services/audioflinger/PatchPanel.h - third_party/android/platform/frameworks/av - Git at Google

 /*
 **
 ** Copyright 2014, 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.
 */

 #ifndef INCLUDING_FROM_AUDIOFLINGER_H
     #error This header file should only be included from AudioFlinger.h
 #endif


 // PatchPanel is concealed within AudioFlinger, their lifetimes are the same.
 class PatchPanel {
 public:
     class SoftwarePatch {
       public:
         SoftwarePatch(const PatchPanel &patchPanel, audio_patch_handle_t patchHandle,
                 audio_io_handle_t playbackThreadHandle, audio_io_handle_t recordThreadHandle)
                 : mPatchPanel(patchPanel), mPatchHandle(patchHandle),
                   mPlaybackThreadHandle(playbackThreadHandle),
                   mRecordThreadHandle(recordThreadHandle) {}
         SoftwarePatch(const SoftwarePatch&) = default;
         SoftwarePatch& operator=(const SoftwarePatch&) = default;

         // Must be called under AudioFlinger::mLock
         status_t getLatencyMs_l(double *latencyMs) const;
         audio_patch_handle_t getPatchHandle() const { return mPatchHandle; };
         audio_io_handle_t getPlaybackThreadHandle() const { return mPlaybackThreadHandle; };
         audio_io_handle_t getRecordThreadHandle() const { return mRecordThreadHandle; };
       private:
         const PatchPanel &mPatchPanel;
         const audio_patch_handle_t mPatchHandle;
         const audio_io_handle_t mPlaybackThreadHandle;
         const audio_io_handle_t mRecordThreadHandle;
     };

     explicit PatchPanel(AudioFlinger* audioFlinger) : mAudioFlinger(*audioFlinger) {}

     /* List connected audio ports and their attributes */
     status_t listAudioPorts(unsigned int *num_ports,
                                     struct audio_port *ports);

     /* Get supported attributes for a given audio port */
     status_t getAudioPort(struct audio_port *port);

     /* Create a patch between several source and sink ports */
     status_t createAudioPatch(const struct audio_patch *patch,
                                        audio_patch_handle_t *handle);

     /* Release a patch */
     status_t releaseAudioPatch(audio_patch_handle_t handle);

     /* List connected audio devices and they attributes */
     status_t listAudioPatches(unsigned int *num_patches,
                                       struct audio_patch *patches);

     // Retrieves all currently estrablished software patches for a stream
     // opened on an intermediate module.
     status_t getDownstreamSoftwarePatches(audio_io_handle_t stream,
             std::vector<SoftwarePatch> *patches) const;

     // Notifies patch panel about all opened and closed streams.
     void notifyStreamOpened(AudioHwDevice *audioHwDevice, audio_io_handle_t stream);
     void notifyStreamClosed(audio_io_handle_t stream);

     void dump(int fd) const;

 private:
     template<typename ThreadType, typename TrackType>
     class Endpoint {
     public:
         Endpoint() = default;
         Endpoint(const Endpoint&) = delete;
         Endpoint& operator=(const Endpoint&) = delete;
         Endpoint(Endpoint&& other) noexcept { swap(other); }
         Endpoint& operator=(Endpoint&& other) noexcept {
             swap(other);
             return *this;
         }
         ~Endpoint() {
             ALOGE_IF(mHandle != AUDIO_PATCH_HANDLE_NONE,
                     "A non empty Patch Endpoint leaked, handle %d", mHandle);
         }

         status_t checkTrack(TrackType *trackOrNull) const {
             if (trackOrNull == nullptr) return NO_MEMORY;
             return trackOrNull->initCheck();
         }
         audio_patch_handle_t handle() const { return mHandle; }
         sp<ThreadType> thread() { return mThread; }
         sp<TrackType> track() { return mTrack; }
         sp<const ThreadType> const_thread() const { return mThread; }
         sp<const TrackType> const_track() const { return mTrack; }

         void closeConnections(PatchPanel *panel) {
             if (mHandle != AUDIO_PATCH_HANDLE_NONE) {
                 panel->releaseAudioPatch(mHandle);
                 mHandle = AUDIO_PATCH_HANDLE_NONE;
             }
             if (mThread != 0) {
                 if (mTrack != 0) {
                     mThread->deletePatchTrack(mTrack);
                 }
                 if (mCloseThread) {
                     panel->mAudioFlinger.closeThreadInternal_l(mThread);
                 }
             }
         }
         audio_patch_handle_t* handlePtr() { return &mHandle; }
         void setThread(const sp<ThreadType>& thread, bool closeThread = true) {
             mThread = thread;
             mCloseThread = closeThread;
         }
         template <typename T>
         void setTrackAndPeer(const sp<TrackType>& track, const sp<T> &peer) {
             mTrack = track;
             mThread->addPatchTrack(mTrack);
             mTrack->setPeerProxy(peer, true /* holdReference */);
         }
         void clearTrackPeer() { if (mTrack) mTrack->clearPeerProxy(); }
         void stopTrack() { if (mTrack) mTrack->stop(); }

         void swap(Endpoint &other) noexcept {
             using std::swap;
             swap(mThread, other.mThread);
             swap(mCloseThread, other.mCloseThread);
             swap(mHandle, other.mHandle);
             swap(mTrack, other.mTrack);
         }

         friend void swap(Endpoint &a, Endpoint &b) noexcept {
             a.swap(b);
         }

     private:
         sp<ThreadType> mThread;
         bool mCloseThread = true;
         audio_patch_handle_t mHandle = AUDIO_PATCH_HANDLE_NONE;
         sp<TrackType> mTrack;
     };

     class Patch {
     public:
         explicit Patch(const struct audio_patch &patch) : mAudioPatch(patch) {}
         ~Patch();
         Patch(const Patch&) = delete;
         Patch(Patch&&) = default;
         Patch& operator=(const Patch&) = delete;
         Patch& operator=(Patch&&) = default;

         status_t createConnections(PatchPanel *panel);
         void clearConnections(PatchPanel *panel);
         bool isSoftware() const {
             return mRecord.handle() != AUDIO_PATCH_HANDLE_NONE ||
                     mPlayback.handle() != AUDIO_PATCH_HANDLE_NONE; }

         // returns the latency of the patch (from record to playback).
         status_t getLatencyMs(double *latencyMs) const;

         String8 dump(audio_patch_handle_t myHandle) const;

         // Note that audio_patch::id is only unique within a HAL module
         struct audio_patch              mAudioPatch;
         // handle for audio HAL patch handle present only when the audio HAL version is >= 3.0
         audio_patch_handle_t            mHalHandle = AUDIO_PATCH_HANDLE_NONE;
         // below members are used by a software audio patch connecting a source device from a
         // given audio HW module to a sink device on an other audio HW module.
         // the objects are created by createConnections() and released by clearConnections()
         // playback thread is created if no existing playback thread can be used
         // connects playback thread output to sink device
         Endpoint<PlaybackThread, PlaybackThread::PatchTrack> mPlayback;
         // connects source device to record thread input
         Endpoint<RecordThread, RecordThread::PatchRecord> mRecord;
     };

     AudioHwDevice* findAudioHwDeviceByModule(audio_module_handle_t module);
     sp<DeviceHalInterface> findHwDeviceByModule(audio_module_handle_t module);
     void addSoftwarePatchToInsertedModules(
             audio_module_handle_t module, audio_patch_handle_t handle);
     void removeSoftwarePatchFromInsertedModules(audio_patch_handle_t handle);

     AudioFlinger &mAudioFlinger;
     std::map<audio_patch_handle_t, Patch> mPatches;

     // This map allows going from a thread to "downstream" software patches
     // when a processing module inserted in between. Example:
     //
     //  from map value.streams                               map key
     //  [Mixer thread] --> [Virtual output device] --> [Processing module] ---\
     //       [Harware module] <-- [Physical output device] <-- [S/W Patch] <--/
     //                                                 from map value.sw_patches
     //
     // This allows the mixer thread to look up the threads of the software patch
     // for propagating timing info, parameters, etc.
     //
     // The current assumptions are:
     //   1) The processing module acts as a mixer with several outputs which
     //      represent differently downmixed and / or encoded versions of the same
     //      mixed stream. There is no 1:1 correspondence between the input streams
     //      and the software patches, but rather a N:N correspondence between
     //      a group of streams and a group of patches.
     //   2) There are only a couple of inserted processing modules in the system,
     //      so when looking for a stream or patch handle we can iterate over
     //      all modules.
     struct ModuleConnections {
         std::set<audio_io_handle_t> streams;
         std::set<audio_patch_handle_t> sw_patches;
     };
     std::map<audio_module_handle_t, ModuleConnections> mInsertedModules;
 };
	/*
	**
	** Copyright 2014, 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.
	*/

	#ifndef INCLUDING_FROM_AUDIOFLINGER_H
	#error This header file should only be included from AudioFlinger.h
	#endif


	// PatchPanel is concealed within AudioFlinger, their lifetimes are the same.
	class PatchPanel {
	public:
	class SoftwarePatch {
	public:
	SoftwarePatch(const PatchPanel &patchPanel, audio_patch_handle_t patchHandle,
	audio_io_handle_t playbackThreadHandle, audio_io_handle_t recordThreadHandle)
	: mPatchPanel(patchPanel), mPatchHandle(patchHandle),
	mPlaybackThreadHandle(playbackThreadHandle),
	mRecordThreadHandle(recordThreadHandle) {}
	SoftwarePatch(const SoftwarePatch&) = default;
	SoftwarePatch& operator=(const SoftwarePatch&) = default;

	// Must be called under AudioFlinger::mLock
	status_t getLatencyMs_l(double *latencyMs) const;
	audio_patch_handle_t getPatchHandle() const { return mPatchHandle; };
	audio_io_handle_t getPlaybackThreadHandle() const { return mPlaybackThreadHandle; };
	audio_io_handle_t getRecordThreadHandle() const { return mRecordThreadHandle; };
	private:
	const PatchPanel &mPatchPanel;
	const audio_patch_handle_t mPatchHandle;
	const audio_io_handle_t mPlaybackThreadHandle;
	const audio_io_handle_t mRecordThreadHandle;
	};

	explicit PatchPanel(AudioFlinger* audioFlinger) : mAudioFlinger(*audioFlinger) {}

	/* List connected audio ports and their attributes */
	status_t listAudioPorts(unsigned int *num_ports,
	struct audio_port *ports);

	/* Get supported attributes for a given audio port */
	status_t getAudioPort(struct audio_port *port);

	/* Create a patch between several source and sink ports */
	status_t createAudioPatch(const struct audio_patch *patch,
	audio_patch_handle_t *handle);

	/* Release a patch */
	status_t releaseAudioPatch(audio_patch_handle_t handle);

	/* List connected audio devices and they attributes */
	status_t listAudioPatches(unsigned int *num_patches,
	struct audio_patch *patches);

	// Retrieves all currently estrablished software patches for a stream
	// opened on an intermediate module.
	status_t getDownstreamSoftwarePatches(audio_io_handle_t stream,
	std::vector<SoftwarePatch> *patches) const;

	// Notifies patch panel about all opened and closed streams.
	void notifyStreamOpened(AudioHwDevice *audioHwDevice, audio_io_handle_t stream);
	void notifyStreamClosed(audio_io_handle_t stream);

	void dump(int fd) const;

	private:
	template<typename ThreadType, typename TrackType>
	class Endpoint {
	public:
	Endpoint() = default;
	Endpoint(const Endpoint&) = delete;
	Endpoint& operator=(const Endpoint&) = delete;
	Endpoint(Endpoint&& other) noexcept { swap(other); }
	Endpoint& operator=(Endpoint&& other) noexcept {
	swap(other);
	return *this;
	}
	~Endpoint() {
	ALOGE_IF(mHandle != AUDIO_PATCH_HANDLE_NONE,
	"A non empty Patch Endpoint leaked, handle %d", mHandle);
	}

	status_t checkTrack(TrackType *trackOrNull) const {
	if (trackOrNull == nullptr) return NO_MEMORY;
	return trackOrNull->initCheck();
	}
	audio_patch_handle_t handle() const { return mHandle; }
	sp<ThreadType> thread() { return mThread; }
	sp<TrackType> track() { return mTrack; }
	sp<const ThreadType> const_thread() const { return mThread; }
	sp<const TrackType> const_track() const { return mTrack; }

	void closeConnections(PatchPanel *panel) {
	if (mHandle != AUDIO_PATCH_HANDLE_NONE) {
	panel->releaseAudioPatch(mHandle);
	mHandle = AUDIO_PATCH_HANDLE_NONE;
	}
	if (mThread != 0) {
	if (mTrack != 0) {
	mThread->deletePatchTrack(mTrack);
	}
	if (mCloseThread) {
	panel->mAudioFlinger.closeThreadInternal_l(mThread);
	}
	}
	}
	audio_patch_handle_t* handlePtr() { return &mHandle; }
	void setThread(const sp<ThreadType>& thread, bool closeThread = true) {
	mThread = thread;
	mCloseThread = closeThread;
	}
	template <typename T>
	void setTrackAndPeer(const sp<TrackType>& track, const sp<T> &peer) {
	mTrack = track;
	mThread->addPatchTrack(mTrack);
	mTrack->setPeerProxy(peer, true /* holdReference */);
	}
	void clearTrackPeer() { if (mTrack) mTrack->clearPeerProxy(); }
	void stopTrack() { if (mTrack) mTrack->stop(); }

	void swap(Endpoint &other) noexcept {
	using std::swap;
	swap(mThread, other.mThread);
	swap(mCloseThread, other.mCloseThread);
	swap(mHandle, other.mHandle);
	swap(mTrack, other.mTrack);
	}

	friend void swap(Endpoint &a, Endpoint &b) noexcept {
	a.swap(b);
	}

	private:
	sp<ThreadType> mThread;
	bool mCloseThread = true;
	audio_patch_handle_t mHandle = AUDIO_PATCH_HANDLE_NONE;
	sp<TrackType> mTrack;
	};

	class Patch {
	public:
	explicit Patch(const struct audio_patch &patch) : mAudioPatch(patch) {}
	~Patch();
	Patch(const Patch&) = delete;
	Patch(Patch&&) = default;
	Patch& operator=(const Patch&) = delete;
	Patch& operator=(Patch&&) = default;

	status_t createConnections(PatchPanel *panel);
	void clearConnections(PatchPanel *panel);
	bool isSoftware() const {
	return mRecord.handle() != AUDIO_PATCH_HANDLE_NONE \|\|
	mPlayback.handle() != AUDIO_PATCH_HANDLE_NONE; }

	// returns the latency of the patch (from record to playback).
	status_t getLatencyMs(double *latencyMs) const;

	String8 dump(audio_patch_handle_t myHandle) const;

	// Note that audio_patch::id is only unique within a HAL module
	struct audio_patch mAudioPatch;
	// handle for audio HAL patch handle present only when the audio HAL version is >= 3.0
	audio_patch_handle_t mHalHandle = AUDIO_PATCH_HANDLE_NONE;
	// below members are used by a software audio patch connecting a source device from a
	// given audio HW module to a sink device on an other audio HW module.
	// the objects are created by createConnections() and released by clearConnections()
	// playback thread is created if no existing playback thread can be used
	// connects playback thread output to sink device
	Endpoint<PlaybackThread, PlaybackThread::PatchTrack> mPlayback;
	// connects source device to record thread input
	Endpoint<RecordThread, RecordThread::PatchRecord> mRecord;
	};

	AudioHwDevice* findAudioHwDeviceByModule(audio_module_handle_t module);
	sp<DeviceHalInterface> findHwDeviceByModule(audio_module_handle_t module);
	void addSoftwarePatchToInsertedModules(
	audio_module_handle_t module, audio_patch_handle_t handle);
	void removeSoftwarePatchFromInsertedModules(audio_patch_handle_t handle);

	AudioFlinger &mAudioFlinger;
	std::map<audio_patch_handle_t, Patch> mPatches;

	// This map allows going from a thread to "downstream" software patches
	// when a processing module inserted in between. Example:
	//
	// from map value.streams map key
	// [Mixer thread] --> [Virtual output device] --> [Processing module] ---\
	// [Harware module] <-- [Physical output device] <-- [S/W Patch] <--/
	// from map value.sw_patches
	//
	// This allows the mixer thread to look up the threads of the software patch
	// for propagating timing info, parameters, etc.
	//
	// The current assumptions are:
	// 1) The processing module acts as a mixer with several outputs which
	// represent differently downmixed and / or encoded versions of the same
	// mixed stream. There is no 1:1 correspondence between the input streams
	// and the software patches, but rather a N:N correspondence between
	// a group of streams and a group of patches.
	// 2) There are only a couple of inserted processing modules in the system,
	// so when looking for a stream or patch handle we can iterate over
	// all modules.
	struct ModuleConnections {
	std::set<audio_io_handle_t> streams;
	std::set<audio_patch_handle_t> sw_patches;
	};
	std::map<audio_module_handle_t, ModuleConnections> mInsertedModules;
	};