174 lines
5.7 KiB
C++
174 lines
5.7 KiB
C++
/*
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* Copyright 2004 The WebRTC Project Authors. All rights reserved.
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*
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* Use of this source code is governed by a BSD-style license
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* that can be found in the LICENSE file in the root of the source
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* tree. An additional intellectual property rights grant can be found
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* in the file PATENTS. All contributing project authors may
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* be found in the AUTHORS file in the root of the source tree.
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*/
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#ifndef WEBRTC_BASE_TASK_H__
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#define WEBRTC_BASE_TASK_H__
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#include <string>
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#include "webrtc/base/basictypes.h"
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#include "webrtc/base/sigslot.h"
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#include "webrtc/base/taskparent.h"
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/////////////////////////////////////////////////////////////////////
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//
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// TASK
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//
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/////////////////////////////////////////////////////////////////////
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//
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// Task is a state machine infrastructure. States are pushed forward by
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// pushing forwards a TaskRunner that holds on to all Tasks. The purpose
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// of Task is threefold:
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//
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// (1) It manages ongoing work on the UI thread. Multitasking without
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// threads, keeping it easy, keeping it real. :-) It does this by
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// organizing a set of states for each task. When you return from your
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// Process*() function, you return an integer for the next state. You do
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// not go onto the next state yourself. Every time you enter a state,
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// you check to see if you can do anything yet. If not, you return
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// STATE_BLOCKED. If you _could_ do anything, do not return
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// STATE_BLOCKED - even if you end up in the same state, return
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// STATE_mysamestate. When you are done, return STATE_DONE and then the
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// task will self-delete sometime afterwards.
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//
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// (2) It helps you avoid all those reentrancy problems when you chain
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// too many triggers on one thread. Basically if you want to tell a task
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// to process something for you, you feed your task some information and
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// then you Wake() it. Don't tell it to process it right away. If it
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// might be working on something as you send it information, you may want
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// to have a queue in the task.
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//
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// (3) Finally it helps manage parent tasks and children. If a parent
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// task gets aborted, all the children tasks are too. The nice thing
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// about this, for example, is if you have one parent task that
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// represents, say, and Xmpp connection, then you can spawn a whole bunch
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// of infinite lifetime child tasks and now worry about cleaning them up.
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// When the parent task goes to STATE_DONE, the task engine will make
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// sure all those children are aborted and get deleted.
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//
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// Notice that Task has a few built-in states, e.g.,
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//
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// STATE_INIT - the task isn't running yet
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// STATE_START - the task is in its first state
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// STATE_RESPONSE - the task is in its second state
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// STATE_DONE - the task is done
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//
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// STATE_ERROR - indicates an error - we should audit the error code in
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// light of any usage of it to see if it should be improved. When I
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// first put down the task stuff I didn't have a good sense of what was
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// needed for Abort and Error, and now the subclasses of Task will ground
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// the design in a stronger way.
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//
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// STATE_NEXT - the first undefined state number. (like WM_USER) - you
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// can start defining more task states there.
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//
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// When you define more task states, just override Process(int state) and
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// add your own switch statement. If you want to delegate to
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// Task::Process, you can effectively delegate to its switch statement.
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// No fancy method pointers or such - this is all just pretty low tech,
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// easy to debug, and fast.
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//
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// Also notice that Task has some primitive built-in timeout functionality.
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//
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// A timeout is defined as "the task stays in STATE_BLOCKED longer than
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// timeout_seconds_."
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//
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// Descendant classes can override this behavior by calling the
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// various protected methods to change the timeout behavior. For
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// instance, a descendand might call SuspendTimeout() when it knows
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// that it isn't waiting for anything that might timeout, but isn't
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// yet in the STATE_DONE state.
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//
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namespace rtc {
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// Executes a sequence of steps
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class Task : public TaskParent {
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public:
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Task(TaskParent *parent);
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~Task() override;
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int32_t unique_id() { return unique_id_; }
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void Start();
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void Step();
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int GetState() const { return state_; }
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bool HasError() const { return (GetState() == STATE_ERROR); }
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bool Blocked() const { return blocked_; }
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bool IsDone() const { return done_; }
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int64_t ElapsedTime();
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// Called from outside to stop task without any more callbacks
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void Abort(bool nowake = false);
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bool TimedOut();
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int64_t timeout_time() const { return timeout_time_; }
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int timeout_seconds() const { return timeout_seconds_; }
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void set_timeout_seconds(int timeout_seconds);
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sigslot::signal0<> SignalTimeout;
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// Called inside the task to signal that the task may be unblocked
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void Wake();
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protected:
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enum {
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STATE_BLOCKED = -1,
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STATE_INIT = 0,
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STATE_START = 1,
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STATE_DONE = 2,
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STATE_ERROR = 3,
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STATE_RESPONSE = 4,
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STATE_NEXT = 5, // Subclasses which need more states start here and higher
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};
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// Called inside to advise that the task should wake and signal an error
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void Error();
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int64_t CurrentTime();
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virtual std::string GetStateName(int state) const;
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virtual int Process(int state);
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virtual void Stop();
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virtual int ProcessStart() = 0;
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virtual int ProcessResponse();
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void ResetTimeout();
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void ClearTimeout();
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void SuspendTimeout();
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void ResumeTimeout();
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protected:
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virtual int OnTimeout();
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private:
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void Done();
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int state_;
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bool blocked_;
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bool done_;
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bool aborted_;
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bool busy_;
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bool error_;
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int64_t start_time_;
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int64_t timeout_time_;
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int timeout_seconds_;
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bool timeout_suspended_;
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int32_t unique_id_;
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static int32_t unique_id_seed_;
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};
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} // namespace rtc
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#endif // WEBRTC_BASE_TASK_H__
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