media/midi/midi_manager.h - cobalt - Git at Google

 // Copyright 2013 The Chromium Authors
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #ifndef MEDIA_MIDI_MIDI_MANAGER_H_
 #define MEDIA_MIDI_MIDI_MANAGER_H_

 #include <stddef.h>
 #include <stdint.h>

 #include <set>
 #include <vector>

 #include "base/memory/raw_ptr.h"
 #include "base/memory/scoped_refptr.h"
 #include "base/synchronization/lock.h"
 #include "base/thread_annotations.h"
 #include "base/time/time.h"
 #include "media/midi/midi_export.h"
 #include "media/midi/midi_service.mojom.h"

 namespace base {
 class SingleThreadTaskRunner;
 }  // namespace base

 namespace midi {

 class MidiService;

 // A MidiManagerClient registers with the MidiManager to receive MIDI data.
 // See MidiManager::RequestAccess() and MidiManager::ReleaseAccess()
 // for details.
 // TODO(toyoshim): Consider to have a MidiServiceClient interface.
 class MIDI_EXPORT MidiManagerClient {
  public:
   virtual ~MidiManagerClient() {}

   // AddInputPort() and AddOutputPort() are called before CompleteStartSession()
   // is called to notify existing MIDI ports, and also called after that to
   // notify new MIDI ports are added.
   virtual void AddInputPort(const mojom::PortInfo& info) = 0;
   virtual void AddOutputPort(const mojom::PortInfo& info) = 0;

   // SetInputPortState() and SetOutputPortState() are called to notify a known
   // device gets disconnected, or connected again.
   virtual void SetInputPortState(uint32_t port_index,
                                  mojom::PortState state) = 0;
   virtual void SetOutputPortState(uint32_t port_index,
                                   mojom::PortState state) = 0;

   // CompleteStartSession() is called when platform dependent preparation is
   // finished.
   virtual void CompleteStartSession(mojom::Result result) = 0;

   // ReceiveMidiData() is called when MIDI data has been received from the
   // MIDI system.
   // |port_index| represents the specific input port from input_ports().
   // |data| represents a series of bytes encoding one or more MIDI messages.
   // |length| is the number of bytes in |data|.
   // |timestamp| is the time the data was received, in seconds.
   virtual void ReceiveMidiData(uint32_t port_index,
                                const uint8_t* data,
                                size_t length,
                                base::TimeTicks timestamp) = 0;

   // AccumulateMidiBytesSent() is called to acknowledge when bytes have
   // successfully been sent to the hardware.
   // This happens as a result of the client having previously called
   // MidiManager::DispatchSendMidiData().
   virtual void AccumulateMidiBytesSent(size_t n) = 0;

   // Detach() is called when MidiManager is going to shutdown immediately.
   // Client should not touch MidiManager instance after Detach() is called.
   virtual void Detach() = 0;
 };

 // Manages access to all MIDI hardware. MidiManager runs on the I/O thread.
 //
 // Note: We will eventually remove utility functions that are shared among
 // platform dependent MidiManager inheritances such as MidiManagerClient
 // management. MidiService should provide such shareable utility functions as
 // it does TaskService.
 class MIDI_EXPORT MidiManager {
  public:
   static const size_t kMaxPendingClientCount = 128;

   explicit MidiManager(MidiService* service);

   MidiManager(const MidiManager&) = delete;
   MidiManager& operator=(const MidiManager&) = delete;

   virtual ~MidiManager();

   static MidiManager* Create(MidiService* service);

   // A client calls StartSession() to receive and send MIDI data.
   // If the session is ready to start, the MIDI system is lazily initialized
   // and the client is registered to receive MIDI data.
   // CompleteStartSession() is called with mojom::Result::OK if the session is
   // started. Otherwise CompleteStartSession() is called with a proper
   // mojom::Result code.
   void StartSession(MidiManagerClient* client);

   // A client calls EndSession() to stop receiving MIDI data.
   // Returns false if |client| did not start a session.
   bool EndSession(MidiManagerClient* client);

   // Returns true if there is at least one client that keep a session open.
   bool HasOpenSession();

   // DispatchSendMidiData() is called when MIDI data should be sent to the MIDI
   // system.
   // This method is supposed to return immediately and should not block.
   // |port_index| represents the specific output port from output_ports().
   // |data| represents a series of bytes encoding one or more MIDI messages.
   // |length| is the number of bytes in |data|.
   // |timestamp| is the time to send the data. A value of 0 means send "now" or
   // as soon as possible. The default implementation is for unsupported
   // platforms.
   virtual void DispatchSendMidiData(MidiManagerClient* client,
                                     uint32_t port_index,
                                     const std::vector<uint8_t>& data,
                                     base::TimeTicks timestamp);

   // This method ends all sessions by detaching and removing all registered
   // clients. This method can be called from any thread.
   void EndAllSessions();

  protected:
   friend class MidiManagerUsb;

   // Initializes the platform dependent MIDI system. MidiManager class has a
   // default implementation that synchronously calls CompleteInitialization()
   // with mojom::Result::NOT_SUPPORTED. A derived class for a specific platform
   // should override this method correctly.
   // Platform dependent initialization can be processed synchronously or
   // asynchronously. When the initialization is completed,
   // CompleteInitialization() should be called with |result|.
   // |result| should be mojom::Result::OK on success, otherwise a proper
   // mojom::Result.
   virtual void StartInitialization();

   // Called from a platform dependent implementation of StartInitialization().
   // The method distributes |result| to MIDIManagerClient objects in
   // |pending_clients_|.
   void CompleteInitialization(mojom::Result result);

   // The following five methods can be called on any thread to notify clients of
   // status changes on ports, or to obtain port status.
   void AddInputPort(const mojom::PortInfo& info);
   void AddOutputPort(const mojom::PortInfo& info);
   void SetInputPortState(uint32_t port_index, mojom::PortState state);
   void SetOutputPortState(uint32_t port_index, mojom::PortState state);
   mojom::PortState GetOutputPortState(uint32_t port_index);

   // Invoke AccumulateMidiBytesSent() for |client| safely. If the session was
   // already closed, do nothing. Can be called on any thread.
   void AccumulateMidiBytesSent(MidiManagerClient* client, size_t n);

   // Dispatches to all clients. Can be called on any thread.
   void ReceiveMidiData(uint32_t port_index,
                        const uint8_t* data,
                        size_t length,
                        base::TimeTicks time);

   // Only for testing.
   size_t GetClientCountForTesting();
   size_t GetPendingClientCountForTesting();

   MidiService* service() { return service_; }

  private:
   enum class InitializationState {
     NOT_STARTED,
     STARTED,
     COMPLETED,
   };

   // Note: Members that are not protected by any lock should be accessed only on
   // the I/O thread.

   // Tracks platform dependent initialization state.
   InitializationState initialization_state_ = InitializationState::NOT_STARTED;

   // Keeps the platform dependent initialization result if initialization is
   // completed. Otherwise keeps mojom::Result::NOT_INITIALIZED.
   mojom::Result result_ = mojom::Result::NOT_INITIALIZED;

   // Keeps track of all clients who are waiting for CompleteStartSession().
   std::set<MidiManagerClient*> pending_clients_ GUARDED_BY(lock_);

   // Keeps track of all clients who wish to receive MIDI data.
   std::set<MidiManagerClient*> clients_ GUARDED_BY(lock_);

   // Keeps a SingleThreadTaskRunner of the thread that calls StartSession in
   // order to invoke CompleteStartSession() on the thread. This is touched only
   // on the IO thread usually, but to be guarded by |lock_| for thread checks.
   scoped_refptr<base::SingleThreadTaskRunner> session_thread_runner_
       GUARDED_BY(lock_);

   // Keeps all PortInfo.
   std::vector<mojom::PortInfo> input_ports_ GUARDED_BY(lock_);
   std::vector<mojom::PortInfo> output_ports_ GUARDED_BY(lock_);

   // Tracks if actual data transmission happens.
   bool data_sent_ GUARDED_BY(lock_) = false;
   bool data_received_ GUARDED_BY(lock_) = false;

   // Protects members above.
   base::Lock lock_;

   // MidiService outlives MidiManager.
   const raw_ptr<MidiService> service_;
 };

 }  // namespace midi

 #endif  // MEDIA_MIDI_MIDI_MANAGER_H_
	// Copyright 2013 The Chromium Authors
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#ifndef MEDIA_MIDI_MIDI_MANAGER_H_
	#define MEDIA_MIDI_MIDI_MANAGER_H_

	#include <stddef.h>
	#include <stdint.h>

	#include <set>
	#include <vector>

	#include "base/memory/raw_ptr.h"
	#include "base/memory/scoped_refptr.h"
	#include "base/synchronization/lock.h"
	#include "base/thread_annotations.h"
	#include "base/time/time.h"
	#include "media/midi/midi_export.h"
	#include "media/midi/midi_service.mojom.h"

	namespace base {
	class SingleThreadTaskRunner;
	} // namespace base

	namespace midi {

	class MidiService;

	// A MidiManagerClient registers with the MidiManager to receive MIDI data.
	// See MidiManager::RequestAccess() and MidiManager::ReleaseAccess()
	// for details.
	// TODO(toyoshim): Consider to have a MidiServiceClient interface.
	class MIDI_EXPORT MidiManagerClient {
	public:
	virtual ~MidiManagerClient() {}

	// AddInputPort() and AddOutputPort() are called before CompleteStartSession()
	// is called to notify existing MIDI ports, and also called after that to
	// notify new MIDI ports are added.
	virtual void AddInputPort(const mojom::PortInfo& info) = 0;
	virtual void AddOutputPort(const mojom::PortInfo& info) = 0;

	// SetInputPortState() and SetOutputPortState() are called to notify a known
	// device gets disconnected, or connected again.
	virtual void SetInputPortState(uint32_t port_index,
	mojom::PortState state) = 0;
	virtual void SetOutputPortState(uint32_t port_index,
	mojom::PortState state) = 0;

	// CompleteStartSession() is called when platform dependent preparation is
	// finished.
	virtual void CompleteStartSession(mojom::Result result) = 0;

	// ReceiveMidiData() is called when MIDI data has been received from the
	// MIDI system.
	// \|port_index\| represents the specific input port from input_ports().
	// \|data\| represents a series of bytes encoding one or more MIDI messages.
	// \|length\| is the number of bytes in \|data\|.
	// \|timestamp\| is the time the data was received, in seconds.
	virtual void ReceiveMidiData(uint32_t port_index,
	const uint8_t* data,
	size_t length,
	base::TimeTicks timestamp) = 0;

	// AccumulateMidiBytesSent() is called to acknowledge when bytes have
	// successfully been sent to the hardware.
	// This happens as a result of the client having previously called
	// MidiManager::DispatchSendMidiData().
	virtual void AccumulateMidiBytesSent(size_t n) = 0;

	// Detach() is called when MidiManager is going to shutdown immediately.
	// Client should not touch MidiManager instance after Detach() is called.
	virtual void Detach() = 0;
	};

	// Manages access to all MIDI hardware. MidiManager runs on the I/O thread.
	//
	// Note: We will eventually remove utility functions that are shared among
	// platform dependent MidiManager inheritances such as MidiManagerClient
	// management. MidiService should provide such shareable utility functions as
	// it does TaskService.
	class MIDI_EXPORT MidiManager {
	public:
	static const size_t kMaxPendingClientCount = 128;

	explicit MidiManager(MidiService* service);

	MidiManager(const MidiManager&) = delete;
	MidiManager& operator=(const MidiManager&) = delete;

	virtual ~MidiManager();

	static MidiManager* Create(MidiService* service);

	// A client calls StartSession() to receive and send MIDI data.
	// If the session is ready to start, the MIDI system is lazily initialized
	// and the client is registered to receive MIDI data.
	// CompleteStartSession() is called with mojom::Result::OK if the session is
	// started. Otherwise CompleteStartSession() is called with a proper
	// mojom::Result code.
	void StartSession(MidiManagerClient* client);

	// A client calls EndSession() to stop receiving MIDI data.
	// Returns false if \|client\| did not start a session.
	bool EndSession(MidiManagerClient* client);

	// Returns true if there is at least one client that keep a session open.
	bool HasOpenSession();

	// DispatchSendMidiData() is called when MIDI data should be sent to the MIDI
	// system.
	// This method is supposed to return immediately and should not block.
	// \|port_index\| represents the specific output port from output_ports().
	// \|data\| represents a series of bytes encoding one or more MIDI messages.
	// \|length\| is the number of bytes in \|data\|.
	// \|timestamp\| is the time to send the data. A value of 0 means send "now" or
	// as soon as possible. The default implementation is for unsupported
	// platforms.
	virtual void DispatchSendMidiData(MidiManagerClient* client,
	uint32_t port_index,
	const std::vector<uint8_t>& data,
	base::TimeTicks timestamp);

	// This method ends all sessions by detaching and removing all registered
	// clients. This method can be called from any thread.
	void EndAllSessions();

	protected:
	friend class MidiManagerUsb;

	// Initializes the platform dependent MIDI system. MidiManager class has a
	// default implementation that synchronously calls CompleteInitialization()
	// with mojom::Result::NOT_SUPPORTED. A derived class for a specific platform
	// should override this method correctly.
	// Platform dependent initialization can be processed synchronously or
	// asynchronously. When the initialization is completed,
	// CompleteInitialization() should be called with \|result\|.
	// \|result\| should be mojom::Result::OK on success, otherwise a proper
	// mojom::Result.
	virtual void StartInitialization();

	// Called from a platform dependent implementation of StartInitialization().
	// The method distributes \|result\| to MIDIManagerClient objects in
	// \|pending_clients_\|.
	void CompleteInitialization(mojom::Result result);

	// The following five methods can be called on any thread to notify clients of
	// status changes on ports, or to obtain port status.
	void AddInputPort(const mojom::PortInfo& info);
	void AddOutputPort(const mojom::PortInfo& info);
	void SetInputPortState(uint32_t port_index, mojom::PortState state);
	void SetOutputPortState(uint32_t port_index, mojom::PortState state);
	mojom::PortState GetOutputPortState(uint32_t port_index);

	// Invoke AccumulateMidiBytesSent() for \|client\| safely. If the session was
	// already closed, do nothing. Can be called on any thread.
	void AccumulateMidiBytesSent(MidiManagerClient* client, size_t n);

	// Dispatches to all clients. Can be called on any thread.
	void ReceiveMidiData(uint32_t port_index,
	const uint8_t* data,
	size_t length,
	base::TimeTicks time);

	// Only for testing.
	size_t GetClientCountForTesting();
	size_t GetPendingClientCountForTesting();

	MidiService* service() { return service_; }

	private:
	enum class InitializationState {
	NOT_STARTED,
	STARTED,
	COMPLETED,
	};

	// Note: Members that are not protected by any lock should be accessed only on
	// the I/O thread.

	// Tracks platform dependent initialization state.
	InitializationState initialization_state_ = InitializationState::NOT_STARTED;

	// Keeps the platform dependent initialization result if initialization is
	// completed. Otherwise keeps mojom::Result::NOT_INITIALIZED.
	mojom::Result result_ = mojom::Result::NOT_INITIALIZED;

	// Keeps track of all clients who are waiting for CompleteStartSession().
	std::set<MidiManagerClient*> pending_clients_ GUARDED_BY(lock_);

	// Keeps track of all clients who wish to receive MIDI data.
	std::set<MidiManagerClient*> clients_ GUARDED_BY(lock_);

	// Keeps a SingleThreadTaskRunner of the thread that calls StartSession in
	// order to invoke CompleteStartSession() on the thread. This is touched only
	// on the IO thread usually, but to be guarded by \|lock_\| for thread checks.
	scoped_refptr<base::SingleThreadTaskRunner> session_thread_runner_
	GUARDED_BY(lock_);

	// Keeps all PortInfo.
	std::vector<mojom::PortInfo> input_ports_ GUARDED_BY(lock_);
	std::vector<mojom::PortInfo> output_ports_ GUARDED_BY(lock_);

	// Tracks if actual data transmission happens.
	bool data_sent_ GUARDED_BY(lock_) = false;
	bool data_received_ GUARDED_BY(lock_) = false;

	// Protects members above.
	base::Lock lock_;

	// MidiService outlives MidiManager.
	const raw_ptr<MidiService> service_;
	};

	} // namespace midi

	#endif // MEDIA_MIDI_MIDI_MANAGER_H_