/* * Copyright (C) 2009 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. */ #define LOG_TAG "AudioPolicyService" //#define LOG_NDEBUG 0 #undef __STRICT_ANSI__ #define __STDINT_LIMITS #define __STDC_LIMIT_MACROS #include <stdint.h> #include <sys/time.h> #include <binder/IServiceManager.h> #include <utils/Log.h> #include <cutils/properties.h> #include <binder/IPCThreadState.h> #include <utils/String16.h> #include <utils/threads.h> #include "AudioPolicyService.h" #include "ServiceUtilities.h" #include <hardware_legacy/power.h> #include <media/AudioEffect.h> #include <media/EffectsFactoryApi.h> #include <hardware/hardware.h> #include <system/audio.h> #include <system/audio_policy.h> #include <hardware/audio_policy.h> #include <audio_effects/audio_effects_conf.h> namespace android { static const char kDeadlockedString[] = "AudioPolicyService may be deadlocked\n"; static const char kCmdDeadlockedString[] = "AudioPolicyService command thread may be deadlocked\n"; static const int kDumpLockRetries = 50; static const int kDumpLockSleepUs = 20000; namespace { extern struct audio_policy_service_ops aps_ops; }; // ---------------------------------------------------------------------------- AudioPolicyService::AudioPolicyService() : BnAudioPolicyService() , mpAudioPolicyDev(NULL) , mpAudioPolicy(NULL) { char value[PROPERTY_VALUE_MAX]; const struct hw_module_t *module; int forced_val; int rc; Mutex::Autolock _l(mLock); // start tone playback thread mTonePlaybackThread = new AudioCommandThread(String8("")); // start audio commands thread mAudioCommandThread = new AudioCommandThread(String8("ApmCommand")); /* instantiate the audio policy manager */ rc = hw_get_module(AUDIO_POLICY_HARDWARE_MODULE_ID, &module); if (rc) return; rc = audio_policy_dev_open(module, &mpAudioPolicyDev); ALOGE_IF(rc, "couldn't open audio policy device (%s)", strerror(-rc)); if (rc) return; rc = mpAudioPolicyDev->create_audio_policy(mpAudioPolicyDev, &aps_ops, this, &mpAudioPolicy); ALOGE_IF(rc, "couldn't create audio policy (%s)", strerror(-rc)); if (rc) return; rc = mpAudioPolicy->init_check(mpAudioPolicy); ALOGE_IF(rc, "couldn't init_check the audio policy (%s)", strerror(-rc)); if (rc) return; ALOGI("Loaded audio policy from %s (%s)", module->name, module->id); // load audio pre processing modules if (access(AUDIO_EFFECT_VENDOR_CONFIG_FILE, R_OK) == 0) { loadPreProcessorConfig(AUDIO_EFFECT_VENDOR_CONFIG_FILE); } else if (access(AUDIO_EFFECT_DEFAULT_CONFIG_FILE, R_OK) == 0) { loadPreProcessorConfig(AUDIO_EFFECT_DEFAULT_CONFIG_FILE); } } AudioPolicyService::~AudioPolicyService() { mTonePlaybackThread->exit(); mTonePlaybackThread.clear(); mAudioCommandThread->exit(); mAudioCommandThread.clear(); // release audio pre processing resources for (size_t i = 0; i < mInputSources.size(); i++) { delete mInputSources.valueAt(i); } mInputSources.clear(); for (size_t i = 0; i < mInputs.size(); i++) { mInputs.valueAt(i)->mEffects.clear(); delete mInputs.valueAt(i); } mInputs.clear(); if (mpAudioPolicy != NULL && mpAudioPolicyDev != NULL) mpAudioPolicyDev->destroy_audio_policy(mpAudioPolicyDev, mpAudioPolicy); if (mpAudioPolicyDev != NULL) audio_policy_dev_close(mpAudioPolicyDev); } status_t AudioPolicyService::setDeviceConnectionState(audio_devices_t device, audio_policy_dev_state_t state, const char *device_address) { if (mpAudioPolicy == NULL) { return NO_INIT; } if (!settingsAllowed()) { return PERMISSION_DENIED; } if (!audio_is_output_device(device) && !audio_is_input_device(device)) { return BAD_VALUE; } if (state != AUDIO_POLICY_DEVICE_STATE_AVAILABLE && state != AUDIO_POLICY_DEVICE_STATE_UNAVAILABLE) { return BAD_VALUE; } ALOGV("setDeviceConnectionState() tid %d", gettid()); Mutex::Autolock _l(mLock); return mpAudioPolicy->set_device_connection_state(mpAudioPolicy, device, state, device_address); } audio_policy_dev_state_t AudioPolicyService::getDeviceConnectionState( audio_devices_t device, const char *device_address) { if (mpAudioPolicy == NULL) { return AUDIO_POLICY_DEVICE_STATE_UNAVAILABLE; } return mpAudioPolicy->get_device_connection_state(mpAudioPolicy, device, device_address); } status_t AudioPolicyService::setPhoneState(audio_mode_t state) { if (mpAudioPolicy == NULL) { return NO_INIT; } if (!settingsAllowed()) { return PERMISSION_DENIED; } if (uint32_t(state) >= AUDIO_MODE_CNT) { return BAD_VALUE; } ALOGV("setPhoneState() tid %d", gettid()); // TODO: check if it is more appropriate to do it in platform specific policy manager AudioSystem::setMode(state); Mutex::Autolock _l(mLock); mpAudioPolicy->set_phone_state(mpAudioPolicy, state); return NO_ERROR; } status_t AudioPolicyService::setForceUse(audio_policy_force_use_t usage, audio_policy_forced_cfg_t config) { if (mpAudioPolicy == NULL) { return NO_INIT; } if (!settingsAllowed()) { return PERMISSION_DENIED; } if (usage < 0 || usage >= AUDIO_POLICY_FORCE_USE_CNT) { return BAD_VALUE; } if (config < 0 || config >= AUDIO_POLICY_FORCE_CFG_CNT) { return BAD_VALUE; } ALOGV("setForceUse() tid %d", gettid()); Mutex::Autolock _l(mLock); mpAudioPolicy->set_force_use(mpAudioPolicy, usage, config); return NO_ERROR; } audio_policy_forced_cfg_t AudioPolicyService::getForceUse(audio_policy_force_use_t usage) { if (mpAudioPolicy == NULL) { return AUDIO_POLICY_FORCE_NONE; } if (usage < 0 || usage >= AUDIO_POLICY_FORCE_USE_CNT) { return AUDIO_POLICY_FORCE_NONE; } return mpAudioPolicy->get_force_use(mpAudioPolicy, usage); } audio_io_handle_t AudioPolicyService::getOutput(audio_stream_type_t stream, uint32_t samplingRate, audio_format_t format, audio_channel_mask_t channelMask, audio_output_flags_t flags) { if (mpAudioPolicy == NULL) { return 0; } ALOGV("getOutput() tid %d", gettid()); Mutex::Autolock _l(mLock); return mpAudioPolicy->get_output(mpAudioPolicy, stream, samplingRate, format, channelMask, flags); } status_t AudioPolicyService::startOutput(audio_io_handle_t output, audio_stream_type_t stream, int session) { if (mpAudioPolicy == NULL) { return NO_INIT; } ALOGV("startOutput() tid %d", gettid()); Mutex::Autolock _l(mLock); return mpAudioPolicy->start_output(mpAudioPolicy, output, stream, session); } status_t AudioPolicyService::stopOutput(audio_io_handle_t output, audio_stream_type_t stream, int session) { if (mpAudioPolicy == NULL) { return NO_INIT; } ALOGV("stopOutput() tid %d", gettid()); Mutex::Autolock _l(mLock); return mpAudioPolicy->stop_output(mpAudioPolicy, output, stream, session); } void AudioPolicyService::releaseOutput(audio_io_handle_t output) { if (mpAudioPolicy == NULL) { return; } ALOGV("releaseOutput() tid %d", gettid()); Mutex::Autolock _l(mLock); mpAudioPolicy->release_output(mpAudioPolicy, output); } audio_io_handle_t AudioPolicyService::getInput(audio_source_t inputSource, uint32_t samplingRate, audio_format_t format, audio_channel_mask_t channelMask, int audioSession) { if (mpAudioPolicy == NULL) { return 0; } // already checked by client, but double-check in case the client wrapper is bypassed if (uint32_t(inputSource) >= AUDIO_SOURCE_CNT) { return 0; } Mutex::Autolock _l(mLock); // the audio_in_acoustics_t parameter is ignored by get_input() audio_io_handle_t input = mpAudioPolicy->get_input(mpAudioPolicy, inputSource, samplingRate, format, channelMask, (audio_in_acoustics_t) 0); if (input == 0) { return input; } // create audio pre processors according to input source ssize_t index = mInputSources.indexOfKey(inputSource); if (index < 0) { return input; } ssize_t idx = mInputs.indexOfKey(input); InputDesc *inputDesc; if (idx < 0) { inputDesc = new InputDesc(audioSession); mInputs.add(input, inputDesc); } else { inputDesc = mInputs.valueAt(idx); } Vector <EffectDesc *> effects = mInputSources.valueAt(index)->mEffects; for (size_t i = 0; i < effects.size(); i++) { EffectDesc *effect = effects[i]; sp<AudioEffect> fx = new AudioEffect(NULL, &effect->mUuid, -1, 0, 0, audioSession, input); status_t status = fx->initCheck(); if (status != NO_ERROR && status != ALREADY_EXISTS) { ALOGW("Failed to create Fx %s on input %d", effect->mName, input); // fx goes out of scope and strong ref on AudioEffect is released continue; } for (size_t j = 0; j < effect->mParams.size(); j++) { fx->setParameter(effect->mParams[j]); } inputDesc->mEffects.add(fx); } setPreProcessorEnabled(inputDesc, true); return input; } status_t AudioPolicyService::startInput(audio_io_handle_t input) { if (mpAudioPolicy == NULL) { return NO_INIT; } Mutex::Autolock _l(mLock); return mpAudioPolicy->start_input(mpAudioPolicy, input); } status_t AudioPolicyService::stopInput(audio_io_handle_t input) { if (mpAudioPolicy == NULL) { return NO_INIT; } Mutex::Autolock _l(mLock); return mpAudioPolicy->stop_input(mpAudioPolicy, input); } void AudioPolicyService::releaseInput(audio_io_handle_t input) { if (mpAudioPolicy == NULL) { return; } Mutex::Autolock _l(mLock); mpAudioPolicy->release_input(mpAudioPolicy, input); ssize_t index = mInputs.indexOfKey(input); if (index < 0) { return; } InputDesc *inputDesc = mInputs.valueAt(index); setPreProcessorEnabled(inputDesc, false); delete inputDesc; mInputs.removeItemsAt(index); } status_t AudioPolicyService::initStreamVolume(audio_stream_type_t stream, int indexMin, int indexMax) { if (mpAudioPolicy == NULL) { return NO_INIT; } if (!settingsAllowed()) { return PERMISSION_DENIED; } if (uint32_t(stream) >= AUDIO_STREAM_CNT) { return BAD_VALUE; } Mutex::Autolock _l(mLock); mpAudioPolicy->init_stream_volume(mpAudioPolicy, stream, indexMin, indexMax); return NO_ERROR; } status_t AudioPolicyService::setStreamVolumeIndex(audio_stream_type_t stream, int index, audio_devices_t device) { if (mpAudioPolicy == NULL) { return NO_INIT; } if (!settingsAllowed()) { return PERMISSION_DENIED; } if (uint32_t(stream) >= AUDIO_STREAM_CNT) { return BAD_VALUE; } Mutex::Autolock _l(mLock); if (mpAudioPolicy->set_stream_volume_index_for_device) { return mpAudioPolicy->set_stream_volume_index_for_device(mpAudioPolicy, stream, index, device); } else { return mpAudioPolicy->set_stream_volume_index(mpAudioPolicy, stream, index); } } status_t AudioPolicyService::getStreamVolumeIndex(audio_stream_type_t stream, int *index, audio_devices_t device) { if (mpAudioPolicy == NULL) { return NO_INIT; } if (uint32_t(stream) >= AUDIO_STREAM_CNT) { return BAD_VALUE; } Mutex::Autolock _l(mLock); if (mpAudioPolicy->get_stream_volume_index_for_device) { return mpAudioPolicy->get_stream_volume_index_for_device(mpAudioPolicy, stream, index, device); } else { return mpAudioPolicy->get_stream_volume_index(mpAudioPolicy, stream, index); } } uint32_t AudioPolicyService::getStrategyForStream(audio_stream_type_t stream) { if (mpAudioPolicy == NULL) { return 0; } return mpAudioPolicy->get_strategy_for_stream(mpAudioPolicy, stream); } //audio policy: use audio_device_t appropriately audio_devices_t AudioPolicyService::getDevicesForStream(audio_stream_type_t stream) { if (mpAudioPolicy == NULL) { return (audio_devices_t)0; } return mpAudioPolicy->get_devices_for_stream(mpAudioPolicy, stream); } audio_io_handle_t AudioPolicyService::getOutputForEffect(const effect_descriptor_t *desc) { if (mpAudioPolicy == NULL) { return NO_INIT; } Mutex::Autolock _l(mLock); return mpAudioPolicy->get_output_for_effect(mpAudioPolicy, desc); } status_t AudioPolicyService::registerEffect(const effect_descriptor_t *desc, audio_io_handle_t io, uint32_t strategy, int session, int id) { if (mpAudioPolicy == NULL) { return NO_INIT; } return mpAudioPolicy->register_effect(mpAudioPolicy, desc, io, strategy, session, id); } status_t AudioPolicyService::unregisterEffect(int id) { if (mpAudioPolicy == NULL) { return NO_INIT; } return mpAudioPolicy->unregister_effect(mpAudioPolicy, id); } status_t AudioPolicyService::setEffectEnabled(int id, bool enabled) { if (mpAudioPolicy == NULL) { return NO_INIT; } return mpAudioPolicy->set_effect_enabled(mpAudioPolicy, id, enabled); } bool AudioPolicyService::isStreamActive(audio_stream_type_t stream, uint32_t inPastMs) const { if (mpAudioPolicy == NULL) { return 0; } Mutex::Autolock _l(mLock); return mpAudioPolicy->is_stream_active(mpAudioPolicy, stream, inPastMs); } bool AudioPolicyService::isSourceActive(audio_source_t source) const { if (mpAudioPolicy == NULL) { return false; } if (mpAudioPolicy->is_source_active == 0) { return false; } Mutex::Autolock _l(mLock); return mpAudioPolicy->is_source_active(mpAudioPolicy, source); } status_t AudioPolicyService::queryDefaultPreProcessing(int audioSession, effect_descriptor_t *descriptors, uint32_t *count) { if (mpAudioPolicy == NULL) { *count = 0; return NO_INIT; } Mutex::Autolock _l(mLock); status_t status = NO_ERROR; size_t index; for (index = 0; index < mInputs.size(); index++) { if (mInputs.valueAt(index)->mSessionId == audioSession) { break; } } if (index == mInputs.size()) { *count = 0; return BAD_VALUE; } Vector< sp<AudioEffect> > effects = mInputs.valueAt(index)->mEffects; for (size_t i = 0; i < effects.size(); i++) { effect_descriptor_t desc = effects[i]->descriptor(); if (i < *count) { descriptors[i] = desc; } } if (effects.size() > *count) { status = NO_MEMORY; } *count = effects.size(); return status; } void AudioPolicyService::binderDied(const wp<IBinder>& who) { ALOGW("binderDied() %p, tid %d, calling pid %d", who.unsafe_get(), gettid(), IPCThreadState::self()->getCallingPid()); } static bool tryLock(Mutex& mutex) { bool locked = false; for (int i = 0; i < kDumpLockRetries; ++i) { if (mutex.tryLock() == NO_ERROR) { locked = true; break; } usleep(kDumpLockSleepUs); } return locked; } status_t AudioPolicyService::dumpInternals(int fd) { const size_t SIZE = 256; char buffer[SIZE]; String8 result; snprintf(buffer, SIZE, "PolicyManager Interface: %p\n", mpAudioPolicy); result.append(buffer); snprintf(buffer, SIZE, "Command Thread: %p\n", mAudioCommandThread.get()); result.append(buffer); snprintf(buffer, SIZE, "Tones Thread: %p\n", mTonePlaybackThread.get()); result.append(buffer); write(fd, result.string(), result.size()); return NO_ERROR; } status_t AudioPolicyService::dump(int fd, const Vector<String16>& args) { if (!dumpAllowed()) { dumpPermissionDenial(fd); } else { bool locked = tryLock(mLock); if (!locked) { String8 result(kDeadlockedString); write(fd, result.string(), result.size()); } dumpInternals(fd); if (mAudioCommandThread != 0) { mAudioCommandThread->dump(fd); } if (mTonePlaybackThread != 0) { mTonePlaybackThread->dump(fd); } if (mpAudioPolicy) { mpAudioPolicy->dump(mpAudioPolicy, fd); } if (locked) mLock.unlock(); } return NO_ERROR; } status_t AudioPolicyService::dumpPermissionDenial(int fd) { const size_t SIZE = 256; char buffer[SIZE]; String8 result; snprintf(buffer, SIZE, "Permission Denial: " "can't dump AudioPolicyService from pid=%d, uid=%d\n", IPCThreadState::self()->getCallingPid(), IPCThreadState::self()->getCallingUid()); result.append(buffer); write(fd, result.string(), result.size()); return NO_ERROR; } void AudioPolicyService::setPreProcessorEnabled(const InputDesc *inputDesc, bool enabled) { const Vector<sp<AudioEffect> > &fxVector = inputDesc->mEffects; for (size_t i = 0; i < fxVector.size(); i++) { fxVector.itemAt(i)->setEnabled(enabled); } } status_t AudioPolicyService::onTransact( uint32_t code, const Parcel& data, Parcel* reply, uint32_t flags) { return BnAudioPolicyService::onTransact(code, data, reply, flags); } // ----------- AudioPolicyService::AudioCommandThread implementation ---------- AudioPolicyService::AudioCommandThread::AudioCommandThread(String8 name) : Thread(false), mName(name) { mpToneGenerator = NULL; } AudioPolicyService::AudioCommandThread::~AudioCommandThread() { if (mName != "" && !mAudioCommands.isEmpty()) { release_wake_lock(mName.string()); } mAudioCommands.clear(); delete mpToneGenerator; } void AudioPolicyService::AudioCommandThread::onFirstRef() { if (mName != "") { run(mName.string(), ANDROID_PRIORITY_AUDIO); } else { run("AudioCommand", ANDROID_PRIORITY_AUDIO); } } bool AudioPolicyService::AudioCommandThread::threadLoop() { nsecs_t waitTime = INT64_MAX; mLock.lock(); while (!exitPending()) { while (!mAudioCommands.isEmpty()) { nsecs_t curTime = systemTime(); // commands are sorted by increasing time stamp: execute them from index 0 and up if (mAudioCommands[0]->mTime <= curTime) { AudioCommand *command = mAudioCommands[0]; mAudioCommands.removeAt(0); mLastCommand = *command; switch (command->mCommand) { case START_TONE: { mLock.unlock(); ToneData *data = (ToneData *)command->mParam; ALOGV("AudioCommandThread() processing start tone %d on stream %d", data->mType, data->mStream); delete mpToneGenerator; mpToneGenerator = new ToneGenerator(data->mStream, 1.0); mpToneGenerator->startTone(data->mType); delete data; mLock.lock(); }break; case STOP_TONE: { mLock.unlock(); ALOGV("AudioCommandThread() processing stop tone"); if (mpToneGenerator != NULL) { mpToneGenerator->stopTone(); delete mpToneGenerator; mpToneGenerator = NULL; } mLock.lock(); }break; case SET_VOLUME: { VolumeData *data = (VolumeData *)command->mParam; ALOGV("AudioCommandThread() processing set volume stream %d, \ volume %f, output %d", data->mStream, data->mVolume, data->mIO); command->mStatus = AudioSystem::setStreamVolume(data->mStream, data->mVolume, data->mIO); if (command->mWaitStatus) { command->mCond.signal(); mWaitWorkCV.wait(mLock); } delete data; }break; case SET_PARAMETERS: { ParametersData *data = (ParametersData *)command->mParam; ALOGV("AudioCommandThread() processing set parameters string %s, io %d", data->mKeyValuePairs.string(), data->mIO); command->mStatus = AudioSystem::setParameters(data->mIO, data->mKeyValuePairs); if (command->mWaitStatus) { command->mCond.signal(); mWaitWorkCV.wait(mLock); } delete data; }break; case SET_VOICE_VOLUME: { VoiceVolumeData *data = (VoiceVolumeData *)command->mParam; ALOGV("AudioCommandThread() processing set voice volume volume %f", data->mVolume); command->mStatus = AudioSystem::setVoiceVolume(data->mVolume); if (command->mWaitStatus) { command->mCond.signal(); mWaitWorkCV.wait(mLock); } delete data; }break; default: ALOGW("AudioCommandThread() unknown command %d", command->mCommand); } delete command; waitTime = INT64_MAX; } else { waitTime = mAudioCommands[0]->mTime - curTime; break; } } // release delayed commands wake lock if (mName != "" && mAudioCommands.isEmpty()) { release_wake_lock(mName.string()); } ALOGV("AudioCommandThread() going to sleep"); mWaitWorkCV.waitRelative(mLock, waitTime); ALOGV("AudioCommandThread() waking up"); } mLock.unlock(); return false; } status_t AudioPolicyService::AudioCommandThread::dump(int fd) { const size_t SIZE = 256; char buffer[SIZE]; String8 result; snprintf(buffer, SIZE, "AudioCommandThread %p Dump\n", this); result.append(buffer); write(fd, result.string(), result.size()); bool locked = tryLock(mLock); if (!locked) { String8 result2(kCmdDeadlockedString); write(fd, result2.string(), result2.size()); } snprintf(buffer, SIZE, "- Commands:\n"); result = String8(buffer); result.append(" Command Time Wait pParam\n"); for (size_t i = 0; i < mAudioCommands.size(); i++) { mAudioCommands[i]->dump(buffer, SIZE); result.append(buffer); } result.append(" Last Command\n"); mLastCommand.dump(buffer, SIZE); result.append(buffer); write(fd, result.string(), result.size()); if (locked) mLock.unlock(); return NO_ERROR; } void AudioPolicyService::AudioCommandThread::startToneCommand(ToneGenerator::tone_type type, audio_stream_type_t stream) { AudioCommand *command = new AudioCommand(); command->mCommand = START_TONE; ToneData *data = new ToneData(); data->mType = type; data->mStream = stream; command->mParam = (void *)data; Mutex::Autolock _l(mLock); insertCommand_l(command); ALOGV("AudioCommandThread() adding tone start type %d, stream %d", type, stream); mWaitWorkCV.signal(); } void AudioPolicyService::AudioCommandThread::stopToneCommand() { AudioCommand *command = new AudioCommand(); command->mCommand = STOP_TONE; command->mParam = NULL; Mutex::Autolock _l(mLock); insertCommand_l(command); ALOGV("AudioCommandThread() adding tone stop"); mWaitWorkCV.signal(); } status_t AudioPolicyService::AudioCommandThread::volumeCommand(audio_stream_type_t stream, float volume, audio_io_handle_t output, int delayMs) { status_t status = NO_ERROR; AudioCommand *command = new AudioCommand(); command->mCommand = SET_VOLUME; VolumeData *data = new VolumeData(); data->mStream = stream; data->mVolume = volume; data->mIO = output; command->mParam = data; Mutex::Autolock _l(mLock); insertCommand_l(command, delayMs); ALOGV("AudioCommandThread() adding set volume stream %d, volume %f, output %d", stream, volume, output); mWaitWorkCV.signal(); if (command->mWaitStatus) { command->mCond.wait(mLock); status = command->mStatus; mWaitWorkCV.signal(); } return status; } status_t AudioPolicyService::AudioCommandThread::parametersCommand(audio_io_handle_t ioHandle, const char *keyValuePairs, int delayMs) { status_t status = NO_ERROR; AudioCommand *command = new AudioCommand(); command->mCommand = SET_PARAMETERS; ParametersData *data = new ParametersData(); data->mIO = ioHandle; data->mKeyValuePairs = String8(keyValuePairs); command->mParam = data; Mutex::Autolock _l(mLock); insertCommand_l(command, delayMs); ALOGV("AudioCommandThread() adding set parameter string %s, io %d ,delay %d", keyValuePairs, ioHandle, delayMs); mWaitWorkCV.signal(); if (command->mWaitStatus) { command->mCond.wait(mLock); status = command->mStatus; mWaitWorkCV.signal(); } return status; } status_t AudioPolicyService::AudioCommandThread::voiceVolumeCommand(float volume, int delayMs) { status_t status = NO_ERROR; AudioCommand *command = new AudioCommand(); command->mCommand = SET_VOICE_VOLUME; VoiceVolumeData *data = new VoiceVolumeData(); data->mVolume = volume; command->mParam = data; Mutex::Autolock _l(mLock); insertCommand_l(command, delayMs); ALOGV("AudioCommandThread() adding set voice volume volume %f", volume); mWaitWorkCV.signal(); if (command->mWaitStatus) { command->mCond.wait(mLock); status = command->mStatus; mWaitWorkCV.signal(); } return status; } // insertCommand_l() must be called with mLock held void AudioPolicyService::AudioCommandThread::insertCommand_l(AudioCommand *command, int delayMs) { ssize_t i; // not size_t because i will count down to -1 Vector <AudioCommand *> removedCommands; nsecs_t time = 0; command->mTime = systemTime() + milliseconds(delayMs); // acquire wake lock to make sure delayed commands are processed if (mName != "" && mAudioCommands.isEmpty()) { acquire_wake_lock(PARTIAL_WAKE_LOCK, mName.string()); } // check same pending commands with later time stamps and eliminate them for (i = mAudioCommands.size()-1; i >= 0; i--) { AudioCommand *command2 = mAudioCommands[i]; // commands are sorted by increasing time stamp: no need to scan the rest of mAudioCommands if (command2->mTime <= command->mTime) break; if (command2->mCommand != command->mCommand) continue; switch (command->mCommand) { case SET_PARAMETERS: { ParametersData *data = (ParametersData *)command->mParam; ParametersData *data2 = (ParametersData *)command2->mParam; if (data->mIO != data2->mIO) break; ALOGV("Comparing parameter command %s to new command %s", data2->mKeyValuePairs.string(), data->mKeyValuePairs.string()); AudioParameter param = AudioParameter(data->mKeyValuePairs); AudioParameter param2 = AudioParameter(data2->mKeyValuePairs); for (size_t j = 0; j < param.size(); j++) { String8 key; String8 value; param.getAt(j, key, value); for (size_t k = 0; k < param2.size(); k++) { String8 key2; String8 value2; param2.getAt(k, key2, value2); if (key2 == key) { param2.remove(key2); ALOGV("Filtering out parameter %s", key2.string()); break; } } } // if all keys have been filtered out, remove the command. // otherwise, update the key value pairs if (param2.size() == 0) { removedCommands.add(command2); } else { data2->mKeyValuePairs = param2.toString(); } time = command2->mTime; } break; case SET_VOLUME: { VolumeData *data = (VolumeData *)command->mParam; VolumeData *data2 = (VolumeData *)command2->mParam; if (data->mIO != data2->mIO) break; if (data->mStream != data2->mStream) break; ALOGV("Filtering out volume command on output %d for stream %d", data->mIO, data->mStream); removedCommands.add(command2); time = command2->mTime; } break; case START_TONE: case STOP_TONE: default: break; } } // remove filtered commands for (size_t j = 0; j < removedCommands.size(); j++) { // removed commands always have time stamps greater than current command for (size_t k = i + 1; k < mAudioCommands.size(); k++) { if (mAudioCommands[k] == removedCommands[j]) { ALOGV("suppressing command: %d", mAudioCommands[k]->mCommand); mAudioCommands.removeAt(k); break; } } } removedCommands.clear(); // wait for status only if delay is 0 and command time was not modified above if (delayMs == 0 && time == 0) { command->mWaitStatus = true; } else { command->mWaitStatus = false; } // update command time if modified above if (time != 0) { command->mTime = time; } // insert command at the right place according to its time stamp ALOGV("inserting command: %d at index %d, num commands %d", command->mCommand, (int)i+1, mAudioCommands.size()); mAudioCommands.insertAt(command, i + 1); } void AudioPolicyService::AudioCommandThread::exit() { ALOGV("AudioCommandThread::exit"); { AutoMutex _l(mLock); requestExit(); mWaitWorkCV.signal(); } requestExitAndWait(); } void AudioPolicyService::AudioCommandThread::AudioCommand::dump(char* buffer, size_t size) { snprintf(buffer, size, " %02d %06d.%03d %01u %p\n", mCommand, (int)ns2s(mTime), (int)ns2ms(mTime)%1000, mWaitStatus, mParam); } /******* helpers for the service_ops callbacks defined below *********/ void AudioPolicyService::setParameters(audio_io_handle_t ioHandle, const char *keyValuePairs, int delayMs) { mAudioCommandThread->parametersCommand(ioHandle, keyValuePairs, delayMs); } int AudioPolicyService::setStreamVolume(audio_stream_type_t stream, float volume, audio_io_handle_t output, int delayMs) { return (int)mAudioCommandThread->volumeCommand(stream, volume, output, delayMs); } int AudioPolicyService::startTone(audio_policy_tone_t tone, audio_stream_type_t stream) { if (tone != AUDIO_POLICY_TONE_IN_CALL_NOTIFICATION) ALOGE("startTone: illegal tone requested (%d)", tone); if (stream != AUDIO_STREAM_VOICE_CALL) ALOGE("startTone: illegal stream (%d) requested for tone %d", stream, tone); mTonePlaybackThread->startToneCommand(ToneGenerator::TONE_SUP_CALL_WAITING, AUDIO_STREAM_VOICE_CALL); return 0; } int AudioPolicyService::stopTone() { mTonePlaybackThread->stopToneCommand(); return 0; } int AudioPolicyService::setVoiceVolume(float volume, int delayMs) { return (int)mAudioCommandThread->voiceVolumeCommand(volume, delayMs); } // ---------------------------------------------------------------------------- // Audio pre-processing configuration // ---------------------------------------------------------------------------- /*static*/ const char * const AudioPolicyService::kInputSourceNames[AUDIO_SOURCE_CNT -1] = { MIC_SRC_TAG, VOICE_UL_SRC_TAG, VOICE_DL_SRC_TAG, VOICE_CALL_SRC_TAG, CAMCORDER_SRC_TAG, VOICE_REC_SRC_TAG, VOICE_COMM_SRC_TAG }; // returns the audio_source_t enum corresponding to the input source name or // AUDIO_SOURCE_CNT is no match found audio_source_t AudioPolicyService::inputSourceNameToEnum(const char *name) { int i; for (i = AUDIO_SOURCE_MIC; i < AUDIO_SOURCE_CNT; i++) { if (strcmp(name, kInputSourceNames[i - AUDIO_SOURCE_MIC]) == 0) { ALOGV("inputSourceNameToEnum found source %s %d", name, i); break; } } return (audio_source_t)i; } size_t AudioPolicyService::growParamSize(char *param, size_t size, size_t *curSize, size_t *totSize) { // *curSize is at least sizeof(effect_param_t) + 2 * sizeof(int) size_t pos = ((*curSize - 1 ) / size + 1) * size; if (pos + size > *totSize) { while (pos + size > *totSize) { *totSize += ((*totSize + 7) / 8) * 4; } param = (char *)realloc(param, *totSize); } *curSize = pos + size; return pos; } size_t AudioPolicyService::readParamValue(cnode *node, char *param, size_t *curSize, size_t *totSize) { if (strncmp(node->name, SHORT_TAG, sizeof(SHORT_TAG) + 1) == 0) { size_t pos = growParamSize(param, sizeof(short), curSize, totSize); *(short *)((char *)param + pos) = (short)atoi(node->value); ALOGV("readParamValue() reading short %d", *(short *)((char *)param + pos)); return sizeof(short); } else if (strncmp(node->name, INT_TAG, sizeof(INT_TAG) + 1) == 0) { size_t pos = growParamSize(param, sizeof(int), curSize, totSize); *(int *)((char *)param + pos) = atoi(node->value); ALOGV("readParamValue() reading int %d", *(int *)((char *)param + pos)); return sizeof(int); } else if (strncmp(node->name, FLOAT_TAG, sizeof(FLOAT_TAG) + 1) == 0) { size_t pos = growParamSize(param, sizeof(float), curSize, totSize); *(float *)((char *)param + pos) = (float)atof(node->value); ALOGV("readParamValue() reading float %f",*(float *)((char *)param + pos)); return sizeof(float); } else if (strncmp(node->name, BOOL_TAG, sizeof(BOOL_TAG) + 1) == 0) { size_t pos = growParamSize(param, sizeof(bool), curSize, totSize); if (strncmp(node->value, "false", strlen("false") + 1) == 0) { *(bool *)((char *)param + pos) = false; } else { *(bool *)((char *)param + pos) = true; } ALOGV("readParamValue() reading bool %s",*(bool *)((char *)param + pos) ? "true" : "false"); return sizeof(bool); } else if (strncmp(node->name, STRING_TAG, sizeof(STRING_TAG) + 1) == 0) { size_t len = strnlen(node->value, EFFECT_STRING_LEN_MAX); if (*curSize + len + 1 > *totSize) { *totSize = *curSize + len + 1; param = (char *)realloc(param, *totSize); } strncpy(param + *curSize, node->value, len); *curSize += len; param[*curSize] = '\0'; ALOGV("readParamValue() reading string %s", param + *curSize - len); return len; } ALOGW("readParamValue() unknown param type %s", node->name); return 0; } effect_param_t *AudioPolicyService::loadEffectParameter(cnode *root) { cnode *param; cnode *value; size_t curSize = sizeof(effect_param_t); size_t totSize = sizeof(effect_param_t) + 2 * sizeof(int); effect_param_t *fx_param = (effect_param_t *)malloc(totSize); param = config_find(root, PARAM_TAG); value = config_find(root, VALUE_TAG); if (param == NULL && value == NULL) { // try to parse simple parameter form {int int} param = root->first_child; if (param != NULL) { // Note: that a pair of random strings is read as 0 0 int *ptr = (int *)fx_param->data; int *ptr2 = (int *)((char *)param + sizeof(effect_param_t)); ALOGW("loadEffectParameter() ptr %p ptr2 %p", ptr, ptr2); *ptr++ = atoi(param->name); *ptr = atoi(param->value); fx_param->psize = sizeof(int); fx_param->vsize = sizeof(int); return fx_param; } } if (param == NULL || value == NULL) { ALOGW("loadEffectParameter() invalid parameter description %s", root->name); goto error; } fx_param->psize = 0; param = param->first_child; while (param) { ALOGV("loadEffectParameter() reading param of type %s", param->name); size_t size = readParamValue(param, (char *)fx_param, &curSize, &totSize); if (size == 0) { goto error; } fx_param->psize += size; param = param->next; } // align start of value field on 32 bit boundary curSize = ((curSize - 1 ) / sizeof(int) + 1) * sizeof(int); fx_param->vsize = 0; value = value->first_child; while (value) { ALOGV("loadEffectParameter() reading value of type %s", value->name); size_t size = readParamValue(value, (char *)fx_param, &curSize, &totSize); if (size == 0) { goto error; } fx_param->vsize += size; value = value->next; } return fx_param; error: delete fx_param; return NULL; } void AudioPolicyService::loadEffectParameters(cnode *root, Vector <effect_param_t *>& params) { cnode *node = root->first_child; while (node) { ALOGV("loadEffectParameters() loading param %s", node->name); effect_param_t *param = loadEffectParameter(node); if (param == NULL) { node = node->next; continue; } params.add(param); node = node->next; } } AudioPolicyService::InputSourceDesc *AudioPolicyService::loadInputSource( cnode *root, const Vector <EffectDesc *>& effects) { cnode *node = root->first_child; if (node == NULL) { ALOGW("loadInputSource() empty element %s", root->name); return NULL; } InputSourceDesc *source = new InputSourceDesc(); while (node) { size_t i; for (i = 0; i < effects.size(); i++) { if (strncmp(effects[i]->mName, node->name, EFFECT_STRING_LEN_MAX) == 0) { ALOGV("loadInputSource() found effect %s in list", node->name); break; } } if (i == effects.size()) { ALOGV("loadInputSource() effect %s not in list", node->name); node = node->next; continue; } EffectDesc *effect = new EffectDesc(*effects[i]); // deep copy loadEffectParameters(node, effect->mParams); ALOGV("loadInputSource() adding effect %s uuid %08x", effect->mName, effect->mUuid.timeLow); source->mEffects.add(effect); node = node->next; } if (source->mEffects.size() == 0) { ALOGW("loadInputSource() no valid effects found in source %s", root->name); delete source; return NULL; } return source; } status_t AudioPolicyService::loadInputSources(cnode *root, const Vector <EffectDesc *>& effects) { cnode *node = config_find(root, PREPROCESSING_TAG); if (node == NULL) { return -ENOENT; } node = node->first_child; while (node) { audio_source_t source = inputSourceNameToEnum(node->name); if (source == AUDIO_SOURCE_CNT) { ALOGW("loadInputSources() invalid input source %s", node->name); node = node->next; continue; } ALOGV("loadInputSources() loading input source %s", node->name); InputSourceDesc *desc = loadInputSource(node, effects); if (desc == NULL) { node = node->next; continue; } mInputSources.add(source, desc); node = node->next; } return NO_ERROR; } AudioPolicyService::EffectDesc *AudioPolicyService::loadEffect(cnode *root) { cnode *node = config_find(root, UUID_TAG); if (node == NULL) { return NULL; } effect_uuid_t uuid; if (AudioEffect::stringToGuid(node->value, &uuid) != NO_ERROR) { ALOGW("loadEffect() invalid uuid %s", node->value); return NULL; } return new EffectDesc(root->name, uuid); } status_t AudioPolicyService::loadEffects(cnode *root, Vector <EffectDesc *>& effects) { cnode *node = config_find(root, EFFECTS_TAG); if (node == NULL) { return -ENOENT; } node = node->first_child; while (node) { ALOGV("loadEffects() loading effect %s", node->name); EffectDesc *effect = loadEffect(node); if (effect == NULL) { node = node->next; continue; } effects.add(effect); node = node->next; } return NO_ERROR; } status_t AudioPolicyService::loadPreProcessorConfig(const char *path) { cnode *root; char *data; data = (char *)load_file(path, NULL); if (data == NULL) { return -ENODEV; } root = config_node("", ""); config_load(root, data); Vector <EffectDesc *> effects; loadEffects(root, effects); loadInputSources(root, effects); config_free(root); free(root); free(data); return NO_ERROR; } /* implementation of the interface to the policy manager */ extern "C" { static audio_module_handle_t aps_load_hw_module(void *service, const char *name) { sp<IAudioFlinger> af = AudioSystem::get_audio_flinger(); if (af == 0) { ALOGW("%s: could not get AudioFlinger", __func__); return 0; } return af->loadHwModule(name); } // deprecated: replaced by aps_open_output_on_module() static audio_io_handle_t aps_open_output(void *service, audio_devices_t *pDevices, uint32_t *pSamplingRate, audio_format_t *pFormat, audio_channel_mask_t *pChannelMask, uint32_t *pLatencyMs, audio_output_flags_t flags) { sp<IAudioFlinger> af = AudioSystem::get_audio_flinger(); if (af == 0) { ALOGW("%s: could not get AudioFlinger", __func__); return 0; } return af->openOutput((audio_module_handle_t)0, pDevices, pSamplingRate, pFormat, pChannelMask, pLatencyMs, flags); } static audio_io_handle_t aps_open_output_on_module(void *service, audio_module_handle_t module, audio_devices_t *pDevices, uint32_t *pSamplingRate, audio_format_t *pFormat, audio_channel_mask_t *pChannelMask, uint32_t *pLatencyMs, audio_output_flags_t flags) { sp<IAudioFlinger> af = AudioSystem::get_audio_flinger(); if (af == 0) { ALOGW("%s: could not get AudioFlinger", __func__); return 0; } return af->openOutput(module, pDevices, pSamplingRate, pFormat, pChannelMask, pLatencyMs, flags); } static audio_io_handle_t aps_open_dup_output(void *service, audio_io_handle_t output1, audio_io_handle_t output2) { sp<IAudioFlinger> af = AudioSystem::get_audio_flinger(); if (af == 0) { ALOGW("%s: could not get AudioFlinger", __func__); return 0; } return af->openDuplicateOutput(output1, output2); } static int aps_close_output(void *service, audio_io_handle_t output) { sp<IAudioFlinger> af = AudioSystem::get_audio_flinger(); if (af == 0) return PERMISSION_DENIED; return af->closeOutput(output); } static int aps_suspend_output(void *service, audio_io_handle_t output) { sp<IAudioFlinger> af = AudioSystem::get_audio_flinger(); if (af == 0) { ALOGW("%s: could not get AudioFlinger", __func__); return PERMISSION_DENIED; } return af->suspendOutput(output); } static int aps_restore_output(void *service, audio_io_handle_t output) { sp<IAudioFlinger> af = AudioSystem::get_audio_flinger(); if (af == 0) { ALOGW("%s: could not get AudioFlinger", __func__); return PERMISSION_DENIED; } return af->restoreOutput(output); } // deprecated: replaced by aps_open_input_on_module(), and acoustics parameter is ignored static audio_io_handle_t aps_open_input(void *service, audio_devices_t *pDevices, uint32_t *pSamplingRate, audio_format_t *pFormat, audio_channel_mask_t *pChannelMask, audio_in_acoustics_t acoustics) { sp<IAudioFlinger> af = AudioSystem::get_audio_flinger(); if (af == 0) { ALOGW("%s: could not get AudioFlinger", __func__); return 0; } return af->openInput((audio_module_handle_t)0, pDevices, pSamplingRate, pFormat, pChannelMask); } static audio_io_handle_t aps_open_input_on_module(void *service, audio_module_handle_t module, audio_devices_t *pDevices, uint32_t *pSamplingRate, audio_format_t *pFormat, audio_channel_mask_t *pChannelMask) { sp<IAudioFlinger> af = AudioSystem::get_audio_flinger(); if (af == 0) { ALOGW("%s: could not get AudioFlinger", __func__); return 0; } return af->openInput(module, pDevices, pSamplingRate, pFormat, pChannelMask); } static int aps_close_input(void *service, audio_io_handle_t input) { sp<IAudioFlinger> af = AudioSystem::get_audio_flinger(); if (af == 0) return PERMISSION_DENIED; return af->closeInput(input); } static int aps_set_stream_output(void *service, audio_stream_type_t stream, audio_io_handle_t output) { sp<IAudioFlinger> af = AudioSystem::get_audio_flinger(); if (af == 0) return PERMISSION_DENIED; return af->setStreamOutput(stream, output); } static int aps_move_effects(void *service, int session, audio_io_handle_t src_output, audio_io_handle_t dst_output) { sp<IAudioFlinger> af = AudioSystem::get_audio_flinger(); if (af == 0) return PERMISSION_DENIED; return af->moveEffects(session, src_output, dst_output); } static char * aps_get_parameters(void *service, audio_io_handle_t io_handle, const char *keys) { String8 result = AudioSystem::getParameters(io_handle, String8(keys)); return strdup(result.string()); } static void aps_set_parameters(void *service, audio_io_handle_t io_handle, const char *kv_pairs, int delay_ms) { AudioPolicyService *audioPolicyService = (AudioPolicyService *)service; audioPolicyService->setParameters(io_handle, kv_pairs, delay_ms); } static int aps_set_stream_volume(void *service, audio_stream_type_t stream, float volume, audio_io_handle_t output, int delay_ms) { AudioPolicyService *audioPolicyService = (AudioPolicyService *)service; return audioPolicyService->setStreamVolume(stream, volume, output, delay_ms); } static int aps_start_tone(void *service, audio_policy_tone_t tone, audio_stream_type_t stream) { AudioPolicyService *audioPolicyService = (AudioPolicyService *)service; return audioPolicyService->startTone(tone, stream); } static int aps_stop_tone(void *service) { AudioPolicyService *audioPolicyService = (AudioPolicyService *)service; return audioPolicyService->stopTone(); } static int aps_set_voice_volume(void *service, float volume, int delay_ms) { AudioPolicyService *audioPolicyService = (AudioPolicyService *)service; return audioPolicyService->setVoiceVolume(volume, delay_ms); } }; // extern "C" namespace { struct audio_policy_service_ops aps_ops = { open_output : aps_open_output, open_duplicate_output : aps_open_dup_output, close_output : aps_close_output, suspend_output : aps_suspend_output, restore_output : aps_restore_output, open_input : aps_open_input, close_input : aps_close_input, set_stream_volume : aps_set_stream_volume, set_stream_output : aps_set_stream_output, set_parameters : aps_set_parameters, get_parameters : aps_get_parameters, start_tone : aps_start_tone, stop_tone : aps_stop_tone, set_voice_volume : aps_set_voice_volume, move_effects : aps_move_effects, load_hw_module : aps_load_hw_module, open_output_on_module : aps_open_output_on_module, open_input_on_module : aps_open_input_on_module, }; }; // namespace <unnamed> }; // namespace android