1 /*
2 * Copyright (C) 2018 The Android Open Source Project
3 *
4 * Licensed under the Apache License, Version 2.0 (the "License");
5 * you may not use this file except in compliance with the License.
6 * You may obtain a copy of the License at
7 *
8 * http://www.apache.org/licenses/LICENSE-2.0
9 *
10 * Unless required by applicable law or agreed to in writing, software
11 * distributed under the License is distributed on an "AS IS" BASIS,
12 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
13 * See the License for the specific language governing permissions and
14 * limitations under the License.
15 */
16
17 #define LOG_TAG "Virtualizer_HAL"
18
19 #include "VirtualizerEffect.h"
20
21 #include <memory.h>
22
23 #include <android/log.h>
24 #include <system/audio_effects/effect_virtualizer.h>
25
26 #include "VersionUtils.h"
27
28 namespace android {
29 namespace hardware {
30 namespace audio {
31 namespace effect {
32 namespace CPP_VERSION {
33 namespace implementation {
34
VirtualizerEffect(effect_handle_t handle)35 VirtualizerEffect::VirtualizerEffect(effect_handle_t handle) : mEffect(new Effect(handle)) {}
36
~VirtualizerEffect()37 VirtualizerEffect::~VirtualizerEffect() {}
38
speakerAnglesFromHal(const int32_t * halAngles,uint32_t channelCount,hidl_vec<SpeakerAngle> & speakerAngles)39 void VirtualizerEffect::speakerAnglesFromHal(const int32_t* halAngles, uint32_t channelCount,
40 hidl_vec<SpeakerAngle>& speakerAngles) {
41 speakerAngles.resize(channelCount);
42 for (uint32_t i = 0; i < channelCount; ++i) {
43 speakerAngles[i].mask = AudioChannelBitfield(*halAngles++);
44 speakerAngles[i].azimuth = *halAngles++;
45 speakerAngles[i].elevation = *halAngles++;
46 }
47 }
48
49 // Methods from ::android::hardware::audio::effect::CPP_VERSION::IEffect follow.
init()50 Return<Result> VirtualizerEffect::init() {
51 return mEffect->init();
52 }
53
setConfig(const EffectConfig & config,const sp<IEffectBufferProviderCallback> & inputBufferProvider,const sp<IEffectBufferProviderCallback> & outputBufferProvider)54 Return<Result> VirtualizerEffect::setConfig(
55 const EffectConfig& config, const sp<IEffectBufferProviderCallback>& inputBufferProvider,
56 const sp<IEffectBufferProviderCallback>& outputBufferProvider) {
57 return mEffect->setConfig(config, inputBufferProvider, outputBufferProvider);
58 }
59
reset()60 Return<Result> VirtualizerEffect::reset() {
61 return mEffect->reset();
62 }
63
enable()64 Return<Result> VirtualizerEffect::enable() {
65 return mEffect->enable();
66 }
67
disable()68 Return<Result> VirtualizerEffect::disable() {
69 return mEffect->disable();
70 }
71
setDevice(AudioDeviceBitfield device)72 Return<Result> VirtualizerEffect::setDevice(AudioDeviceBitfield device) {
73 return mEffect->setDevice(device);
74 }
75
setAndGetVolume(const hidl_vec<uint32_t> & volumes,setAndGetVolume_cb _hidl_cb)76 Return<void> VirtualizerEffect::setAndGetVolume(const hidl_vec<uint32_t>& volumes,
77 setAndGetVolume_cb _hidl_cb) {
78 return mEffect->setAndGetVolume(volumes, _hidl_cb);
79 }
80
volumeChangeNotification(const hidl_vec<uint32_t> & volumes)81 Return<Result> VirtualizerEffect::volumeChangeNotification(const hidl_vec<uint32_t>& volumes) {
82 return mEffect->volumeChangeNotification(volumes);
83 }
84
setAudioMode(AudioMode mode)85 Return<Result> VirtualizerEffect::setAudioMode(AudioMode mode) {
86 return mEffect->setAudioMode(mode);
87 }
88
setConfigReverse(const EffectConfig & config,const sp<IEffectBufferProviderCallback> & inputBufferProvider,const sp<IEffectBufferProviderCallback> & outputBufferProvider)89 Return<Result> VirtualizerEffect::setConfigReverse(
90 const EffectConfig& config, const sp<IEffectBufferProviderCallback>& inputBufferProvider,
91 const sp<IEffectBufferProviderCallback>& outputBufferProvider) {
92 return mEffect->setConfigReverse(config, inputBufferProvider, outputBufferProvider);
93 }
94
setInputDevice(AudioDeviceBitfield device)95 Return<Result> VirtualizerEffect::setInputDevice(AudioDeviceBitfield device) {
96 return mEffect->setInputDevice(device);
97 }
98
getConfig(getConfig_cb _hidl_cb)99 Return<void> VirtualizerEffect::getConfig(getConfig_cb _hidl_cb) {
100 return mEffect->getConfig(_hidl_cb);
101 }
102
getConfigReverse(getConfigReverse_cb _hidl_cb)103 Return<void> VirtualizerEffect::getConfigReverse(getConfigReverse_cb _hidl_cb) {
104 return mEffect->getConfigReverse(_hidl_cb);
105 }
106
getSupportedAuxChannelsConfigs(uint32_t maxConfigs,getSupportedAuxChannelsConfigs_cb _hidl_cb)107 Return<void> VirtualizerEffect::getSupportedAuxChannelsConfigs(
108 uint32_t maxConfigs, getSupportedAuxChannelsConfigs_cb _hidl_cb) {
109 return mEffect->getSupportedAuxChannelsConfigs(maxConfigs, _hidl_cb);
110 }
111
getAuxChannelsConfig(getAuxChannelsConfig_cb _hidl_cb)112 Return<void> VirtualizerEffect::getAuxChannelsConfig(getAuxChannelsConfig_cb _hidl_cb) {
113 return mEffect->getAuxChannelsConfig(_hidl_cb);
114 }
115
setAuxChannelsConfig(const EffectAuxChannelsConfig & config)116 Return<Result> VirtualizerEffect::setAuxChannelsConfig(const EffectAuxChannelsConfig& config) {
117 return mEffect->setAuxChannelsConfig(config);
118 }
119
setAudioSource(AudioSource source)120 Return<Result> VirtualizerEffect::setAudioSource(AudioSource source) {
121 return mEffect->setAudioSource(source);
122 }
123
offload(const EffectOffloadParameter & param)124 Return<Result> VirtualizerEffect::offload(const EffectOffloadParameter& param) {
125 return mEffect->offload(param);
126 }
127
getDescriptor(getDescriptor_cb _hidl_cb)128 Return<void> VirtualizerEffect::getDescriptor(getDescriptor_cb _hidl_cb) {
129 return mEffect->getDescriptor(_hidl_cb);
130 }
131
prepareForProcessing(prepareForProcessing_cb _hidl_cb)132 Return<void> VirtualizerEffect::prepareForProcessing(prepareForProcessing_cb _hidl_cb) {
133 return mEffect->prepareForProcessing(_hidl_cb);
134 }
135
setProcessBuffers(const AudioBuffer & inBuffer,const AudioBuffer & outBuffer)136 Return<Result> VirtualizerEffect::setProcessBuffers(const AudioBuffer& inBuffer,
137 const AudioBuffer& outBuffer) {
138 return mEffect->setProcessBuffers(inBuffer, outBuffer);
139 }
140
command(uint32_t commandId,const hidl_vec<uint8_t> & data,uint32_t resultMaxSize,command_cb _hidl_cb)141 Return<void> VirtualizerEffect::command(uint32_t commandId, const hidl_vec<uint8_t>& data,
142 uint32_t resultMaxSize, command_cb _hidl_cb) {
143 return mEffect->command(commandId, data, resultMaxSize, _hidl_cb);
144 }
145
setParameter(const hidl_vec<uint8_t> & parameter,const hidl_vec<uint8_t> & value)146 Return<Result> VirtualizerEffect::setParameter(const hidl_vec<uint8_t>& parameter,
147 const hidl_vec<uint8_t>& value) {
148 return mEffect->setParameter(parameter, value);
149 }
150
getParameter(const hidl_vec<uint8_t> & parameter,uint32_t valueMaxSize,getParameter_cb _hidl_cb)151 Return<void> VirtualizerEffect::getParameter(const hidl_vec<uint8_t>& parameter,
152 uint32_t valueMaxSize, getParameter_cb _hidl_cb) {
153 return mEffect->getParameter(parameter, valueMaxSize, _hidl_cb);
154 }
155
getSupportedConfigsForFeature(uint32_t featureId,uint32_t maxConfigs,uint32_t configSize,getSupportedConfigsForFeature_cb _hidl_cb)156 Return<void> VirtualizerEffect::getSupportedConfigsForFeature(
157 uint32_t featureId, uint32_t maxConfigs, uint32_t configSize,
158 getSupportedConfigsForFeature_cb _hidl_cb) {
159 return mEffect->getSupportedConfigsForFeature(featureId, maxConfigs, configSize, _hidl_cb);
160 }
161
getCurrentConfigForFeature(uint32_t featureId,uint32_t configSize,getCurrentConfigForFeature_cb _hidl_cb)162 Return<void> VirtualizerEffect::getCurrentConfigForFeature(uint32_t featureId, uint32_t configSize,
163 getCurrentConfigForFeature_cb _hidl_cb) {
164 return mEffect->getCurrentConfigForFeature(featureId, configSize, _hidl_cb);
165 }
166
setCurrentConfigForFeature(uint32_t featureId,const hidl_vec<uint8_t> & configData)167 Return<Result> VirtualizerEffect::setCurrentConfigForFeature(uint32_t featureId,
168 const hidl_vec<uint8_t>& configData) {
169 return mEffect->setCurrentConfigForFeature(featureId, configData);
170 }
171
close()172 Return<Result> VirtualizerEffect::close() {
173 return mEffect->close();
174 }
175
debug(const hidl_handle & fd,const hidl_vec<hidl_string> & options)176 Return<void> VirtualizerEffect::debug(const hidl_handle& fd, const hidl_vec<hidl_string>& options) {
177 return mEffect->debug(fd, options);
178 }
179
180 // Methods from ::android::hardware::audio::effect::CPP_VERSION::IVirtualizerEffect follow.
isStrengthSupported()181 Return<bool> VirtualizerEffect::isStrengthSupported() {
182 bool halSupported = false;
183 mEffect->getParam(VIRTUALIZER_PARAM_STRENGTH_SUPPORTED, halSupported);
184 return halSupported;
185 }
186
setStrength(uint16_t strength)187 Return<Result> VirtualizerEffect::setStrength(uint16_t strength) {
188 return mEffect->setParam(VIRTUALIZER_PARAM_STRENGTH, strength);
189 }
190
getStrength(getStrength_cb _hidl_cb)191 Return<void> VirtualizerEffect::getStrength(getStrength_cb _hidl_cb) {
192 return mEffect->getIntegerParam(VIRTUALIZER_PARAM_STRENGTH, _hidl_cb);
193 }
194
getVirtualSpeakerAngles(AudioChannelBitfield mask,AudioDevice device,getVirtualSpeakerAngles_cb _hidl_cb)195 Return<void> VirtualizerEffect::getVirtualSpeakerAngles(AudioChannelBitfield mask,
196 AudioDevice device,
197 getVirtualSpeakerAngles_cb _hidl_cb) {
198 uint32_t channelCount =
199 audio_channel_count_from_out_mask(static_cast<audio_channel_mask_t>(mask));
200 size_t halSpeakerAnglesSize = sizeof(int32_t) * 3 * channelCount;
201 uint32_t halParam[3] = {VIRTUALIZER_PARAM_VIRTUAL_SPEAKER_ANGLES,
202 static_cast<audio_channel_mask_t>(mask),
203 static_cast<audio_devices_t>(device)};
204 hidl_vec<SpeakerAngle> speakerAngles;
205 Result retval = mEffect->getParameterImpl(
206 sizeof(halParam), halParam, halSpeakerAnglesSize,
207 [&](uint32_t valueSize, const void* valueData) {
208 if (valueSize > halSpeakerAnglesSize) {
209 valueSize = halSpeakerAnglesSize;
210 } else if (valueSize < halSpeakerAnglesSize) {
211 channelCount = valueSize / (sizeof(int32_t) * 3);
212 }
213 speakerAnglesFromHal(reinterpret_cast<const int32_t*>(valueData), channelCount,
214 speakerAngles);
215 });
216 _hidl_cb(retval, speakerAngles);
217 return Void();
218 }
219
forceVirtualizationMode(AudioDevice device)220 Return<Result> VirtualizerEffect::forceVirtualizationMode(AudioDevice device) {
221 return mEffect->setParam(VIRTUALIZER_PARAM_FORCE_VIRTUALIZATION_MODE,
222 static_cast<audio_devices_t>(device));
223 }
224
getVirtualizationMode(getVirtualizationMode_cb _hidl_cb)225 Return<void> VirtualizerEffect::getVirtualizationMode(getVirtualizationMode_cb _hidl_cb) {
226 uint32_t halMode = 0;
227 Result retval = mEffect->getParam(VIRTUALIZER_PARAM_FORCE_VIRTUALIZATION_MODE, halMode);
228 _hidl_cb(retval, AudioDevice(halMode));
229 return Void();
230 }
231
232 } // namespace implementation
233 } // namespace CPP_VERSION
234 } // namespace effect
235 } // namespace audio
236 } // namespace hardware
237 } // namespace android
238