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/*
* Copyright (C) 2015 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 "APM::AudioOutputDescriptor"
//#define LOG_NDEBUG 0
#include <AudioPolicyInterface.h>
#include "AudioOutputDescriptor.h"
#include "IOProfile.h"
#include "AudioGain.h"
#include "Volume.h"
#include "HwModule.h"
#include <media/AudioPolicy.h>
// A device mask for all audio output devices that are considered "remote" when evaluating
// active output devices in isStreamActiveRemotely()
#define APM_AUDIO_OUT_DEVICE_REMOTE_ALL AUDIO_DEVICE_OUT_REMOTE_SUBMIX
namespace android {
AudioOutputDescriptor::AudioOutputDescriptor(const sp<AudioPort>& port,
AudioPolicyClientInterface *clientInterface)
: mPort(port), mDevice(AUDIO_DEVICE_NONE), mIoHandle(0),
mPatchHandle(0), mClientInterface(clientInterface), mId(0)
{
// clear usage count for all stream types
for (int i = 0; i < AUDIO_STREAM_CNT; i++) {
mRefCount[i] = 0;
mCurVolume[i] = -1.0;
mMuteCount[i] = 0;
mStopTime[i] = 0;
}
for (int i = 0; i < NUM_STRATEGIES; i++) {
mStrategyMutedByDevice[i] = false;
}
if (port != NULL) {
mSamplingRate = port->pickSamplingRate();
mFormat = port->pickFormat();
mChannelMask = port->pickChannelMask();
if (port->mGains.size() > 0) {
port->mGains[0]->getDefaultConfig(&mGain);
}
}
}
audio_module_handle_t AudioOutputDescriptor::getModuleHandle() const
{
return mPort->getModuleHandle();
}
audio_port_handle_t AudioOutputDescriptor::getId() const
{
return mId;
}
audio_devices_t AudioOutputDescriptor::device() const
{
return mDevice;
}
audio_devices_t AudioOutputDescriptor::supportedDevices()
{
return mDevice;
}
bool AudioOutputDescriptor::sharesHwModuleWith(
const sp<AudioOutputDescriptor> outputDesc)
{
if (outputDesc->isDuplicated()) {
return sharesHwModuleWith(outputDesc->subOutput1()) ||
sharesHwModuleWith(outputDesc->subOutput2());
} else {
return (getModuleHandle() == outputDesc->getModuleHandle());
}
}
void AudioOutputDescriptor::changeRefCount(audio_stream_type_t stream,
int delta)
{
if ((delta + (int)mRefCount[stream]) < 0) {
ALOGW("changeRefCount() invalid delta %d for stream %d, refCount %d",
delta, stream, mRefCount[stream]);
mRefCount[stream] = 0;
return;
}
mRefCount[stream] += delta;
ALOGV("changeRefCount() stream %d, count %d", stream, mRefCount[stream]);
}
bool AudioOutputDescriptor::isActive(uint32_t inPastMs) const
{
nsecs_t sysTime = 0;
if (inPastMs != 0) {
sysTime = systemTime();
}
for (int i = 0; i < (int)AUDIO_STREAM_CNT; i++) {
if (i == AUDIO_STREAM_PATCH) {
continue;
}
if (isStreamActive((audio_stream_type_t)i, inPastMs, sysTime)) {
return true;
}
}
return false;
}
bool AudioOutputDescriptor::isStreamActive(audio_stream_type_t stream,
uint32_t inPastMs,
nsecs_t sysTime) const
{
if (mRefCount[stream] != 0) {
return true;
}
if (inPastMs == 0) {
return false;
}
if (sysTime == 0) {
sysTime = systemTime();
}
if (ns2ms(sysTime - mStopTime[stream]) < inPastMs) {
return true;
}
return false;
}
bool AudioOutputDescriptor::isFixedVolume(audio_devices_t device __unused)
{
return false;
}
bool AudioOutputDescriptor::setVolume(float volume,
audio_stream_type_t stream,
audio_devices_t device __unused,
uint32_t delayMs,
bool force)
{
// We actually change the volume if:
// - the float value returned by computeVolume() changed
// - the force flag is set
if (volume != mCurVolume[stream] || force) {
ALOGV("setVolume() for stream %d, volume %f, delay %d", stream, volume, delayMs);
mCurVolume[stream] = volume;
return true;
}
return false;
}
void AudioOutputDescriptor::toAudioPortConfig(
struct audio_port_config *dstConfig,
const struct audio_port_config *srcConfig) const
{
dstConfig->config_mask = AUDIO_PORT_CONFIG_SAMPLE_RATE|AUDIO_PORT_CONFIG_CHANNEL_MASK|
AUDIO_PORT_CONFIG_FORMAT|AUDIO_PORT_CONFIG_GAIN;
if (srcConfig != NULL) {
dstConfig->config_mask |= srcConfig->config_mask;
}
AudioPortConfig::toAudioPortConfig(dstConfig, srcConfig);
dstConfig->id = mId;
dstConfig->role = AUDIO_PORT_ROLE_SOURCE;
dstConfig->type = AUDIO_PORT_TYPE_MIX;
dstConfig->ext.mix.hw_module = getModuleHandle();
dstConfig->ext.mix.usecase.stream = AUDIO_STREAM_DEFAULT;
}
void AudioOutputDescriptor::toAudioPort(
struct audio_port *port) const
{
mPort->toAudioPort(port);
port->id = mId;
port->ext.mix.hw_module = getModuleHandle();
}
status_t AudioOutputDescriptor::dump(int fd)
{
const size_t SIZE = 256;
char buffer[SIZE];
String8 result;
snprintf(buffer, SIZE, " ID: %d\n", mId);
result.append(buffer);
snprintf(buffer, SIZE, " Sampling rate: %d\n", mSamplingRate);
result.append(buffer);
snprintf(buffer, SIZE, " Format: %08x\n", mFormat);
result.append(buffer);
snprintf(buffer, SIZE, " Channels: %08x\n", mChannelMask);
result.append(buffer);
snprintf(buffer, SIZE, " Devices %08x\n", device());
result.append(buffer);
snprintf(buffer, SIZE, " Stream volume refCount muteCount\n");
result.append(buffer);
for (int i = 0; i < (int)AUDIO_STREAM_CNT; i++) {
snprintf(buffer, SIZE, " %02d %.03f %02d %02d\n",
i, mCurVolume[i], mRefCount[i], mMuteCount[i]);
result.append(buffer);
}
write(fd, result.string(), result.size());
return NO_ERROR;
}
void AudioOutputDescriptor::log(const char* indent)
{
ALOGI("%sID: %d,0x%X, [rt:%d fmt:0x%X ch:0x%X]",
indent, mId, mId, mSamplingRate, mFormat, mChannelMask);
}
// SwAudioOutputDescriptor implementation
SwAudioOutputDescriptor::SwAudioOutputDescriptor(
const sp<IOProfile>& profile, AudioPolicyClientInterface *clientInterface)
: AudioOutputDescriptor(profile, clientInterface),
mProfile(profile), mLatency(0),
mFlags((audio_output_flags_t)0), mPolicyMix(NULL),
mOutput1(0), mOutput2(0), mDirectOpenCount(0), mGlobalRefCount(0)
{
if (profile != NULL) {
mFlags = (audio_output_flags_t)profile->mFlags;
}
}
void SwAudioOutputDescriptor::setIoHandle(audio_io_handle_t ioHandle)
{
mId = AudioPort::getNextUniqueId();
mIoHandle = ioHandle;
}
status_t SwAudioOutputDescriptor::dump(int fd)
{
const size_t SIZE = 256;
char buffer[SIZE];
String8 result;
snprintf(buffer, SIZE, " Latency: %d\n", mLatency);
result.append(buffer);
snprintf(buffer, SIZE, " Flags %08x\n", mFlags);
result.append(buffer);
write(fd, result.string(), result.size());
AudioOutputDescriptor::dump(fd);
return NO_ERROR;
}
audio_devices_t SwAudioOutputDescriptor::device() const
{
if (isDuplicated()) {
return (audio_devices_t)(mOutput1->mDevice | mOutput2->mDevice);
} else {
return mDevice;
}
}
bool SwAudioOutputDescriptor::sharesHwModuleWith(
const sp<AudioOutputDescriptor> outputDesc)
{
if (isDuplicated()) {
return mOutput1->sharesHwModuleWith(outputDesc) || mOutput2->sharesHwModuleWith(outputDesc);
} else if (outputDesc->isDuplicated()){
return sharesHwModuleWith(outputDesc->subOutput1()) ||
sharesHwModuleWith(outputDesc->subOutput2());
} else {
return AudioOutputDescriptor::sharesHwModuleWith(outputDesc);
}
}
audio_devices_t SwAudioOutputDescriptor::supportedDevices()
{
if (isDuplicated()) {
return (audio_devices_t)(mOutput1->supportedDevices() | mOutput2->supportedDevices());
} else {
return mProfile->mSupportedDevices.types() ;
}
}
uint32_t SwAudioOutputDescriptor::latency()
{
if (isDuplicated()) {
return (mOutput1->mLatency > mOutput2->mLatency) ? mOutput1->mLatency : mOutput2->mLatency;
} else {
return mLatency;
}
}
void SwAudioOutputDescriptor::changeRefCount(audio_stream_type_t stream,
int delta)
{
// forward usage count change to attached outputs
if (isDuplicated()) {
mOutput1->changeRefCount(stream, delta);
mOutput2->changeRefCount(stream, delta);
}
AudioOutputDescriptor::changeRefCount(stream, delta);
// handle stream-independent ref count
uint32_t oldGlobalRefCount = mGlobalRefCount;
if ((delta + (int)mGlobalRefCount) < 0) {
ALOGW("changeRefCount() invalid delta %d globalRefCount %d", delta, mGlobalRefCount);
mGlobalRefCount = 0;
} else {
mGlobalRefCount += delta;
}
if ((oldGlobalRefCount == 0) && (mGlobalRefCount > 0)) {
if ((mPolicyMix != NULL) && ((mPolicyMix->mCbFlags & AudioMix::kCbFlagNotifyActivity) != 0))
{
mClientInterface->onDynamicPolicyMixStateUpdate(mPolicyMix->mRegistrationId,
MIX_STATE_MIXING);
}
} else if ((oldGlobalRefCount > 0) && (mGlobalRefCount == 0)) {
if ((mPolicyMix != NULL) && ((mPolicyMix->mCbFlags & AudioMix::kCbFlagNotifyActivity) != 0))
{
mClientInterface->onDynamicPolicyMixStateUpdate(mPolicyMix->mRegistrationId,
MIX_STATE_IDLE);
}
}
}
bool SwAudioOutputDescriptor::isFixedVolume(audio_devices_t device)
{
// unit gain if rerouting to external policy
if (device == AUDIO_DEVICE_OUT_REMOTE_SUBMIX) {
if (mPolicyMix != NULL) {
ALOGV("max gain when rerouting for output=%d", mIoHandle);
return true;
}
}
return false;
}
void SwAudioOutputDescriptor::toAudioPortConfig(
struct audio_port_config *dstConfig,
const struct audio_port_config *srcConfig) const
{
ALOG_ASSERT(!isDuplicated(), "toAudioPortConfig() called on duplicated output %d", mIoHandle);
AudioOutputDescriptor::toAudioPortConfig(dstConfig, srcConfig);
dstConfig->ext.mix.handle = mIoHandle;
}
void SwAudioOutputDescriptor::toAudioPort(
struct audio_port *port) const
{
ALOG_ASSERT(!isDuplicated(), "toAudioPort() called on duplicated output %d", mIoHandle);
AudioOutputDescriptor::toAudioPort(port);
toAudioPortConfig(&port->active_config);
port->ext.mix.handle = mIoHandle;
port->ext.mix.latency_class =
mFlags & AUDIO_OUTPUT_FLAG_FAST ? AUDIO_LATENCY_LOW : AUDIO_LATENCY_NORMAL;
}
bool SwAudioOutputDescriptor::setVolume(float volume,
audio_stream_type_t stream,
audio_devices_t device,
uint32_t delayMs,
bool force)
{
bool changed = AudioOutputDescriptor::setVolume(volume, stream, device, delayMs, force);
if (changed) {
// Force VOICE_CALL to track BLUETOOTH_SCO stream volume when bluetooth audio is
// enabled
float volume = Volume::DbToAmpl(mCurVolume[stream]);
if (stream == AUDIO_STREAM_BLUETOOTH_SCO) {
mClientInterface->setStreamVolume(
AUDIO_STREAM_VOICE_CALL, volume, mIoHandle, delayMs);
}
mClientInterface->setStreamVolume(stream, volume, mIoHandle, delayMs);
}
return changed;
}
// SwAudioOutputCollection implementation
bool SwAudioOutputCollection::isStreamActive(audio_stream_type_t stream, uint32_t inPastMs) const
{
nsecs_t sysTime = systemTime();
for (size_t i = 0; i < this->size(); i++) {
const sp<SwAudioOutputDescriptor> outputDesc = this->valueAt(i);
if (outputDesc->isStreamActive(stream, inPastMs, sysTime)) {
return true;
}
}
return false;
}
bool SwAudioOutputCollection::isStreamActiveRemotely(audio_stream_type_t stream,
uint32_t inPastMs) const
{
nsecs_t sysTime = systemTime();
for (size_t i = 0; i < size(); i++) {
const sp<SwAudioOutputDescriptor> outputDesc = valueAt(i);
if (((outputDesc->device() & APM_AUDIO_OUT_DEVICE_REMOTE_ALL) != 0) &&
outputDesc->isStreamActive(stream, inPastMs, sysTime)) {
// do not consider re routing (when the output is going to a dynamic policy)
// as "remote playback"
if (outputDesc->mPolicyMix == NULL) {
return true;
}
}
}
return false;
}
audio_io_handle_t SwAudioOutputCollection::getA2dpOutput() const
{
for (size_t i = 0; i < size(); i++) {
sp<SwAudioOutputDescriptor> outputDesc = valueAt(i);
if (!outputDesc->isDuplicated() && outputDesc->device() & AUDIO_DEVICE_OUT_ALL_A2DP) {
return this->keyAt(i);
}
}
#ifdef LEGACY_ALSA_AUDIO
return 1;
#else
return 0;
#endif
}
sp<SwAudioOutputDescriptor> SwAudioOutputCollection::getPrimaryOutput() const
{
for (size_t i = 0; i < size(); i++) {
const sp<SwAudioOutputDescriptor> outputDesc = valueAt(i);
if (outputDesc->mFlags & AUDIO_OUTPUT_FLAG_PRIMARY) {
return outputDesc;
}
}
return NULL;
}
sp<SwAudioOutputDescriptor> SwAudioOutputCollection::getOutputFromId(audio_port_handle_t id) const
{
sp<SwAudioOutputDescriptor> outputDesc = NULL;
for (size_t i = 0; i < size(); i++) {
outputDesc = valueAt(i);
if (outputDesc->getId() == id) {
break;
}
}
return outputDesc;
}
bool SwAudioOutputCollection::isAnyOutputActive(audio_stream_type_t streamToIgnore) const
{
for (size_t s = 0 ; s < AUDIO_STREAM_CNT ; s++) {
if (s == (size_t) streamToIgnore) {
continue;
}
for (size_t i = 0; i < size(); i++) {
const sp<SwAudioOutputDescriptor> outputDesc = valueAt(i);
if (outputDesc->mRefCount[s] != 0) {
return true;
}
}
}
return false;
}
audio_devices_t SwAudioOutputCollection::getSupportedDevices(audio_io_handle_t handle) const
{
sp<SwAudioOutputDescriptor> outputDesc = valueFor(handle);
audio_devices_t devices = outputDesc->mProfile->mSupportedDevices.types();
return devices;
}
status_t SwAudioOutputCollection::dump(int fd) const
{
const size_t SIZE = 256;
char buffer[SIZE];
snprintf(buffer, SIZE, "\nOutputs dump:\n");
write(fd, buffer, strlen(buffer));
for (size_t i = 0; i < size(); i++) {
snprintf(buffer, SIZE, "- Output %d dump:\n", keyAt(i));
write(fd, buffer, strlen(buffer));
valueAt(i)->dump(fd);
}
return NO_ERROR;
}
}; //namespace android
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