barrier/lib/arch/IArchMultithread.h
2010-06-20 17:38:51 +00:00

277 lines
7.4 KiB
C++

/*
* synergy-plus -- mouse and keyboard sharing utility
* Copyright (C) 2009 The Synergy+ Project
* Copyright (C) 2002 Chris Schoeneman
*
* This package is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* found in the file COPYING that should have accompanied this file.
*
* This package 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. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#ifndef IARCHMULTITHREAD_H
#define IARCHMULTITHREAD_H
#include "IInterface.h"
/*!
\class CArchCondImpl
\brief Internal condition variable data.
An architecture dependent type holding the necessary data for a
condition variable.
*/
class CArchCondImpl;
/*!
\var CArchCond
\brief Opaque condition variable type.
An opaque type representing a condition variable.
*/
typedef CArchCondImpl* CArchCond;
/*!
\class CArchMutexImpl
\brief Internal mutex data.
An architecture dependent type holding the necessary data for a mutex.
*/
class CArchMutexImpl;
/*!
\var CArchMutex
\brief Opaque mutex type.
An opaque type representing a mutex.
*/
typedef CArchMutexImpl* CArchMutex;
/*!
\class CArchThreadImpl
\brief Internal thread data.
An architecture dependent type holding the necessary data for a thread.
*/
class CArchThreadImpl;
/*!
\var CArchThread
\brief Opaque thread type.
An opaque type representing a thread.
*/
typedef CArchThreadImpl* CArchThread;
//! Interface for architecture dependent multithreading
/*!
This interface defines the multithreading operations required by
synergy. Each architecture must implement this interface.
*/
class IArchMultithread : public IInterface {
public:
//! Type of thread entry point
typedef void* (*ThreadFunc)(void*);
//! Type of thread identifier
typedef unsigned int ThreadID;
//! Types of signals
/*!
Not all platforms support all signals. Unsupported signals are
ignored.
*/
enum ESignal {
kINTERRUPT, //!< Interrupt (e.g. Ctrl+C)
kTERMINATE, //!< Terminate (e.g. Ctrl+Break)
kHANGUP, //!< Hangup (SIGHUP)
kUSER, //!< User (SIGUSR2)
kNUM_SIGNALS
};
//! Type of signal handler function
typedef void (*SignalFunc)(ESignal, void* userData);
//! @name manipulators
//@{
//
// condition variable methods
//
//! Create a condition variable
/*!
The condition variable is an opaque data type.
*/
virtual CArchCond newCondVar() = 0;
//! Destroy a condition variable
virtual void closeCondVar(CArchCond) = 0;
//! Signal a condition variable
/*!
Signalling a condition variable releases one waiting thread.
*/
virtual void signalCondVar(CArchCond) = 0;
//! Broadcast a condition variable
/*!
Broadcasting a condition variable releases all waiting threads.
*/
virtual void broadcastCondVar(CArchCond) = 0;
//! Wait on a condition variable
/*!
Wait on a conditation variable for up to \c timeout seconds.
If \c timeout is < 0 then there is no timeout. The mutex must
be locked when this method is called. The mutex is unlocked
during the wait and locked again before returning. Returns
true if the condition variable was signalled and false on
timeout.
(Cancellation point)
*/
virtual bool waitCondVar(CArchCond, CArchMutex, double timeout) = 0;
//
// mutex methods
//
//! Create a recursive mutex
/*!
Creates a recursive mutex. A thread may lock a recursive mutex
when it already holds a lock on that mutex. The mutex is an
opaque data type.
*/
virtual CArchMutex newMutex() = 0;
//! Destroy a mutex
virtual void closeMutex(CArchMutex) = 0;
//! Lock a mutex
virtual void lockMutex(CArchMutex) = 0;
//! Unlock a mutex
virtual void unlockMutex(CArchMutex) = 0;
//
// thread methods
//
//! Start a new thread
/*!
Creates and starts a new thread, using \c func as the entry point
and passing it \c userData. The thread is an opaque data type.
*/
virtual CArchThread newThread(ThreadFunc func, void* userData) = 0;
//! Get a reference to the calling thread
/*!
Returns a thread representing the current (i.e. calling) thread.
*/
virtual CArchThread newCurrentThread() = 0;
//! Copy a thread object
/*!
Returns a reference to to thread referred to by \c thread.
*/
virtual CArchThread copyThread(CArchThread thread) = 0;
//! Release a thread reference
/*!
Deletes the given thread object. This does not destroy the thread
the object referred to, even if there are no remaining references.
Use cancelThread() and waitThread() to stop a thread and wait for
it to exit.
*/
virtual void closeThread(CArchThread) = 0;
//! Force a thread to exit
/*!
Causes \c thread to exit when it next calls a cancellation point.
A thread avoids cancellation as long as it nevers calls a
cancellation point. Once it begins the cancellation process it
must always let cancellation go to completion but may take as
long as necessary to clean up.
*/
virtual void cancelThread(CArchThread thread) = 0;
//! Change thread priority
/*!
Changes the priority of \c thread by \c n. If \c n is positive
the thread has a lower priority and if negative a higher priority.
Some architectures may not support either or both directions.
*/
virtual void setPriorityOfThread(CArchThread, int n) = 0;
//! Cancellation point
/*!
This method does nothing but is a cancellation point. Clients
can make their own functions cancellation points by calling this
method at appropriate times.
(Cancellation point)
*/
virtual void testCancelThread() = 0;
//! Wait for a thread to exit
/*!
Waits for up to \c timeout seconds for \c thread to exit (normally
or by cancellation). Waits forever if \c timeout < 0. Returns
true if the thread exited, false otherwise. Waiting on the current
thread returns immediately with false.
(Cancellation point)
*/
virtual bool wait(CArchThread thread, double timeout) = 0;
//! Compare threads
/*!
Returns true iff two thread objects refer to the same thread.
Note that comparing thread objects directly is meaningless.
*/
virtual bool isSameThread(CArchThread, CArchThread) = 0;
//! Test if thread exited
/*!
Returns true iff \c thread has exited.
*/
virtual bool isExitedThread(CArchThread thread) = 0;
//! Returns the exit code of a thread
/*!
Waits indefinitely for \c thread to exit (if it hasn't yet) then
returns the thread's exit code.
(Cancellation point)
*/
virtual void* getResultOfThread(CArchThread thread) = 0;
//! Returns an ID for a thread
/*!
Returns some ID number for \c thread. This is for logging purposes.
All thread objects referring to the same thread return the same ID.
However, clients should us isSameThread() to compare thread objects
instead of comparing IDs.
*/
virtual ThreadID getIDOfThread(CArchThread thread) = 0;
//! Set the interrupt handler
/*!
Sets the function to call on receipt of an external interrupt.
By default and when \p func is NULL, the main thread is cancelled.
*/
virtual void setSignalHandler(ESignal, SignalFunc func,
void* userData) = 0;
//! Invoke the signal handler
/*!
Invokes the signal handler for \p signal, if any. If no handler
cancels the main thread for \c kINTERRUPT and \c kTERMINATE and
ignores the call otherwise.
*/
virtual void raiseSignal(ESignal signal) = 0;
//@}
};
#endif