diff options
author | brain <brain@e03df62e-2008-0410-955e-edbf42e46eb7> | 2008-09-06 12:29:19 +0000 |
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committer | brain <brain@e03df62e-2008-0410-955e-edbf42e46eb7> | 2008-09-06 12:29:19 +0000 |
commit | da011c234878c0520439949c8b12922f131c8a8c (patch) | |
tree | e8dfb057273a51ad5b5ad7f68a6a5144c3a02ece /include/threadengine.h | |
parent | dc264877896d0f8642ddd99a630350c300412b0b (diff) |
Stick Enable() in private, enhance comments
git-svn-id: http://svn.inspircd.org/repository/trunk/inspircd@10406 e03df62e-2008-0410-955e-edbf42e46eb7
Diffstat (limited to 'include/threadengine.h')
-rw-r--r-- | include/threadengine.h | 71 |
1 files changed, 63 insertions, 8 deletions
diff --git a/include/threadengine.h b/include/threadengine.h index 9c87f83b2..d41ad98d3 100644 --- a/include/threadengine.h +++ b/include/threadengine.h @@ -29,7 +29,9 @@ class Thread; * This allows Thread classes to be derived without needing to know how * the OS implements threads. You should ensure that any sections of code * that use threads are threadsafe and do not interact with any other - * parts of the code which are NOT known threadsafe! + * parts of the code which are NOT known threadsafe! If you really MUST + * access non-threadsafe code from a Thread, use the Mutex class to wrap + * access to the code carefully. */ class CoreExport ThreadEngine : public Extensible { @@ -44,7 +46,8 @@ class CoreExport ThreadEngine : public Extensible public: - /** Constructor + /** Constructor. + * @param Instance Creator object */ ThreadEngine(InspIRCd* Instance); @@ -53,53 +56,98 @@ class CoreExport ThreadEngine : public Extensible virtual ~ThreadEngine(); /** Enable or disable system-wide mutex for threading. - * This MUST be called when you deal with ANYTHING that - * isnt known thread-safe, this INCLUDES STL! * Remember that if you toggle the mutex you MUST UNSET * IT LATER otherwise the program will DEADLOCK! + * It is recommended that you AVOID USE OF THIS METHOD + * and use your own Mutex class, this function is mainly + * reserved for use by the core and by the Thread engine + * itself. + * @param enable True to lock the mutex. */ virtual bool Mutex(bool enable) = 0; - /** Run the newly created thread + /** Run the newly created thread. */ virtual void Run() = 0; /** Create a new thread. This takes an already allocated * Thread* pointer and initializes it to use this threading * engine. On failure, this function may throw a CoreException. + * @param thread_to_init Pointer to a newly allocated Thread + * derived object. */ virtual void Create(Thread* thread_to_init) = 0; /** This is called by the default destructor of the Thread * class to ensure that the thread engine which created the thread * is responsible for destroying it. + * @param thread Existing and active thread to delete. */ virtual void FreeThread(Thread* thread) = 0; + /** Returns the thread engine's name for display purposes + * @return The thread engine name + */ virtual const std::string GetName() { return "<pure-virtual>"; } }; +/** The Mutex class represents a mutex, which can be used to keep threads + * properly synchronised. Use mutexes sparingly, as they are a good source + * of thread deadlocks etc, and should be avoided except where absolutely + * neccessary. Note that the internal behaviour of the mutex varies from OS + * to OS depending on the thread engine, for example in windows a Mutex + * in InspIRCd uses critical sections, as they are faster and simpler to + * manage. + */ class CoreExport Mutex : public Extensible { protected: + + /** Creator object + */ InspIRCd* ServerInstance; + + /** Enable or disable the Mutex. This method has somewhat confusing + * wording (e.g. the function name and parameters) so it is protected + * in preference of the Lock() and Unlock() methods which are user- + * accessible. + * + * @param enable True to enable the mutex (enter it) and false to + * disable the mutex (leave it). + */ + virtual void Enable(bool enable) = 0; public: + + /** Constructor. + * @param Instance Creator object + */ Mutex(InspIRCd* Instance); - virtual void Enable(bool enable) = 0; + + /** Enter/enable the mutex lock. + */ void Lock() { Enable(true); } + + /** Leave/disable the mutex lock. + */ void Unlock() { Enable(false); } + + /** Destructor + */ ~Mutex() { } }; /** Derive from this class to implement your own threaded sections of - * code. + * code. Be sure to keep your code thread-safe and not prone to deadlocks + * and race conditions if you MUST use threading! */ class CoreExport Thread : public Extensible { private: + /** Set to true when the thread is to exit + */ bool ExitFlag; public: @@ -123,20 +171,27 @@ class CoreExport Thread : public Extensible } /** Override this method to put your actual - * threaded code here + * threaded code here. */ virtual void Run() = 0; + /** Signal the thread to exit gracefully. + */ void SetExitFlag() { ExitFlag = true; } + /** Cancel an exit state. + */ void ClearExitFlag() { ExitFlag = false; } + /** Get thread's current exit status. + * (are we being asked to exit?) + */ bool GetExitFlag() { return ExitFlag; |