
sm_payload = (uint8_t *)phrase_sm + phrase_sm->common.data_offset;
global_hdr = (SML_GlobalHeaderType *)sm_payload;
if (global_hdr->magicNumber == SML_GLOBAL_HEADER_MAGIC_NUMBER) {
hdr_v3 = (SML_HeaderTypeV3 *)(sm_payload +
sizeof(SML_GlobalHeaderType));
PAL_INFO(LOG_TAG, "num of sound models = %u", hdr_v3->numModels);
for (i = 0; i < hdr_v3->numModels; i++) {
big_sm = (SML_BigSoundModelTypeV3 *)(
sm_payload + sizeof(SML_GlobalHeaderType) +
sizeof(SML_HeaderTypeV3) +
(i * sizeof(SML_BigSoundModelTypeV3)));
PAL_INFO(LOG_TAG, "type = %u, size = %u, version = %u.%u",
big_sm->type, big_sm->size,
big_sm->versionMajor, big_sm->versionMinor);
if (big_sm->type == ST_SM_ID_SVA_F_STAGE_GMM) {
first_stage_type = (st_module_type_t)big_sm->versionMajor;
sm_size = big_sm->size;
sm_data = (uint8_t *)calloc(1, sm_size);
if (!sm_data) {
status = -ENOMEM;
PAL_ERR(LOG_TAG, "sm_data allocation failed, status %d",
status);
goto error_exit;
}
ptr = (uint8_t *)sm_payload +
sizeof(SML_GlobalHeaderType) +
sizeof(SML_HeaderTypeV3) +
(hdr_v3->numModels * sizeof(SML_BigSoundModelTypeV3)) +
big_sm->offset;
ar_mem_cpy(sm_data, sm_size, ptr, sm_size);
model_list.push_back(std::make_pair(big_sm->type,
std::make_pair(sm_data, sm_size)));
} else if (big_sm->type != SML_ID_SVA_S_STAGE_UBM) {
if (big_sm->type == SML_ID_SVA_F_STAGE_INTERNAL ||
(big_sm->type == ST_SM_ID_SVA_S_STAGE_USER &&
!(phrase_sm->phrases[0].recognition_mode &
PAL_RECOGNITION_MODE_USER_IDENTIFICATION)))
continue;
sm_size = big_sm->size;
ptr = (uint8_t *)sm_payload +
sizeof(SML_GlobalHeaderType) +
sizeof(SML_HeaderTypeV3) +
(hdr_v3->numModels * sizeof(SML_BigSoundModelTypeV3)) +
big_sm->offset;
sm_data = (uint8_t *)calloc(1, sm_size);
if (!sm_data) {
status = -ENOMEM;
PAL_ERR(LOG_TAG, "Failed to alloc memory for sm_data");
goto error_exit;
}
ar_mem_cpy(sm_data, sm_size, ptr, sm_size);
model_list.push_back(std::make_pair(big_sm->type,
std::make_pair(sm_data, sm_size)));
}
}
} else {
// Parse sound model 2.0
first_stage_type = sm_cfg->GetVUIModuleType();
sm_size = phrase_sm->common.data_size;
sm_data = (uint8_t *)calloc(1, sm_size);
if (!sm_data) {
PAL_ERR(LOG_TAG, "Failed to allocate memory for sm_data");
status = -ENOMEM;
goto error_exit;
}
ptr = (uint8_t*)phrase_sm + phrase_sm->common.data_offset;
ar_mem_cpy(sm_data, sm_size, ptr, sm_size);
model_list.push_back(std::make_pair(ST_SM_ID_SVA_F_STAGE_GMM,
std::make_pair(sm_data, sm_size)));
}
} else {
// handle for generic sound model
first_stage_type = sm_cfg->GetVUIModuleType();
common_sm = sound_model;
sm_size = common_sm->data_size;
sm_data = (uint8_t *)calloc(1, sm_size);
if (!sm_data) {
PAL_ERR(LOG_TAG, "Failed to allocate memory for sm_data");
status = -ENOMEM;
goto error_exit;
}
ptr = (uint8_t*)common_sm + common_sm->data_offset;
ar_mem_cpy(sm_data, sm_size, ptr, sm_size);
model_list.push_back(std::make_pair(ST_SM_ID_SVA_F_STAGE_GMM,
std::make_pair(sm_data, sm_size)));
}
PAL_DBG(LOG_TAG, "Exit, status %d", status);
return status;
error_exit:
// clean up memory added to model_list in failure case
for (auto iter = model_list.begin(); iter != model_list.end(); iter++) {
if ((*iter).second.first)
free((*iter).second.first);
}
model_list.clear();
PAL_DBG(LOG_TAG, "Exit, status %d", status);
return status;
}
int32_t SVAInterface::ParseRecognitionConfig(Stream *s,
struct pal_st_recognition_config *config) {
int32_t status = 0;
struct sound_model_info *sm_info = nullptr;
struct st_param_header *param_hdr = NULL;
struct st_hist_buffer_info *hist_buf = NULL;
struct st_det_perf_mode_info *det_perf_mode = NULL;
uint8_t *opaque_ptr = NULL;
unsigned int opaque_size = 0, conf_levels_payload_size = 0;
uint32_t hist_buffer_duration = 0;
uint32_t pre_roll_duration = 0;
uint8_t *conf_levels = NULL;
uint32_t num_conf_levels = 0;
if (sm_info_map_.find(s) != sm_info_map_.end() && sm_info_map_[s]) {
sm_info = sm_info_map_[s];
sm_info->rec_config = config;
} else {
PAL_ERR(LOG_TAG, "Stream not registered to interface");
return -EINVAL;
}
PAL_DBG(LOG_TAG, "Enter");
if (!config) {
PAL_ERR(LOG_TAG, "Invalid config");
return -EINVAL;
}
// Parse recognition config
if (config->data_size > CUSTOM_CONFIG_OPAQUE_DATA_SIZE &&
sm_cfg_->isQCVAUUID()) {
opaque_ptr = (uint8_t *)config + config->data_offset;
while (opaque_size < config->data_size) {
param_hdr = (struct st_param_header *)opaque_ptr;
PAL_VERBOSE(LOG_TAG, "key %d, payload size %d",
param_hdr->key_id, param_hdr->payload_size);
switch (param_hdr->key_id) {
case ST_PARAM_KEY_CONFIDENCE_LEVELS:
conf_levels_intf_version_ = *(uint32_t *)(
opaque_ptr + sizeof(struct st_param_header));
PAL_VERBOSE(LOG_TAG, "conf_levels_intf_version = %u",
conf_levels_intf_version_);
if (conf_levels_intf_version_ !=
CONF_LEVELS_INTF_VERSION_0002) {
conf_levels_payload_size =
sizeof(struct st_confidence_levels_info);
} else {
conf_levels_payload_size =
sizeof(struct st_confidence_levels_info_v2);
}
if (param_hdr->payload_size != conf_levels_payload_size) {
PAL_ERR(LOG_TAG, "Conf level format error, exiting");
status = -EINVAL;
goto error_exit;
}
status = ParseOpaqueConfLevels(sm_info, opaque_ptr,
conf_levels_intf_version_,
&conf_levels,
&num_conf_levels);
if (status) {
PAL_ERR(LOG_TAG, "Failed to parse opaque conf levels");
goto error_exit;
}
opaque_size += sizeof(struct st_param_header) +
conf_levels_payload_size;
opaque_ptr += sizeof(struct st_param_header) +
conf_levels_payload_size;
if (status) {
PAL_ERR(LOG_TAG, "Parse conf levels failed(status=%d)",
status);
status = -EINVAL;
goto error_exit;
}
break;
case ST_PARAM_KEY_HISTORY_BUFFER_CONFIG:
if (param_hdr->payload_size !=
sizeof(struct st_hist_buffer_info)) {
PAL_ERR(LOG_TAG, "History buffer config format error");
status = -EINVAL;
goto error_exit;
}
hist_buf = (struct st_hist_buffer_info *)(opaque_ptr +
sizeof(struct st_param_header));
hist_buffer_duration = hist_buf->hist_buffer_duration_msec;
pre_roll_duration = hist_buf->pre_roll_duration_msec;
opaque_size += sizeof(struct st_param_header) +
sizeof(struct st_hist_buffer_info);
opaque_ptr += sizeof(struct st_param_header) +
sizeof(struct st_hist_buffer_info);
break;
case ST_PARAM_KEY_DETECTION_PERF_MODE:
if (param_hdr->payload_size !=
sizeof(struct st_det_perf_mode_info)) {
PAL_ERR(LOG_TAG, "Opaque data format error, exiting");
status = -EINVAL;
goto error_exit;
}
det_perf_mode = (struct st_det_perf_mode_info *)
(opaque_ptr + sizeof(struct st_param_header));
PAL_DBG(LOG_TAG, "set perf mode %d", det_perf_mode->mode);
opaque_size += sizeof(struct st_param_header) +
sizeof(struct st_det_perf_mode_info);
opaque_ptr += sizeof(struct st_param_header) +
sizeof(struct st_det_perf_mode_info);
break;
default:
PAL_ERR(LOG_TAG, "Unsupported opaque data key id, exiting");
status = -EINVAL;
goto error_exit;
}
}
} else {
if (sm_cfg_->isQCVAUUID()) {
status = FillConfLevels(sm_info, config, &conf_levels, &num_conf_levels);
if (status) {
PAL_ERR(LOG_TAG, "Failed to parse conf levels from rc config");
goto error_exit;
}
}
}
if (!hist_buffer_duration) {
hist_buffer_duration = sm_cfg_->GetKwDuration();
sm_info_map_[s]->is_hist_buffer_duration_set = false;
} else {
sm_info_map_[s]->is_hist_buffer_duration_set = true;
}
sm_info_map_[s]->hist_buffer_duration = hist_buffer_duration;
sm_info_map_[s]->pre_roll_duration = pre_roll_duration;
if (sm_info_map_[s]->wakeup_config)
free(sm_info_map_[s]->wakeup_config);
sm_info_map_[s]->wakeup_config = conf_levels;
sm_info_map_[s]->wakeup_config_size = num_conf_levels;
goto exit;
error_exit:
if (st_conf_levels_) {
free(st_conf_levels_);
st_conf_levels_ = nullptr;
}
if (st_conf_levels_v2_) {
free(st_conf_levels_v2_);
st_conf_levels_v2_ = nullptr;
}
exit:
PAL_DBG(LOG_TAG, "Exit, status %d", status);
return status;
}
void SVAInterface::GetWakeupConfigs(Stream *s,
void **config,
uint32_t *size) {
if (sm_info_map_.find(s) != sm_info_map_.end() && sm_info_map_[s]) {
*config = sm_info_map_[s]->wakeup_config;
*size = sm_info_map_[s]->wakeup_config_size;
} else {
PAL_ERR(LOG_TAG, "Stream not registered to interface");
}
}
void SVAInterface::GetBufferingConfigs(Stream *s,
uint32_t *hist_duration,
uint32_t *preroll_duration) {
if (sm_info_map_.find(s) != sm_info_map_.end() && sm_info_map_[s]) {
*hist_duration = sm_info_map_[s]->hist_buffer_duration;
*preroll_duration = sm_info_map_[s]->pre_roll_duration;
} else {
PAL_ERR(LOG_TAG, "Stream not registered to interface");
}
}
void SVAInterface::GetSecondStageConfLevels(Stream *s,
listen_model_indicator_enum type,
uint32_t *level) {
if (sm_info_map_.find(s) != sm_info_map_.end() && sm_info_map_[s]) {
for (auto iter = sm_info_map_[s]->sec_threshold.begin();
iter != sm_info_map_[s]->sec_threshold.end(); iter++) {
if ((*iter).first == type)
*level = (*iter).second;
}
} else {
PAL_ERR(LOG_TAG, "Stream not registered to interface");
}
}
void SVAInterface::SetSecondStageDetLevels(Stream *s,
listen_model_indicator_enum type,
uint32_t level) {
bool sec_det_level_exist = false;
if (sm_info_map_.find(s) != sm_info_map_.end() && sm_info_map_[s]) {
for (auto &iter: sm_info_map_[s]->sec_det_level) {
if (iter.first == type) {
iter.second = level;
sec_det_level_exist = true;
break;
}
}
if (!sec_det_level_exist)
sm_info_map_[s]->sec_det_level.push_back(std::make_pair(type, level));
} else {
PAL_ERR(LOG_TAG, "Stream not registered to interface");
}
}
int32_t SVAInterface::ParseDetectionPayload(void *event, uint32_t size) {
int32_t status = 0;
if (!IS_MODULE_TYPE_PDK(module_type_)) {
status = ParseDetectionPayloadGMM(event);
CheckAndSetDetectionConfLevels(GetDetectedStream());
} else {
status = ParseDetectionPayloadPDK(event);
}
if (status) {
PAL_ERR(LOG_TAG, "Failed to parse detection payload, status %d",
status);
}
return status;
}
Stream* SVAInterface::GetDetectedStream() {
Stream *st = nullptr;
struct sound_model_info *sm_info = nullptr;
PAL_DBG(LOG_TAG, "Enter");
if (sm_info_map_.empty()) {
PAL_ERR(LOG_TAG, "Unexpected, No streams attached to engine!");
return nullptr;
}
/*
* If only single stream exists, this detection is not for merged/multi
* sound model, hence return this as only available stream
*/
if (!IS_MODULE_TYPE_PDK(module_type_)) {
if (sm_info_map_.size() == 1) {
return sm_info_map_.begin()->first;
}
if (detection_event_info_.num_confidence_levels <
sound_model_info_->GetNumKeyPhrases()) {
PAL_ERR(LOG_TAG, "detection event conf levels %d < num of keyphrases %d",
detection_event_info_.num_confidence_levels,
sound_model_info_->GetNumKeyPhrases());
return nullptr;
}
/*
* The DSP payload contains the keyword conf levels from the beginning.
* Only one keyword conf level is expected to be non-zero from keyword
* detection. Find non-zero conf level up to number of keyphrases and
* if one is found, match it to the corresponding keyphrase from list
* of streams to obtain the detected stream.
*/
for (uint32_t i = 0; i < sound_model_info_->GetNumKeyPhrases(); i++) {
if (!detection_event_info_.confidence_levels[i])
continue;
for (auto &iter: sm_info_map_) {
for (uint32_t k = 0; k < iter.second->info->GetNumKeyPhrases(); k++) {
if (!strcmp(sound_model_info_->GetKeyPhrases()[i],
iter.second->info->GetKeyPhrases()[k])) {
return iter.first;
}
}
}
}
} else {
for (auto &iter : sm_info_map_) {
sm_info = iter.second;
if (sm_info->model_id == det_model_id_) {
st = iter.first;
break;
}
}
if (!st) {
PAL_ERR(LOG_TAG, "Invalid model id = %x", det_model_id_);
}
return st;
}
return nullptr;
}
void* SVAInterface::GetDetectionEventInfo() {
if (IS_MODULE_TYPE_PDK(module_type_)) {
return &detection_event_info_multi_model_;
}
return &detection_event_info_;
}
int32_t SVAInterface::GenerateCallbackEvent(Stream *s,
struct pal_st_recognition_event **event,
uint32_t *size,
bool detection) {
struct sound_model_info *sm_info = nullptr;
struct pal_st_phrase_recognition_event *phrase_event = nullptr;
struct pal_st_generic_recognition_event *generic_event = nullptr;
struct st_param_header *param_hdr = nullptr;
struct st_keyword_indices_info *kw_indices = nullptr;
struct st_timestamp_info *timestamps = nullptr;
struct model_stats *det_model_stat = nullptr;
struct detection_event_info_pdk *det_ev_info_pdk = nullptr;
struct detection_event_info *det_ev_info = nullptr;
struct pal_stream_attributes strAttr;
size_t opaque_size = 0;
size_t event_size = 0, conf_levels_size = 0;
uint8_t *opaque_data = nullptr;
uint8_t *custom_event = nullptr;
uint32_t det_keyword_id = 0;
uint32_t best_conf_level = 0;
uint32_t detection_timestamp_lsw = 0;
uint32_t detection_timestamp_msw = 0;
int32_t status = 0;
int32_t num_models = 0;
if (sm_info_map_.find(s) != sm_info_map_.end() && sm_info_map_[s]) {
sm_info = sm_info_map_[s];
} else {
PAL_ERR(LOG_TAG, "Stream not registered to interface");
return -EINVAL;
}
status = s->getStreamAttributes(&strAttr);
PAL_DBG(LOG_TAG, "Enter");
*event = nullptr;
if (sm_info->type == PAL_SOUND_MODEL_TYPE_KEYPHRASE) {
if (sm_info->model_id > 0) {
det_ev_info_pdk = &detection_event_info_multi_model_;
if (!det_ev_info_pdk) {
PAL_ERR(LOG_TAG, "detection info multi model not available");
status = -EINVAL;
goto exit;
}
} else {
det_ev_info = &detection_event_info_;
if (!det_ev_info) {
PAL_ERR(LOG_TAG, "detection info not available");
status = -EINVAL;
goto exit;
}
}
if (conf_levels_intf_version_ != CONF_LEVELS_INTF_VERSION_0002)
conf_levels_size = sizeof(struct st_confidence_levels_info);
else
conf_levels_size = sizeof(struct st_confidence_levels_info_v2);
opaque_size = (3 * sizeof(struct st_param_header)) +
sizeof(struct st_timestamp_info) +
sizeof(struct st_keyword_indices_info) +
conf_levels_size;
event_size = sizeof(struct pal_st_phrase_recognition_event) +
opaque_size;
phrase_event = (struct pal_st_phrase_recognition_event *)
calloc(1, event_size);
if (!phrase_event) {
PAL_ERR(LOG_TAG, "Failed to alloc memory for recognition event");
status = -ENOMEM;
goto exit;
}
phrase_event->num_phrases = sm_info->rec_config->num_phrases;
memcpy(phrase_event->phrase_extras, sm_info->rec_config->phrases,
phrase_event->num_phrases *
sizeof(struct pal_st_phrase_recognition_extra));
*event = &(phrase_event->common);
(*event)->status = detection ? PAL_RECOGNITION_STATUS_SUCCESS :
PAL_RECOGNITION_STATUS_FAILURE;
(*event)->type = sm_info->type;
(*event)->st_handle = (pal_st_handle_t *)this;
(*event)->capture_available = sm_info->rec_config->capture_requested;
// TODO: generate capture session
(*event)->capture_session = 0;
(*event)->capture_delay_ms = 0;
(*event)->capture_preamble_ms = 0;
(*event)->trigger_in_data = true;
(*event)->data_size = opaque_size;
(*event)->data_offset = sizeof(struct pal_st_phrase_recognition_event);
(*event)->media_config.sample_rate =
strAttr.in_media_config.sample_rate;
(*event)->media_config.bit_width =
strAttr.in_media_config.bit_width;
(*event)->media_config.ch_info.channels =
strAttr.in_media_config.ch_info.channels;
(*event)->media_config.aud_fmt_id = PAL_AUDIO_FMT_PCM_S16_LE;
// Filling Opaque data
opaque_data = (uint8_t *)phrase_event +
phrase_event->common.data_offset;
/* Pack the opaque data confidence levels structure */
param_hdr = (struct st_param_header *)opaque_data;
param_hdr->key_id = ST_PARAM_KEY_CONFIDENCE_LEVELS;
if (conf_levels_intf_version_ != CONF_LEVELS_INTF_VERSION_0002)
param_hdr->payload_size = sizeof(struct st_confidence_levels_info);
else
param_hdr->payload_size = sizeof(struct st_confidence_levels_info_v2);
opaque_data += sizeof(struct st_param_header);
/* Copy the cached conf levels from recognition config */
if (conf_levels_intf_version_ != CONF_LEVELS_INTF_VERSION_0002)
ar_mem_cpy(opaque_data, param_hdr->payload_size,
st_conf_levels_, param_hdr->payload_size);
else
ar_mem_cpy(opaque_data, param_hdr->payload_size,
st_conf_levels_v2_, param_hdr->payload_size);
if (sm_info->model_id > 0) {
num_models = det_ev_info_pdk->num_detected_models;
for (int i = 0; i < num_models; ++i) {
det_model_stat = &det_ev_info_pdk->detected_model_stats[i];
if (sm_info->model_id == det_model_stat->detected_model_id) {
det_keyword_id = det_model_stat->detected_keyword_id;
best_conf_level = det_model_stat->best_confidence_level;
detection_timestamp_lsw =
det_model_stat->detection_timestamp_lsw;
detection_timestamp_msw =
det_model_stat->detection_timestamp_msw;
PAL_INFO(LOG_TAG, "keywordID: %u, best_conf_level: %u",
det_keyword_id, best_conf_level);
break;
}
}
FillCallbackConfLevels(sm_info, opaque_data, det_keyword_id, best_conf_level);
} else {
PackEventConfLevels(sm_info, opaque_data);
}
opaque_data += param_hdr->payload_size;
/* Pack the opaque data keyword indices structure */
param_hdr = (struct st_param_header *)opaque_data;
param_hdr->key_id = ST_PARAM_KEY_KEYWORD_INDICES;
param_hdr->payload_size = sizeof(struct st_keyword_indices_info);
opaque_data += sizeof(struct st_param_header);
kw_indices = (struct st_keyword_indices_info *)opaque_data;
kw_indices->version = 0x1;
if (sm_info->rec_config &&
sm_info->rec_config->capture_requested &&
!sm_info->is_hist_buffer_duration_set) {
read_offset_ = end_index_;
}
kw_indices->start_index = start_index_;
kw_indices->end_index = end_index_;
opaque_data += sizeof(struct st_keyword_indices_info);
/*
* Pack the opaque data detection time structure
* TODO: add support for 2nd stage detection timestamp
*/
param_hdr = (struct st_param_header *)opaque_data;
param_hdr->key_id = ST_PARAM_KEY_TIMESTAMP;
param_hdr->payload_size = sizeof(struct st_timestamp_info);
opaque_data += sizeof(struct st_param_header);
timestamps = (struct st_timestamp_info *)opaque_data;
timestamps->version = 0x1;
if (sm_info->model_id > 0) {
timestamps->first_stage_det_event_time = 1000 *
((uint64_t)detection_timestamp_lsw +
((uint64_t)detection_timestamp_msw<<32));
} else {
timestamps->first_stage_det_event_time = 1000 *
((uint64_t)det_ev_info->detection_timestamp_lsw +
((uint64_t)det_ev_info->detection_timestamp_msw << 32));
}
} else if (sm_info->type == PAL_SOUND_MODEL_TYPE_GENERIC) {
event_size = sizeof(struct pal_st_generic_recognition_event);
generic_event = (struct pal_st_generic_recognition_event *)
calloc(1, event_size);
if (!generic_event) {
PAL_ERR(LOG_TAG, "Failed to alloc memory for recognition event");
status = -ENOMEM;
goto exit;
}
*event = &(generic_event->common);
(*event)->status = PAL_RECOGNITION_STATUS_SUCCESS;
(*event)->type = sm_info->type;
(*event)->st_handle = (pal_st_handle_t *)this;
(*event)->capture_available = sm_info->rec_config->capture_requested;
// TODO: generate capture session
(*event)->capture_session = 0;
(*event)->capture_delay_ms = 0;
(*event)->capture_preamble_ms = 0;
(*event)->trigger_in_data = true;
(*event)->data_size = 0;
(*event)->data_offset = sizeof(struct pal_st_generic_recognition_event);
(*event)->media_config.sample_rate =
strAttr.in_media_config.sample_rate;
(*event)->media_config.bit_width =
strAttr.in_media_config.bit_width;
(*event)->media_config.ch_info.channels =
strAttr.in_media_config.ch_info.channels;
(*event)->media_config.aud_fmt_id = PAL_AUDIO_FMT_PCM_S16_LE;
}
*size = event_size;
exit:
PAL_DBG(LOG_TAG, "Exit");
return status;
}
// Protected APIs
int32_t SVAInterface::ParseOpaqueConfLevels(
struct sound_model_info *info,
void *opaque_conf_levels,
uint32_t version,
uint8_t **out_conf_levels,
uint32_t *out_num_conf_levels) {
int32_t status = 0;
struct st_confidence_levels_info *conf_levels = nullptr;
struct st_confidence_levels_info_v2 *conf_levels_v2 = nullptr;
struct st_sound_model_conf_levels *sm_levels = nullptr;
struct st_sound_model_conf_levels_v2 *sm_levels_v2 = nullptr;
int32_t confidence_level = 0;
int32_t confidence_level_v2 = 0;
bool gmm_conf_found = false;
PAL_DBG(LOG_TAG, "Enter");
if (version != CONF_LEVELS_INTF_VERSION_0002) {
conf_levels = (struct st_confidence_levels_info *)
((char *)opaque_conf_levels + sizeof(struct st_param_header));
st_conf_levels_ = (struct st_confidence_levels_info *)realloc(st_conf_levels_,
sizeof(struct st_confidence_levels_info));
if (!st_conf_levels_) {
PAL_ERR(LOG_TAG, "failed to alloc stream conf_levels_");
status = -ENOMEM;
goto exit;
}
/* Cache to use during detection event processing */
ar_mem_cpy((uint8_t *)st_conf_levels_, sizeof(struct st_confidence_levels_info),
(uint8_t *)conf_levels, sizeof(struct st_confidence_levels_info));
for (int i = 0; i < conf_levels->num_sound_models; i++) {
sm_levels = &conf_levels->conf_levels[i];
if (sm_levels->sm_id == ST_SM_ID_SVA_F_STAGE_GMM) {
gmm_conf_found = true;
status = FillOpaqueConfLevels(info->model_id, (void *)sm_levels,
out_conf_levels, out_num_conf_levels, version);
} else if (sm_levels->sm_id & ST_SM_ID_SVA_S_STAGE_KWD ||
sm_levels->sm_id & ST_SM_ID_SVA_S_STAGE_USER) {
confidence_level =
(sm_levels->sm_id & ST_SM_ID_SVA_S_STAGE_KWD) ?
sm_levels->kw_levels[0].kw_level:
sm_levels->kw_levels[0].user_levels[0].level;
if (sm_levels->sm_id & ST_SM_ID_SVA_S_STAGE_KWD) {
PAL_INFO(LOG_TAG, "second stage keyword confidence level = %d",
confidence_level);
} else {
PAL_INFO(LOG_TAG, "second stage user confidence level = %d",
confidence_level);
}
info->sec_threshold.push_back(
std::make_pair(sm_levels->sm_id, confidence_level));
}
}
} else {
conf_levels_v2 = (struct st_confidence_levels_info_v2 *)
((char *)opaque_conf_levels + sizeof(struct st_param_header));
st_conf_levels_v2_ = (struct st_confidence_levels_info_v2 *)realloc(st_conf_levels_v2_,
sizeof(struct st_confidence_levels_info_v2));
if (!st_conf_levels_v2_) {
PAL_ERR(LOG_TAG, "failed to alloc stream conf_levels_");
status = -ENOMEM;
goto exit;
}
/* Cache to use during detection event processing */
ar_mem_cpy((uint8_t *)st_conf_levels_v2_, sizeof(struct st_confidence_levels_info_v2),
(uint8_t *)conf_levels_v2, sizeof(struct st_confidence_levels_info_v2));
for (int i = 0; i < conf_levels_v2->num_sound_models; i++) {
sm_levels_v2 = &conf_levels_v2->conf_levels[i];
if (sm_levels_v2->sm_id == ST_SM_ID_SVA_F_STAGE_GMM) {
gmm_conf_found = true;
status = FillOpaqueConfLevels(info->model_id, (void *)sm_levels_v2,
out_conf_levels, out_num_conf_levels, version);
} else if (sm_levels_v2->sm_id & ST_SM_ID_SVA_S_STAGE_KWD ||
sm_levels_v2->sm_id & ST_SM_ID_SVA_S_STAGE_USER) {
confidence_level_v2 =
(sm_levels_v2->sm_id & ST_SM_ID_SVA_S_STAGE_KWD) ?
sm_levels_v2->kw_levels[0].kw_level:
sm_levels_v2->kw_levels[0].user_levels[0].level;
if (sm_levels_v2->sm_id & ST_SM_ID_SVA_S_STAGE_KWD) {
PAL_INFO(LOG_TAG, "second stage keyword confidence level = %d",
confidence_level_v2);
} else {
PAL_INFO(LOG_TAG, "second stage user confidence level = %d",
confidence_level_v2);
}
info->sec_threshold.push_back(
std::make_pair(sm_levels_v2->sm_id, confidence_level_v2));
}
}
}
if (!gmm_conf_found || status) {
PAL_ERR(LOG_TAG, "Did not receive GMM confidence threshold, error!");
status = -EINVAL;
}
exit:
PAL_DBG(LOG_TAG, "Exit");
return status;
}
int32_t SVAInterface::FillConfLevels(
struct sound_model_info *info,
struct pal_st_recognition_config *config,
uint8_t **out_conf_levels,
uint32_t *out_num_conf_levels) {
int32_t status = 0;
uint32_t num_conf_levels = 0;
unsigned int user_level, user_id;
unsigned int i = 0, j = 0;
uint8_t *conf_levels = nullptr;
unsigned char *user_id_tracker = nullptr;
struct pal_st_phrase_sound_model *phrase_sm = nullptr;
PAL_DBG(LOG_TAG, "Enter");
if (!config) {
status = -EINVAL;
PAL_ERR(LOG_TAG, "invalid input status %d", status);
goto exit;
}
phrase_sm = (struct pal_st_phrase_sound_model *)info->model;
if ((config->num_phrases == 0) ||
(phrase_sm && config->num_phrases > phrase_sm->num_phrases)) {
status = -EINVAL;
PAL_ERR(LOG_TAG, "Invalid phrase data status %d", status);
goto exit;
}
for (i = 0; i < config->num_phrases; i++) {
num_conf_levels++;
if (info->model_id == 0) {
for (j = 0; j < config->phrases[i].num_levels; j++)
num_conf_levels++;
}
}
conf_levels = (unsigned char*)calloc(1, num_conf_levels);
if (!conf_levels) {
status = -ENOMEM;
PAL_ERR(LOG_TAG, "conf_levels calloc failed, status %d", status);
goto exit;
}
user_id_tracker = (unsigned char *)calloc(1, num_conf_levels);
if (!user_id_tracker) {
status = -ENOMEM;
PAL_ERR(LOG_TAG, "failed to allocate user_id_tracker status %d",
status);
goto exit;
}
for (i = 0; i < config->num_phrases; i++) {
PAL_VERBOSE(LOG_TAG, "[%d] kw level %d", i,
config->phrases[i].confidence_level);
if (config->phrases[i].confidence_level > ST_MAX_FSTAGE_CONF_LEVEL) {
PAL_ERR(LOG_TAG, "Invalid kw level %d",
config->phrases[i].confidence_level);
status = -EINVAL;
goto exit;
}
for (j = 0; j < config->phrases[i].num_levels; j++) {
PAL_VERBOSE(LOG_TAG, "[%d] user_id %d level %d ", i,
config->phrases[i].levels[j].user_id,
config->phrases[i].levels[j].level);
if (config->phrases[i].levels[j].level > ST_MAX_FSTAGE_CONF_LEVEL) {
PAL_ERR(LOG_TAG, "Invalid user level %d",
config->phrases[i].levels[j].level);
status = -EINVAL;
goto exit;
}
}
}
/* Example: Say the recognition structure has 3 keywords with users
* [0] k1 |uid|
* [0] u1 - 1st trainer
* [1] u2 - 4th trainer
* [3] u3 - 3rd trainer
* [1] k2
* [2] u2 - 2nd trainer
* [4] u3 - 5th trainer
* [2] k3
* [5] u4 - 6th trainer
* Output confidence level array will be
* [k1, k2, k3, u1k1, u2k1, u2k2, u3k1, u3k2, u4k3]
*/
for (i = 0; i < config->num_phrases; i++) {
conf_levels[i] = config->phrases[i].confidence_level;
if (info->model_id == 0) {
for (j = 0; j < config->phrases[i].num_levels; j++) {
user_level = config->phrases[i].levels[j].level;
user_id = config->phrases[i].levels[j].user_id;
if ((user_id < config->num_phrases) ||
(user_id >= num_conf_levels)) {
status = -EINVAL;
PAL_ERR(LOG_TAG, "Invalid params user id %d status %d",
user_id, status);
goto exit;
} else {
if (user_id_tracker[user_id] == 1) {
status = -EINVAL;
PAL_ERR(LOG_TAG, "Duplicate user id %d status %d", user_id,
status);
goto exit;
}
conf_levels[user_id] = (user_level < ST_MAX_FSTAGE_CONF_LEVEL) ?
user_level : ST_MAX_FSTAGE_CONF_LEVEL;
user_id_tracker[user_id] = 1;
PAL_VERBOSE(LOG_TAG, "user_conf_levels[%d] = %d", user_id,
conf_levels[user_id]);
}
}
}
}
*out_conf_levels = conf_levels;
*out_num_conf_levels = num_conf_levels;
exit:
if (status && conf_levels) {
free(conf_levels);
*out_conf_levels = nullptr;
*out_num_conf_levels = 0;
}
if (user_id_tracker)
free(user_id_tracker);
PAL_DBG(LOG_TAG, "Exit, status %d", status);
return status;
}
int32_t SVAInterface::FillOpaqueConfLevels(
uint32_t model_id,
const void *sm_levels_generic,
uint8_t **out_payload,
uint32_t *out_payload_size,
uint32_t version) {
int status = 0;
int32_t level = 0;
unsigned int num_conf_levels = 0;
unsigned int user_level = 0, user_id = 0;
unsigned char *conf_levels = nullptr;
unsigned int i = 0, j = 0;
unsigned char *user_id_tracker = nullptr;
struct st_sound_model_conf_levels *sm_levels = nullptr;
struct st_sound_model_conf_levels_v2 *sm_levels_v2 = nullptr;
PAL_VERBOSE(LOG_TAG, "Enter");
/* Example: Say the recognition structure has 3 keywords with users
* |kid|
* [0] k1 |uid|
* [3] u1 - 1st trainer
* [4] u2 - 4th trainer
* [6] u3 - 3rd trainer
* [1] k2
* [5] u2 - 2nd trainer
* [7] u3 - 5th trainer
* [2] k3
* [8] u4 - 6th trainer
*
* Output confidence level array will be
* [k1, k2, k3, u1k1, u2k1, u2k2, u3k1, u3k2, u4k3]
*/
if (version != CONF_LEVELS_INTF_VERSION_0002) {
sm_levels = (struct st_sound_model_conf_levels *)sm_levels_generic;
if (!sm_levels) {
status = -EINVAL;
PAL_ERR(LOG_TAG, "ERROR. Invalid inputs");
goto exit;
}
for (i = 0; i < sm_levels->num_kw_levels; i++) {
level = sm_levels->kw_levels[i].kw_level;
if (level < 0 || level > ST_MAX_FSTAGE_CONF_LEVEL) {
PAL_ERR(LOG_TAG, "Invalid First stage [%d] kw level %d", i, level);
status = -EINVAL;
goto exit;
} else {
PAL_DBG(LOG_TAG, "First stage [%d] kw level %d", i, level);
}
for (j = 0; j < sm_levels->kw_levels[i].num_user_levels; j++) {
level = sm_levels->kw_levels[i].user_levels[j].level;
if (level < 0 || level > ST_MAX_FSTAGE_CONF_LEVEL) {
PAL_ERR(LOG_TAG, "Invalid First stage [%d] user_id %d level %d", i,
sm_levels->kw_levels[i].user_levels[j].user_id, level);
status = -EINVAL;
goto exit;
} else {
PAL_DBG(LOG_TAG, "First stage [%d] user_id %d level %d ", i,
sm_levels->kw_levels[i].user_levels[j].user_id, level);
}
}
}
for (i = 0; i < sm_levels->num_kw_levels; i++) {
num_conf_levels++;
if (model_id == 0) {
for (j = 0; j < sm_levels->kw_levels[i].num_user_levels; j++)
num_conf_levels++;
}
}
PAL_DBG(LOG_TAG, "Number of confidence levels : %d", num_conf_levels);
if (!num_conf_levels) {
status = -EINVAL;
PAL_ERR(LOG_TAG, "ERROR. Invalid num_conf_levels input");
goto exit;
}
conf_levels = (unsigned char*)calloc(1, num_conf_levels);
if (!conf_levels) {
status = -ENOMEM;
PAL_ERR(LOG_TAG, "conf_levels calloc failed, status %d", status);
goto exit;
}
user_id_tracker = (unsigned char *)calloc(1, num_conf_levels);
if (!user_id_tracker) {
status = -ENOMEM;
PAL_ERR(LOG_TAG, "failed to allocate user_id_tracker status %d",
status);
goto exit;
}
for (i = 0; i < sm_levels->num_kw_levels; i++) {
if (i < num_conf_levels) {
conf_levels[i] = sm_levels->kw_levels[i].kw_level;
} else {
status = -EINVAL;
PAL_ERR(LOG_TAG, "ERROR. Invalid numver of kw levels");
goto exit;
}
if (model_id == 0) {
for (j = 0; j < sm_levels->kw_levels[i].num_user_levels; j++) {
user_level = sm_levels->kw_levels[i].user_levels[j].level;
user_id = sm_levels->kw_levels[i].user_levels[j].user_id;
if ((user_id < sm_levels->num_kw_levels) ||
(user_id >= num_conf_levels)) {
status = -EINVAL;
PAL_ERR(LOG_TAG, "ERROR. Invalid params user id %d>%d",
user_id, num_conf_levels);
goto exit;
} else {
if (user_id_tracker[user_id] == 1) {
status = -EINVAL;
PAL_ERR(LOG_TAG, "ERROR. Duplicate user id %d",
user_id);
goto exit;
}
conf_levels[user_id] = user_level;
user_id_tracker[user_id] = 1;
PAL_ERR(LOG_TAG, "user_conf_levels[%d] = %d",
user_id, conf_levels[user_id]);
}
}
}
}
} else {
sm_levels_v2 =
(struct st_sound_model_conf_levels_v2 *)sm_levels_generic;
if (!sm_levels_v2) {
status = -EINVAL;
PAL_ERR(LOG_TAG, "ERROR. Invalid inputs");
goto exit;
}
for (i = 0; i < sm_levels_v2->num_kw_levels; i++) {
level = sm_levels_v2->kw_levels[i].kw_level;
if (level < 0 || level > ST_MAX_FSTAGE_CONF_LEVEL) {
PAL_ERR(LOG_TAG, "Invalid First stage [%d] kw level %d", i, level);
status = -EINVAL;
goto exit;
} else {
PAL_DBG(LOG_TAG, "First stage [%d] kw level %d", i, level);
}
for (j = 0; j < sm_levels_v2->kw_levels[i].num_user_levels; j++) {
level = sm_levels_v2->kw_levels[i].user_levels[j].level;
if (level < 0 || level > ST_MAX_FSTAGE_CONF_LEVEL) {
PAL_ERR(LOG_TAG, "Invalid First stage [%d] user_id %d level %d", i,
sm_levels_v2->kw_levels[i].user_levels[j].user_id, level);
status = -EINVAL;
goto exit;
} else {
PAL_DBG(LOG_TAG, "First stage [%d] user_id %d level %d ", i,
sm_levels_v2->kw_levels[i].user_levels[j].user_id, level);
}
}
}
for (i = 0; i < sm_levels_v2->num_kw_levels; i++) {
num_conf_levels++;
if (model_id == 0) {
for (j = 0; j < sm_levels_v2->kw_levels[i].num_user_levels; j++)
num_conf_levels++;
}
}
PAL_DBG(LOG_TAG,"number of confidence levels : %d", num_conf_levels);
if (!num_conf_levels) {
status = -EINVAL;
PAL_ERR(LOG_TAG, "ERROR. Invalid num_conf_levels input");
goto exit;
}
conf_levels = (unsigned char*)calloc(1, num_conf_levels);
if (!conf_levels) {
status = -ENOMEM;
PAL_ERR(LOG_TAG, "conf_levels calloc failed, status %d", status);
goto exit;
}
user_id_tracker = (unsigned char *)calloc(1, num_conf_levels);
if (!user_id_tracker) {
status = -ENOMEM;
PAL_ERR(LOG_TAG, "failed to allocate user_id_tracker status %d",
status);
goto exit;
}
for (i = 0; i < sm_levels_v2->num_kw_levels; i++) {
if (i < num_conf_levels) {
conf_levels[i] = sm_levels_v2->kw_levels[i].kw_level;
} else {
status = -EINVAL;
PAL_ERR(LOG_TAG, "ERROR. Invalid numver of kw levels");
goto exit;
}
if (model_id == 0) {
for (j = 0; j < sm_levels_v2->kw_levels[i].num_user_levels; j++) {
user_level = sm_levels_v2->kw_levels[i].user_levels[j].level;
user_id = sm_levels_v2->kw_levels[i].user_levels[j].user_id;
if ((user_id < sm_levels_v2->num_kw_levels) ||
(user_id >= num_conf_levels)) {
status = -EINVAL;
PAL_ERR(LOG_TAG, "ERROR. Invalid params user id %d>%d",
user_id, num_conf_levels);
goto exit;
} else {
if (user_id_tracker[user_id] == 1) {
status = -EINVAL;
PAL_ERR(LOG_TAG, "ERROR. Duplicate user id %d",
user_id);
goto exit;
}
conf_levels[user_id] = user_level;
user_id_tracker[user_id] = 1;
PAL_VERBOSE(LOG_TAG, "user_conf_levels[%d] = %d",
user_id, conf_levels[user_id]);
}
}
}
}
}
*out_payload = conf_levels;
*out_payload_size = num_conf_levels;
PAL_DBG(LOG_TAG, "Returning number of conf levels : %d", *out_payload_size);
exit:
if (status && conf_levels) {
free(conf_levels);
*out_payload = nullptr;
*out_payload_size = 0;
}
if (user_id_tracker)
free(user_id_tracker);
PAL_DBG(LOG_TAG, "Exit, status %d", status);
return status;
}
int32_t SVAInterface::ParseDetectionPayloadPDK(void *event_data) {
int32_t status = 0;
uint32_t payload_size = 0;
uint32_t parsed_size = 0;
uint32_t event_size = 0;
uint32_t keyId = 0;
uint64_t kwd_start_timestamp = 0;
uint64_t kwd_end_timestamp = 0;
uint64_t ftrt_start_timestamp = 0;
uint8_t *ptr = nullptr;
struct event_id_detection_engine_generic_info_t *generic_info = nullptr;
struct detection_event_info_header_t *event_header = nullptr;
struct ftrt_data_info_t *ftrt_info = nullptr;
struct voice_ui_multi_model_result_info_t *multi_model_result = nullptr;
struct model_stats *model_stat = nullptr;
struct model_stats *detected_model_stat = nullptr;
PAL_DBG(LOG_TAG, "Enter");
if (!event_data) {
PAL_ERR(LOG_TAG, "Invalid event data");
return -EINVAL;
}
std::memset(&detection_event_info_multi_model_, 0,
sizeof(struct voice_ui_multi_model_result_info_t));
generic_info = (struct event_id_detection_engine_generic_info_t *)
event_data;
payload_size = sizeof(struct event_id_detection_engine_generic_info_t);
event_size = generic_info->payload_size;
ptr = (uint8_t *)event_data + payload_size;
if (!event_size) {
status = -EINVAL;
PAL_ERR(LOG_TAG, "Invalid detection payload");
goto exit;
}
PAL_INFO(LOG_TAG, "event_size = %u", event_size);
while (parsed_size < event_size) {
PAL_DBG(LOG_TAG, "parsed_size = %u, event_size = %u", parsed_size,
event_size);
event_header = (struct detection_event_info_header_t *)ptr;
keyId = event_header->key_id;
payload_size = event_header->payload_size;
ptr += sizeof(struct detection_event_info_header_t);
parsed_size += sizeof(struct detection_event_info_header_t);
switch (keyId) {
case KEY_ID_FTRT_DATA_INFO :
PAL_INFO(LOG_TAG, "ftrt structure size : %u", payload_size);
ftrt_info = (struct ftrt_data_info_t *)ptr;
detection_event_info_multi_model_.ftrt_data_length_in_us =
ftrt_info->ftrt_data_length_in_us;
PAL_INFO(LOG_TAG, "ftrt_data_length_in_us = %u",
detection_event_info_multi_model_.ftrt_data_length_in_us);
ftrt_size_ = UsToBytes(ftrt_info->ftrt_data_length_in_us);
break;
case KEY_ID_VOICE_UI_MULTI_MODEL_RESULT_INFO :
PAL_INFO(LOG_TAG, "voice_ui_multi_model_result_info : %u",
payload_size );
multi_model_result = (struct voice_ui_multi_model_result_info_t *)
ptr;
detection_event_info_multi_model_.num_detected_models =
multi_model_result->num_detected_models;
PAL_INFO(LOG_TAG, "Number of detected models : %d",
detection_event_info_multi_model_.num_detected_models);
model_stat = (struct model_stats *)(ptr +
sizeof(struct voice_ui_multi_model_result_info_t));
det_model_id_ = model_stat->detected_model_id;
for (int i = 0; i < detection_event_info_multi_model_.
num_detected_models; ++i) {
detection_event_info_multi_model_.detected_model_stats[i].
detected_model_id = model_stat->detected_model_id;
detection_event_info_multi_model_.detected_model_stats[i].
detected_keyword_id = model_stat->detected_keyword_id;
PAL_INFO(LOG_TAG, "detected keyword id : %u",
detection_event_info_multi_model_.detected_model_stats[i].
detected_keyword_id);
detection_event_info_multi_model_.detected_model_stats[i].
best_channel_idx = model_stat->best_channel_idx;
detection_event_info_multi_model_.detected_model_stats[i].
best_confidence_level = model_stat->best_confidence_level;
PAL_INFO(LOG_TAG, "detected best conf level : %u",
detection_event_info_multi_model_.detected_model_stats[i].
best_confidence_level);
detection_event_info_multi_model_.detected_model_stats[i].
kw_start_timestamp_lsw = model_stat->kw_start_timestamp_lsw;
PAL_INFO(LOG_TAG, "kw_start_timestamp_lsw : %u",
detection_event_info_multi_model_.detected_model_stats[i].
kw_start_timestamp_lsw);
detection_event_info_multi_model_.detected_model_stats[i].
kw_start_timestamp_msw = model_stat->kw_start_timestamp_msw;
PAL_INFO(LOG_TAG, "kw_start_timestamp_msw : %u",
detection_event_info_multi_model_.detected_model_stats[i].
kw_start_timestamp_msw);
detection_event_info_multi_model_.detected_model_stats[i].
kw_end_timestamp_lsw = model_stat->kw_end_timestamp_lsw;
PAL_INFO(LOG_TAG, "kw_end_timestamp_lsw : %u",
detection_event_info_multi_model_.detected_model_stats[i].
kw_end_timestamp_lsw);
detection_event_info_multi_model_.detected_model_stats[i].
kw_end_timestamp_msw = model_stat->kw_end_timestamp_msw;
PAL_INFO(LOG_TAG, "kw_end_timestamp_msw : %u",
detection_event_info_multi_model_.detected_model_stats[i].
kw_end_timestamp_msw);
detection_event_info_multi_model_.detected_model_stats[i].
detection_timestamp_lsw = model_stat->detection_timestamp_lsw;
PAL_INFO(LOG_TAG, "detection_timestamp_lsw : %u",
detection_event_info_multi_model_.detected_model_stats[i].
detection_timestamp_lsw);
detection_event_info_multi_model_.detected_model_stats[i].
detection_timestamp_msw = model_stat->detection_timestamp_msw;
PAL_INFO(LOG_TAG, "detection_timestamp_msw : %u",
detection_event_info_multi_model_.detected_model_stats[i].
detection_timestamp_msw);
PAL_INFO(LOG_TAG," Detection made for model id : %x",
detection_event_info_multi_model_.detected_model_stats[i].
detected_model_id);
model_stat += sizeof(struct model_stats);
}
break;
default :
status = -EINVAL;
PAL_ERR(LOG_TAG, "Invalid key id %u status %d", keyId, status);
goto exit;
}
ptr += payload_size;
parsed_size += payload_size;
}
detected_model_stat =
&detection_event_info_multi_model_.detected_model_stats[0];
kwd_start_timestamp =
(uint64_t)detected_model_stat->kw_start_timestamp_lsw +
((uint64_t)detected_model_stat->kw_start_timestamp_msw << 32);
kwd_end_timestamp =
(uint64_t)detected_model_stat->kw_end_timestamp_lsw +
((uint64_t)detected_model_stat->kw_end_timestamp_msw << 32);
ftrt_start_timestamp =
(uint64_t)detected_model_stat->detection_timestamp_lsw +
((uint64_t)detected_model_stat->detection_timestamp_msw << 32) -
detection_event_info_multi_model_.ftrt_data_length_in_us;
UpdateKeywordIndex(kwd_start_timestamp, kwd_end_timestamp,
ftrt_start_timestamp);
exit :
PAL_DBG(LOG_TAG, "Exit, status %d", status);
return status;
}
int32_t SVAInterface::ParseDetectionPayloadGMM(void *event_data) {
int32_t status = 0;
int32_t i = 0;
uint32_t parsed_size = 0;
uint32_t payload_size = 0;
uint32_t event_size = 0;
uint64_t kwd_start_timestamp = 0;
uint64_t kwd_end_timestamp = 0;
uint64_t ftrt_start_timestamp = 0;
uint8_t *ptr = nullptr;
struct event_id_detection_engine_generic_info_t *generic_info = nullptr;
struct detection_event_info_header_t *event_header = nullptr;
struct confidence_level_info_t *confidence_info = nullptr;
struct keyword_position_info_t *keyword_position_info = nullptr;
struct detection_timestamp_info_t *detection_timestamp_info = nullptr;
struct ftrt_data_info_t *ftrt_info = nullptr;
PAL_DBG(LOG_TAG, "Enter");
if (!event_data) {
PAL_ERR(LOG_TAG, "Invalid event data");
return -EINVAL;
}
std::memset(&detection_event_info_, 0, sizeof(struct detection_event_info));
generic_info =
(struct event_id_detection_engine_generic_info_t *)event_data;
payload_size = sizeof(struct event_id_detection_engine_generic_info_t);
detection_event_info_.status = generic_info->status;
event_size = generic_info->payload_size;
ptr = (uint8_t *)event_data + payload_size;
PAL_INFO(LOG_TAG, "status = %u, event_size = %u",
detection_event_info_.status, event_size);
if (status || !event_size) {
status = -EINVAL;
PAL_ERR(LOG_TAG, "Invalid detection payload");
goto exit;
}
// parse variable payload
while (parsed_size < event_size) {
PAL_DBG(LOG_TAG, "parsed_size = %u, event_size = %u",
parsed_size, event_size);
event_header = (struct detection_event_info_header_t *)ptr;
uint32_t keyId = event_header->key_id;
payload_size = event_header->payload_size;
PAL_DBG(LOG_TAG, "key id = %u, payload_size = %u",
keyId, payload_size);
ptr += sizeof(struct detection_event_info_header_t);
parsed_size += sizeof(struct detection_event_info_header_t);
switch (keyId) {
case KEY_ID_CONFIDENCE_LEVELS_INFO:
confidence_info = (struct confidence_level_info_t *)ptr;
detection_event_info_.num_confidence_levels =
confidence_info->number_of_confidence_values;
PAL_INFO(LOG_TAG, "num_confidence_levels = %u",
detection_event_info_.num_confidence_levels);
for (i = 0; i < detection_event_info_.num_confidence_levels; i++) {
detection_event_info_.confidence_levels[i] =
confidence_info->confidence_levels[i];
PAL_INFO(LOG_TAG, "confidence_levels[%d] = %u", i,
detection_event_info_.confidence_levels[i]);
}
break;
case KEY_ID_KWD_POSITION_INFO:
keyword_position_info = (struct keyword_position_info_t *)ptr;
detection_event_info_.kw_start_timestamp_lsw =
keyword_position_info->kw_start_timestamp_lsw;
detection_event_info_.kw_start_timestamp_msw =
keyword_position_info->kw_start_timestamp_msw;
detection_event_info_.kw_end_timestamp_lsw =
keyword_position_info->kw_end_timestamp_lsw;
detection_event_info_.kw_end_timestamp_msw =
keyword_position_info->kw_end_timestamp_msw;
PAL_INFO(LOG_TAG, "start_lsw = %u, start_msw = %u, "
"end_lsw = %u, end_msw = %u",
detection_event_info_.kw_start_timestamp_lsw,
detection_event_info_.kw_start_timestamp_msw,
detection_event_info_.kw_end_timestamp_lsw,
detection_event_info_.kw_end_timestamp_msw);
break;
case KEY_ID_TIMESTAMP_INFO:
detection_timestamp_info = (struct detection_timestamp_info_t *)ptr;
detection_event_info_.detection_timestamp_lsw =
detection_timestamp_info->detection_timestamp_lsw;
detection_event_info_.detection_timestamp_msw =
detection_timestamp_info->detection_timestamp_msw;
PAL_INFO(LOG_TAG, "timestamp_lsw = %u, timestamp_msw = %u",
detection_event_info_.detection_timestamp_lsw,
detection_event_info_.detection_timestamp_msw);
break;
case KEY_ID_FTRT_DATA_INFO:
ftrt_info = (struct ftrt_data_info_t *)ptr;
ftrt_size_ = UsToBytes(ftrt_info->ftrt_data_length_in_us);
detection_event_info_.ftrt_data_length_in_us =
ftrt_info->ftrt_data_length_in_us;
PAL_INFO(LOG_TAG, "ftrt_data_length_in_us = %u",
detection_event_info_.ftrt_data_length_in_us);
break;
default:
status = -EINVAL;
PAL_ERR(LOG_TAG, "Invalid key id %u status %d", keyId, status);
goto exit;
}
ptr += payload_size;
parsed_size += payload_size;
}
kwd_start_timestamp =
(uint64_t)detection_event_info_.kw_start_timestamp_lsw +
((uint64_t)detection_event_info_.kw_start_timestamp_msw << 32);
kwd_end_timestamp =
(uint64_t)detection_event_info_.kw_end_timestamp_lsw +
((uint64_t)detection_event_info_.kw_end_timestamp_msw << 32);
ftrt_start_timestamp =
(uint64_t)detection_event_info_.detection_timestamp_lsw +
((uint64_t)detection_event_info_.detection_timestamp_msw << 32) -
detection_event_info_.ftrt_data_length_in_us;
UpdateKeywordIndex(kwd_start_timestamp, kwd_end_timestamp,
ftrt_start_timestamp);
det_model_id_ = 0;
exit:
PAL_DBG(LOG_TAG, "Exit, status %d", status);
return status;
}
void SVAInterface::UpdateKeywordIndex(uint64_t kwd_start_timestamp,
uint64_t kwd_end_timestamp,
uint64_t ftrt_start_timestamp) {
PAL_VERBOSE(LOG_TAG, "kwd start timestamp: %llu, kwd end timestamp: %llu",
(long long)kwd_start_timestamp, (long long)kwd_end_timestamp);
PAL_VERBOSE(LOG_TAG, "Ftrt data start timestamp : %llu",
(long long)ftrt_start_timestamp);
if (kwd_start_timestamp >= kwd_end_timestamp ||
kwd_start_timestamp < ftrt_start_timestamp) {
PAL_DBG(LOG_TAG, "Invalid timestamp, cannot compute keyword index");
return;
}
start_index_ = UsToBytes(kwd_start_timestamp - ftrt_start_timestamp);
end_index_ = UsToBytes(kwd_end_timestamp - ftrt_start_timestamp);
PAL_INFO(LOG_TAG, "start_index : %zu, end_index : %zu",
start_index_, end_index_);
}
void SVAInterface::PackEventConfLevels(struct sound_model_info *sm_info,
uint8_t *opaque_data) {
struct st_confidence_levels_info *conf_levels = nullptr;
struct st_confidence_levels_info_v2 *conf_levels_v2 = nullptr;
uint32_t i = 0, j = 0, k = 0, user_id = 0, num_user_levels = 0;
PAL_VERBOSE(LOG_TAG, "Enter");
/*
* Update the opaque data of callback event with confidence levels
* accordingly for all users and keywords from the detection event
*/
if (conf_levels_intf_version_ != CONF_LEVELS_INTF_VERSION_0002) {
conf_levels = (struct st_confidence_levels_info *)opaque_data;
for (i = 0; i < conf_levels->num_sound_models; i++) {
if (conf_levels->conf_levels[i].sm_id == ST_SM_ID_SVA_F_STAGE_GMM) {
for (j = 0; j < conf_levels->conf_levels[i].num_kw_levels; j++) {
if (j <= sm_info->info->GetConfLevelsSize())
conf_levels->conf_levels[i].kw_levels[j].kw_level =
sm_info->info->GetDetConfLevels()[j];
else
PAL_ERR(LOG_TAG, "unexpected conf size %d < %d",
sm_info->info->GetConfLevelsSize(), j);
num_user_levels =
conf_levels->conf_levels[i].kw_levels[j].num_user_levels;
for (k = 0; k < num_user_levels; k++) {
user_id = conf_levels->conf_levels[i].kw_levels[j].
user_levels[k].user_id;
if (user_id <= sm_info->info->GetConfLevelsSize())
conf_levels->conf_levels[i].kw_levels[j].user_levels[k].
level = sm_info->info->GetDetConfLevels()[user_id];
else
PAL_ERR(LOG_TAG, "Unexpected conf size %d < %d",
sm_info->info->GetConfLevelsSize(), user_id);
}
}
} else if (conf_levels->conf_levels[i].sm_id & ST_SM_ID_SVA_S_STAGE_KWD ||
conf_levels->conf_levels[i].sm_id & ST_SM_ID_SVA_S_STAGE_USER) {
/* Update confidence levels for second stage */
for (auto &iter: sm_info->sec_det_level) {
if ((conf_levels->conf_levels[i].sm_id & ST_SM_ID_SVA_S_STAGE_KWD) &&
(iter.first & ST_SM_ID_SVA_S_STAGE_KWD)) {
conf_levels->conf_levels[i].kw_levels[0].kw_level = iter.second;
conf_levels->conf_levels[i].kw_levels[0].user_levels[0].level = 0;
} else if ((conf_levels->conf_levels[i].sm_id & ST_SM_ID_SVA_S_STAGE_USER) &&
(iter.first == conf_levels->conf_levels[i].sm_id)) {
conf_levels->conf_levels[i].kw_levels[0].kw_level = iter.second;
conf_levels->conf_levels[i].kw_levels[0].user_levels[0].level = iter.second;
}
}
}
}
} else {
conf_levels_v2 = (struct st_confidence_levels_info_v2 *)opaque_data;
for (i = 0; i < conf_levels_v2->num_sound_models; i++) {
if (conf_levels_v2->conf_levels[i].sm_id == ST_SM_ID_SVA_F_STAGE_GMM) {
for (j = 0; j < conf_levels_v2->conf_levels[i].num_kw_levels; j++) {
if (j <= sm_info->info->GetConfLevelsSize())
conf_levels_v2->conf_levels[i].kw_levels[j].kw_level =
sm_info->info->GetDetConfLevels()[j];
else
PAL_ERR(LOG_TAG, "unexpected conf size %d < %d",
sm_info->info->GetConfLevelsSize(), j);
PAL_INFO(LOG_TAG, "First stage KW Conf levels[%d]-%d",
j, sm_info->info->GetDetConfLevels()[j]);
num_user_levels =
conf_levels_v2->conf_levels[i].kw_levels[j].num_user_levels;
for (k = 0; k < num_user_levels; k++) {
user_id = conf_levels_v2->conf_levels[i].kw_levels[j].
user_levels[k].user_id;
if (user_id <= sm_info->info->GetConfLevelsSize())
conf_levels_v2->conf_levels[i].kw_levels[j].user_levels[k].
level = sm_info->info->GetDetConfLevels()[user_id];
else
PAL_ERR(LOG_TAG, "Unexpected conf size %d < %d",
sm_info->info->GetConfLevelsSize(), user_id);
PAL_INFO(LOG_TAG, "First stage User Conf levels[%d]-%d",
k, sm_info->info->GetDetConfLevels()[user_id]);
}
}
} else if (conf_levels_v2->conf_levels[i].sm_id & ST_SM_ID_SVA_S_STAGE_KWD ||
conf_levels_v2->conf_levels[i].sm_id & ST_SM_ID_SVA_S_STAGE_USER) {
/* Update confidence levels for second stage */
for (auto &iter: sm_info->sec_det_level) {
if ((conf_levels_v2->conf_levels[i].sm_id & ST_SM_ID_SVA_S_STAGE_KWD) &&
(iter.first & ST_SM_ID_SVA_S_STAGE_KWD)) {
conf_levels_v2->conf_levels[i].kw_levels[0].kw_level = iter.second;
conf_levels_v2->conf_levels[i].kw_levels[0].user_levels[0].level = 0;
} else if ((conf_levels_v2->conf_levels[i].sm_id & ST_SM_ID_SVA_S_STAGE_USER) &&
(iter.first == ST_SM_ID_SVA_S_STAGE_USER)) {
conf_levels_v2->conf_levels[i].kw_levels[0].kw_level = iter.second;
conf_levels_v2->conf_levels[i].kw_levels[0].user_levels[0].level = iter.second;
}
}
}
}
}
PAL_VERBOSE(LOG_TAG, "Exit");
}
void SVAInterface::FillCallbackConfLevels(struct sound_model_info *sm_info,
uint8_t *opaque_data,
uint32_t det_keyword_id,
uint32_t best_conf_level) {
int i = 0;
struct st_confidence_levels_info_v2 *conf_levels_v2 = nullptr;
struct st_confidence_levels_info *conf_levels = nullptr;
if (conf_levels_intf_version_ != CONF_LEVELS_INTF_VERSION_0002) {
conf_levels = (struct st_confidence_levels_info *)opaque_data;
for (i = 0; i < conf_levels->num_sound_models; i++) {
if (conf_levels->conf_levels[i].sm_id == ST_SM_ID_SVA_F_STAGE_GMM) {
conf_levels->conf_levels[i].kw_levels[det_keyword_id].
kw_level = best_conf_level;
conf_levels->conf_levels[i].kw_levels[det_keyword_id].
user_levels[0].level = 0;
PAL_INFO(LOG_TAG, "First stage returning conf level : %d",
best_conf_level);
} else if (conf_levels->conf_levels[i].sm_id & ST_SM_ID_SVA_S_STAGE_KWD) {
for (auto iter: sm_info->sec_det_level) {
if (iter.first & ST_SM_ID_SVA_S_STAGE_KWD) {
conf_levels->conf_levels[i].kw_levels[0].kw_level = iter.second;
conf_levels->conf_levels[i].kw_levels[0].user_levels[0].level = 0;
PAL_INFO(LOG_TAG, "Second stage keyword conf level: %d", iter.second);
}
}
} else if (conf_levels->conf_levels[i].sm_id & ST_SM_ID_SVA_S_STAGE_USER) {
for (auto iter: sm_info->sec_det_level) {
if (iter.first & ST_SM_ID_SVA_S_STAGE_USER) {
conf_levels->conf_levels[i].kw_levels[0].kw_level = iter.second;
conf_levels->conf_levels[i].kw_levels[0].user_levels[0].level = iter.second;
PAL_INFO(LOG_TAG, "Second stage user conf level: %d", iter.second);
}
}
}
}
} else {
conf_levels_v2 = (struct st_confidence_levels_info_v2 *)opaque_data;
for (i = 0; i < conf_levels_v2->num_sound_models; i++) {
if (conf_levels_v2->conf_levels[i].sm_id == ST_SM_ID_SVA_F_STAGE_GMM) {
conf_levels_v2->conf_levels[i].kw_levels[det_keyword_id].
kw_level = best_conf_level;
conf_levels_v2->conf_levels[i].kw_levels[det_keyword_id].
user_levels[0].level = 0;
PAL_INFO(LOG_TAG, "First stage returning conf level: %d",
best_conf_level);
} else if (conf_levels_v2->conf_levels[i].sm_id & ST_SM_ID_SVA_S_STAGE_KWD) {
for (auto iter: sm_info->sec_det_level) {
if (iter.first & ST_SM_ID_SVA_S_STAGE_KWD) {
conf_levels_v2->conf_levels[i].kw_levels[0].kw_level = iter.second;
conf_levels_v2->conf_levels[i].kw_levels[0].user_levels[0].level = 0;
PAL_INFO(LOG_TAG, "Second stage keyword conf level: %d", iter.second);
}
}
} else if (conf_levels_v2->conf_levels[i].sm_id & ST_SM_ID_SVA_S_STAGE_USER) {
for (auto iter: sm_info->sec_det_level) {
if (iter.first & ST_SM_ID_SVA_S_STAGE_USER) {
conf_levels_v2->conf_levels[i].kw_levels[0].kw_level = iter.second;
conf_levels_v2->conf_levels[i].kw_levels[0].user_levels[0].level = iter.second;
PAL_INFO(LOG_TAG, "Second stage user conf level: %d", iter.second);
}
}
}
}
}
}
void SVAInterface::CheckAndSetDetectionConfLevels(Stream *s) {
PAL_DBG(LOG_TAG, "Enter");
if (!s) {
PAL_ERR(LOG_TAG, "Invalid detected stream");
return;
}
if (detection_event_info_.num_confidence_levels <
sound_model_info_->GetConfLevelsSize()) {
PAL_ERR(LOG_TAG, "detection event conf lvls %d < eng conf lvl size %d",
detection_event_info_.num_confidence_levels,
sound_model_info_->GetConfLevelsSize());
return;
}
/* Reset any cached previous detection conf level values */
sm_info_map_[s]->info->ResetDetConfLevels();
/* Extract the stream conf level values from SPF detection payload */
for (uint32_t i = 0; i < sound_model_info_->GetConfLevelsSize(); i++) {
if (!detection_event_info_.confidence_levels[i])
continue;
for (uint32_t j = 0; j < sm_info_map_[s]->info->GetConfLevelsSize(); j++) {
if (!strcmp(sm_info_map_[s]->info->GetConfLevelsKwUsers()[j],
sound_model_info_->GetConfLevelsKwUsers()[i])) {
sm_info_map_[s]->info->UpdateDetConfLevel(j,
detection_event_info_.confidence_levels[i]);
}
}
}
for (uint32_t i = 0; i < sm_info_map_[s]->info->GetConfLevelsSize(); i++)
PAL_INFO(LOG_TAG, "det_cf_levels[%d]-%d", i,
sm_info_map_[s]->info->GetDetConfLevels()[i]);
}