/* Miranda IM: the free IM client for Microsoft* Windows* Copyright 2000-2008 Miranda ICQ/IM project, all portions of this codebase are copyrighted to the people listed in contributors.txt. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. 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. 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, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ #ifndef M_SYSTEM_H__ #define M_SYSTEM_H__ 1 #include #ifndef MIRANDANAME #define MIRANDANAME "Miranda IM" #endif #ifndef MIRANDACLASS #define MIRANDACLASS "Miranda" #endif // set the default compatibility lever for Miranda 0.4.x #ifndef MIRANDA_VER #define MIRANDA_VER 0x0A00 #endif #ifndef _MSC_VER #ifndef FORCEINLINE #define FORCEINLINE __inline #endif #define __forceinline static FORCEINLINE #else #pragma warning(disable:4244 4245) #endif //miranda/system/modulesloaded //called after all modules have been successfully initialised //wParam=lParam=0 //used to resolve double-dependencies in the module load order #define ME_SYSTEM_MODULESLOADED "Miranda/System/ModulesLoaded" //miranda/system/shutdown event //called just before the application terminates //the database is still guaranteed to be running during this hook. //wParam=lParam=0 #define ME_SYSTEM_SHUTDOWN "Miranda/System/Shutdown" //restarts miranda ( 0.8+ ) //wParam=lParam=0 #define MS_SYSTEM_RESTART "Miranda/System/Restart" //miranda/system/oktoexit event //called before the app goes into shutdown routine to make sure everyone is //happy to exit //wParam=lParam=0 //return nonzero to stop the exit cycle #define ME_SYSTEM_OKTOEXIT "Miranda/System/OkToExitEvent" //miranda/system/oktoexit service //Check if everyone is happy to exit //wParam=lParam=0 //if everyone acknowleges OK to exit then returns true, otherwise false #define MS_SYSTEM_OKTOEXIT "Miranda/System/OkToExit" //gets the version number of Miranda encoded as a DWORD v0.1.0.1+ //wParam=lParam=0 //returns the version number, encoded as one version per byte, therefore //version 1.2.3.10 is 0x0102030a #define MS_SYSTEM_GETVERSION "Miranda/System/GetVersion" //gets the version of Miranda encoded as text v0.1.0.1+ //wParam=cch //lParam=(LPARAM)(char*)pszVersion //cch is the size of the buffer pointed to by pszVersion, in bytes //may return a build qualifier, such as "0.1.0.1 alpha" //returns 0 on success, nonzero on failure #define MS_SYSTEM_GETVERSIONTEXT "Miranda/System/GetVersionText" //Adds a HANDLE to the list to be checked in the main message loop v0.1.2.0+ //wParam=(WPARAM)(HANDLE)hObject //lParam=(LPARAM)(const char*)pszService //returns 0 on success or nonzero on failure //Causes pszService to be CallService()d (wParam=hObject,lParam=0) from the //main thread whenever hObject is signalled. //The Miranda message loop has a MsgWaitForMultipleObjects() call in it to //implement this feature. See the documentation for that function for //information on what objects are supported. //There is a limit of MAXIMUM_WAIT_OBJECTS minus one (MWO is defined in winnt.h //to be 64) on the number of handles MSFMO() can process. This service will //return nonzero if that many handles are already being waited on. //As of writing, the following parts of Miranda are thread-safe, so can be //called from any thread: //All of modules.h except NotifyEventHooks() //Read-only parts of m_database.h (since the write parts will call hooks) //All of m_langpack.h //for all other routines your mileage may vary, but I would strongly recommend //that you call them from the main thread, or ask about it on plugin-dev if you //think it really ought to work. //Update during 0.1.2.0 development, 16/10/01: //NotifyEventHooks() now translates all calls into the context of the main //thread, which means that all of m_database.h is now completely safe. //Update during 0.1.2.2 development, 17/4/02: //The main thread's message loop now also deals with asynchronous procedure //calls. Loop up QueueUserAPC() for a neater way to accomplish a lot of the //things that used to require ms_system_waitonhandle. //Miranda is compiled with the multithreaded runtime - don't forget to do the //same with your plugin. #define MS_SYSTEM_WAITONHANDLE "Miranda/System/WaitOnHandle" //Removes a HANDLE from the wait list v0.1.2.0+ //wParam=(WPARAM)(HANDLE)hObject //lParam=0 //returns 0 on success or nonzero on failure. #define MS_SYSTEM_REMOVEWAIT "Miranda/System/RemoveWait" /* Returns Miranda's RTL/CRT function poiners to malloc() free() realloc() -- 0.1.2.2+ This is useful for preallocation of memory for use with Miranda's services that Miranda can free -- or reallocation of a block of memory passed with a service. Do not use with memory unless it is explicitly expected the memory *can* or *shall* be used in this way. the passed structure is expected to have it's .cbSize initialised wParam=0, lParam = (LPARAM) &MM_INTERFACE */ struct MM_INTERFACE { size_t cbSize; void* (*mmi_malloc) (size_t); void* (*mmi_realloc) (void*, size_t); void (*mmi_free) (void*); void* (*mmi_calloc) (size_t); char* (*mmi_strdup) (const char *src); wchar_t* (*mmi_wstrdup) (const wchar_t *src); int (*mir_snprintf) (char *buffer, size_t count, const char* fmt, ...); int (*mir_sntprintf) (TCHAR *buffer, size_t count, const TCHAR* fmt, ...); int (*mir_vsnprintf) (char *buffer, size_t count, const char* fmt, va_list va); int (*mir_vsntprintf) (TCHAR *buffer, size_t count, const TCHAR* fmt, va_list va); wchar_t* (*mir_a2u_cp) (const char* src, int codepage); wchar_t* (*mir_a2u)(const char* src); char* (*mir_u2a_cp)(const wchar_t* src, int codepage); char* (*mir_u2a)( const wchar_t* src); }; #define MS_SYSTEM_GET_MMI "Miranda/System/GetMMI" __forceinline INT_PTR mir_getMMI( struct MM_INTERFACE* dest ) { dest->cbSize = sizeof(*dest); return CallService( MS_SYSTEM_GET_MMI, 0, (LPARAM)dest ); } #ifndef _STATIC extern struct MM_INTERFACE mmi; #define mir_alloc(n) mmi.mmi_malloc(n) #define mir_free(ptr) mmi.mmi_free(ptr) #define mir_realloc(ptr,size) mmi.mmi_realloc(ptr,size) #define mir_calloc(n) mmi.mmi_calloc(n) #define mir_strdup(str) mmi.mmi_strdup(str) #define mir_wstrdup(str) mmi.mmi_wstrdup(str) #define mir_snprintf mmi.mir_snprintf #define mir_sntprintf mmi.mir_sntprintf #define mir_vsnprintf mmi.mir_vsnprintf #define mir_vsntprintf mmi.mir_vsntprintf #define mir_a2u_cp(src,cp) mmi.mir_a2u_cp(src,cp) #define mir_a2u(src) mmi.mir_a2u(src) #define mir_u2a_cp(src,cp) mmi.mir_u2a_cp(src,cp) #define mir_u2a(src) mmi.mir_u2a(src) #else char* mir_strdup(const char *src); WCHAR* mir_wstrdup(const WCHAR *src); #endif #if defined( _UNICODE ) #define mir_tstrdup mir_wstrdup #else #define mir_tstrdup mir_strdup #endif #define miranda_sys_free mir_free #define memoryManagerInterface mmi /* Returns the pointer to the simple lists manager. If the sortFunc member of the list gets assigned, the list becomes sorted wParam=0, lParam = (LPARAM)LIST_INTERFACE* */ #define LIST_INTERFACE_V1_SIZE (sizeof(size_t)+7*sizeof(void*)) #define LIST_INTERFACE_V2_SIZE (sizeof(size_t)+9*sizeof(void*)) #define LIST_INTERFACE_V3_SIZE (sizeof(size_t)+11*sizeof(void*)) typedef int ( *FSortFunc )( void*, void* ); // Assumes first 32 bit value of the data is the numeric key // and uses it to perform sort/search operations, this results // in much better performance as no compare function calls needed // Incredibly useful for Hash Tables #define NumericKeySort (FSortFunc)(void*) -1 #define HandleKeySort (FSortFunc)(void*) -2 #define PtrKeySort (FSortFunc)(void*) -3 typedef struct { void** items; int realCount; int limit; int increment; FSortFunc sortFunc; } SortedList; struct LIST_INTERFACE { size_t cbSize; SortedList* ( *List_Create )( int, int ); void ( *List_Destroy )( SortedList* ); void* ( *List_Find )( SortedList*, void* ); int ( *List_GetIndex )( SortedList*, void*, int* ); int ( *List_Insert )( SortedList*, void*, int ); int ( *List_Remove )( SortedList*, int ); int ( *List_IndexOf )( SortedList*, void* ); int ( *List_InsertPtr)( SortedList* list, void* p ); int ( *List_RemovePtr)( SortedList* list, void* p ); void ( *List_Copy )( SortedList* src, SortedList* dst, size_t ); void ( *List_ObjCopy )( SortedList* src, SortedList* dst, size_t ); }; #define MS_SYSTEM_GET_LI "Miranda/System/GetLI" __forceinline INT_PTR mir_getLI( struct LIST_INTERFACE* dest ) { dest->cbSize = sizeof(*dest); return CallService( MS_SYSTEM_GET_LI, 0, (LPARAM)dest ); } /* UTF8 Manager interface. 0.5.2+ Contains functions for utf8-strings encoding & decoding */ #define UTF8_INTERFACE_SIZEOF_V1 (sizeof(size_t)+5*sizeof(void*)) #define UTF8_INTERFACE_SIZEOF_V2 (sizeof(size_t)+6*sizeof(void*)) struct UTF8_INTERFACE { size_t cbSize; // decodes utf8 and places the result back into the same buffer. // if the second parameter is present, the additional wchar_t* string gets allocated, // and filled with the decoded utf8 content without any information loss. // this string should be freed using mir_free() char* ( *utf8_decode )( char* str, wchar_t** ucs2 ); char* ( *utf8_decodecp )( char* str, int codepage, wchar_t** ucs2 ); // encodes an ANSI string into a utf8 format using the current langpack code page, // or CP_ACP, if lanpack is missing // the resulting string should be freed using mir_free char* ( *utf8_encode )( const char* src ); char* ( *utf8_encodecp )( const char* src, int codepage ); // encodes an WCHAR string into a utf8 format // the resulting string should be freed using mir_free char* ( *utf8_encodeW )( const wchar_t* src ); // decodes utf8 and returns the result as wchar_t* that should be freed using mir_free() // the input buffer remains unchanged wchar_t* ( *utf8_decodeW )( const char* str ); // returns the predicted length of the utf-8 string int ( *utf8_lenW )( const wchar_t* src ); }; #define MS_SYSTEM_GET_UTFI "Miranda/System/GetUTFI" __forceinline INT_PTR mir_getUTFI( struct UTF8_INTERFACE* dest ) { dest->cbSize = sizeof(*dest); return CallService( MS_SYSTEM_GET_UTFI, 0, (LPARAM)dest ); } extern struct UTF8_INTERFACE utfi; #define mir_utf8decode(A,B) utfi.utf8_decode(A,B) #define mir_utf8decodecp(A,B,C) utfi.utf8_decodecp(A,B,C) #define mir_utf8decodeW(A) utfi.utf8_decodeW(A) #define mir_utf8encode(A) utfi.utf8_encode(A) #define mir_utf8encodecp(A,B) utfi.utf8_encodecp(A,B) #define mir_utf8encodeW(A) utfi.utf8_encodeW(A) #define mir_utf8lenW(A) utfi.utf8_lenW(A) __forceinline char* mir_utf8decodeA(const char* src) { char* tmp = mir_strdup(src); mir_utf8decode(tmp, NULL); return tmp; } #if defined( _UNICODE ) #define mir_utf8decodeT mir_utf8decodeW #define mir_utf8encodeT mir_utf8encodeW #else #define mir_utf8decodeT mir_utf8decodeA #define mir_utf8encodeT mir_utf8encode #endif /* -- Thread Safety -- Proper thread safe shutdown was implemented in 0.3.0.0 (2003/04/18) and not before, therefore it is improper that any MT plugins be used with earlier versions of Miranda (as hav0c will result) Note: This does not apply to MT plugins which included their own thread-safe shutdown routines. Shutdown thread safety works thusly: All new threads must call MS_SYSTEM_THREAD_PUSH and MS_SYSTEM_THREAD_POP when they return. Due to the nature of thread creation, it is illegal to assume just a call pair of MS_SYSTEM_THREAD_PUSH inside the thread will be enough -- the source thread may only return when the new child thread has actually executed MS_SYSTEM_THREAD_PUSH This is because a thread maybe in an undefined state at the point when the thread creation routine returns, thus Miranda may exit thinking it is safe to do so, because MS_SYSTEM_THREAD_PUSH was not called in time. See miranda.c for how this can be done using an event object which is signalled just after the MS_SYSTEM_THREAD_PUSH call is executed and so the source thread knows that the created thread is known to Miranda. -- What happens when Miranda exits -- Miranda will firstly set an event object to signalled, this will make MS_SYSTEM_TERMINATED return TRUE, it will then fire ME_SYSTEM_PRESHUTDOWN at this point, no plugins or modules are unloaded. Miranda will then enumerate all active threads and queue an APC call to each thread, so any thread in an alertable state will become active, this functionailty may not be required by your threads: but if you use the Winsock2 event object system or Sleep() please use the alertable wait functions, so that the thread will 'wake up' when Miranda queues a message to it, SleepEx() will return WAIT_IO_COMPLETION if this happens. After all threads have been signalled, Miranda will spin on the unwind thread stack waiting for it to become empty, in this time, it will carry on processing thread switches, clearing it's own APC calls (used by NotifyEventHooks(), CallServiceSync()) So a thread should be written in this kind of form: void mythread(void *arg) { // assume all thread pushing/popping is done by forkthread() int run=1; for (;run;) { Beep(4391,500); SleepEx(1500,TRUE); if (Miranda_Terminated()) { Beep(5000,150); run=0; } //if } //for } The above will make a nice Beep every 1.5 seconds and when the UI quits, it will make a lower beep and then return. As many copies of this thread maybe running, the creator does not need to worry about what to do with previous threads, as long as they're on the unwind stack.If there are any global resources (and they're mutex) you can free() them at Unload(), which will only be called, after all threads have returned. -- Summary -- MS_SYSTEM_TERMINATED (will start returning TRUE) ME_SYSTEM_PRESHUTDOWN will be fired (The CList won't be visible at this point) All PROTOTYPE_PROTOCOL registered plugins will be sent ID_STATUS_OFFLINE automatically. All the threads will be notified via QueueUserAPC() and then Miranda will poll on the unwind thread queue until it is empty. ME_SYSTEM_SHUTDOWN will be fired, the database will be unloaded, the core will be unloaded -- Miranda will return. */ /* 0.5.2+ wParam=function address lParam=function parameter registers a thread in the core and forks it */ typedef void (__cdecl *pThreadFunc)(void*); #define MS_SYSTEM_FORK_THREAD "Miranda/Thread/Fork" __forceinline HANDLE mir_forkthread( pThreadFunc aFunc, void* arg ) { return (HANDLE)CallService( MS_SYSTEM_FORK_THREAD, (WPARAM)aFunc, (LPARAM)arg ); } /* 0.5.2+ wParam=void* - thread owner object lParam=FORK_THREADEX_PARAMS* registers a thread in the core and forks it passes the extended parameters info and returns the thread id */ typedef unsigned (__stdcall *pThreadFuncEx)(void* param); typedef unsigned (__cdecl *pThreadFuncOwner)(void *owner, void* param); typedef struct { pThreadFuncEx pFunc; int iStackSize; void* arg; unsigned* threadID; } FORK_THREADEX_PARAMS; #define MS_SYSTEM_FORK_THREAD_EX "Miranda/Thread/ForkEx" static __inline HANDLE mir_forkthreadex( pThreadFuncEx aFunc, void* arg, int stackSize, unsigned* pThreadID ) { FORK_THREADEX_PARAMS params; params.pFunc = aFunc; params.arg = arg; params.iStackSize = stackSize; params.threadID = pThreadID; return (HANDLE)CallService( MS_SYSTEM_FORK_THREAD_EX, 0, (LPARAM)¶ms ); } /* 0.8.0+ wParam=(void*)owner lParam=FORK_THREADEX_PARAMS* registers a thread, owned by some object, in the core and forks it passes the owner info and extended parameters info and returns the thread id */ static __inline HANDLE mir_forkthreadowner( pThreadFuncOwner aFunc, void* owner, void* arg, unsigned* pThreadID ) { FORK_THREADEX_PARAMS params; params.pFunc = ( pThreadFuncEx )aFunc; params.arg = arg; params.iStackSize = 0; params.threadID = pThreadID; return (HANDLE)CallService( MS_SYSTEM_FORK_THREAD_EX, (WPARAM)owner, (LPARAM)¶ms ); } /* wParam=0 lParam=0 Add a thread to the unwind wait stack that Miranda will poll on when it is tearing down modules. This must be called in the context of the thread that is to be pushed i.e. there are no args, it works out what thread is being called and gets itself a handle to the calling thread. */ #define MS_SYSTEM_THREAD_PUSH "Miranda/Thread/Push" /* wParam=0 lParam=0 Remove a thread from the unwind wait stack -- it is expected that the call be made in the context of the thread to be removed. Miranda will begin to tear down modules and plugins if/when the last thread from the unwind stack is removed. */ #define MS_SYSTEM_THREAD_POP "Miranda/Thread/Pop" /* wParam=0 lParam=0 This hook is fired just before the thread unwind stack is used, it allows MT plugins to shutdown threads if they have any special processing to do, etc. */ #define ME_SYSTEM_PRESHUTDOWN "Miranda/System/PShutdown" /* wParam=0 lParam=0 Returns TRUE when Miranda has got WM_QUIT and is in the process of shutting down */ #define MS_SYSTEM_TERMINATED "Miranda/SysTerm" /* wParam : 0 lParam : (address) void (__cdecl *callback) (void) Affect : Setup a function pointer to be called after main loop iterations, it allows for idle processing, See notes Returns: 1 on success, 0 on failure Notes : This service will only allow one function to be registered, if one is registered, 0 will be returned Remember that this uses __cdecl. Version: Added during 0.3.4+ */ #define MS_SYSTEM_SETIDLECALLBACK "Miranda/SetIdleCallback" /* wParam : 0 lParam : &tick Affect : return the last window tick where a monitored event was seen, currently WM_CHAR/WM_MOUSEMOVE Returns: Always returns 0 Version: Added during 0.3.4+ (2004/09/12) */ #define MS_SYSTEM_GETIDLE "Miranda/GetIdle" /* wParam: cchMax (max length of buffer) lParam: pointer to buffer to fill Affect: Returns the build timestamp of the core, as a string of YYYYMMDDhhmmss, this service might not exist and therefore the build is before 2004-09-30 Returns: zero on success, non zero on failure Version: 0.3.4a+ (2004/09/30) DEFUNCT: This service was removed on 0.3.4.3+ (2004/11/19) use APILEVEL */ #define MS_SYSTEM_GETBUILDSTRING "Miranda/GetBuildString" #ifdef _STATIC INT_PTR MirandaIsTerminated(WPARAM, LPARAM); __inline static INT_PTR Miranda_Terminated(void) { return MirandaIsTerminated(0, 0); } #else __inline static INT_PTR Miranda_Terminated(void) { return CallService(MS_SYSTEM_TERMINATED,0,0); } #endif /* Missing service catcher Is being called when one calls the non-existent service. All parameters are stored in the special structure The event handler takes 0 as wParam and TMissingServiceParams* as lParam. 0.4.3+ addition (2006/03/27) */ typedef struct { const char* name; WPARAM wParam; LPARAM lParam; } MISSING_SERVICE_PARAMS; #define ME_SYSTEM_MISSINGSERVICE "System/MissingService" /* Unhandled exceptions filter Is being called inside any thread launched via mir_forkthread, including the main thread. If a plugin's author executes a large piece of code inside __try/__except, he should obtain this filter and call it inside the __except section 0.8.0+ addition (2008/07/20) */ typedef DWORD ( __cdecl *pfnExceptionFilter )( DWORD code, EXCEPTION_POINTERS* info ); #define MS_SYSTEM_GETEXCEPTFILTER "System/GetExceptFilter" __inline static pfnExceptionFilter Miranda_GetExceptFilter( void ) { return ( pfnExceptionFilter )CallService( MS_SYSTEM_GETEXCEPTFILTER, 0, 0 ); } #define MS_SYSTEM_SETEXCEPTFILTER "System/SetExceptFilter" __inline static pfnExceptionFilter Miranda_SetExceptFilter( pfnExceptionFilter foo ) { return ( pfnExceptionFilter )CallService( MS_SYSTEM_SETEXCEPTFILTER, 0, (LPARAM)foo ); } #endif // M_SYSTEM_H