Source: ../../libxorp/win_dispatcher.hh
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// -*- c-basic-offset: 4; tab-width: 8; indent-tabs-mode: t -*-
// vim:set sts=4 ts=8:
// Copyright (c) 2001-2009 XORP, Inc.
//
// This program is free software; you can redistribute it and/or modify
// it under the terms of the GNU Lesser General Public License, Version
// 2.1, June 1999 as published by the Free Software Foundation.
// Redistribution and/or modification of this program under the terms of
// any other version of the GNU Lesser General Public License is not
// permitted.
//
// This program is distributed in the hope that it will be useful, but
// WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. For more details,
// see the GNU Lesser General Public License, Version 2.1, a copy of
// which can be found in the XORP LICENSE.lgpl file.
//
// XORP, Inc, 2953 Bunker Hill Lane, Suite 204, Santa Clara, CA 95054, USA;
// http://xorp.net
// $XORP: xorp/libxorp/win_dispatcher.hh,v 1.24 2009/01/05 18:30:58 jtc Exp $
#ifndef __LIBXORP_WIN_DISPATCHER_HH__
#define __LIBXORP_WIN_DISPATCHER_HH__
#include "libxorp/xorp.h"
#include "libxorp/xorpfd.hh"
#include "libxorp/timeval.hh"
#include "libxorp/ioevents.hh"
#include "libxorp/task.hh"
#include <vector>
#include <map>
#ifdef HOST_OS_WINDOWS
class ClockBase;
/**
* A tuple specifying a Windows object and I/O event type.
*/
struct IoEventTuple {
private:
XorpFd _fd;
IoEventType _type;
public:
IoEventTuple(XorpFd fd, IoEventType type) : _fd(fd), _type(type) {}
XorpFd fd() { return (_fd); };
IoEventType type() { return (_type); };
bool operator ==(const IoEventTuple& rhand) const {
return ((_fd == rhand._fd) && (_type == rhand._type));
}
bool operator !=(const IoEventTuple& rhand) const {
return (!((_fd == rhand._fd) && (_type == rhand._type)));
}
bool operator >(const IoEventTuple& rhand) const {
if (_fd != rhand._fd)
return ((int)_type > (int)rhand._type);
else
return (_fd > rhand._fd);
}
bool operator <(const IoEventTuple& rhand) const {
if (_fd != rhand._fd)
return (_fd < rhand._fd);
else
return ((int)_type < (int)rhand._type);
}
};
/**
* A map of Windows object handle and I/O event type to an I/O callback for
* each member.
*/
typedef map<IoEventTuple, IoEventCb> IoEventMap;
/**
* A map of Windows event handle to socket handle, used for faster
* dispatch of socket events on return from WFMO().
* Note that XorpFd is used as the value type.
*/
typedef map<HANDLE, XorpFd> EventSocketMap;
/**
* A value-type tuple of a Windows event handle and a WSA event mask.
*/
typedef std::pair<HANDLE, long> MaskEventPair;
/**
* A map of sockets to a MaskEventPair tuple.
*/
typedef map<SOCKET, MaskEventPair> SocketEventMap;
/**
* Mask of Winsock events for which the I/O event framework is able
* to dispatch callbacks.
*/
#define WSAEVENT_SUPPORTED \
(FD_READ | FD_WRITE | FD_OOB | FD_ACCEPT | FD_CONNECT | FD_CLOSE)
/**
* @short A class to provide an interface to Windows native I/O multiplexing.
*
* A WinDispatcher provides an entity where callbacks for pending I/O
* operations on Windows sockets and other Windows system objects may
* be registered. The callbacks are invoked when the @ref wait_and_dispatch
* method is called, and I/O is pending on a descriptor, or a Windows
* object's state has been set to signalled.
*
* The entire event loop is driven from the Win32 API call
* WaitForMultipleObjects(), which means there is a hard 64-object limit.
*
* This class is the glue which binds XORP to Windows. There are tricks
* in the AsyncFileOperator classes which are tightly coupled with what
* happens here. Most of these tricks exist because systems-level
* asynchronous I/O facilities cannot easily be integrated into XORP's
* current design.
*
* There is no way of telling specific I/O events apart on objects other
* than sockets without actually trying to service the I/O. The class
* uses WSAEventSelect() internally to map socket handles to event
* handles, and much of the complexity in this class is there to deal
* with this schism in Windows low-level I/O.
*
* The class emulates the ability of UNIX-like systems to interrupt a
* process waiting in select() for pending I/O on pipes, by using a
* time-slice quantum to periodically poll the pipes. This quantum is
* currently hard-coded to 250ms.
*
* Sockets are optimized to be the faster dispatch path, as this is where
* the bulk of XORP I/O processing happens.
*
* WinDispatcher should only be exposed to @ref EventLoop.
*/
class WinDispatcher {
public:
/**
* Default constructor.
*/
WinDispatcher(ClockBase *clock);
/**
* Destructor.
*/
virtual ~WinDispatcher();
/**
* Add a hook for pending I/O operations on a callback.
*
* Only one callback may be registered for each possible IoEventType,
* with the following exceptions.
*
* If the @ref XorpFd maps to a Windows socket handle, multiple
* callbacks may be registered for different IoEventTypes, but one
* and only one callback may be registered for the handle if a
* callback is registered for the IOT_ACCEPT event.
*
* If the @ref XorpFd maps to a Windows pipe or console handle,
* callbacks may only be registered for the IOT_READ and IOT_DISCONNECT
* events.
*
* If the @ref XorpFd corresponds to any other kind of Windows object
* handle, only a single callback may be registered, and the IoEventType
* must be IOT_EXCEPTION. This mechanism is typically used to direct
* the class to wait on Windows event or process handles.
*
* @param fd a Windows object handle encapsulated in a @ref XorpFd .
* @param type the @ref IoEventType which should trigger the callback.
* @param cb callback object which shall be invoked when the event is
* triggered.
* @param priority the XorpTask priority at which this callback should
* be run.
* @return true if function succeeds, false otherwise.
*/
bool add_ioevent_cb(XorpFd fd,
IoEventType type,
const IoEventCb& cb,
int priority = XorpTask::PRIORITY_DEFAULT);
/**
* Remove hooks for pending I/O operations.
*
* @param fd the file descriptor.
* @param type the @ref IoEventType to remove the callback for; the
* special value IOT_ANY may be specified to remove all such callbacks.
* @return true if function succeeds, false otherwise.
*/
bool remove_ioevent_cb(XorpFd fd, IoEventType type);
/**
* Find out if any of the selectors are ready.
*
* @return true if any selector is ready.
*/
bool ready();
/**
* Find out the highest priority from the ready file descriptors.
*
* @return the priority of the highest priority ready file descriptor.
*/
int get_ready_priority();
/**
* Wait for a pending I/O events and invoke callbacks when they
* become ready.
*
* @param timeout the maximum period to wait for.
*/
void wait_and_dispatch(TimeVal& timeout) {
if (timeout == TimeVal::MAXIMUM())
wait_and_dispatch(INFINITE);
else
wait_and_dispatch(timeout.to_ms());
}
/**
* Wait for a pending I/O events and invoke callbacks when they
* become ready.
*
* @param millisecs the maximum period in milliseconds to wait for.
*/
void wait_and_dispatch(int ms);
/**
* Get the count of the descriptors that have been added.
*
* @return the count of the descriptors that have been added.
*/
size_t descriptor_count() const { return _descriptor_count; }
protected:
/**
* No user-servicable parts here at the moment.
*/
void dispatch_sockevent(HANDLE hevent, XorpFd fd);
private:
bool add_socket_cb(XorpFd& fd, IoEventType type, const IoEventCb& cb,
int priority);
bool add_handle_cb(XorpFd& fd, IoEventType type, const IoEventCb& cb,
int priority);
void callback_bad_handle();
void callback_bad_socket(XorpFd& fd);
bool remove_socket_cb(XorpFd& fd, IoEventType type);
bool remove_handle_cb(XorpFd& fd, IoEventType type);
void dispatch_pipe_reads();
private:
static const int POLLED_INTERVAL_MS = 250;
private:
ClockBase* _clock; // System clock
IoEventMap _callback_map; // XorpFd + IoEventType -> Callback
SocketEventMap _socket_event_map; // Socket -> Event + Mask
EventSocketMap _event_socket_map; // Event -> Socket
vector<HANDLE> _handles; // All Win32 handles pending wait
vector<HANDLE> _polled_pipes; // Pipe handles pending poll
size_t _descriptor_count; // Count for socket/event handlers
};
#endif // HOST_OS_WINDOWS
#endif // __LIBXORP_WIN_DISPATCHER_HH__
Generated by: pavlin on kobe.xorp.net on Wed Jan 7 19:10:36 2009, using kdoc 2.0a54+XORP.
