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fuchsia / third_party / android / platform / hardware / interfaces / 12b2c93b101bb047a34546e7519ddeae82b49e13 / . / audio / common / all-versions / default / HidlUtils.cpp
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/*
* Copyright (C) 2018 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 "HidlUtils.h"
#include <common/all-versions/VersionUtils.h>
#include <string.h>
using ::android::hardware::audio::common::utils::EnumBitfield;
namespace android {
namespace hardware {
namespace audio {
namespace common {
namespace CPP_VERSION {
namespace implementation {
status_t HidlUtils::audioConfigFromHal(const audio_config_t& halConfig, bool, AudioConfig* config) {
config->sampleRateHz = halConfig.sample_rate;
config->channelMask = EnumBitfield<AudioChannelMask>(halConfig.channel_mask);
config->format = AudioFormat(halConfig.format);
status_t status = audioOffloadInfoFromHal(halConfig.offload_info, &config->offloadInfo);
config->frameCount = halConfig.frame_count;
return status;
}
status_t HidlUtils::audioConfigToHal(const AudioConfig& config, audio_config_t* halConfig) {
memset(halConfig, 0, sizeof(audio_config_t));
halConfig->sample_rate = config.sampleRateHz;
halConfig->channel_mask = static_cast<audio_channel_mask_t>(config.channelMask);
halConfig->format = static_cast<audio_format_t>(config.format);
audioOffloadInfoToHal(config.offloadInfo, &halConfig->offload_info);
halConfig->frame_count = config.frameCount;
return NO_ERROR;
}
status_t HidlUtils::audioGainConfigFromHal(const struct audio_gain_config& halConfig, bool,
AudioGainConfig* config) {
config->index = halConfig.index;
config->mode = EnumBitfield<AudioGainMode>(halConfig.mode);
config->channelMask = EnumBitfield<AudioChannelMask>(halConfig.channel_mask);
for (size_t i = 0; i < sizeof(audio_channel_mask_t) * 8; ++i) {
config->values[i] = halConfig.values[i];
}
config->rampDurationMs = halConfig.ramp_duration_ms;
return NO_ERROR;
}
status_t HidlUtils::audioGainConfigToHal(const AudioGainConfig& config,
struct audio_gain_config* halConfig) {
halConfig->index = config.index;
halConfig->mode = static_cast<audio_gain_mode_t>(config.mode);
halConfig->channel_mask = static_cast<audio_channel_mask_t>(config.channelMask);
memset(halConfig->values, 0, sizeof(halConfig->values));
for (size_t i = 0; i < sizeof(audio_channel_mask_t) * 8; ++i) {
halConfig->values[i] = config.values[i];
}
halConfig->ramp_duration_ms = config.rampDurationMs;
return NO_ERROR;
}
status_t HidlUtils::audioGainFromHal(const struct audio_gain& halGain, bool, AudioGain* gain) {
gain->mode = EnumBitfield<AudioGainMode>(halGain.mode);
gain->channelMask = EnumBitfield<AudioChannelMask>(halGain.channel_mask);
gain->minValue = halGain.min_value;
gain->maxValue = halGain.max_value;
gain->defaultValue = halGain.default_value;
gain->stepValue = halGain.step_value;
gain->minRampMs = halGain.min_ramp_ms;
gain->maxRampMs = halGain.max_ramp_ms;
return NO_ERROR;
}
status_t HidlUtils::audioGainToHal(const AudioGain& gain, struct audio_gain* halGain) {
halGain->mode = static_cast<audio_gain_mode_t>(gain.mode);
halGain->channel_mask = static_cast<audio_channel_mask_t>(gain.channelMask);
halGain->min_value = gain.minValue;
halGain->max_value = gain.maxValue;
halGain->default_value = gain.defaultValue;
halGain->step_value = gain.stepValue;
halGain->min_ramp_ms = gain.minRampMs;
halGain->max_ramp_ms = gain.maxRampMs;
return NO_ERROR;
}
status_t HidlUtils::audioUsageFromHal(audio_usage_t halUsage, AudioUsage* usage) {
switch (halUsage) {
case AUDIO_USAGE_NOTIFICATION_COMMUNICATION_REQUEST:
case AUDIO_USAGE_NOTIFICATION_COMMUNICATION_INSTANT:
case AUDIO_USAGE_NOTIFICATION_COMMUNICATION_DELAYED:
case AUDIO_USAGE_NOTIFICATION_EVENT:
*usage = AudioUsage::NOTIFICATION;
break;
default:
*usage = static_cast<AudioUsage>(halUsage);
}
return NO_ERROR;
}
status_t HidlUtils::audioUsageToHal(const AudioUsage& usage, audio_usage_t* halUsage) {
*halUsage = static_cast<audio_usage_t>(usage);
return NO_ERROR;
}
status_t HidlUtils::audioOffloadInfoFromHal(const audio_offload_info_t& halOffload,
AudioOffloadInfo* offload) {
offload->sampleRateHz = halOffload.sample_rate;
offload->channelMask = EnumBitfield<AudioChannelMask>(halOffload.channel_mask);
offload->format = AudioFormat(halOffload.format);
offload->streamType = AudioStreamType(halOffload.stream_type);
offload->bitRatePerSecond = halOffload.bit_rate;
offload->durationMicroseconds = halOffload.duration_us;
offload->hasVideo = halOffload.has_video;
offload->isStreaming = halOffload.is_streaming;
offload->bitWidth = halOffload.bit_width;
offload->bufferSize = halOffload.offload_buffer_size;
audioUsageFromHal(halOffload.usage, &offload->usage);
#if MAJOR_VERSION >= 6
if (halOffload.version >= AUDIO_OFFLOAD_INFO_VERSION_0_2) {
offload->encapsulationMode =
static_cast<AudioEncapsulationMode>(halOffload.encapsulation_mode);
offload->contentId = halOffload.content_id;
offload->syncId = halOffload.sync_id;
} else {
offload->encapsulationMode = AudioEncapsulationMode::NONE;
offload->contentId = 0;
offload->syncId = 0;
}
#else
// nonzero values here are not compatible with HAL versions below 6.
if (halOffload.version >= AUDIO_OFFLOAD_INFO_VERSION_0_2 &&
(halOffload.encapsulation_mode != AUDIO_ENCAPSULATION_MODE_NONE ||
halOffload.content_id != 0 || halOffload.sync_id != 0)) {
return BAD_VALUE;
}
#endif
return NO_ERROR;
}
status_t HidlUtils::audioOffloadInfoToHal(const AudioOffloadInfo& offload,
audio_offload_info_t* halOffload) {
*halOffload = AUDIO_INFO_INITIALIZER;
halOffload->sample_rate = offload.sampleRateHz;
halOffload->channel_mask = static_cast<audio_channel_mask_t>(offload.channelMask);
halOffload->format = static_cast<audio_format_t>(offload.format);
halOffload->stream_type = static_cast<audio_stream_type_t>(offload.streamType);
halOffload->bit_rate = offload.bitRatePerSecond;
halOffload->duration_us = offload.durationMicroseconds;
halOffload->has_video = offload.hasVideo;
halOffload->is_streaming = offload.isStreaming;
halOffload->bit_width = offload.bitWidth;
halOffload->offload_buffer_size = offload.bufferSize;
audioUsageToHal(offload.usage, &halOffload->usage);
#if MAJOR_VERSION >= 6
halOffload->encapsulation_mode =
static_cast<audio_encapsulation_mode_t>(offload.encapsulationMode);
halOffload->content_id = offload.contentId;
halOffload->sync_id = offload.syncId;
#else
// offload doesn't contain encapsulationMode, contentId, syncId, so this is OK.
#endif
return NO_ERROR;
}
status_t HidlUtils::audioPortConfigFromHal(const struct audio_port_config& halConfig,
AudioPortConfig* config) {
config->id = halConfig.id;
config->role = AudioPortRole(halConfig.role);
config->type = AudioPortType(halConfig.type);
config->configMask = EnumBitfield<AudioPortConfigMask>(halConfig.config_mask);
config->sampleRateHz = halConfig.sample_rate;
config->channelMask = EnumBitfield<AudioChannelMask>(halConfig.channel_mask);
config->format = AudioFormat(halConfig.format);
audioGainConfigFromHal(halConfig.gain, false /*isInput--ignored*/, &config->gain);
switch (halConfig.type) {
case AUDIO_PORT_TYPE_NONE:
break;
case AUDIO_PORT_TYPE_DEVICE: {
config->ext.device.hwModule = halConfig.ext.device.hw_module;
config->ext.device.type = AudioDevice(halConfig.ext.device.type);
memcpy(config->ext.device.address.data(), halConfig.ext.device.address,
AUDIO_DEVICE_MAX_ADDRESS_LEN);
break;
}
case AUDIO_PORT_TYPE_MIX: {
config->ext.mix.hwModule = halConfig.ext.mix.hw_module;
config->ext.mix.ioHandle = halConfig.ext.mix.handle;
if (halConfig.role == AUDIO_PORT_ROLE_SOURCE) {
config->ext.mix.useCase.stream = AudioStreamType(halConfig.ext.mix.usecase.stream);
} else if (halConfig.role == AUDIO_PORT_ROLE_SINK) {
config->ext.mix.useCase.source = AudioSource(halConfig.ext.mix.usecase.source);
}
break;
}
case AUDIO_PORT_TYPE_SESSION: {
config->ext.session.session = halConfig.ext.session.session;
break;
}
}
return NO_ERROR;
}
status_t HidlUtils::audioPortConfigToHal(const AudioPortConfig& config,
struct audio_port_config* halConfig) {
memset(halConfig, 0, sizeof(audio_port_config));
halConfig->id = config.id;
halConfig->role = static_cast<audio_port_role_t>(config.role);
halConfig->type = static_cast<audio_port_type_t>(config.type);
halConfig->config_mask = static_cast<unsigned int>(config.configMask);
halConfig->sample_rate = config.sampleRateHz;
halConfig->channel_mask = static_cast<audio_channel_mask_t>(config.channelMask);
halConfig->format = static_cast<audio_format_t>(config.format);
audioGainConfigToHal(config.gain, &halConfig->gain);
switch (config.type) {
case AudioPortType::NONE:
break;
case AudioPortType::DEVICE: {
halConfig->ext.device.hw_module = config.ext.device.hwModule;
halConfig->ext.device.type = static_cast<audio_devices_t>(config.ext.device.type);
memcpy(halConfig->ext.device.address, config.ext.device.address.data(),
AUDIO_DEVICE_MAX_ADDRESS_LEN);
break;
}
case AudioPortType::MIX: {
halConfig->ext.mix.hw_module = config.ext.mix.hwModule;
halConfig->ext.mix.handle = config.ext.mix.ioHandle;
if (config.role == AudioPortRole::SOURCE) {
halConfig->ext.mix.usecase.stream =
static_cast<audio_stream_type_t>(config.ext.mix.useCase.stream);
} else if (config.role == AudioPortRole::SINK) {
halConfig->ext.mix.usecase.source =
static_cast<audio_source_t>(config.ext.mix.useCase.source);
}
break;
}
case AudioPortType::SESSION: {
halConfig->ext.session.session =
static_cast<audio_session_t>(config.ext.session.session);
break;
}
}
return NO_ERROR;
}
status_t HidlUtils::audioPortFromHal(const struct audio_port& halPort, AudioPort* port) {
port->id = halPort.id;
port->role = AudioPortRole(halPort.role);
port->type = AudioPortType(halPort.type);
port->name.setToExternal(halPort.name, strlen(halPort.name));
port->sampleRates.resize(halPort.num_sample_rates);
for (size_t i = 0; i < halPort.num_sample_rates; ++i) {
port->sampleRates[i] = halPort.sample_rates[i];
}
port->channelMasks.resize(halPort.num_channel_masks);
for (size_t i = 0; i < halPort.num_channel_masks; ++i) {
port->channelMasks[i] = EnumBitfield<AudioChannelMask>(halPort.channel_masks[i]);
}
port->formats.resize(halPort.num_formats);
for (size_t i = 0; i < halPort.num_formats; ++i) {
port->formats[i] = AudioFormat(halPort.formats[i]);
}
port->gains.resize(halPort.num_gains);
for (size_t i = 0; i < halPort.num_gains; ++i) {
audioGainFromHal(halPort.gains[i], false /*isInput--ignored*/, &port->gains[i]);
}
audioPortConfigFromHal(halPort.active_config, &port->activeConfig);
switch (halPort.type) {
case AUDIO_PORT_TYPE_NONE:
break;
case AUDIO_PORT_TYPE_DEVICE: {
port->ext.device.hwModule = halPort.ext.device.hw_module;
port->ext.device.type = AudioDevice(halPort.ext.device.type);
memcpy(port->ext.device.address.data(), halPort.ext.device.address,
AUDIO_DEVICE_MAX_ADDRESS_LEN);
break;
}
case AUDIO_PORT_TYPE_MIX: {
port->ext.mix.hwModule = halPort.ext.mix.hw_module;
port->ext.mix.ioHandle = halPort.ext.mix.handle;
port->ext.mix.latencyClass = AudioMixLatencyClass(halPort.ext.mix.latency_class);
break;
}
case AUDIO_PORT_TYPE_SESSION: {
port->ext.session.session = halPort.ext.session.session;
break;
}
}
return NO_ERROR;
}
status_t HidlUtils::audioPortToHal(const AudioPort& port, struct audio_port* halPort) {
memset(halPort, 0, sizeof(audio_port));
halPort->id = port.id;
halPort->role = static_cast<audio_port_role_t>(port.role);
halPort->type = static_cast<audio_port_type_t>(port.type);
strncpy(halPort->name, port.name.c_str(), AUDIO_PORT_MAX_NAME_LEN);
halPort->name[AUDIO_PORT_MAX_NAME_LEN - 1] = '\0';
halPort->num_sample_rates =
std::min(port.sampleRates.size(), static_cast<size_t>(AUDIO_PORT_MAX_SAMPLING_RATES));
for (size_t i = 0; i < halPort->num_sample_rates; ++i) {
halPort->sample_rates[i] = port.sampleRates[i];
}
halPort->num_channel_masks =
std::min(port.channelMasks.size(), static_cast<size_t>(AUDIO_PORT_MAX_CHANNEL_MASKS));
for (size_t i = 0; i < halPort->num_channel_masks; ++i) {
halPort->channel_masks[i] = static_cast<audio_channel_mask_t>(port.channelMasks[i]);
}
halPort->num_formats =
std::min(port.formats.size(), static_cast<size_t>(AUDIO_PORT_MAX_FORMATS));
for (size_t i = 0; i < halPort->num_formats; ++i) {
halPort->formats[i] = static_cast<audio_format_t>(port.formats[i]);
}
halPort->num_gains = std::min(port.gains.size(), static_cast<size_t>(AUDIO_PORT_MAX_GAINS));
for (size_t i = 0; i < halPort->num_gains; ++i) {
audioGainToHal(port.gains[i], &halPort->gains[i]);
}
audioPortConfigToHal(port.activeConfig, &halPort->active_config);
switch (port.type) {
case AudioPortType::NONE:
break;
case AudioPortType::DEVICE: {
halPort->ext.device.hw_module = port.ext.device.hwModule;
halPort->ext.device.type = static_cast<audio_devices_t>(port.ext.device.type);
memcpy(halPort->ext.device.address, port.ext.device.address.data(),
AUDIO_DEVICE_MAX_ADDRESS_LEN);
break;
}
case AudioPortType::MIX: {
halPort->ext.mix.hw_module = port.ext.mix.hwModule;
halPort->ext.mix.handle = port.ext.mix.ioHandle;
halPort->ext.mix.latency_class =
static_cast<audio_mix_latency_class_t>(port.ext.mix.latencyClass);
break;
}
case AudioPortType::SESSION: {
halPort->ext.session.session = static_cast<audio_session_t>(port.ext.session.session);
break;
}
}
return NO_ERROR;
}
#if MAJOR_VERSION >= 5
status_t HidlUtils::deviceAddressToHal(const DeviceAddress& device, audio_devices_t* halDeviceType,
char* halDeviceAddress) {
return deviceAddressToHalImpl(device, halDeviceType, halDeviceAddress);
}
status_t HidlUtils::deviceAddressFromHal(audio_devices_t halDeviceType,
const char* halDeviceAddress, DeviceAddress* device) {
return deviceAddressFromHalImpl(halDeviceType, halDeviceAddress, device);
}
#endif
} // namespace implementation
} // namespace CPP_VERSION
} // namespace common
} // namespace audio
} // namespace hardware
} // namespace android