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1 /*
2  * Copyright (C) 2015 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 "RadioService"
18 //#define LOG_NDEBUG 0
19 
20 #include <stdio.h>
21 #include <string.h>
22 #include <sys/types.h>
23 #include <pthread.h>
24 
25 #include <system/audio.h>
26 #include <system/audio_policy.h>
27 #include <system/radio.h>
28 #include <system/radio_metadata.h>
29 #include <cutils/atomic.h>
30 #include <cutils/properties.h>
31 #include <hardware/hardware.h>
32 #include <utils/Errors.h>
33 #include <utils/Log.h>
34 #include <binder/IServiceManager.h>
35 #include <binder/MemoryBase.h>
36 #include <binder/MemoryHeapBase.h>
37 #include <hardware/radio.h>
38 #include <media/AudioSystem.h>
39 #include "RadioService.h"
40 #include "RadioRegions.h"
41 
42 namespace android {
43 
44 static const char kRadioTunerAudioDeviceName[] = "Radio tuner source";
45 
RadioService()46 RadioService::RadioService()
47     : BnRadioService(), mNextUniqueId(1)
48 {
49     ALOGI("%s", __FUNCTION__);
50 }
51 
onFirstRef()52 void RadioService::onFirstRef()
53 {
54     const hw_module_t *mod;
55     int rc;
56     struct radio_hw_device *dev;
57 
58     ALOGI("%s", __FUNCTION__);
59 
60     rc = hw_get_module_by_class(RADIO_HARDWARE_MODULE_ID, RADIO_HARDWARE_MODULE_ID_FM, &mod);
61     if (rc != 0) {
62         ALOGE("couldn't load radio module %s.%s (%s)",
63               RADIO_HARDWARE_MODULE_ID, "primary", strerror(-rc));
64         return;
65     }
66     rc = radio_hw_device_open(mod, &dev);
67     if (rc != 0) {
68         ALOGE("couldn't open radio hw device in %s.%s (%s)",
69               RADIO_HARDWARE_MODULE_ID, "primary", strerror(-rc));
70         return;
71     }
72     if (dev->common.version != RADIO_DEVICE_API_VERSION_CURRENT) {
73         ALOGE("wrong radio hw device version %04x", dev->common.version);
74         return;
75     }
76 
77     struct radio_hal_properties halProperties;
78     rc = dev->get_properties(dev, &halProperties);
79     if (rc != 0) {
80         ALOGE("could not read implementation properties");
81         return;
82     }
83 
84     radio_properties_t properties;
85     properties.handle =
86             (radio_handle_t)android_atomic_inc(&mNextUniqueId);
87 
88     ALOGI("loaded default module %s, handle %d", properties.product, properties.handle);
89 
90     convertProperties(&properties, &halProperties);
91     sp<Module> module = new Module(dev, properties);
92     mModules.add(properties.handle, module);
93 }
94 
~RadioService()95 RadioService::~RadioService()
96 {
97     for (size_t i = 0; i < mModules.size(); i++) {
98         radio_hw_device_close(mModules.valueAt(i)->hwDevice());
99     }
100 }
101 
listModules(struct radio_properties * properties,uint32_t * numModules)102 status_t RadioService::listModules(struct radio_properties *properties,
103                              uint32_t *numModules)
104 {
105     ALOGV("listModules");
106 
107     AutoMutex lock(mServiceLock);
108     if (numModules == NULL || (*numModules != 0 && properties == NULL)) {
109         return BAD_VALUE;
110     }
111     size_t maxModules = *numModules;
112     *numModules = mModules.size();
113     for (size_t i = 0; i < mModules.size() && i < maxModules; i++) {
114         properties[i] = mModules.valueAt(i)->properties();
115     }
116     return NO_ERROR;
117 }
118 
attach(radio_handle_t handle,const sp<IRadioClient> & client,const struct radio_band_config * config,bool withAudio,sp<IRadio> & radio)119 status_t RadioService::attach(radio_handle_t handle,
120                         const sp<IRadioClient>& client,
121                         const struct radio_band_config *config,
122                         bool withAudio,
123                         sp<IRadio>& radio)
124 {
125     ALOGV("%s %d config %p withAudio %d", __FUNCTION__, handle, config, withAudio);
126 
127     AutoMutex lock(mServiceLock);
128     radio.clear();
129     if (client == 0) {
130         return BAD_VALUE;
131     }
132     ssize_t index = mModules.indexOfKey(handle);
133     if (index < 0) {
134         return BAD_VALUE;
135     }
136     sp<Module> module = mModules.valueAt(index);
137 
138     if (config == NULL) {
139         config = module->getDefaultConfig();
140         if (config == NULL) {
141             return INVALID_OPERATION;
142         }
143     }
144     ALOGV("%s region %d type %d", __FUNCTION__, config->region, config->band.type);
145 
146     radio = module->addClient(client, config, withAudio);
147 
148     if (radio == 0) {
149         return NO_INIT;
150     }
151     return NO_ERROR;
152 }
153 
154 
155 static const int kDumpLockRetries = 50;
156 static const int kDumpLockSleep = 60000;
157 
tryLock(Mutex & mutex)158 static bool tryLock(Mutex& mutex)
159 {
160     bool locked = false;
161     for (int i = 0; i < kDumpLockRetries; ++i) {
162         if (mutex.tryLock() == NO_ERROR) {
163             locked = true;
164             break;
165         }
166         usleep(kDumpLockSleep);
167     }
168     return locked;
169 }
170 
dump(int fd,const Vector<String16> & args __unused)171 status_t RadioService::dump(int fd, const Vector<String16>& args __unused) {
172     String8 result;
173     if (checkCallingPermission(String16("android.permission.DUMP")) == false) {
174         result.appendFormat("Permission Denial: can't dump RadioService");
175         write(fd, result.string(), result.size());
176     } else {
177         bool locked = tryLock(mServiceLock);
178         // failed to lock - RadioService is probably deadlocked
179         if (!locked) {
180             result.append("RadioService may be deadlocked\n");
181             write(fd, result.string(), result.size());
182         }
183 
184         if (locked) mServiceLock.unlock();
185     }
186     return NO_ERROR;
187 }
188 
onTransact(uint32_t code,const Parcel & data,Parcel * reply,uint32_t flags)189 status_t RadioService::onTransact(
190     uint32_t code, const Parcel& data, Parcel* reply, uint32_t flags) {
191     return BnRadioService::onTransact(code, data, reply, flags);
192 }
193 
194 
195 // static
callback(radio_hal_event_t * halEvent,void * cookie)196 void RadioService::callback(radio_hal_event_t *halEvent, void *cookie)
197 {
198     CallbackThread *callbackThread = (CallbackThread *)cookie;
199     if (callbackThread == NULL) {
200         return;
201     }
202     callbackThread->sendEvent(halEvent);
203 }
204 
205 /* static */
convertProperties(radio_properties_t * properties,const radio_hal_properties_t * halProperties)206 void RadioService::convertProperties(radio_properties_t *properties,
207                                      const radio_hal_properties_t *halProperties)
208 {
209     memset(properties, 0, sizeof(struct radio_properties));
210     properties->class_id = halProperties->class_id;
211     strlcpy(properties->implementor, halProperties->implementor,
212             RADIO_STRING_LEN_MAX);
213     strlcpy(properties->product, halProperties->product,
214             RADIO_STRING_LEN_MAX);
215     strlcpy(properties->version, halProperties->version,
216             RADIO_STRING_LEN_MAX);
217     strlcpy(properties->serial, halProperties->serial,
218             RADIO_STRING_LEN_MAX);
219     properties->num_tuners = halProperties->num_tuners;
220     properties->num_audio_sources = halProperties->num_audio_sources;
221     properties->supports_capture = halProperties->supports_capture;
222 
223     for (size_t i = 0; i < ARRAY_SIZE(sKnownRegionConfigs); i++) {
224         const radio_hal_band_config_t *band = &sKnownRegionConfigs[i].band;
225         size_t j;
226         for (j = 0; j < halProperties->num_bands; j++) {
227             const radio_hal_band_config_t *halBand = &halProperties->bands[j];
228             size_t k;
229             if (band->type != halBand->type) continue;
230             if (band->lower_limit < halBand->lower_limit) continue;
231             if (band->upper_limit > halBand->upper_limit) continue;
232             for (k = 0; k < halBand->num_spacings; k++) {
233                 if (band->spacings[0] == halBand->spacings[k]) break;
234             }
235             if (k == halBand->num_spacings) continue;
236             if (band->type == RADIO_BAND_AM) break;
237             if ((band->fm.deemphasis & halBand->fm.deemphasis) == 0) continue;
238             if (halBand->fm.rds == 0) break;
239             if ((band->fm.rds & halBand->fm.rds) != 0) break;
240         }
241         if (j == halProperties->num_bands) continue;
242 
243         ALOGI("convertProperties() Adding band type %d region %d",
244               sKnownRegionConfigs[i].band.type , sKnownRegionConfigs[i].region);
245 
246         memcpy(&properties->bands[properties->num_bands++],
247                &sKnownRegionConfigs[i],
248                sizeof(radio_band_config_t));
249     }
250 }
251 
252 #undef LOG_TAG
253 #define LOG_TAG "RadioService::CallbackThread"
254 
CallbackThread(const wp<ModuleClient> & moduleClient)255 RadioService::CallbackThread::CallbackThread(const wp<ModuleClient>& moduleClient)
256     : mModuleClient(moduleClient), mMemoryDealer(new MemoryDealer(1024 * 1024, "RadioService"))
257 {
258 }
259 
~CallbackThread()260 RadioService::CallbackThread::~CallbackThread()
261 {
262     mEventQueue.clear();
263 }
264 
onFirstRef()265 void RadioService::CallbackThread::onFirstRef()
266 {
267     run("RadioService cbk", ANDROID_PRIORITY_URGENT_AUDIO);
268 }
269 
threadLoop()270 bool RadioService::CallbackThread::threadLoop()
271 {
272     while (!exitPending()) {
273         sp<IMemory> eventMemory;
274         sp<ModuleClient> moduleClient;
275         {
276             Mutex::Autolock _l(mCallbackLock);
277             while (mEventQueue.isEmpty() && !exitPending()) {
278                 ALOGV("CallbackThread::threadLoop() sleep");
279                 mCallbackCond.wait(mCallbackLock);
280                 ALOGV("CallbackThread::threadLoop() wake up");
281             }
282             if (exitPending()) {
283                 break;
284             }
285             eventMemory = mEventQueue[0];
286             mEventQueue.removeAt(0);
287             moduleClient = mModuleClient.promote();
288         }
289         if (moduleClient != 0) {
290             moduleClient->onCallbackEvent(eventMemory);
291             eventMemory.clear();
292         }
293     }
294     return false;
295 }
296 
exit()297 void RadioService::CallbackThread::exit()
298 {
299     Mutex::Autolock _l(mCallbackLock);
300     requestExit();
301     mCallbackCond.broadcast();
302 }
303 
prepareEvent(radio_hal_event_t * halEvent)304 sp<IMemory> RadioService::CallbackThread::prepareEvent(radio_hal_event_t *halEvent)
305 {
306     sp<IMemory> eventMemory;
307 
308     size_t headerSize =
309             (sizeof(struct radio_event) + sizeof(unsigned int) - 1) /sizeof(unsigned int);
310     size_t metadataSize = 0;
311     switch (halEvent->type) {
312     case RADIO_EVENT_TUNED:
313     case RADIO_EVENT_AF_SWITCH:
314         if (radio_metadata_check(halEvent->info.metadata) == 0) {
315             metadataSize = radio_metadata_get_size(halEvent->info.metadata);
316         }
317         break;
318     case RADIO_EVENT_METADATA:
319         if (radio_metadata_check(halEvent->metadata) != 0) {
320             return eventMemory;
321         }
322         metadataSize = radio_metadata_get_size(halEvent->metadata);
323         break;
324     default:
325         break;
326     }
327     size_t size = headerSize + metadataSize;
328     eventMemory = mMemoryDealer->allocate(size);
329     if (eventMemory == 0 || eventMemory->pointer() == NULL) {
330         eventMemory.clear();
331         return eventMemory;
332     }
333     struct radio_event *event = (struct radio_event *)eventMemory->pointer();
334     event->type = halEvent->type;
335     event->status = halEvent->status;
336 
337     switch (event->type) {
338     case RADIO_EVENT_CONFIG:
339         event->config.band = halEvent->config;
340         break;
341     case RADIO_EVENT_TUNED:
342     case RADIO_EVENT_AF_SWITCH:
343         event->info = halEvent->info;
344         if (metadataSize != 0) {
345             memcpy((char *)event + headerSize, halEvent->info.metadata, metadataSize);
346             // replace meta data pointer by offset while in shared memory so that receiving side
347             // can restore the pointer in destination process.
348             event->info.metadata = (radio_metadata_t *)headerSize;
349         }
350         break;
351     case RADIO_EVENT_TA:
352     case RADIO_EVENT_EA:
353     case RADIO_EVENT_ANTENNA:
354     case RADIO_EVENT_CONTROL:
355         event->on = halEvent->on;
356         break;
357     case RADIO_EVENT_METADATA:
358         memcpy((char *)event + headerSize, halEvent->metadata, metadataSize);
359         // replace meta data pointer by offset while in shared memory so that receiving side
360         // can restore the pointer in destination process.
361         event->metadata = (radio_metadata_t *)headerSize;
362         break;
363     case RADIO_EVENT_HW_FAILURE:
364     default:
365         break;
366     }
367 
368     return eventMemory;
369 }
370 
sendEvent(radio_hal_event_t * event)371 void RadioService::CallbackThread::sendEvent(radio_hal_event_t *event)
372  {
373      sp<IMemory> eventMemory = prepareEvent(event);
374      if (eventMemory == 0) {
375          return;
376      }
377 
378      AutoMutex lock(mCallbackLock);
379      mEventQueue.add(eventMemory);
380      mCallbackCond.signal();
381      ALOGV("%s DONE", __FUNCTION__);
382 }
383 
384 
385 #undef LOG_TAG
386 #define LOG_TAG "RadioService::Module"
387 
Module(radio_hw_device * hwDevice,radio_properties properties)388 RadioService::Module::Module(radio_hw_device* hwDevice, radio_properties properties)
389  : mHwDevice(hwDevice), mProperties(properties), mMute(true)
390 {
391 }
392 
~Module()393 RadioService::Module::~Module() {
394     mModuleClients.clear();
395 }
396 
dump(int fd __unused,const Vector<String16> & args __unused)397 status_t RadioService::Module::dump(int fd __unused, const Vector<String16>& args __unused) {
398     String8 result;
399     return NO_ERROR;
400 }
401 
addClient(const sp<IRadioClient> & client,const struct radio_band_config * config,bool audio)402 sp<RadioService::ModuleClient> RadioService::Module::addClient(const sp<IRadioClient>& client,
403                                     const struct radio_band_config *config,
404                                     bool audio)
405 {
406     ALOGV("addClient() %p config %p product %s", this, config, mProperties.product);
407     AutoMutex lock(mLock);
408     sp<ModuleClient> moduleClient;
409     int ret;
410 
411     for (size_t i = 0; i < mModuleClients.size(); i++) {
412         if (mModuleClients[i]->client() == client) {
413             // client already connected: reject
414             return moduleClient;
415         }
416     }
417     moduleClient = new ModuleClient(this, client, config, audio);
418 
419     struct radio_hal_band_config halConfig;
420     halConfig = config->band;
421 
422     // Tuner preemption logic:
423     // There is a limited amount of tuners and a limited amount of radio audio sources per module.
424     // The minimum is one tuner and one audio source.
425     // The numbers of tuners and sources are indicated in the module properties.
426     // NOTE: current framework implementation only supports one radio audio source.
427     // It is possible to open more than one tuner at a time but only one tuner can be connected
428     // to the radio audio source (AUDIO_DEVICE_IN_FM_TUNER).
429     // The base rule is that a newly connected tuner always wins, i.e. always gets a tuner
430     // and can use the audio source if requested.
431     // If another client is preempted, it is notified by a callback with RADIO_EVENT_CONTROL
432     // indicating loss of control.
433     // - If the newly connected client requests the audio source (audio == true):
434     //    - if an audio source is available
435     //          no problem
436     //    - if not:
437     //          the oldest client in the list using audio is preempted.
438     // - If the newly connected client does not request the audio source (audio == false):
439     //    - if a tuner is available
440     //          no problem
441     //    - if not:
442     //          The oldest client not using audio is preempted first and if none is found the
443     //          the oldest client using audio is preempted.
444     // Each time a tuner using the audio source is opened or closed, the audio policy manager is
445     // notified of the connection or disconnection of AUDIO_DEVICE_IN_FM_TUNER.
446 
447     sp<ModuleClient> oldestTuner;
448     sp<ModuleClient> oldestAudio;
449     size_t allocatedTuners = 0;
450     size_t allocatedAudio = 0;
451     for (size_t i = 0; i < mModuleClients.size(); i++) {
452         if (mModuleClients[i]->getTuner() != NULL) {
453             if (mModuleClients[i]->audio()) {
454                 if (oldestAudio == 0) {
455                     oldestAudio = mModuleClients[i];
456                 }
457                 allocatedAudio++;
458             } else {
459                 if (oldestTuner == 0) {
460                     oldestTuner = mModuleClients[i];
461                 }
462                 allocatedTuners++;
463             }
464         }
465     }
466 
467     const struct radio_tuner *halTuner;
468     sp<ModuleClient> preemtedClient;
469     if (audio) {
470         if (allocatedAudio >= mProperties.num_audio_sources) {
471             ALOG_ASSERT(oldestAudio != 0, "addClient() allocatedAudio/oldestAudio mismatch");
472             preemtedClient = oldestAudio;
473         }
474     } else {
475         if (allocatedAudio + allocatedTuners >= mProperties.num_tuners) {
476             if (allocatedTuners != 0) {
477                 ALOG_ASSERT(oldestTuner != 0, "addClient() allocatedTuners/oldestTuner mismatch");
478                 preemtedClient = oldestTuner;
479             } else {
480                 ALOG_ASSERT(oldestAudio != 0, "addClient() allocatedAudio/oldestAudio mismatch");
481                 preemtedClient = oldestAudio;
482             }
483         }
484     }
485     if (preemtedClient != 0) {
486         halTuner = preemtedClient->getTuner();
487         preemtedClient->setTuner(NULL);
488         mHwDevice->close_tuner(mHwDevice, halTuner);
489         if (preemtedClient->audio()) {
490             notifyDeviceConnection(false, "");
491         }
492     }
493 
494     ret = mHwDevice->open_tuner(mHwDevice, &halConfig, audio,
495                                 RadioService::callback, moduleClient->callbackThread().get(),
496                                 &halTuner);
497     if (ret == 0) {
498         ALOGV("addClient() setTuner %p", halTuner);
499         moduleClient->setTuner(halTuner);
500         mModuleClients.add(moduleClient);
501         if (audio) {
502             notifyDeviceConnection(true, "");
503         }
504         ALOGV("addClient() DONE moduleClient %p", moduleClient.get());
505     } else {
506         ALOGW("%s open_tuner failed with error %d", __FUNCTION__, ret);
507         moduleClient.clear();
508     }
509 
510     return moduleClient;
511 }
512 
removeClient(const sp<ModuleClient> & moduleClient)513 void RadioService::Module::removeClient(const sp<ModuleClient>& moduleClient) {
514     ALOGV("removeClient()");
515     AutoMutex lock(mLock);
516     int ret;
517     ssize_t index = -1;
518 
519     for (size_t i = 0; i < mModuleClients.size(); i++) {
520         if (mModuleClients[i] == moduleClient) {
521             index = i;
522             break;
523         }
524     }
525     if (index == -1) {
526         return;
527     }
528 
529     mModuleClients.removeAt(index);
530     const struct radio_tuner *halTuner = moduleClient->getTuner();
531     if (halTuner == NULL) {
532         return;
533     }
534 
535     mHwDevice->close_tuner(mHwDevice, halTuner);
536     if (moduleClient->audio()) {
537         notifyDeviceConnection(false, "");
538     }
539 
540     mMute = true;
541 
542     if (mModuleClients.isEmpty()) {
543         return;
544     }
545 
546     // Tuner reallocation logic:
547     // When a client is removed and was controlling a tuner, this tuner will be allocated to a
548     // previously preempted client. This client will be notified by a callback with
549     // RADIO_EVENT_CONTROL indicating gain of control.
550     // - If a preempted client is waiting for an audio source and one becomes available:
551     //    Allocate the tuner to the most recently added client waiting for an audio source
552     // - If not:
553     //    Allocate the tuner to the most recently added client.
554     // Each time a tuner using the audio source is opened or closed, the audio policy manager is
555     // notified of the connection or disconnection of AUDIO_DEVICE_IN_FM_TUNER.
556 
557     sp<ModuleClient> youngestClient;
558     sp<ModuleClient> youngestClientAudio;
559     size_t allocatedTuners = 0;
560     size_t allocatedAudio = 0;
561     for (ssize_t i = mModuleClients.size() - 1; i >= 0; i--) {
562         if (mModuleClients[i]->getTuner() == NULL) {
563             if (mModuleClients[i]->audio()) {
564                 if (youngestClientAudio == 0) {
565                     youngestClientAudio = mModuleClients[i];
566                 }
567             } else {
568                 if (youngestClient == 0) {
569                     youngestClient = mModuleClients[i];
570                 }
571             }
572         } else {
573             if (mModuleClients[i]->audio()) {
574                 allocatedAudio++;
575             } else {
576                 allocatedTuners++;
577             }
578         }
579     }
580 
581     ALOG_ASSERT(allocatedTuners + allocatedAudio < mProperties.num_tuners,
582                 "removeClient() removed client but no tuner available");
583 
584     ALOG_ASSERT(!moduleClient->audio() || allocatedAudio < mProperties.num_audio_sources,
585                 "removeClient() removed audio client but no tuner with audio available");
586 
587     if (allocatedAudio < mProperties.num_audio_sources && youngestClientAudio != 0) {
588         youngestClient = youngestClientAudio;
589     }
590 
591     ALOG_ASSERT(youngestClient != 0, "removeClient() removed client no candidate found for tuner");
592 
593     struct radio_hal_band_config halConfig = youngestClient->halConfig();
594     ret = mHwDevice->open_tuner(mHwDevice, &halConfig, youngestClient->audio(),
595                                 RadioService::callback, moduleClient->callbackThread().get(),
596                                 &halTuner);
597 
598     if (ret == 0) {
599         youngestClient->setTuner(halTuner);
600         if (youngestClient->audio()) {
601             notifyDeviceConnection(true, "");
602         }
603     }
604 }
605 
setMute(bool mute)606 status_t RadioService::Module::setMute(bool mute)
607 {
608     Mutex::Autolock _l(mLock);
609     if (mute != mMute) {
610         mMute = mute;
611         //TODO notifify audio policy manager of media activity on radio audio device
612     }
613     return NO_ERROR;
614 }
615 
getMute(bool * mute)616 status_t RadioService::Module::getMute(bool *mute)
617 {
618     Mutex::Autolock _l(mLock);
619     *mute = mMute;
620     return NO_ERROR;
621 }
622 
623 
getDefaultConfig() const624 const struct radio_band_config *RadioService::Module::getDefaultConfig() const
625 {
626     if (mProperties.num_bands == 0) {
627         return NULL;
628     }
629     return &mProperties.bands[0];
630 }
631 
notifyDeviceConnection(bool connected,const char * address)632 void RadioService::Module::notifyDeviceConnection(bool connected,
633                                                   const char *address) {
634     int64_t token = IPCThreadState::self()->clearCallingIdentity();
635     AudioSystem::setDeviceConnectionState(AUDIO_DEVICE_IN_FM_TUNER,
636                                           connected ? AUDIO_POLICY_DEVICE_STATE_AVAILABLE :
637                                                   AUDIO_POLICY_DEVICE_STATE_UNAVAILABLE,
638                                           address, kRadioTunerAudioDeviceName);
639     IPCThreadState::self()->restoreCallingIdentity(token);
640 }
641 
642 #undef LOG_TAG
643 #define LOG_TAG "RadioService::ModuleClient"
644 
ModuleClient(const sp<Module> & module,const sp<IRadioClient> & client,const struct radio_band_config * config,bool audio)645 RadioService::ModuleClient::ModuleClient(const sp<Module>& module,
646                                          const sp<IRadioClient>& client,
647                                          const struct radio_band_config *config,
648                                          bool audio)
649  : mModule(module), mClient(client), mConfig(*config), mAudio(audio), mTuner(NULL)
650 {
651 }
652 
onFirstRef()653 void RadioService::ModuleClient::onFirstRef()
654 {
655     mCallbackThread = new CallbackThread(this);
656     IInterface::asBinder(mClient)->linkToDeath(this);
657 }
658 
~ModuleClient()659 RadioService::ModuleClient::~ModuleClient() {
660     if (mClient != 0) {
661         IInterface::asBinder(mClient)->unlinkToDeath(this);
662         mClient.clear();
663     }
664     if (mCallbackThread != 0) {
665         mCallbackThread->exit();
666     }
667 }
668 
dump(int fd __unused,const Vector<String16> & args __unused)669 status_t RadioService::ModuleClient::dump(int fd __unused,
670                                              const Vector<String16>& args __unused) {
671     String8 result;
672     return NO_ERROR;
673 }
674 
detach()675 void RadioService::ModuleClient::detach() {
676     ALOGV("%s", __FUNCTION__);
677     sp<ModuleClient> strongMe = this;
678     {
679         AutoMutex lock(mLock);
680         if (mClient != 0) {
681             IInterface::asBinder(mClient)->unlinkToDeath(this);
682             mClient.clear();
683         }
684     }
685     sp<Module> module = mModule.promote();
686     if (module == 0) {
687         return;
688     }
689     module->removeClient(this);
690 }
691 
halConfig() const692 radio_hal_band_config_t RadioService::ModuleClient::halConfig() const
693 {
694     AutoMutex lock(mLock);
695     ALOGV("%s locked", __FUNCTION__);
696     return mConfig.band;
697 }
698 
getTuner() const699 const struct radio_tuner *RadioService::ModuleClient::getTuner() const
700 {
701     AutoMutex lock(mLock);
702     ALOGV("%s locked", __FUNCTION__);
703     return mTuner;
704 }
705 
setTuner(const struct radio_tuner * tuner)706 void RadioService::ModuleClient::setTuner(const struct radio_tuner *tuner)
707 {
708     ALOGV("%s %p", __FUNCTION__, this);
709 
710     AutoMutex lock(mLock);
711     mTuner = tuner;
712     ALOGV("%s locked", __FUNCTION__);
713 
714     radio_hal_event_t event;
715     event.type = RADIO_EVENT_CONTROL;
716     event.status = 0;
717     event.on = mTuner != NULL;
718     mCallbackThread->sendEvent(&event);
719     ALOGV("%s DONE", __FUNCTION__);
720 
721 }
722 
setConfiguration(const struct radio_band_config * config)723 status_t RadioService::ModuleClient::setConfiguration(const struct radio_band_config *config)
724 {
725     AutoMutex lock(mLock);
726     status_t status = NO_ERROR;
727     ALOGV("%s locked", __FUNCTION__);
728 
729     if (mTuner != NULL) {
730         struct radio_hal_band_config halConfig;
731         halConfig = config->band;
732         status = (status_t)mTuner->set_configuration(mTuner, &halConfig);
733         if (status == NO_ERROR) {
734             mConfig = *config;
735         }
736     } else {
737         mConfig = *config;
738         status = INVALID_OPERATION;
739     }
740 
741     return status;
742 }
743 
getConfiguration(struct radio_band_config * config)744 status_t RadioService::ModuleClient::getConfiguration(struct radio_band_config *config)
745 {
746     AutoMutex lock(mLock);
747     status_t status = NO_ERROR;
748     ALOGV("%s locked", __FUNCTION__);
749 
750     if (mTuner != NULL) {
751         struct radio_hal_band_config halConfig;
752         status = (status_t)mTuner->get_configuration(mTuner, &halConfig);
753         if (status == NO_ERROR) {
754             mConfig.band = halConfig;
755         }
756     }
757     *config = mConfig;
758 
759     return status;
760 }
761 
setMute(bool mute)762 status_t RadioService::ModuleClient::setMute(bool mute)
763 {
764     sp<Module> module;
765     {
766         Mutex::Autolock _l(mLock);
767         ALOGV("%s locked", __FUNCTION__);
768         if (mTuner == NULL || !mAudio) {
769             return INVALID_OPERATION;
770         }
771         module = mModule.promote();
772         if (module == 0) {
773             return NO_INIT;
774         }
775     }
776     module->setMute(mute);
777     return NO_ERROR;
778 }
779 
getMute(bool * mute)780 status_t RadioService::ModuleClient::getMute(bool *mute)
781 {
782     sp<Module> module;
783     {
784         Mutex::Autolock _l(mLock);
785         ALOGV("%s locked", __FUNCTION__);
786         module = mModule.promote();
787         if (module == 0) {
788             return NO_INIT;
789         }
790     }
791     return module->getMute(mute);
792 }
793 
scan(radio_direction_t direction,bool skipSubChannel)794 status_t RadioService::ModuleClient::scan(radio_direction_t direction, bool skipSubChannel)
795 {
796     AutoMutex lock(mLock);
797     ALOGV("%s locked", __FUNCTION__);
798     status_t status;
799     if (mTuner != NULL) {
800         status = (status_t)mTuner->scan(mTuner, direction, skipSubChannel);
801     } else {
802         status = INVALID_OPERATION;
803     }
804     return status;
805 }
806 
step(radio_direction_t direction,bool skipSubChannel)807 status_t RadioService::ModuleClient::step(radio_direction_t direction, bool skipSubChannel)
808 {
809     AutoMutex lock(mLock);
810     ALOGV("%s locked", __FUNCTION__);
811     status_t status;
812     if (mTuner != NULL) {
813         status = (status_t)mTuner->step(mTuner, direction, skipSubChannel);
814     } else {
815         status = INVALID_OPERATION;
816     }
817     return status;
818 }
819 
tune(unsigned int channel,unsigned int subChannel)820 status_t RadioService::ModuleClient::tune(unsigned int channel, unsigned int subChannel)
821 {
822     AutoMutex lock(mLock);
823     ALOGV("%s locked", __FUNCTION__);
824     status_t status;
825     if (mTuner != NULL) {
826         status = (status_t)mTuner->tune(mTuner, channel, subChannel);
827     } else {
828         status = INVALID_OPERATION;
829     }
830     return status;
831 }
832 
cancel()833 status_t RadioService::ModuleClient::cancel()
834 {
835     AutoMutex lock(mLock);
836     ALOGV("%s locked", __FUNCTION__);
837     status_t status;
838     if (mTuner != NULL) {
839         status = (status_t)mTuner->cancel(mTuner);
840     } else {
841         status = INVALID_OPERATION;
842     }
843     return status;
844 }
845 
getProgramInformation(struct radio_program_info * info)846 status_t RadioService::ModuleClient::getProgramInformation(struct radio_program_info *info)
847 {
848     AutoMutex lock(mLock);
849     ALOGV("%s locked", __FUNCTION__);
850     status_t status;
851     if (mTuner != NULL) {
852         status = (status_t)mTuner->get_program_information(mTuner, info);
853     } else {
854         status = INVALID_OPERATION;
855     }
856     return status;
857 }
858 
hasControl(bool * hasControl)859 status_t RadioService::ModuleClient::hasControl(bool *hasControl)
860 {
861     Mutex::Autolock lock(mLock);
862     ALOGV("%s locked", __FUNCTION__);
863     *hasControl = mTuner != NULL;
864     return NO_ERROR;
865 }
866 
onCallbackEvent(const sp<IMemory> & eventMemory)867 void RadioService::ModuleClient::onCallbackEvent(const sp<IMemory>& eventMemory)
868 {
869     if (eventMemory == 0 || eventMemory->pointer() == NULL) {
870         return;
871     }
872 
873     sp<IRadioClient> client;
874     {
875         AutoMutex lock(mLock);
876         ALOGV("%s locked", __FUNCTION__);
877         radio_event_t *event = (radio_event_t *)eventMemory->pointer();
878         switch (event->type) {
879         case RADIO_EVENT_CONFIG:
880             mConfig.band = event->config.band;
881             event->config.region = mConfig.region;
882             break;
883         default:
884             break;
885         }
886 
887         client = mClient;
888     }
889     if (client != 0) {
890         client->onEvent(eventMemory);
891     }
892 }
893 
894 
binderDied(const wp<IBinder> & who __unused)895 void RadioService::ModuleClient::binderDied(
896     const wp<IBinder> &who __unused) {
897     ALOGW("client binder died for client %p", this);
898     detach();
899 }
900 
901 }; // namespace android
902