1 /*
2 * Copyright (C) 2019 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 #include <sstream>
18 #include <string>
19
20 #include <media/AudioContainers.h>
21
22 namespace android {
23
getAudioDeviceOutAllSet()24 const DeviceTypeSet& getAudioDeviceOutAllSet() {
25 static const DeviceTypeSet audioDeviceOutAllSet = DeviceTypeSet(
26 std::begin(AUDIO_DEVICE_OUT_ALL_ARRAY),
27 std::end(AUDIO_DEVICE_OUT_ALL_ARRAY));
28 return audioDeviceOutAllSet;
29 }
30
getAudioDeviceOutAllA2dpSet()31 const DeviceTypeSet& getAudioDeviceOutAllA2dpSet() {
32 static const DeviceTypeSet audioDeviceOutAllA2dpSet = DeviceTypeSet(
33 std::begin(AUDIO_DEVICE_OUT_ALL_A2DP_ARRAY),
34 std::end(AUDIO_DEVICE_OUT_ALL_A2DP_ARRAY));
35 return audioDeviceOutAllA2dpSet;
36 }
37
getAudioDeviceOutAllScoSet()38 const DeviceTypeSet& getAudioDeviceOutAllScoSet() {
39 static const DeviceTypeSet audioDeviceOutAllScoSet = DeviceTypeSet(
40 std::begin(AUDIO_DEVICE_OUT_ALL_SCO_ARRAY),
41 std::end(AUDIO_DEVICE_OUT_ALL_SCO_ARRAY));
42 return audioDeviceOutAllScoSet;
43 }
44
getAudioDeviceOutAllUsbSet()45 const DeviceTypeSet& getAudioDeviceOutAllUsbSet() {
46 static const DeviceTypeSet audioDeviceOutAllUsbSet = DeviceTypeSet(
47 std::begin(AUDIO_DEVICE_OUT_ALL_USB_ARRAY),
48 std::end(AUDIO_DEVICE_OUT_ALL_USB_ARRAY));
49 return audioDeviceOutAllUsbSet;
50 }
51
getAudioDeviceInAllSet()52 const DeviceTypeSet& getAudioDeviceInAllSet() {
53 static const DeviceTypeSet audioDeviceInAllSet = DeviceTypeSet(
54 std::begin(AUDIO_DEVICE_IN_ALL_ARRAY),
55 std::end(AUDIO_DEVICE_IN_ALL_ARRAY));
56 return audioDeviceInAllSet;
57 }
58
getAudioDeviceInAllUsbSet()59 const DeviceTypeSet& getAudioDeviceInAllUsbSet() {
60 static const DeviceTypeSet audioDeviceInAllUsbSet = DeviceTypeSet(
61 std::begin(AUDIO_DEVICE_IN_ALL_USB_ARRAY),
62 std::end(AUDIO_DEVICE_IN_ALL_USB_ARRAY));
63 return audioDeviceInAllUsbSet;
64 }
65
getAudioDeviceOutAllBleSet()66 const DeviceTypeSet& getAudioDeviceOutAllBleSet() {
67 static const DeviceTypeSet audioDeviceOutAllBleSet = DeviceTypeSet(
68 std::begin(AUDIO_DEVICE_OUT_ALL_BLE_ARRAY),
69 std::end(AUDIO_DEVICE_OUT_ALL_BLE_ARRAY));
70 return audioDeviceOutAllBleSet;
71 }
72
getAudioDeviceOutLeAudioUnicastSet()73 const DeviceTypeSet& getAudioDeviceOutLeAudioUnicastSet() {
74 static const DeviceTypeSet audioDeviceOutLeAudioUnicastSet = DeviceTypeSet(
75 std::begin(AUDIO_DEVICE_OUT_BLE_UNICAST_ARRAY),
76 std::end(AUDIO_DEVICE_OUT_BLE_UNICAST_ARRAY));
77 return audioDeviceOutLeAudioUnicastSet;
78 }
79
getAudioDeviceOutLeAudioBroadcastSet()80 const DeviceTypeSet& getAudioDeviceOutLeAudioBroadcastSet() {
81 static const DeviceTypeSet audioDeviceOutLeAudioUnicastSet = DeviceTypeSet(
82 std::begin(AUDIO_DEVICE_OUT_BLE_BROADCAST_ARRAY),
83 std::end(AUDIO_DEVICE_OUT_BLE_BROADCAST_ARRAY));
84 return audioDeviceOutLeAudioUnicastSet;
85 }
86
deviceTypesToString(const DeviceTypeSet & deviceTypes)87 std::string deviceTypesToString(const DeviceTypeSet &deviceTypes) {
88 if (deviceTypes.empty()) {
89 return "Empty device types";
90 }
91 std::stringstream ss;
92 for (auto it = deviceTypes.begin(); it != deviceTypes.end(); ++it) {
93 if (it != deviceTypes.begin()) {
94 ss << ", ";
95 }
96 const char* strType = audio_device_to_string(*it);
97 if (strlen(strType) != 0) {
98 ss << strType;
99 } else {
100 ss << "unknown type:0x" << std::hex << *it;
101 }
102 }
103 return ss.str();
104 }
105
deviceTypesToString(const DeviceTypeSet & deviceTypes,std::string & str)106 bool deviceTypesToString(const DeviceTypeSet &deviceTypes, std::string &str) {
107 str = deviceTypesToString(deviceTypes);
108 return true;
109 }
110
dumpDeviceTypes(const DeviceTypeSet & deviceTypes)111 std::string dumpDeviceTypes(const DeviceTypeSet &deviceTypes) {
112 std::stringstream ss;
113 for (auto it = deviceTypes.begin(); it != deviceTypes.end(); ++it) {
114 if (it != deviceTypes.begin()) {
115 ss << ", ";
116 }
117 ss << "0x" << std::hex << (*it);
118 }
119 return ss.str();
120 }
121
dumpMixerBehaviors(const MixerBehaviorSet & mixerBehaviors)122 std::string dumpMixerBehaviors(const MixerBehaviorSet& mixerBehaviors) {
123 std::stringstream ss;
124 for (auto it = mixerBehaviors.begin(); it != mixerBehaviors.end(); ++it) {
125 if (it != mixerBehaviors.begin()) {
126 ss << ", ";
127 }
128 ss << (*it);
129 }
130 return ss.str();
131 }
132
toString(const DeviceIdVector & deviceIds)133 std::string toString(const DeviceIdVector& deviceIds) {
134 if (deviceIds.empty()) {
135 return "AUDIO_PORT_HANDLE_NONE";
136 }
137 std::stringstream ss;
138 for (auto it = deviceIds.begin(); it != deviceIds.end(); ++it) {
139 if (it != deviceIds.begin()) {
140 ss << ", ";
141 }
142 ss << *it;
143 }
144 return ss.str();
145 }
146
getFirstDeviceId(const DeviceIdVector & deviceIds)147 audio_port_handle_t getFirstDeviceId(const DeviceIdVector& deviceIds) {
148 if (deviceIds.empty()) {
149 return AUDIO_PORT_HANDLE_NONE;
150 }
151 return deviceIds[0];
152 }
153
areDeviceIdsEqual(const DeviceIdVector & first,const DeviceIdVector & second)154 bool areDeviceIdsEqual(const DeviceIdVector& first, const DeviceIdVector& second) {
155 const std::set<audio_port_handle_t> firstSet(first.begin(), first.end());
156 const std::set<audio_port_handle_t> secondSet(second.begin(), second.end());
157 return firstSet == secondSet;
158 }
159
createAudioProfilesAttrMap(audio_profile profiles[],uint32_t first,uint32_t last)160 AudioProfileAttributesMultimap createAudioProfilesAttrMap(audio_profile profiles[],
161 uint32_t first,
162 uint32_t last) {
163 AudioProfileAttributesMultimap result;
164 for (uint32_t i = first; i < last; ++i) {
165 SampleRateSet sampleRates(profiles[i].sample_rates,
166 profiles[i].sample_rates + profiles[i].num_sample_rates);
167 ChannelMaskSet channelMasks(profiles[i].channel_masks,
168 profiles[i].channel_masks + profiles[i].num_channel_masks);
169 result.emplace(profiles[i].format, std::make_pair(sampleRates, channelMasks));
170 }
171 return result;
172 }
173
174 namespace {
175
populateAudioProfile(audio_format_t format,const ChannelMaskSet & channelMasks,const SampleRateSet & samplingRates,audio_profile * profile)176 void populateAudioProfile(audio_format_t format,
177 const ChannelMaskSet& channelMasks,
178 const SampleRateSet& samplingRates,
179 audio_profile* profile) {
180 profile->format = format;
181 profile->num_channel_masks = 0;
182 for (auto it = channelMasks.begin();
183 it != channelMasks.end() && profile->num_channel_masks < AUDIO_PORT_MAX_CHANNEL_MASKS;
184 ++it) {
185 profile->channel_masks[profile->num_channel_masks++] = *it;
186 }
187 profile->num_sample_rates = 0;
188 for (auto it = samplingRates.begin();
189 it != samplingRates.end() && profile->num_sample_rates < AUDIO_PORT_MAX_SAMPLING_RATES;
190 ++it) {
191 profile->sample_rates[profile->num_sample_rates++] = *it;
192 }
193 }
194
195 } // namespace
196
populateAudioProfiles(const AudioProfileAttributesMultimap & profileAttrs,audio_format_t format,ChannelMaskSet allChannelMasks,SampleRateSet allSampleRates,audio_profile audioProfiles[],uint32_t * numAudioProfiles,uint32_t maxAudioProfiles)197 void populateAudioProfiles(const AudioProfileAttributesMultimap& profileAttrs,
198 audio_format_t format,
199 ChannelMaskSet allChannelMasks,
200 SampleRateSet allSampleRates,
201 audio_profile audioProfiles[],
202 uint32_t* numAudioProfiles,
203 uint32_t maxAudioProfiles) {
204 if (*numAudioProfiles >= maxAudioProfiles) {
205 return;
206 }
207
208 const auto lower= profileAttrs.lower_bound(format);
209 const auto upper = profileAttrs.upper_bound(format);
210 SampleRateSet sampleRatesPresent;
211 ChannelMaskSet channelMasksPresent;
212 for (auto it = lower; it != upper && *numAudioProfiles < maxAudioProfiles; ++it) {
213 SampleRateSet srs;
214 std::set_intersection(it->second.first.begin(), it->second.first.end(),
215 allSampleRates.begin(), allSampleRates.end(),
216 std::inserter(srs, srs.begin()));
217 if (srs.empty()) {
218 continue;
219 }
220 ChannelMaskSet cms;
221 std::set_intersection(it->second.second.begin(), it->second.second.end(),
222 allChannelMasks.begin(), allChannelMasks.end(),
223 std::inserter(cms, cms.begin()));
224 if (cms.empty()) {
225 continue;
226 }
227 sampleRatesPresent.insert(srs.begin(), srs.end());
228 channelMasksPresent.insert(cms.begin(), cms.end());
229 populateAudioProfile(it->first, cms, srs,
230 &audioProfiles[(*numAudioProfiles)++]);
231 }
232 if (*numAudioProfiles >= maxAudioProfiles) {
233 ALOGW("%s, too many audio profiles", __func__);
234 return;
235 }
236
237 SampleRateSet srs;
238 std::set_difference(allSampleRates.begin(), allSampleRates.end(),
239 sampleRatesPresent.begin(), sampleRatesPresent.end(),
240 std::inserter(srs, srs.begin()));
241 if (!srs.empty()) {
242 populateAudioProfile(format, allChannelMasks, srs,
243 &audioProfiles[(*numAudioProfiles)++]);
244 }
245 if (*numAudioProfiles >= maxAudioProfiles) {
246 ALOGW("%s, too many audio profiles", __func__);
247 return;
248 }
249 ChannelMaskSet cms;
250 std::set_difference(allChannelMasks.begin(), allChannelMasks.end(),
251 channelMasksPresent.begin(), channelMasksPresent.end(),
252 std::inserter(cms, cms.begin()));
253 if (!cms.empty()) {
254 populateAudioProfile(format, cms, allSampleRates,
255 &audioProfiles[(*numAudioProfiles)++]);
256 }
257
258 }
259
260 } // namespace android
261