blob: ba286a15eeebde34a1569c01944c2c93ada390fb [file] [log] [blame]
/*
* Copyright (C) 2011 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (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.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include <stdlib.h>
#include <string.h>
#define LOG_TAG "PreProcessing"
//#define LOG_NDEBUG 0
#include <utils/Log.h>
#include <utils/Timers.h>
#include <hardware/audio_effect.h>
#include <audio_effects/effect_aec.h>
#include <audio_effects/effect_agc.h>
#include <audio_effects/effect_ns.h>
#include "modules/interface/module_common_types.h"
#include "modules/audio_processing/main/interface/audio_processing.h"
#include "speex/speex_resampler.h"
//------------------------------------------------------------------------------
// local definitions
//------------------------------------------------------------------------------
// maximum number of sessions
#define PREPROC_NUM_SESSIONS 8
// types of pre processing modules
enum preproc_id
{
PREPROC_AGC, // Automatic Gain Control
PREPROC_AEC, // Acoustic Echo Canceler
PREPROC_NS, // Noise Suppressor
PREPROC_NUM_EFFECTS
};
// Session state
enum preproc_session_state {
PREPROC_SESSION_STATE_INIT, // initialized
PREPROC_SESSION_STATE_CONFIG // configuration received
};
// Effect/Preprocessor state
enum preproc_effect_state {
PREPROC_EFFECT_STATE_INIT, // initialized
PREPROC_EFFECT_STATE_CREATED, // webRTC engine created
PREPROC_EFFECT_STATE_CONFIG, // configuration received/disabled
PREPROC_EFFECT_STATE_ACTIVE // active/enabled
};
// handle on webRTC engine
typedef void* preproc_fx_handle_t;
typedef struct preproc_session_s preproc_session_t;
typedef struct preproc_effect_s preproc_effect_t;
typedef struct preproc_ops_s preproc_ops_t;
// Effect operation table. Functions for all pre processors are declared in sPreProcOps[] table.
// Function pointer can be null if no action required.
struct preproc_ops_s {
int (* create)(preproc_effect_t *fx);
int (* init)(preproc_effect_t *fx);
int (* reset)(preproc_effect_t *fx);
void (* enable)(preproc_effect_t *fx);
void (* disable)(preproc_effect_t *fx);
int (* set_parameter)(preproc_effect_t *fx, void *param, void *value);
int (* get_parameter)(preproc_effect_t *fx, void *param, size_t *size, void *value);
int (* set_device)(preproc_effect_t *fx, uint32_t device);
};
// Effect context
struct preproc_effect_s {
const struct effect_interface_s *itfe;
uint32_t procId; // type of pre processor (enum preproc_id)
uint32_t state; // current state (enum preproc_effect_state)
preproc_session_t *session; // session the effect is on
const preproc_ops_t *ops; // effect ops table
preproc_fx_handle_t engine; // handle on webRTC engine
};
// Session context
struct preproc_session_s {
struct preproc_effect_s effects[PREPROC_NUM_EFFECTS]; // effects in this session
uint32_t state; // current state (enum preproc_session_state)
int id; // audio session ID
int io; // handle of input stream this session is on
webrtc::AudioProcessing* apm; // handle on webRTC audio processing module (APM)
size_t apmFrameCount; // buffer size for webRTC process (10 ms)
uint32_t apmSamplingRate; // webRTC APM sampling rate (8/16 or 32 kHz)
size_t frameCount; // buffer size before input resampler ( <=> apmFrameCount)
uint32_t samplingRate; // sampling rate at effect process interface
uint32_t inChannelCount; // input channel count
uint32_t outChannelCount; // output channel count
uint32_t createdMsk; // bit field containing IDs of crested pre processors
uint32_t enabledMsk; // bit field containing IDs of enabled pre processors
uint32_t processedMsk; // bit field containing IDs of pre processors already
// processed in current round
webrtc::AudioFrame *procFrame; // audio frame passed to webRTC AMP ProcessStream()
int16_t *inBuf; // input buffer used when resampling
size_t inBufSize; // input buffer size in frames
size_t framesIn; // number of frames in input buffer
SpeexResamplerState *inResampler; // handle on input speex resampler
int16_t *outBuf; // output buffer used when resampling
size_t outBufSize; // output buffer size in frames
size_t framesOut; // number of frames in output buffer
SpeexResamplerState *outResampler; // handle on output speex resampler
uint32_t revChannelCount; // number of channels on reverse stream
uint32_t revEnabledMsk; // bit field containing IDs of enabled pre processors
// with reverse channel
uint32_t revProcessedMsk; // bit field containing IDs of pre processors with reverse
// channel already processed in current round
webrtc::AudioFrame *revFrame; // audio frame passed to webRTC AMP AnalyzeReverseStream()
int16_t *revBuf; // reverse channel input buffer
size_t revBufSize; // reverse channel input buffer size
size_t framesRev; // number of frames in reverse channel input buffer
SpeexResamplerState *revResampler; // handle on reverse channel input speex resampler
};
//------------------------------------------------------------------------------
// Effect descriptors
//------------------------------------------------------------------------------
// UUIDs for effect types have been generated from http://www.itu.int/ITU-T/asn1/uuid.html
// as the pre processing effects are not defined by OpenSL ES
// Automatic Gain Control
static const effect_descriptor_t sAgcDescriptor = {
{ 0x0a8abfe0, 0x654c, 0x11e0, 0xba26, { 0x00, 0x02, 0xa5, 0xd5, 0xc5, 0x1b } }, // type
{ 0xaa8130e0, 0x66fc, 0x11e0, 0xbad0, { 0x00, 0x02, 0xa5, 0xd5, 0xc5, 0x1b } }, // uuid
EFFECT_CONTROL_API_VERSION,
(EFFECT_FLAG_TYPE_PRE_PROC|EFFECT_FLAG_DEVICE_IND),
0, //FIXME indicate CPU load
0, //FIXME indicate memory usage
"Automatic Gain Control",
"The Android Open Source Project"
};
// Acoustic Echo Cancellation
static const effect_descriptor_t sAecDescriptor = {
{ 0x7b491460, 0x8d4d, 0x11e0, 0xbd61, { 0x00, 0x02, 0xa5, 0xd5, 0xc5, 0x1b } }, // type
{ 0xbb392ec0, 0x8d4d, 0x11e0, 0xa896, { 0x00, 0x02, 0xa5, 0xd5, 0xc5, 0x1b } }, // uuid
EFFECT_CONTROL_API_VERSION,
(EFFECT_FLAG_TYPE_PRE_PROC|EFFECT_FLAG_DEVICE_IND),
0, //FIXME indicate CPU load
0, //FIXME indicate memory usage
"Acoustic Echo Canceler",
"The Android Open Source Project"
};
// Noise suppression
static const effect_descriptor_t sNsDescriptor = {
{ 0x58b4b260, 0x8e06, 0x11e0, 0xaa8e, { 0x00, 0x02, 0xa5, 0xd5, 0xc5, 0x1b } }, // type
{ 0xc06c8400, 0x8e06, 0x11e0, 0x9cb6, { 0x00, 0x02, 0xa5, 0xd5, 0xc5, 0x1b } }, // uuid
EFFECT_CONTROL_API_VERSION,
(EFFECT_FLAG_TYPE_PRE_PROC|EFFECT_FLAG_DEVICE_IND),
0, //FIXME indicate CPU load
0, //FIXME indicate memory usage
"Noise Suppression",
"The Android Open Source Project"
};
static const effect_descriptor_t *sDescriptors[PREPROC_NUM_EFFECTS] = {
&sAgcDescriptor,
&sAecDescriptor,
&sNsDescriptor
};
//------------------------------------------------------------------------------
// Helper functions
//------------------------------------------------------------------------------
const effect_uuid_t * const sUuidToPreProcTable[PREPROC_NUM_EFFECTS] = {
FX_IID_AGC,
FX_IID_AEC,
FX_IID_NS
};
const effect_uuid_t * ProcIdToUuid(int procId)
{
if (procId >= PREPROC_NUM_EFFECTS) {
return EFFECT_UUID_NULL;
}
return sUuidToPreProcTable[procId];
}
uint32_t UuidToProcId(const effect_uuid_t * uuid)
{
size_t i;
for (i = 0; i < PREPROC_NUM_EFFECTS; i++) {
if (memcmp(uuid, sUuidToPreProcTable[i], sizeof(*uuid)) == 0) {
break;
}
}
return i;
}
bool HasReverseStream(uint32_t procId)
{
if (procId == PREPROC_AEC) {
return true;
}
return false;
}
//------------------------------------------------------------------------------
// Automatic Gain Control (AGC)
//------------------------------------------------------------------------------
static const int kAgcDefaultTargetLevel = 0;
static const int kAgcDefaultCompGain = 90;
static const bool kAgcDefaultLimiter = true;
int AgcInit (preproc_effect_t *effect)
{
LOGV("AgcInit");
webrtc::GainControl *agc = static_cast<webrtc::GainControl *>(effect->engine);
agc->set_mode(webrtc::GainControl::kFixedDigital);
agc->set_target_level_dbfs(kAgcDefaultTargetLevel);
agc->set_compression_gain_db(kAgcDefaultCompGain);
agc->enable_limiter(kAgcDefaultLimiter);
return 0;
}
int AgcCreate(preproc_effect_t *effect)
{
webrtc::GainControl *agc = effect->session->apm->gain_control();
LOGV("AgcCreate got agc %p", agc);
if (agc == NULL) {
LOGW("AgcCreate Error");
return -ENOMEM;
}
effect->engine = static_cast<preproc_fx_handle_t>(agc);
AgcInit(effect);
return 0;
}
int AgcGetParameter(preproc_effect_t *effect,
void *pParam,
size_t *pValueSize,
void *pValue)
{
int status = 0;
uint32_t param = *(uint32_t *)pParam;
t_agc_settings *pProperties = (t_agc_settings *)pValue;
webrtc::GainControl *agc = static_cast<webrtc::GainControl *>(effect->engine);
switch (param) {
case AGC_PARAM_TARGET_LEVEL:
case AGC_PARAM_COMP_GAIN:
if (*pValueSize < sizeof(int16_t)) {
*pValueSize = 0;
return -EINVAL;
}
break;
case AGC_PARAM_LIMITER_ENA:
if (*pValueSize < sizeof(bool)) {
*pValueSize = 0;
return -EINVAL;
}
break;
case AGC_PARAM_PROPERTIES:
if (*pValueSize < sizeof(t_agc_settings)) {
*pValueSize = 0;
return -EINVAL;
}
break;
default:
LOGW("AgcGetParameter() unknown param %08x", param);
status = -EINVAL;
break;
}
switch (param) {
case AGC_PARAM_TARGET_LEVEL:
*(int16_t *) pValue = (int16_t)(agc->target_level_dbfs() * -100);
LOGV("AgcGetParameter() target level %d milliBels", *(int16_t *) pValue);
break;
case AGC_PARAM_COMP_GAIN:
*(int16_t *) pValue = (int16_t)(agc->compression_gain_db() * 100);
LOGV("AgcGetParameter() comp gain %d milliBels", *(int16_t *) pValue);
break;
case AGC_PARAM_LIMITER_ENA:
*(bool *) pValue = (bool)agc->is_limiter_enabled();
LOGV("AgcGetParameter() limiter enabled %s",
(*(int16_t *) pValue != 0) ? "true" : "false");
break;
case AGC_PARAM_PROPERTIES:
pProperties->targetLevel = (int16_t)(agc->target_level_dbfs() * -100);
pProperties->compGain = (int16_t)(agc->compression_gain_db() * 100);
pProperties->limiterEnabled = (bool)agc->is_limiter_enabled();
break;
default:
LOGW("AgcGetParameter() unknown param %d", param);
status = -EINVAL;
break;
}
return status;
}
int AgcSetParameter (preproc_effect_t *effect, void *pParam, void *pValue)
{
int status = 0;
uint32_t param = *(uint32_t *)pParam;
t_agc_settings *pProperties = (t_agc_settings *)pValue;
webrtc::GainControl *agc = static_cast<webrtc::GainControl *>(effect->engine);
switch (param) {
case AGC_PARAM_TARGET_LEVEL:
LOGV("AgcSetParameter() target level %d milliBels", *(int16_t *)pValue);
status = agc->set_target_level_dbfs(-(*(int16_t *)pValue / 100));
break;
case AGC_PARAM_COMP_GAIN:
LOGV("AgcSetParameter() comp gain %d milliBels", *(int16_t *)pValue);
status = agc->set_compression_gain_db(*(int16_t *)pValue / 100);
break;
case AGC_PARAM_LIMITER_ENA:
LOGV("AgcSetParameter() limiter enabled %s", *(bool *)pValue ? "true" : "false");
status = agc->enable_limiter(*(bool *)pValue);
break;
case AGC_PARAM_PROPERTIES:
LOGV("AgcSetParameter() properties level %d, gain %d limiter %d",
pProperties->targetLevel,
pProperties->compGain,
pProperties->limiterEnabled);
status = agc->set_target_level_dbfs(-(pProperties->targetLevel / 100));
if (status != 0) break;
status = agc->set_compression_gain_db(pProperties->compGain / 100);
if (status != 0) break;
status = agc->enable_limiter(pProperties->limiterEnabled);
break;
default:
LOGW("AgcSetParameter() unknown param %08x value %08x", param, *(uint32_t *)pValue);
status = -EINVAL;
break;
}
LOGV("AgcSetParameter() done status %d", status);
return status;
}
void AgcEnable(preproc_effect_t *effect)
{
webrtc::GainControl *agc = static_cast<webrtc::GainControl *>(effect->engine);
LOGV("AgcEnable agc %p", agc);
agc->Enable(true);
}
void AgcDisable(preproc_effect_t *effect)
{
LOGV("AgcDisable");
webrtc::GainControl *agc = static_cast<webrtc::GainControl *>(effect->engine);
agc->Enable(false);
}
static const preproc_ops_t sAgcOps = {
AgcCreate,
AgcInit,
NULL,
AgcEnable,
AgcDisable,
AgcSetParameter,
AgcGetParameter,
NULL
};
//------------------------------------------------------------------------------
// Acoustic Echo Canceler (AEC)
//------------------------------------------------------------------------------
static const webrtc::EchoControlMobile::RoutingMode kAecDefaultMode =
webrtc::EchoControlMobile::kEarpiece;
static const bool kAecDefaultComfortNoise = true;
int AecInit (preproc_effect_t *effect)
{
LOGV("AecInit");
webrtc::EchoControlMobile *aec = static_cast<webrtc::EchoControlMobile *>(effect->engine);
aec->set_routing_mode(kAecDefaultMode);
aec->enable_comfort_noise(kAecDefaultComfortNoise);
return 0;
}
int AecCreate(preproc_effect_t *effect)
{
webrtc::EchoControlMobile *aec = effect->session->apm->echo_control_mobile();
LOGV("AecCreate got aec %p", aec);
if (aec == NULL) {
LOGW("AgcCreate Error");
return -ENOMEM;
}
effect->engine = static_cast<preproc_fx_handle_t>(aec);
AecInit (effect);
return 0;
}
int AecGetParameter(preproc_effect_t *effect,
void *pParam,
size_t *pValueSize,
void *pValue)
{
int status = 0;
uint32_t param = *(uint32_t *)pParam;
if (*pValueSize < sizeof(uint32_t)) {
return -EINVAL;
}
switch (param) {
case AEC_PARAM_ECHO_DELAY:
case AEC_PARAM_PROPERTIES:
*(uint32_t *)pValue = 1000 * effect->session->apm->stream_delay_ms();
LOGV("AecGetParameter() echo delay %d us", *(uint32_t *)pValue);
break;
default:
LOGW("AecGetParameter() unknown param %08x value %08x", param, *(uint32_t *)pValue);
status = -EINVAL;
break;
}
return status;
}
int AecSetParameter (preproc_effect_t *effect, void *pParam, void *pValue)
{
int status = 0;
uint32_t param = *(uint32_t *)pParam;
uint32_t value = *(uint32_t *)pValue;
switch (param) {
case AEC_PARAM_ECHO_DELAY:
case AEC_PARAM_PROPERTIES:
status = effect->session->apm->set_stream_delay_ms(value/1000);
LOGV("AecSetParameter() echo delay %d us, status %d", value, status);
break;
default:
LOGW("AecSetParameter() unknown param %08x value %08x", param, *(uint32_t *)pValue);
status = -EINVAL;
break;
}
return status;
}
void AecEnable(preproc_effect_t *effect)
{
webrtc::EchoControlMobile *aec = static_cast<webrtc::EchoControlMobile *>(effect->engine);
LOGV("AecEnable aec %p", aec);
aec->Enable(true);
}
void AecDisable(preproc_effect_t *effect)
{
LOGV("AecDisable");
webrtc::EchoControlMobile *aec = static_cast<webrtc::EchoControlMobile *>(effect->engine);
aec->Enable(false);
}
int AecSetDevice(preproc_effect_t *effect, uint32_t device)
{
LOGV("AecSetDevice %08x", device);
webrtc::EchoControlMobile *aec = static_cast<webrtc::EchoControlMobile *>(effect->engine);
webrtc::EchoControlMobile::RoutingMode mode = webrtc::EchoControlMobile::kQuietEarpieceOrHeadset;
switch(device) {
case AUDIO_DEVICE_OUT_EARPIECE:
mode = webrtc::EchoControlMobile::kEarpiece;
break;
case AUDIO_DEVICE_OUT_SPEAKER:
mode = webrtc::EchoControlMobile::kSpeakerphone;
break;
case AUDIO_DEVICE_OUT_WIRED_HEADSET:
case AUDIO_DEVICE_OUT_WIRED_HEADPHONE:
default:
break;
}
aec->set_routing_mode(mode);
return 0;
}
static const preproc_ops_t sAecOps = {
AecCreate,
AecInit,
NULL,
AecEnable,
AecDisable,
AecSetParameter,
AecGetParameter,
AecSetDevice
};
//------------------------------------------------------------------------------
// Noise Suppression (NS)
//------------------------------------------------------------------------------
static const webrtc::NoiseSuppression::Level kNsDefaultLevel = webrtc::NoiseSuppression::kModerate;
int NsInit (preproc_effect_t *effect)
{
LOGV("NsInit");
webrtc::NoiseSuppression *ns = static_cast<webrtc::NoiseSuppression *>(effect->engine);
ns->set_level(kNsDefaultLevel);
return 0;
}
int NsCreate(preproc_effect_t *effect)
{
webrtc::NoiseSuppression *ns = effect->session->apm->noise_suppression();
LOGV("NsCreate got ns %p", ns);
if (ns == NULL) {
LOGW("AgcCreate Error");
return -ENOMEM;
}
effect->engine = static_cast<preproc_fx_handle_t>(ns);
NsInit (effect);
return 0;
}
int NsGetParameter(preproc_effect_t *effect,
void *pParam,
size_t *pValueSize,
void *pValue)
{
int status = 0;
return status;
}
int NsSetParameter (preproc_effect_t *effect, void *pParam, void *pValue)
{
int status = 0;
return status;
}
void NsEnable(preproc_effect_t *effect)
{
webrtc::NoiseSuppression *ns = static_cast<webrtc::NoiseSuppression *>(effect->engine);
LOGV("NsEnable ns %p", ns);
ns->Enable(true);
}
void NsDisable(preproc_effect_t *effect)
{
LOGV("NsDisable");
webrtc::NoiseSuppression *ns = static_cast<webrtc::NoiseSuppression *>(effect->engine);
ns->Enable(false);
}
static const preproc_ops_t sNsOps = {
NsCreate,
NsInit,
NULL,
NsEnable,
NsDisable,
NsSetParameter,
NsGetParameter,
NULL
};
static const preproc_ops_t *sPreProcOps[PREPROC_NUM_EFFECTS] = {
&sAgcOps,
&sAecOps,
&sNsOps
};
//------------------------------------------------------------------------------
// Effect functions
//------------------------------------------------------------------------------
void Session_SetProcEnabled(preproc_session_t *session, uint32_t procId, bool enabled);
extern "C" const struct effect_interface_s sEffectInterface;
extern "C" const struct effect_interface_s sEffectInterfaceReverse;
#define BAD_STATE_ABORT(from, to) \
LOG_ALWAYS_FATAL("Bad state transition from %d to %d", from, to);
int Effect_SetState(preproc_effect_t *effect, uint32_t state)
{
int status = 0;
LOGV("Effect_SetState proc %d, new %d old %d", effect->procId, state, effect->state);
switch(state) {
case PREPROC_EFFECT_STATE_INIT:
switch(effect->state) {
case PREPROC_EFFECT_STATE_ACTIVE:
effect->ops->disable(effect);
Session_SetProcEnabled(effect->session, effect->procId, false);
case PREPROC_EFFECT_STATE_CONFIG:
case PREPROC_EFFECT_STATE_CREATED:
case PREPROC_EFFECT_STATE_INIT:
break;
default:
BAD_STATE_ABORT(effect->state, state);
}
break;
case PREPROC_EFFECT_STATE_CREATED:
switch(effect->state) {
case PREPROC_EFFECT_STATE_INIT:
status = effect->ops->create(effect);
break;
case PREPROC_EFFECT_STATE_CREATED:
case PREPROC_EFFECT_STATE_ACTIVE:
case PREPROC_EFFECT_STATE_CONFIG:
LOGE("Effect_SetState invalid transition");
status = -ENOSYS;
break;
default:
BAD_STATE_ABORT(effect->state, state);
}
break;
case PREPROC_EFFECT_STATE_CONFIG:
switch(effect->state) {
case PREPROC_EFFECT_STATE_INIT:
LOGE("Effect_SetState invalid transition");
status = -ENOSYS;
break;
case PREPROC_EFFECT_STATE_ACTIVE:
effect->ops->disable(effect);
Session_SetProcEnabled(effect->session, effect->procId, false);
break;
case PREPROC_EFFECT_STATE_CREATED:
case PREPROC_EFFECT_STATE_CONFIG:
break;
default:
BAD_STATE_ABORT(effect->state, state);
}
break;
case PREPROC_EFFECT_STATE_ACTIVE:
switch(effect->state) {
case PREPROC_EFFECT_STATE_INIT:
case PREPROC_EFFECT_STATE_CREATED:
case PREPROC_EFFECT_STATE_ACTIVE:
LOGE("Effect_SetState invalid transition");
status = -ENOSYS;
break;
case PREPROC_EFFECT_STATE_CONFIG:
effect->ops->enable(effect);
Session_SetProcEnabled(effect->session, effect->procId, true);
break;
default:
BAD_STATE_ABORT(effect->state, state);
}
break;
default:
BAD_STATE_ABORT(effect->state, state);
}
if (status == 0) {
effect->state = state;
}
return status;
}
int Effect_Init(preproc_effect_t *effect, uint32_t procId)
{
if (HasReverseStream(procId)) {
effect->itfe = &sEffectInterfaceReverse;
} else {
effect->itfe = &sEffectInterface;
}
effect->ops = sPreProcOps[procId];
effect->procId = procId;
effect->state = PREPROC_EFFECT_STATE_INIT;
return 0;
}
int Effect_Create(preproc_effect_t *effect,
preproc_session_t *session,
effect_handle_t *interface)
{
effect->session = session;
*interface = (effect_handle_t)&effect->itfe;
return Effect_SetState(effect, PREPROC_EFFECT_STATE_CREATED);
}
int Effect_Release(preproc_effect_t *effect)
{
return Effect_SetState(effect, PREPROC_EFFECT_STATE_INIT);
}
//------------------------------------------------------------------------------
// Session functions
//------------------------------------------------------------------------------
#define RESAMPLER_QUALITY SPEEX_RESAMPLER_QUALITY_VOIP
static const int kPreprocDefaultSr = 16000;
static const int kPreProcDefaultCnl = 1;
int Session_Init(preproc_session_t *session)
{
size_t i;
int status = 0;
session->state = PREPROC_SESSION_STATE_INIT;
session->id = 0;
session->io = 0;
session->createdMsk = 0;
session->apm = NULL;
for (i = 0; i < PREPROC_NUM_EFFECTS && status == 0; i++) {
status = Effect_Init(&session->effects[i], i);
}
return status;
}
extern "C" int Session_CreateEffect(preproc_session_t *session,
int32_t procId,
effect_handle_t *interface)
{
int status = -ENOMEM;
LOGV("Session_CreateEffect procId %d, createdMsk %08x", procId, session->createdMsk);
if (session->createdMsk == 0) {
session->apm = webrtc::AudioProcessing::Create(session->io);
if (session->apm == NULL) {
LOGW("Session_CreateEffect could not get apm engine");
goto error;
}
session->apm->set_sample_rate_hz(kPreprocDefaultSr);
session->apm->set_num_channels(kPreProcDefaultCnl, kPreProcDefaultCnl);
session->apm->set_num_reverse_channels(kPreProcDefaultCnl);
session->procFrame = new webrtc::AudioFrame();
if (session->procFrame == NULL) {
LOGW("Session_CreateEffect could not allocate audio frame");
goto error;
}
session->revFrame = new webrtc::AudioFrame();
if (session->revFrame == NULL) {
LOGW("Session_CreateEffect could not allocate reverse audio frame");
goto error;
}
session->apmSamplingRate = kPreprocDefaultSr;
session->apmFrameCount = (kPreprocDefaultSr) / 100;
session->frameCount = session->apmFrameCount;
session->samplingRate = kPreprocDefaultSr;
session->inChannelCount = kPreProcDefaultCnl;
session->outChannelCount = kPreProcDefaultCnl;
session->procFrame->_frequencyInHz = kPreprocDefaultSr;
session->procFrame->_audioChannel = kPreProcDefaultCnl;
session->revChannelCount = kPreProcDefaultCnl;
session->revFrame->_frequencyInHz = kPreprocDefaultSr;
session->revFrame->_audioChannel = kPreProcDefaultCnl;
session->enabledMsk = 0;
session->processedMsk = 0;
session->revEnabledMsk = 0;
session->revProcessedMsk = 0;
session->inResampler = NULL;
session->inBuf = NULL;
session->inBufSize = 0;
session->outResampler = NULL;
session->outBuf = NULL;
session->outBufSize = 0;
session->revResampler = NULL;
session->revBuf = NULL;
session->revBufSize = 0;
}
status = Effect_Create(&session->effects[procId], session, interface);
if (status < 0) {
goto error;
}
LOGV("Session_CreateEffect OK");
session->createdMsk |= (1<<procId);
return status;
error:
if (session->createdMsk == 0) {
delete session->revFrame;
session->revFrame = NULL;
delete session->procFrame;
session->procFrame = NULL;
webrtc::AudioProcessing::Destroy(session->apm);
session->apm = NULL;
}
return status;
}
int Session_ReleaseEffect(preproc_session_t *session,
preproc_effect_t *fx)
{
LOGW_IF(Effect_Release(fx) != 0, " Effect_Release() failed for proc ID %d", fx->procId);
session->createdMsk &= ~(1<<fx->procId);
if (session->createdMsk == 0) {
webrtc::AudioProcessing::Destroy(session->apm);
session->apm = NULL;
delete session->procFrame;
session->procFrame = NULL;
delete session->revFrame;
session->revFrame = NULL;
if (session->inResampler != NULL) {
speex_resampler_destroy(session->inResampler);
session->inResampler = NULL;
}
if (session->outResampler != NULL) {
speex_resampler_destroy(session->outResampler);
session->outResampler = NULL;
}
if (session->revResampler != NULL) {
speex_resampler_destroy(session->revResampler);
session->revResampler = NULL;
}
delete session->inBuf;
session->inBuf = NULL;
delete session->outBuf;
session->outBuf = NULL;
delete session->revBuf;
session->revBuf = NULL;
session->io = 0;
}
return 0;
}
int Session_SetConfig(preproc_session_t *session, effect_config_t *config)
{
uint32_t sr;
uint32_t inCnl = popcount(config->inputCfg.channels);
uint32_t outCnl = popcount(config->outputCfg.channels);
if (config->inputCfg.samplingRate != config->outputCfg.samplingRate ||
config->inputCfg.format != config->outputCfg.format ||
config->inputCfg.format != AUDIO_FORMAT_PCM_16_BIT) {
return -EINVAL;
}
LOGV("Session_SetConfig sr %d cnl %08x",
config->inputCfg.samplingRate, config->inputCfg.channels);
int status;
// AEC implementation is limited to 16kHz
if (config->inputCfg.samplingRate >= 32000 && !(session->createdMsk & (1 << PREPROC_AEC))) {
session->apmSamplingRate = 32000;
} else
if (config->inputCfg.samplingRate >= 16000) {
session->apmSamplingRate = 16000;
} else if (config->inputCfg.samplingRate >= 8000) {
session->apmSamplingRate = 8000;
}
status = session->apm->set_sample_rate_hz(session->apmSamplingRate);
if (status < 0) {
return -EINVAL;
}
status = session->apm->set_num_channels(inCnl, outCnl);
if (status < 0) {
return -EINVAL;
}
status = session->apm->set_num_reverse_channels(inCnl);
if (status < 0) {
return -EINVAL;
}
session->samplingRate = config->inputCfg.samplingRate;
session->apmFrameCount = session->apmSamplingRate / 100;
if (session->samplingRate == session->apmSamplingRate) {
session->frameCount = session->apmFrameCount;
} else {
session->frameCount = (session->apmFrameCount * session->samplingRate) /
session->apmSamplingRate + 1;
}
session->inChannelCount = inCnl;
session->outChannelCount = outCnl;
session->procFrame->_audioChannel = inCnl;
session->procFrame->_frequencyInHz = session->apmSamplingRate;
session->revChannelCount = inCnl;
session->revFrame->_audioChannel = inCnl;
session->revFrame->_frequencyInHz = session->apmSamplingRate;
if (session->inResampler != NULL) {
speex_resampler_destroy(session->inResampler);
session->inResampler = NULL;
}
if (session->outResampler != NULL) {
speex_resampler_destroy(session->outResampler);
session->outResampler = NULL;
}
if (session->revResampler != NULL) {
speex_resampler_destroy(session->revResampler);
session->revResampler = NULL;
}
if (session->samplingRate != session->apmSamplingRate) {
int error;
session->inResampler = speex_resampler_init(session->inChannelCount,
session->samplingRate,
session->apmSamplingRate,
RESAMPLER_QUALITY,
&error);
if (session->inResampler == NULL) {
LOGW("Session_SetConfig Cannot create speex resampler: %s",
speex_resampler_strerror(error));
return -EINVAL;
}
session->outResampler = speex_resampler_init(session->outChannelCount,
session->apmSamplingRate,
session->samplingRate,
RESAMPLER_QUALITY,
&error);
if (session->outResampler == NULL) {
LOGW("Session_SetConfig Cannot create speex resampler: %s",
speex_resampler_strerror(error));
speex_resampler_destroy(session->inResampler);
session->inResampler = NULL;
return -EINVAL;
}
session->revResampler = speex_resampler_init(session->inChannelCount,
session->samplingRate,
session->apmSamplingRate,
RESAMPLER_QUALITY,
&error);
if (session->revResampler == NULL) {
LOGW("Session_SetConfig Cannot create speex resampler: %s",
speex_resampler_strerror(error));
speex_resampler_destroy(session->inResampler);
session->inResampler = NULL;
speex_resampler_destroy(session->outResampler);
session->outResampler = NULL;
return -EINVAL;
}
}
session->state = PREPROC_SESSION_STATE_CONFIG;
return 0;
}
int Session_SetReverseConfig(preproc_session_t *session, effect_config_t *config)
{
if (config->inputCfg.samplingRate != config->outputCfg.samplingRate ||
config->inputCfg.format != config->outputCfg.format ||
config->inputCfg.format != AUDIO_FORMAT_PCM_16_BIT) {
return -EINVAL;
}
LOGV("Session_SetReverseConfig sr %d cnl %08x",
config->inputCfg.samplingRate, config->inputCfg.channels);
if (session->state < PREPROC_SESSION_STATE_CONFIG) {
return -ENOSYS;
}
if (config->inputCfg.samplingRate != session->samplingRate ||
config->inputCfg.format != AUDIO_FORMAT_PCM_16_BIT) {
return -EINVAL;
}
uint32_t inCnl = popcount(config->inputCfg.channels);
int status = session->apm->set_num_reverse_channels(inCnl);
if (status < 0) {
return -EINVAL;
}
session->revChannelCount = inCnl;
session->revFrame->_audioChannel = inCnl;
session->revFrame->_frequencyInHz = session->apmSamplingRate;
return 0;
}
void Session_SetProcEnabled(preproc_session_t *session, uint32_t procId, bool enabled)
{
if (enabled) {
if(session->enabledMsk == 0) {
session->framesIn = 0;
if (session->inResampler != NULL) {
speex_resampler_reset_mem(session->inResampler);
}
session->framesOut = 0;
if (session->outResampler != NULL) {
speex_resampler_reset_mem(session->outResampler);
}
}
session->enabledMsk |= (1 << procId);
if (HasReverseStream(procId)) {
session->framesRev = 0;
if (session->revResampler != NULL) {
speex_resampler_reset_mem(session->revResampler);
}
session->revEnabledMsk |= (1 << procId);
}
} else {
session->enabledMsk &= ~(1 << procId);
if (HasReverseStream(procId)) {
session->revEnabledMsk &= ~(1 << procId);
}
}
LOGV("Session_SetProcEnabled proc %d, enabled %d enabledMsk %08x revEnabledMsk %08x",
procId, enabled, session->enabledMsk, session->revEnabledMsk);
session->processedMsk = 0;
if (HasReverseStream(procId)) {
session->revProcessedMsk = 0;
}
}
//------------------------------------------------------------------------------
// Bundle functions
//------------------------------------------------------------------------------
static int sInitStatus = 1;
static preproc_session_t sSessions[PREPROC_NUM_SESSIONS];
preproc_session_t *PreProc_GetSession(int32_t procId, int32_t sessionId, int32_t ioId)
{
size_t i;
int free = -1;
for (i = 0; i < PREPROC_NUM_SESSIONS; i++) {
if (sSessions[i].io == ioId) {
if (sSessions[i].createdMsk & (1 << procId)) {
return NULL;
}
return &sSessions[i];
}
}
for (i = 0; i < PREPROC_NUM_SESSIONS; i++) {
if (sSessions[i].io == 0) {
sSessions[i].id = sessionId;
sSessions[i].io = ioId;
return &sSessions[i];
}
}
return NULL;
}
int PreProc_Init() {
size_t i;
int status = 0;
if (sInitStatus <= 0) {
return sInitStatus;
}
for (i = 0; i < PREPROC_NUM_SESSIONS && status == 0; i++) {
status = Session_Init(&sSessions[i]);
}
sInitStatus = status;
return sInitStatus;
}
const effect_descriptor_t *PreProc_GetDescriptor(effect_uuid_t *uuid)
{
size_t i;
for (i = 0; i < PREPROC_NUM_EFFECTS; i++) {
if (memcmp(&sDescriptors[i]->uuid, uuid, sizeof(effect_uuid_t)) == 0) {
return sDescriptors[i];
}
}
return NULL;
}
extern "C" {
//------------------------------------------------------------------------------
// Effect Control Interface Implementation
//------------------------------------------------------------------------------
int PreProcessingFx_Process(effect_handle_t self,
audio_buffer_t *inBuffer,
audio_buffer_t *outBuffer)
{
preproc_effect_t * effect = (preproc_effect_t *)self;
int status = 0;
if (effect == NULL){
LOGV("PreProcessingFx_Process() ERROR effect == NULL");
return -EINVAL;
}
preproc_session_t * session = (preproc_session_t *)effect->session;
if (inBuffer == NULL || inBuffer->raw == NULL ||
outBuffer == NULL || outBuffer->raw == NULL){
LOGW("PreProcessingFx_Process() ERROR bad pointer");
return -EINVAL;
}
session->processedMsk |= (1<<effect->procId);
// LOGV("PreProcessingFx_Process In %d frames enabledMsk %08x processedMsk %08x",
// inBuffer->frameCount, session->enabledMsk, session->processedMsk);
if ((session->processedMsk & session->enabledMsk) == session->enabledMsk) {
effect->session->processedMsk = 0;
size_t framesRq = outBuffer->frameCount;
size_t framesWr = 0;
if (session->framesOut) {
size_t fr = session->framesOut;
if (outBuffer->frameCount < fr) {
fr = outBuffer->frameCount;
}
memcpy(outBuffer->s16,
session->outBuf,
fr * session->outChannelCount * sizeof(int16_t));
memcpy(session->outBuf,
session->outBuf + fr * session->outChannelCount,
(session->framesOut - fr) * session->outChannelCount * sizeof(int16_t));
session->framesOut -= fr;
framesWr += fr;
}
outBuffer->frameCount = framesWr;
if (framesWr == framesRq) {
inBuffer->frameCount = 0;
return 0;
}
if (session->inResampler != NULL) {
size_t fr = session->frameCount - session->framesIn;
if (inBuffer->frameCount < fr) {
fr = inBuffer->frameCount;
}
if (session->inBufSize < session->framesIn + fr) {
session->inBufSize = session->framesIn + fr;
session->inBuf = (int16_t *)realloc(session->inBuf,
session->inBufSize * session->inChannelCount * sizeof(int16_t));
}
memcpy(session->inBuf + session->framesIn * session->inChannelCount,
inBuffer->s16,
fr * session->inChannelCount * sizeof(int16_t));
session->framesIn += fr;
inBuffer->frameCount = fr;
if (session->framesIn < session->frameCount) {
return 0;
}
size_t frIn = session->framesIn;
size_t frOut = session->apmFrameCount;
if (session->inChannelCount == 1) {
speex_resampler_process_int(session->inResampler,
0,
session->inBuf,
&frIn,
session->procFrame->_payloadData,
&frOut);
} else {
speex_resampler_process_interleaved_int(session->inResampler,
session->inBuf,
&frIn,
session->procFrame->_payloadData,
&frOut);
}
memcpy(session->inBuf,
session->inBuf + frIn * session->inChannelCount,
(session->framesIn - frIn) * session->inChannelCount * sizeof(int16_t));
session->framesIn -= frIn;
} else {
size_t fr = session->frameCount - session->framesIn;
if (inBuffer->frameCount < fr) {
fr = inBuffer->frameCount;
}
memcpy(session->procFrame->_payloadData + session->framesIn * session->inChannelCount,
inBuffer->s16,
fr * session->inChannelCount * sizeof(int16_t));
session->framesIn += fr;
inBuffer->frameCount = fr;
if (session->framesIn < session->frameCount) {
return 0;
}
session->framesIn = 0;
}
session->procFrame->_payloadDataLengthInSamples =
session->apmFrameCount * session->inChannelCount;
effect->session->apm->ProcessStream(session->procFrame);
if (session->outBufSize < session->framesOut + session->frameCount) {
session->outBufSize = session->framesOut + session->frameCount;
session->outBuf = (int16_t *)realloc(session->outBuf,
session->outBufSize * session->outChannelCount * sizeof(int16_t));
}
if (session->outResampler != NULL) {
size_t frIn = session->apmFrameCount;
size_t frOut = session->frameCount;
if (session->inChannelCount == 1) {
speex_resampler_process_int(session->outResampler,
0,
session->procFrame->_payloadData,
&frIn,
session->outBuf + session->framesOut * session->outChannelCount,
&frOut);
} else {
speex_resampler_process_interleaved_int(session->outResampler,
session->procFrame->_payloadData,
&frIn,
session->outBuf + session->framesOut * session->outChannelCount,
&frOut);
}
session->framesOut += frOut;
} else {
memcpy(session->outBuf + session->framesOut * session->outChannelCount,
session->procFrame->_payloadData,
session->frameCount * session->outChannelCount * sizeof(int16_t));
session->framesOut += session->frameCount;
}
size_t fr = session->framesOut;
if (framesRq - framesWr < fr) {
fr = framesRq - framesWr;
}
memcpy(outBuffer->s16 + framesWr * session->outChannelCount,
session->outBuf,
fr * session->outChannelCount * sizeof(int16_t));
memcpy(session->outBuf,
session->outBuf + fr * session->outChannelCount,
(session->framesOut - fr) * session->outChannelCount * sizeof(int16_t));
session->framesOut -= fr;
outBuffer->frameCount += fr;
return 0;
} else {
return -ENODATA;
}
}
int PreProcessingFx_Command(effect_handle_t self,
uint32_t cmdCode,
uint32_t cmdSize,
void *pCmdData,
uint32_t *replySize,
void *pReplyData)
{
preproc_effect_t * effect = (preproc_effect_t *) self;
int retsize;
int status;
if (effect == NULL){
return -EINVAL;
}
//LOGV("PreProcessingFx_Command: command %d cmdSize %d",cmdCode, cmdSize);
switch (cmdCode){
case EFFECT_CMD_INIT:
if (pReplyData == NULL || *replySize != sizeof(int)){
return -EINVAL;
}
if (effect->ops->init) {
effect->ops->init(effect);
}
*(int *)pReplyData = 0;
break;
case EFFECT_CMD_CONFIGURE:
if (pCmdData == NULL||
cmdSize != sizeof(effect_config_t)||
pReplyData == NULL||
*replySize != sizeof(int)){
LOGV("PreProcessingFx_Command cmdCode Case: "
"EFFECT_CMD_CONFIGURE: ERROR");
return -EINVAL;
}
*(int *)pReplyData = Session_SetConfig(effect->session, (effect_config_t *)pCmdData);
if (*(int *)pReplyData != 0) {
break;
}
*(int *)pReplyData = Effect_SetState(effect, PREPROC_EFFECT_STATE_CONFIG);
break;
case EFFECT_CMD_CONFIGURE_REVERSE:
if (pCmdData == NULL||
cmdSize != sizeof(effect_config_t)||
pReplyData == NULL||
*replySize != sizeof(int)){
LOGV("PreProcessingFx_Command cmdCode Case: "
"EFFECT_CMD_CONFIGURE_REVERSE: ERROR");
return -EINVAL;
}
*(int *)pReplyData = Session_SetReverseConfig(effect->session,
(effect_config_t *)pCmdData);
if (*(int *)pReplyData != 0) {
break;
}
break;
case EFFECT_CMD_RESET:
if (effect->ops->reset) {
effect->ops->reset(effect);
}
break;
case EFFECT_CMD_GET_PARAM:{
if (pCmdData == NULL ||
cmdSize < (int)sizeof(effect_param_t) ||
pReplyData == NULL ||
*replySize < (int)sizeof(effect_param_t)){
LOGV("PreProcessingFx_Command cmdCode Case: "
"EFFECT_CMD_GET_PARAM: ERROR");
return -EINVAL;
}
effect_param_t *p = (effect_param_t *)pCmdData;
memcpy(pReplyData, pCmdData, sizeof(effect_param_t) + p->psize);
p = (effect_param_t *)pReplyData;
int voffset = ((p->psize - 1) / sizeof(int32_t) + 1) * sizeof(int32_t);
if (effect->ops->get_parameter) {
p->status = effect->ops->get_parameter(effect, p->data,
(size_t *)&p->vsize,
p->data + voffset);
*replySize = sizeof(effect_param_t) + voffset + p->vsize;
}
} break;
case EFFECT_CMD_SET_PARAM:{
if (pCmdData == NULL||
cmdSize < (int)sizeof(effect_param_t) ||
pReplyData == NULL ||
*replySize != sizeof(int32_t)){
LOGV("PreProcessingFx_Command cmdCode Case: "
"EFFECT_CMD_SET_PARAM: ERROR");
return -EINVAL;
}
effect_param_t *p = (effect_param_t *) pCmdData;
if (p->psize != sizeof(int32_t)){
LOGV("PreProcessingFx_Command cmdCode Case: "
"EFFECT_CMD_SET_PARAM: ERROR, psize is not sizeof(int32_t)");
return -EINVAL;
}
if (effect->ops->set_parameter) {
*(int *)pReplyData = effect->ops->set_parameter(effect,
(void *)p->data,
p->data + p->psize);
}
} break;
case EFFECT_CMD_ENABLE:
if (pReplyData == NULL || *replySize != sizeof(int)){
LOGV("PreProcessingFx_Command cmdCode Case: EFFECT_CMD_ENABLE: ERROR");
return -EINVAL;
}
*(int *)pReplyData = Effect_SetState(effect, PREPROC_EFFECT_STATE_ACTIVE);
break;
case EFFECT_CMD_DISABLE:
if (pReplyData == NULL || *replySize != sizeof(int)){
LOGV("PreProcessingFx_Command cmdCode Case: EFFECT_CMD_DISABLE: ERROR");
return -EINVAL;
}
*(int *)pReplyData = Effect_SetState(effect, PREPROC_EFFECT_STATE_CONFIG);
break;
case EFFECT_CMD_SET_DEVICE:
case EFFECT_CMD_SET_INPUT_DEVICE:
if (pCmdData == NULL ||
cmdSize != sizeof(uint32_t)) {
LOGV("PreProcessingFx_Command cmdCode Case: EFFECT_CMD_SET_DEVICE: ERROR");
return -EINVAL;
}
if (effect->ops->set_device) {
effect->ops->set_device(effect, *(uint32_t *)pCmdData);
}
break;
case EFFECT_CMD_SET_VOLUME:
case EFFECT_CMD_SET_AUDIO_MODE:
break;
default:
return -EINVAL;
}
return 0;
}
int PreProcessingFx_GetDescriptor(effect_handle_t self,
effect_descriptor_t *pDescriptor)
{
preproc_effect_t * effect = (preproc_effect_t *) self;
if (effect == NULL || pDescriptor == NULL) {
return -EINVAL;
}
memcpy(pDescriptor, sDescriptors[effect->procId], sizeof(effect_descriptor_t));
return 0;
}
int PreProcessingFx_ProcessReverse(effect_handle_t self,
audio_buffer_t *inBuffer,
audio_buffer_t *outBuffer)
{
preproc_effect_t * effect = (preproc_effect_t *)self;
int status = 0;
if (effect == NULL){
LOGW("PreProcessingFx_ProcessReverse() ERROR effect == NULL");
return -EINVAL;
}
preproc_session_t * session = (preproc_session_t *)effect->session;
if (inBuffer == NULL || inBuffer->raw == NULL){
LOGW("PreProcessingFx_ProcessReverse() ERROR bad pointer");
return -EINVAL;
}
session->revProcessedMsk |= (1<<effect->procId);
// LOGV("PreProcessingFx_ProcessReverse In %d frames revEnabledMsk %08x revProcessedMsk %08x",
// inBuffer->frameCount, session->revEnabledMsk, session->revProcessedMsk);
if ((session->revProcessedMsk & session->revEnabledMsk) == session->revEnabledMsk) {
effect->session->revProcessedMsk = 0;
if (session->revResampler != NULL) {
size_t fr = session->frameCount - session->framesRev;
if (inBuffer->frameCount < fr) {
fr = inBuffer->frameCount;
}
if (session->revBufSize < session->framesRev + fr) {
session->revBufSize = session->framesRev + fr;
session->revBuf = (int16_t *)realloc(session->revBuf,
session->revBufSize * session->inChannelCount * sizeof(int16_t));
}
memcpy(session->revBuf + session->framesRev * session->inChannelCount,
inBuffer->s16,
fr * session->inChannelCount * sizeof(int16_t));
session->framesRev += fr;
inBuffer->frameCount = fr;
if (session->framesRev < session->frameCount) {
return 0;
}
size_t frIn = session->framesRev;
size_t frOut = session->apmFrameCount;
if (session->inChannelCount == 1) {
speex_resampler_process_int(session->revResampler,
0,
session->revBuf,
&frIn,
session->revFrame->_payloadData,
&frOut);
} else {
speex_resampler_process_interleaved_int(session->revResampler,
session->revBuf,
&frIn,
session->revFrame->_payloadData,
&frOut);
}
memcpy(session->revBuf,
session->revBuf + frIn * session->inChannelCount,
(session->framesRev - frIn) * session->inChannelCount * sizeof(int16_t));
session->framesRev -= frIn;
} else {
size_t fr = session->frameCount - session->framesRev;
if (inBuffer->frameCount < fr) {
fr = inBuffer->frameCount;
}
memcpy(session->revFrame->_payloadData + session->framesRev * session->inChannelCount,
inBuffer->s16,
fr * session->inChannelCount * sizeof(int16_t));
session->framesRev += fr;
inBuffer->frameCount = fr;
if (session->framesRev < session->frameCount) {
return 0;
}
session->framesRev = 0;
}
session->revFrame->_payloadDataLengthInSamples =
session->apmFrameCount * session->inChannelCount;
effect->session->apm->AnalyzeReverseStream(session->revFrame);
return 0;
} else {
return -ENODATA;
}
}
// effect_handle_t interface implementation for effect
const struct effect_interface_s sEffectInterface = {
PreProcessingFx_Process,
PreProcessingFx_Command,
PreProcessingFx_GetDescriptor,
NULL
};
const struct effect_interface_s sEffectInterfaceReverse = {
PreProcessingFx_Process,
PreProcessingFx_Command,
PreProcessingFx_GetDescriptor,
PreProcessingFx_ProcessReverse
};
//------------------------------------------------------------------------------
// Effect Library Interface Implementation
//------------------------------------------------------------------------------
int PreProcessingLib_QueryNumberEffects(uint32_t *pNumEffects)
{
if (PreProc_Init() != 0) {
return sInitStatus;
}
if (pNumEffects == NULL) {
return -EINVAL;
}
*pNumEffects = PREPROC_NUM_EFFECTS;
return sInitStatus;
}
int PreProcessingLib_QueryEffect(uint32_t index, effect_descriptor_t *pDescriptor)
{
if (PreProc_Init() != 0) {
return sInitStatus;
}
if (index >= PREPROC_NUM_EFFECTS) {
return -EINVAL;
}
memcpy(pDescriptor, sDescriptors[index], sizeof(effect_descriptor_t));
return 0;
}
int PreProcessingLib_Create(effect_uuid_t *uuid,
int32_t sessionId,
int32_t ioId,
effect_handle_t *pInterface)
{
LOGV("EffectCreate: uuid: %08x session %d IO: %d", uuid->timeLow, sessionId, ioId);
int status;
const effect_descriptor_t *desc;
preproc_session_t *session;
uint32_t procId;
if (PreProc_Init() != 0) {
return sInitStatus;
}
desc = PreProc_GetDescriptor(uuid);
if (desc == NULL) {
LOGW("EffectCreate: fx not found uuid: %08x", uuid->timeLow);
return -EINVAL;
}
procId = UuidToProcId(&desc->type);
session = PreProc_GetSession(procId, sessionId, ioId);
if (session == NULL) {
LOGW("EffectCreate: no more session available");
return -EINVAL;
}
status = Session_CreateEffect(session, procId, pInterface);
if (status < 0 && session->createdMsk == 0) {
session->io = 0;
}
return status;
}
int PreProcessingLib_Release(effect_handle_t interface)
{
int status;
LOGV("EffectRelease start %p", interface);
if (PreProc_Init() != 0) {
return sInitStatus;
}
preproc_effect_t *fx = (preproc_effect_t *)interface;
if (fx->session->io == 0) {
return -EINVAL;
}
return Session_ReleaseEffect(fx->session, fx);
}
int PreProcessingLib_GetDescriptor(effect_uuid_t *uuid,
effect_descriptor_t *pDescriptor) {
if (pDescriptor == NULL || uuid == NULL){
return -EINVAL;
}
const effect_descriptor_t *desc = PreProc_GetDescriptor(uuid);
if (desc == NULL) {
LOGV("PreProcessingLib_GetDescriptor() not found");
return -EINVAL;
}
LOGV("PreProcessingLib_GetDescriptor() got fx %s", desc->name);
memcpy(pDescriptor, desc, sizeof(effect_descriptor_t));
return 0;
}
audio_effect_library_t AUDIO_EFFECT_LIBRARY_INFO_SYM = {
tag : AUDIO_EFFECT_LIBRARY_TAG,
version : EFFECT_LIBRARY_API_VERSION,
name : "Audio Preprocessing Library",
implementor : "The Android Open Source Project",
query_num_effects : PreProcessingLib_QueryNumberEffects,
query_effect : PreProcessingLib_QueryEffect,
create_effect : PreProcessingLib_Create,
release_effect : PreProcessingLib_Release,
get_descriptor : PreProcessingLib_GetDescriptor
};
}; // extern "C"