runtime/vm/message_handler.h - sdk.git - Git at Google

 // Copyright (c) 2011, the Dart project authors.  Please see the AUTHORS file
 // for details. All rights reserved. Use of this source code is governed by a
 // BSD-style license that can be found in the LICENSE file.

 #ifndef RUNTIME_VM_MESSAGE_HANDLER_H_
 #define RUNTIME_VM_MESSAGE_HANDLER_H_

 #include <memory>

 #include "vm/isolate.h"
 #include "vm/lockers.h"
 #include "vm/message.h"
 #include "vm/os_thread.h"
 #include "vm/port_set.h"
 #include "vm/thread_pool.h"

 namespace dart {

 // A MessageHandler is an entity capable of accepting messages.
 class MessageHandler {
  protected:
   MessageHandler();

  public:
   enum MessageStatus {
     kOK,        // We successfully handled a message.
     kError,     // We encountered an error handling a message.
     kRestart,   // The VM is restarting.
     kShutdown,  // The VM is shutting down.
   };
   static const char* MessageStatusString(MessageStatus status);

   virtual ~MessageHandler();

   // Allow subclasses to provide a handler name.
   virtual const char* name() const;

   typedef uword CallbackData;
   typedef MessageStatus (*StartCallback)(CallbackData data);
   typedef void (*EndCallback)(CallbackData data);

   // Runs this message handler on the thread pool.
   //
   // Before processing messages, the optional StartFunction is run.
   //
   // A message handler will run until it terminates either normally or
   // abnormally.  Normal termination occurs when the message handler
   // no longer has any live ports.  Abnormal termination occurs when
   // HandleMessage() indicates that an error has occurred during
   // message processing.
   void Run(ThreadPool* pool,
            StartCallback start_callback,
            EndCallback end_callback,
            CallbackData data);

   // Handles the next message for this message handler.  Should only
   // be used when not running the handler on the thread pool (via Run
   // or RunBlocking).
   //
   // Returns true on success.
   MessageStatus HandleNextMessage();

   // Handles any OOB messages for this message handler.  Can be used
   // even if the message handler is running on the thread pool.
   //
   // Returns true on success.
   MessageStatus HandleOOBMessages();

   // Blocks the thread on a condition variable until a message arrives, and then
   // handles all messages.
   MessageStatus PauseAndHandleAllMessages(int64_t timeout_millis);

   // Returns true if there are pending OOB messages for this message
   // handler.
   bool HasOOBMessages();

   // Returns true if there are pending normal messages for this message
   // handler.
   bool HasMessages();

   // A message handler tracks how many live ports it has.
   bool HasLivePorts() const { return live_ports_ > 0; }

   intptr_t live_ports() const { return live_ports_; }

   bool paused() const { return paused_ > 0; }

   void increment_paused() { paused_++; }
   void decrement_paused() {
     ASSERT(paused_ > 0);
     paused_--;
   }

 #if !defined(PRODUCT)
   void DebugDump();

   bool should_pause_on_start() const { return should_pause_on_start_; }

   void set_should_pause_on_start(bool should_pause_on_start) {
     should_pause_on_start_ = should_pause_on_start;
   }

   bool is_paused_on_start() const { return is_paused_on_start_; }

   bool should_pause_on_exit() const { return should_pause_on_exit_; }

   void set_should_pause_on_exit(bool should_pause_on_exit) {
     should_pause_on_exit_ = should_pause_on_exit;
   }

   bool is_paused_on_exit() const { return is_paused_on_exit_; }

   // Timestamp of the paused on start or paused on exit.
   int64_t paused_timestamp() const { return paused_timestamp_; }

   bool ShouldPauseOnStart(MessageStatus status) const;
   bool ShouldPauseOnExit(MessageStatus status) const;
   void PausedOnStart(bool paused);
   void PausedOnExit(bool paused);
 #endif

   // Gives temporary ownership of |queue| and |oob_queue|. Using this object
   // has the side effect that no OOB messages will be handled if a stack
   // overflow interrupt is delivered.
   class AcquiredQueues : public ValueObject {
    public:
     explicit AcquiredQueues(MessageHandler* handler);

     ~AcquiredQueues();

     MessageQueue* queue() {
       if (handler_ == NULL) {
         return NULL;
       }
       return handler_->queue_;
     }

     MessageQueue* oob_queue() {
       if (handler_ == NULL) {
         return NULL;
       }
       return handler_->oob_queue_;
     }

    private:
     MessageHandler* handler_;
     SafepointMonitorLocker ml_;

     friend class MessageHandler;
   };

 #if defined(DEBUG)
   // Check that it is safe to access this message handler.
   //
   // For example, if this MessageHandler is an isolate, then it is
   // only safe to access it when the MessageHandler is the current
   // isolate.
   virtual void CheckAccess();
 #endif

  protected:
   // ------------ START PortMap API ------------
   // These functions should only be called from the PortMap.

   // Does this message handler correspond to the current isolate?
   virtual bool IsCurrentIsolate() const { return false; }

   // Return Isolate to which this message handler corresponds to.
   virtual Isolate* isolate() const { return NULL; }

   // Posts a message on this handler's message queue.
   // If before_events is true, then the message is enqueued before any pending
   // events, but after any pending isolate library events.
   void PostMessage(std::unique_ptr<Message> message,
                    bool before_events = false);

   // Notifies this handler that a port is being closed.
   void ClosePort(Dart_Port port);

   // Notifies this handler that all ports are being closed.
   void CloseAllPorts();

   // Returns true if the handler is owned by the PortMap.
   //
   // This is used to delete handlers when their last live port is closed.
   virtual bool OwnedByPortMap() const { return false; }

   // Requests deletion of this message handler when the next task
   // completes.
   void RequestDeletion();

   void increment_live_ports();
   void decrement_live_ports();
   // ------------ END PortMap API ------------

   // Custom message notification.  Optionally provided by subclass.
   virtual void MessageNotify(Message::Priority priority);

   // Handles a single message.  Provided by subclass.
   //
   // Returns true on success.
   virtual MessageStatus HandleMessage(std::unique_ptr<Message> message) = 0;

   virtual void NotifyPauseOnStart() {}
   virtual void NotifyPauseOnExit() {}

   // TODO(iposva): Set a local field before entering MessageHandler methods.
   Thread* thread() const { return Thread::Current(); }

  private:
   friend class PortMap;
   friend class MessageHandlerTestPeer;
   friend class MessageHandlerTask;

   struct PortSetEntry : public PortSet<PortSetEntry>::Entry {};

   // Called by MessageHandlerTask to process our task queue.
   void TaskCallback();

   // Checks if we have a slot for idle task execution, if we have a slot
   // for idle task execution it is scheduled immediately or we wait for
   // idle expiration and then attempt to schedule the idle task.
   // Returns true if their is scope for idle task execution so that we
   // can loop back to handle more messages or false if idle tasks are not
   // scheduled.
   bool CheckIfIdleLocked(MonitorLocker* ml);

   // Triggers a run of the idle task.
   void RunIdleTaskLocked(MonitorLocker* ml);

   // NOTE: These two functions release and reacquire the monitor, you may
   // need to call HandleMessages to ensure all pending messages are handled.
   void PausedOnStartLocked(MonitorLocker* ml, bool paused);
   void PausedOnExitLocked(MonitorLocker* ml, bool paused);

   // Dequeue the next message.  Prefer messages from the oob_queue_ to
   // messages from the queue_.
   std::unique_ptr<Message> DequeueMessage(Message::Priority min_priority);

   void ClearOOBQueue();

   // Handles any pending messages.
   MessageStatus HandleMessages(MonitorLocker* ml,
                                bool allow_normal_messages,
                                bool allow_multiple_normal_messages);

   Monitor monitor_;  // Protects all fields in MessageHandler.
   MessageQueue* queue_;
   MessageQueue* oob_queue_;
   // This flag is not thread safe and can only reliably be accessed on a single
   // thread.
   bool oob_message_handling_allowed_;
   bool paused_for_messages_;
   PortSet<PortSetEntry>
       ports_;  // Only accessed by [PortMap], protected by [PortMap]s lock.
   intptr_t live_ports_;  // The number of open ports, including control ports.
   intptr_t paused_;      // The number of pause messages received.
 #if !defined(PRODUCT)
   bool should_pause_on_start_;
   bool should_pause_on_exit_;
   bool is_paused_on_start_;
   bool is_paused_on_exit_;
   int64_t paused_timestamp_;
 #endif
   bool task_running_;
   bool delete_me_;
   ThreadPool* pool_;
   StartCallback start_callback_;
   EndCallback end_callback_;
   CallbackData callback_data_;

   DISALLOW_COPY_AND_ASSIGN(MessageHandler);
 };

 }  // namespace dart

 #endif  // RUNTIME_VM_MESSAGE_HANDLER_H_
	// Copyright (c) 2011, the Dart project authors. Please see the AUTHORS file
	// for details. All rights reserved. Use of this source code is governed by a
	// BSD-style license that can be found in the LICENSE file.

	#ifndef RUNTIME_VM_MESSAGE_HANDLER_H_
	#define RUNTIME_VM_MESSAGE_HANDLER_H_

	#include <memory>

	#include "vm/isolate.h"
	#include "vm/lockers.h"
	#include "vm/message.h"
	#include "vm/os_thread.h"
	#include "vm/port_set.h"
	#include "vm/thread_pool.h"

	namespace dart {

	// A MessageHandler is an entity capable of accepting messages.
	class MessageHandler {
	protected:
	MessageHandler();

	public:
	enum MessageStatus {
	kOK, // We successfully handled a message.
	kError, // We encountered an error handling a message.
	kRestart, // The VM is restarting.
	kShutdown, // The VM is shutting down.
	};
	static const char* MessageStatusString(MessageStatus status);

	virtual ~MessageHandler();

	// Allow subclasses to provide a handler name.
	virtual const char* name() const;

	typedef uword CallbackData;
	typedef MessageStatus (*StartCallback)(CallbackData data);
	typedef void (*EndCallback)(CallbackData data);

	// Runs this message handler on the thread pool.
	//
	// Before processing messages, the optional StartFunction is run.
	//
	// A message handler will run until it terminates either normally or
	// abnormally. Normal termination occurs when the message handler
	// no longer has any live ports. Abnormal termination occurs when
	// HandleMessage() indicates that an error has occurred during
	// message processing.
	void Run(ThreadPool* pool,
	StartCallback start_callback,
	EndCallback end_callback,
	CallbackData data);

	// Handles the next message for this message handler. Should only
	// be used when not running the handler on the thread pool (via Run
	// or RunBlocking).
	//
	// Returns true on success.
	MessageStatus HandleNextMessage();

	// Handles any OOB messages for this message handler. Can be used
	// even if the message handler is running on the thread pool.
	//
	// Returns true on success.
	MessageStatus HandleOOBMessages();

	// Blocks the thread on a condition variable until a message arrives, and then
	// handles all messages.
	MessageStatus PauseAndHandleAllMessages(int64_t timeout_millis);

	// Returns true if there are pending OOB messages for this message
	// handler.
	bool HasOOBMessages();

	// Returns true if there are pending normal messages for this message
	// handler.
	bool HasMessages();

	// A message handler tracks how many live ports it has.
	bool HasLivePorts() const { return live_ports_ > 0; }

	intptr_t live_ports() const { return live_ports_; }

	bool paused() const { return paused_ > 0; }

	void increment_paused() { paused_++; }
	void decrement_paused() {
	ASSERT(paused_ > 0);
	paused_--;
	}

	#if !defined(PRODUCT)
	void DebugDump();

	bool should_pause_on_start() const { return should_pause_on_start_; }

	void set_should_pause_on_start(bool should_pause_on_start) {
	should_pause_on_start_ = should_pause_on_start;
	}

	bool is_paused_on_start() const { return is_paused_on_start_; }

	bool should_pause_on_exit() const { return should_pause_on_exit_; }

	void set_should_pause_on_exit(bool should_pause_on_exit) {
	should_pause_on_exit_ = should_pause_on_exit;
	}

	bool is_paused_on_exit() const { return is_paused_on_exit_; }

	// Timestamp of the paused on start or paused on exit.
	int64_t paused_timestamp() const { return paused_timestamp_; }

	bool ShouldPauseOnStart(MessageStatus status) const;
	bool ShouldPauseOnExit(MessageStatus status) const;
	void PausedOnStart(bool paused);
	void PausedOnExit(bool paused);
	#endif

	// Gives temporary ownership of \|queue\| and \|oob_queue\|. Using this object
	// has the side effect that no OOB messages will be handled if a stack
	// overflow interrupt is delivered.
	class AcquiredQueues : public ValueObject {
	public:
	explicit AcquiredQueues(MessageHandler* handler);

	~AcquiredQueues();

	MessageQueue* queue() {
	if (handler_ == NULL) {
	return NULL;
	}
	return handler_->queue_;
	}

	MessageQueue* oob_queue() {
	if (handler_ == NULL) {
	return NULL;
	}
	return handler_->oob_queue_;
	}

	private:
	MessageHandler* handler_;
	SafepointMonitorLocker ml_;

	friend class MessageHandler;
	};

	#if defined(DEBUG)
	// Check that it is safe to access this message handler.
	//
	// For example, if this MessageHandler is an isolate, then it is
	// only safe to access it when the MessageHandler is the current
	// isolate.
	virtual void CheckAccess();
	#endif

	protected:
	// ------------ START PortMap API ------------
	// These functions should only be called from the PortMap.

	// Does this message handler correspond to the current isolate?
	virtual bool IsCurrentIsolate() const { return false; }

	// Return Isolate to which this message handler corresponds to.
	virtual Isolate* isolate() const { return NULL; }

	// Posts a message on this handler's message queue.
	// If before_events is true, then the message is enqueued before any pending
	// events, but after any pending isolate library events.
	void PostMessage(std::unique_ptr<Message> message,
	bool before_events = false);

	// Notifies this handler that a port is being closed.
	void ClosePort(Dart_Port port);

	// Notifies this handler that all ports are being closed.
	void CloseAllPorts();

	// Returns true if the handler is owned by the PortMap.
	//
	// This is used to delete handlers when their last live port is closed.
	virtual bool OwnedByPortMap() const { return false; }

	// Requests deletion of this message handler when the next task
	// completes.
	void RequestDeletion();

	void increment_live_ports();
	void decrement_live_ports();
	// ------------ END PortMap API ------------

	// Custom message notification. Optionally provided by subclass.
	virtual void MessageNotify(Message::Priority priority);

	// Handles a single message. Provided by subclass.
	//
	// Returns true on success.
	virtual MessageStatus HandleMessage(std::unique_ptr<Message> message) = 0;

	virtual void NotifyPauseOnStart() {}
	virtual void NotifyPauseOnExit() {}

	// TODO(iposva): Set a local field before entering MessageHandler methods.
	Thread* thread() const { return Thread::Current(); }

	private:
	friend class PortMap;
	friend class MessageHandlerTestPeer;
	friend class MessageHandlerTask;

	struct PortSetEntry : public PortSet<PortSetEntry>::Entry {};

	// Called by MessageHandlerTask to process our task queue.
	void TaskCallback();

	// Checks if we have a slot for idle task execution, if we have a slot
	// for idle task execution it is scheduled immediately or we wait for
	// idle expiration and then attempt to schedule the idle task.
	// Returns true if their is scope for idle task execution so that we
	// can loop back to handle more messages or false if idle tasks are not
	// scheduled.
	bool CheckIfIdleLocked(MonitorLocker* ml);

	// Triggers a run of the idle task.
	void RunIdleTaskLocked(MonitorLocker* ml);

	// NOTE: These two functions release and reacquire the monitor, you may
	// need to call HandleMessages to ensure all pending messages are handled.
	void PausedOnStartLocked(MonitorLocker* ml, bool paused);
	void PausedOnExitLocked(MonitorLocker* ml, bool paused);

	// Dequeue the next message. Prefer messages from the oob_queue_ to
	// messages from the queue_.
	std::unique_ptr<Message> DequeueMessage(Message::Priority min_priority);

	void ClearOOBQueue();

	// Handles any pending messages.
	MessageStatus HandleMessages(MonitorLocker* ml,
	bool allow_normal_messages,
	bool allow_multiple_normal_messages);

	Monitor monitor_; // Protects all fields in MessageHandler.
	MessageQueue* queue_;
	MessageQueue* oob_queue_;
	// This flag is not thread safe and can only reliably be accessed on a single
	// thread.
	bool oob_message_handling_allowed_;
	bool paused_for_messages_;
	PortSet<PortSetEntry>
	ports_; // Only accessed by [PortMap], protected by [PortMap]s lock.
	intptr_t live_ports_; // The number of open ports, including control ports.
	intptr_t paused_; // The number of pause messages received.
	#if !defined(PRODUCT)
	bool should_pause_on_start_;
	bool should_pause_on_exit_;
	bool is_paused_on_start_;
	bool is_paused_on_exit_;
	int64_t paused_timestamp_;
	#endif
	bool task_running_;
	bool delete_me_;
	ThreadPool* pool_;
	StartCallback start_callback_;
	EndCallback end_callback_;
	CallbackData callback_data_;

	DISALLOW_COPY_AND_ASSIGN(MessageHandler);
	};

	} // namespace dart

	#endif // RUNTIME_VM_MESSAGE_HANDLER_H_