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diff --git a/include/m_system.h b/include/m_system.h
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+++ b/include/m_system.h
@@ -0,0 +1,648 @@
+/*

+

+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 <tchar.h>

+

+#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    0x0400

+#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*);

+

+	#if MIRANDA_VER >= 0x0600

+		void*    (*mmi_calloc) (size_t);

+		char*    (*mmi_strdup) (const char *src);

+		wchar_t* (*mmi_wstrdup) (const wchar_t *src);

+	#endif

+	#if MIRANDA_VER >= 0x0700

+      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);

+	#endif

+};

+

+#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)

+

+	#if MIRANDA_VER >= 0x0600

+		#define mir_calloc(n) mmi.mmi_calloc(n)

+		#define mir_strdup(str) mmi.mmi_strdup(str)

+		#define mir_wstrdup(str) mmi.mmi_wstrdup(str)

+	#else

+		__forceinline char* mir_strdup(const char *src)

+		{	return (src == NULL) ? NULL : strcpy(( char* )mir_alloc( strlen(src)+1 ), src );

+		}

+

+		__forceinline WCHAR* mir_wstrdup(const WCHAR *src)

+		{	return (src == NULL) ? NULL : wcscpy(( WCHAR* )mir_alloc(( wcslen(src)+1 )*sizeof( WCHAR )), src );

+		}

+	#endif

+	#if MIRANDA_VER >= 0x0700

+		#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)

+	#endif

+#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* );

+

+	#if MIRANDA_VER >= 0x0600

+	int   ( *List_InsertPtr)( SortedList* list, void* p );

+	int   ( *List_RemovePtr)( SortedList* list, void* p );

+	#endif

+

+	#if MIRANDA_VER >= 0x0800

+	void  ( *List_Copy )( SortedList* src, SortedList* dst, size_t );

+	void  ( *List_ObjCopy )( SortedList* src, SortedList* dst, size_t );

+	#endif

+};

+

+#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 

+	#if MIRANDA_VER >= 0x0900

+		int ( *utf8_lenW )( const wchar_t* src );

+	#endif

+};

+

+#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)&params );

+}

+

+/* 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)&params );

+}

+

+

+/*

+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