{ 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. } {$IFNDEF M_CORE} {$DEFINE M_CORE} const CoreDLL = 'mir_core.dll'; /////////////////////////////////////////////////////////////////////////////// // command line support // Parse ptszCmdLine. it must NOT be a constant (content will be patched) procedure CmdLine_Parse(ptszCmdLine:PWideChar); stdcall; external CoreDLL name 'CmdLine_Parse'; function CmdLine_GetOption(ptszParameter:PWideChar):PWideChar; stdcall; external CoreDLL name 'CmdLine_GetOption'; /////////////////////////////////////////////////////////////////////////////// // database functions const DBVT_ASIS = 0; // in, for db_get_s, to not translate output value DBVT_DELETED = 0; // setting got deleted, no values are valid DBVT_BYTE = 1; // bVal, cVal are valid DBVT_WORD = 2; // wVal, sVal are valid DBVT_DWORD = 4; // dVal, lVal are valid DBVT_ASCIIZ = 255; // pszVal is valid DBVT_BLOB = 254; // cpbVal and pbVal are valid DBVT_UTF8 = 253; // pszVal is valid DBVT_WCHAR = 252; // pszVal is valid DBVTF_VARIABLELENGTH = $80; // ? type HDBEVENT = THANDLE; PDBVARIANT = ^TDBVARIANT; TDBVARIANT = record _type: Byte; case LongInt of 0: (bVal: Byte); 1: (cVal: AnsiChar); 2: (wVal: Word); 3: (sVal: ShortInt); 4: (dVal: dword); 5: (lVal: long); 6: ( szVal : TChar; cchVal: Word; ); 7: ( cpbVal: Word; pbVal : PByte; ); end; const DBEF_FIRST = 1; // internally only, do not use DBEF_SENT = 2; // if set, the event was sent by the user, otherwise it was received DBEF_READ = 4; // event has been read by the user -- only needed for history DBEF_RTL = 8; // event contains the right-to-left aligned text DBEF_UTF = 16; // event contains a text in utf-8 DBEF_ENCRYPTED = 32; // event is encrypted (never reported outside a driver) const EVENTTYPE_MESSAGE = 0; EVENTTYPE_URL = 1; EVENTTYPE_CONTACTS = 2; // v0.1.2.2+ EVENTTYPE_ADDED = 1000; // v0.1.1.0+: these used to be module- EVENTTYPE_AUTHREQUEST = 1001; // specific codes, hence the module- EVENTTYPE_FILE = 1002; // specific limit has been raised to 2000 type PDBEVENTINFO = ^TDBEVENTINFO; TDBEVENTINFO = record cbSize : int; // size of the structure szModule : PAnsiChar; // module that 'owns' this event and controls the data format timestamp: DWORD; // timestamp in UNIX time flags : DWORD; // the DBEF_* flags above eventType: WORD; // event type, such as message, can be module defined cbBlob : DWORD; // size in bytes of pBlob^ pBlob : PByte; // pointer to buffer containing the module defined event data end; (****************************************************************************** * DATABASE EVENTS *) { Adds a new event to a contact's event list Returns a handle to the newly added event, or NULL on failure Triggers a db/event/added event just before it returns. Events are sorted chronologically as they are entered, so you cannot guarantee that the new hEvent is the last event in the chain, however if a new event is added that has a timestamp less than 90 seconds *before* the event that should be after it, it will be added afterwards, to allow for protocols that only store times to the nearest minute, and slight delays in transports. There are a few predefined eventTypes below for easier compatibility, but modules are free to define their own, beginning at 2000 DBEVENTINFO.timestamp is in GMT, as returned by time(). There are services db/time/x below with useful stuff for dealing with it. } function db_event_add(hContact:THANDLE; dbei:PDBEVENTINFO):THANDLE; stdcall; external CoreDLL name 'db_event_add'; { Gets the number of events in the chain belonging to a contact in the database. Returns the number of events in the chain owned by hContact or -1 if hContact is invalid. They can be retrieved using the db_event_first/last() services. } function db_event_count(hContact:THANDLE):int; stdcall; external CoreDLL name 'db_event_count'; { Removes a single event from the database hDbEvent should have been returned by db_event_add/first/last/next/prev() Returns 0 on success, or nonzero if hDbEvent was invalid Triggers a db/event/deleted event just *before* the event is deleted } function db_event_delete(hContact:THANDLE; hDbEvent:THANDLE):int; stdcall; external CoreDLL name 'db_event_delete'; { Retrieves a handle to the first event in the chain for hContact Returns the handle, or NULL if hContact is invalid or has no events Events in a chain are sorted chronologically automatically } function db_event_first(hContact:THANDLE):THANDLE; stdcall; external CoreDLL name 'db_event_first'; { Retrieves a handle to the first unread event in the chain for hContact Returns the handle, or NULL if hContact is invalid or all its events have been read Events in a chain are sorted chronologically automatically, but this does not necessarily mean that all events after the first unread are unread too. They should be checked individually with db_event_next() and db_event_get() This service is designed for startup, reloading all the events that remained unread from last time } function db_event_firstUnread(hContact:THANDLE):THANDLE; stdcall; external CoreDLL name 'db_event_firstUnread'; { Retrieves all the information stored in hDbEvent hDbEvent should have been returned by db_event_add/first/last/next/prev() Returns 0 on success or nonzero if hDbEvent is invalid Don't forget to set dbe.cbSize, dbe.pBlob and dbe.cbBlob before calling this service The correct value dbe.cbBlob can be got using db/event/getblobsize If successful, all the fields of dbe are filled. dbe.cbBlob is set to the actual number of bytes retrieved and put in dbe.pBlob If dbe.cbBlob is too small, dbe.pBlob is filled up to the size of dbe.cbBlob and then dbe.cbBlob is set to the required size of data to go in dbe.pBlob On return, dbe.szModule is a pointer to the database module's own internal list of modules. Look but don't touch. } function db_event_get(hDbEvent:THANDLE; dbei:PDBEVENTINFO):int; stdcall; external CoreDLL name 'db_event_get'; { Retrieves the space in bytes required to store the blob in hDbEvent hDbEvent should have been returned by db_event_add/first/last/next/prev() Returns the space required in bytes, or -1 if hDbEvent is invalid } function db_event_getBlobSize(hDbEvent:THANDLE):int; stdcall; external CoreDLL name 'db_event_getBlobSize'; { Retrieves a handle to the contact that owns hDbEvent. hDbEvent should have been returned by db_event_add/first/last/next/prev() NULL is a valid return value, meaning, as usual, the user. Returns (HANDLE)(-1) if hDbEvent is invalid, or the handle to the contact on success This service is exceptionally slow. Use only when you have no other choice at all. } function db_event_getContact(hDbEvent:THANDLE):THANDLE; stdcall; external CoreDLL name 'db_event_getContact'; { Retrieves a handle to the last event in the chain for hContact Returns the handle, or NULL if hContact is invalid or has no events Events in a chain are sorted chronologically automatically } function db_event_last(hDbEvent:THANDLE):THANDLE; stdcall; external CoreDLL name 'db_event_last'; { Changes the flags for an event to mark it as read. hDbEvent should have been returned by db_event_add/first/last/next/prev() Returns the entire flag DWORD for the event after the change, or -1 if hDbEvent is invalid. This is the one database write operation that does not trigger an event. Modules should not save flags states for any length of time. } function db_event_markRead(hContact, hDbEvent:THANDLE):int; stdcall; external CoreDLL name 'db_event_markRead'; { Retrieves a handle to the next event in a chain after hDbEvent Returns the handle, or NULL if hDbEvent is invalid or is the last event Events in a chain are sorted chronologically automatically } function db_event_next(hDbEvent:THANDLE):THANDLE; stdcall; external CoreDLL name 'db_event_next'; { Retrieves a handle to the previous event in a chain before hDbEvent Returns the handle, or NULL if hDbEvent is invalid or is the first event Events in a chain are sorted chronologically automatically } function db_event_prev(hDbEvent:THANDLE):THANDLE; stdcall; external CoreDLL name 'db_event_prev'; function db_free(dbv:PDBVARIANT):int_ptr; stdcall; external CoreDLL name 'db_free'; (****************************************************************************** * DATABASE CONTACTS *) { Gets the handle of the first contact in the database. This handle can be used with loads of functions. It does not need to be closed. You can specify szProto to find only its contacts Returns a handle to the first contact in the db on success, or NULL if there are no contacts in the db. } function db_find_first(const szModule:pAnsiChar=nil):THANDLE; stdcall; external CoreDLL name 'db_find_first'; { Gets the handle of the next contact after hContact in the database. This handle can be used with loads of functions. It does not need to be closed. You can specify szProto to find only its contacts Returns a handle to the contact after hContact in the db on success or NULL if hContact was the last contact in the db or hContact was invalid. } function db_find_next(hContact:THANDLE; const szModule:pAnsiChar=nil):THANDLE; stdcall; external CoreDLL name 'db_find_next'; (****************************************************************************** * DATABASE SETTINGS *) function db_get(hContact:THANDLE; const szModule:pAnsiChar; const szSetting:pAnsiChar; dbv:PDBVARIANT):int_ptr; stdcall; external CoreDLL name 'db_get'; function db_get_b(hContact:THANDLE; const szModule:pAnsiChar; const szSetting:pAnsiChar; errorValue:int):int; stdcall; external CoreDLL name 'db_get_b'; function db_get_w(hContact:THANDLE; const szModule:pAnsiChar; const szSetting:pAnsiChar; errorValue:int):int; stdcall; external CoreDLL name 'db_get_w'; function db_get_dw(hContact:THANDLE; const szModule:pAnsiChar; const szSetting:pAnsiChar; errorValue:dword):dword; stdcall; external CoreDLL name 'db_get_dw'; function db_get_s(hContact:THANDLE; const szModule:pAnsiChar; const szSetting:pAnsiChar; dbv:PDBVARIANT; const nType:int=DBVT_ASCIIZ):int_ptr; stdcall; external CoreDLL name 'db_get_s'; function db_get_sa(hContact:THANDLE; const szModule:pAnsiChar; const szSetting:pAnsiChar):pAnsiChar; stdcall; external CoreDLL name 'db_get_sa'; function db_get_wsa(hContact:THANDLE; const szModule:pAnsiChar; const szSetting:pAnsiChar):pWideChar; stdcall; external CoreDLL name 'db_get_wsa'; function db_get_static(hContact:THANDLE; const szModule:pAnsiChar; const szSetting:pAnsiChar; szDest:pAnsiChar; destLen:int):int; stdcall; external CoreDLL name 'db_get_static'; function db_get_static_utf(hContact:THANDLE; const szModule:pAnsiChar; const szSetting:pAnsiChar; szDest:pAnsiChar; destLen:int):int; stdcall; external CoreDLL name 'db_get_static_utf'; function db_get_wstatic(hContact:THANDLE; const szModule:pAnsiChar; const szSetting:pAnsiChar; szDest:pWideChar; destLen:int):int; stdcall; external CoreDLL name 'db_get_wstatic'; function db_set(hContact:THANDLE; const szModule:pAnsiChar; const szSetting:pAnsiChar; dbv:PDBVARIANT):int_ptr; stdcall; external CoreDLL name 'db_set'; function db_set_b(hContact:THANDLE; const szModule:pAnsiChar; const szSetting:pAnsiChar; val:byte):int_ptr; stdcall; external CoreDLL name 'db_set_b'; function db_set_w(hContact:THANDLE; const szModule:pAnsiChar; const szSetting:pAnsiChar; val:word):int_ptr; stdcall; external CoreDLL name 'db_set_w'; function db_set_dw(hContact:THANDLE; const szModule:pAnsiChar; const szSetting:pAnsiChar; val:dword):int_ptr; stdcall; external CoreDLL name 'db_set_dw'; function db_set_s(hContact:THANDLE; const szModule:pAnsiChar; const szSetting:pAnsiChar; const val:pAnsiChar):int_ptr; stdcall; external CoreDLL name 'db_set_s'; function db_set_ws(hContact:THANDLE; const szModule:pAnsiChar; const szSetting:pAnsiChar; const val:pWideChar):int_ptr; stdcall; external CoreDLL name 'db_set_ws'; function db_set_utf(hContact:THANDLE; const szModule:pAnsiChar; const szSetting:pAnsiChar; const val:pAnsiChar):int_ptr; stdcall; external CoreDLL name 'db_set_utf'; function db_set_blob(hContact:THANDLE; const szModule:pAnsiChar; const szSetting:pAnsiChar; val:pointer; len:uint):int_ptr; stdcall; external CoreDLL name 'db_set_blob'; function db_unset(hContact:THANDLE; const szModule:pAnsiChar; const szSetting:pAnsiChar):int_ptr; stdcall; external CoreDLL name 'db_unset'; function db_set_resident(const szModule:pAnsiChar; const szSetting:pAnsiChar; bEnable:int):int; stdcall; external CoreDLL name 'db_set_resident'; // deprecated Aliases function DBFreeVariant(dbv:PDBVARIANT):int_ptr; stdcall; external CoreDLL name 'db_free'; function DBDeleteContactSetting(hContact:THANDLE; const szModule:pAnsiChar; const szSetting:pAnsiChar):int_ptr; stdcall; external CoreDLL name 'db_unset'; function DBGetContactSettingByte(hContact:THANDLE; const szModule:pAnsiChar; const szSetting:pAnsiChar; errorValue:int):int; stdcall; external CoreDLL name 'db_get_b'; function DBGetContactSettingWord(hContact:THANDLE; const szModule:pAnsiChar; const szSetting:pAnsiChar; errorValue:int):int; stdcall; external CoreDLL name 'db_get_w'; function DBGetContactSettingDWord(hContact:THANDLE; const szModule:pAnsiChar; const szSetting:pAnsiChar; errorValue:dword):dword; stdcall; external CoreDLL name 'db_get_dw'; function DBGetContactSetting(hContact:THANDLE; const szModule:pAnsiChar; const szSetting:pAnsiChar; dbv:PDBVARIANT):int_ptr; stdcall; external CoreDLL name 'db_get'; function DBGetContactSettingStr(hContact:THANDLE; const szModule:pAnsiChar; const szSetting:pAnsiChar; dbv:PDBVARIANT; const nType:int=DBVT_ASCIIZ):int_ptr; stdcall; external CoreDLL name 'db_get_s'; function DBGetContactSettingString(hContact:THANDLE; const szModule:pAnsiChar; const szSetting:pAnsiChar):pAnsiChar; stdcall; external CoreDLL name 'db_get_sa'; function DBGetContactSettingWString(hContact:THANDLE; const szModule:pAnsiChar; const szSetting:pAnsiChar):pWideChar; stdcall; external CoreDLL name 'db_get_wsa'; function DBWriteContactSettingByte(hContact:THANDLE; const szModule:pAnsiChar; const szSetting:pAnsiChar; val:byte):int_ptr; stdcall; external CoreDLL name 'db_set_b'; function DBWriteContactSettingWord(hContact:THANDLE; const szModule:pAnsiChar; const szSetting:pAnsiChar; val:word):int_ptr; stdcall; external CoreDLL name 'db_set_w'; function DBWriteContactSettingDWord(hContact:THANDLE; const szModule:pAnsiChar; const szSetting:pAnsiChar; val:dword):int_ptr; stdcall; external CoreDLL name 'db_set_dw'; function DBWriteContactSettingString(hContact:THANDLE; const szModule:pAnsiChar; const szSetting:pAnsiChar; const val:pAnsiChar):int_ptr; stdcall; external CoreDLL name 'db_set_s'; function DBWriteContactSettingWString(hContact:THANDLE; const szModule:pAnsiChar; const szSetting:pAnsiChar; const val:pWideChar):int_ptr; stdcall; external CoreDLL name 'db_set_ws'; function DBWriteContactSettingUTF8String(hContact:THANDLE; const szModule:pAnsiChar; const szSetting:pAnsiChar; const val:pAnsiChar):int_ptr; stdcall; external CoreDLL name 'db_set_utf'; function DBWriteContactSettingBlob(hContact:THANDLE; const szModule:pAnsiChar; const szSetting:pAnsiChar; val:pointer; len:uint):int_ptr; stdcall; external CoreDLL name 'db_set_blob'; /////////////////////////////////////////////////////////////////////////////// // events, hooks & services const MAXMODULELABELLENGTH = 64; type TMIRANDAHOOK = function(wParam: WPARAM; lParam: LPARAM): int; cdecl; TMIRANDAHOOKPARAM = function(wParam: WPARAM; lParam,lParam1: LPARAM): int; cdecl; TMIRANDAHOOKOBJ = function(ptr:pointer;wParam:WPARAM;lParam:LPARAM): int; cdecl; TMIRANDAHOOKOBJPARAM = function(ptr:pointer;wParam:WPARAM;lParam,lParam1: LPARAM): int; cdecl; TMIRANDASERVICE = function(wParam: WPARAM; lParam: LPARAM): int_ptr; cdecl; TMIRANDASERVICEPARAM = function(wParam:WPARAM;lParam,lParam1:LPARAM):int_ptr; cdecl; TMIRANDASERVICEOBJ = function(ptr:pointer;wParam,lParam:LPARAM):int_ptr; cdecl; TMIRANDASERVICEOBJPARAM = function(ptr:pointer;wParam:WPARAM;lParam,lParam1:LPARAM):int_ptr; cdecl; const {$IFDEF WIN64} CALLSERVICE_NOTFOUND = int_ptr($8000000000000000); {$ELSE} CALLSERVICE_NOTFOUND = int_ptr($80000000); {$ENDIF} function CreateHookableEvent(const name: PAnsiChar): THANDLE; stdcall; external CoreDLL name 'CreateHookableEvent'; function DestroyHookableEvent(hEvent:THANDLE): int; stdcall; external CoreDLL name 'DestroyHookableEvent'; function SetHookDefaultForHookableEvent(hEvent:THANDLE; pfnHook:TMIRANDAHOOK):int; stdcall; external CoreDLL name 'SetHookDefaultForHookableEvent'; function CallPluginEventHook(hInst:HINST; hEvent:THANDLE; wParam:WPARAM; lParam:LPARAM):int; stdcall; external CoreDLL name 'CallPluginEventHook'; function NotifyEventHooks(hEvent:THANDLE; wParam:WPARAM; lParam:LPARAM): int; stdcall; external CoreDLL name 'NotifyEventHooks'; function NotifyFastHook(hEvent:THANDLE; wParam:WPARAM; lParam:LPARAM): int; stdcall; external CoreDLL name 'NotifyFastHook'; function HookEvent(const name:PAnsiChar; hookProc: TMIRANDAHOOK): THANDLE; stdcall; external CoreDLL name 'HookEvent'; function HookEventParam(const name:PAnsiChar; hookProc:TMIRANDAHOOKPARAM;lParam:LPARAM):THANDLE; stdcall; external CoreDLL name 'HookEventParam'; function HookEventObj(const name:PAnsiChar; hookProc:TMIRANDAHOOKOBJ;ptr:pointer):THANDLE; stdcall; external CoreDLL name 'HookEventObj'; function HookEventObjParam(const name:PAnsiChar; hookProc:TMIRANDAHOOKOBJPARAM;ptr:pointer;lParam:LPARAM):THANDLE; stdcall; external CoreDLL name 'HookEventObjParam'; function HookEventMessage(const name:PAnsiChar; Wnd:HWND; wMsg:uint):THANDLE; stdcall; external CoreDLL name 'HookEventMessage'; function UnhookEvent(hHook:THANDLE): int; stdcall; external CoreDLL name 'UnhookEvent'; procedure KillObjectEventHooks(var ptr); stdcall; external CoreDLL name 'KillObjectEventHooks'; procedure KillModuleEventHooks(pModule:HINST); stdcall; external CoreDLL name 'KillModuleEventHooks'; function CreateServiceFunction(const name:PAnsiChar; serviceProc:TMIRANDASERVICE): THANDLE; stdcall; external CoreDLL name 'CreateServiceFunction'; function CreateServiceFunctionParam(const name:PAnsiChar; serviceProc:TMIRANDASERVICEPARAM;lParam:LPARAM):THANDLE; stdcall; external CoreDLL name 'CreateServiceFunctionParam'; function CreateServiceFunctionObj(const name:PAnsiChar; serviceProc:TMIRANDASERVICEOBJ;ptr:pointer):THANDLE; stdcall; external CoreDLL name 'CreateServiceFunctionObj'; function CreateServiceFunctionObjParam(const name:PAnsiChar; serviceProc:TMIRANDASERVICEOBJPARAM;ptr:pointer;lParam:LPARAM):THANDLE; stdcall; external CoreDLL name 'CreateServiceFunctionObjParam'; function DestroyServiceFunction(hService:THANDLE):int; stdcall; external CoreDLL name 'DestroyServiceFunction'; function ServiceExists(const name:PAnsiChar):int; stdcall; external CoreDLL name 'ServiceExists'; function CallService(const name:PAnsiChar; wParam:WPARAM; lParam:LPARAM):int_ptr; stdcall; external CoreDLL name 'CallService'; function CallServiceSync(const name:PAnsiChar; wParam:WPARAM; lParam:LPARAM):int_ptr; stdcall; external CoreDLL name 'CallServiceSync'; function CallFunctionAsync(ptr1,ptr2:pointer):int; stdcall; external CoreDLL name 'CallFunctionAsync'; procedure KillModuleServices(hInst:HINST); stdcall; external CoreDLL name 'KillModuleServices'; procedure KillObjectServices(var ptr); stdcall; external CoreDLL name 'KillObjectServices'; function CallContactService(hContact:THANDLE;const name:PAnsiChar;wParam:WPARAM;lParam:LPARAM):int_ptr; cdecl; external CoreDLL name 'CallContactService'; function CallProtoService(const szModule:PAnsiChar;const szService:PAnsiChar;wParam:WPARAM;lParam:LPARAM):int_ptr; cdecl; external CoreDLL name 'CallProtoService'; /////////////////////////////////////////////////////////////////////////////// // http // returned result must be freed using mir_free() function mir_urlEncode(url:pAnsiChar): pAnsiChar; stdcall; external CoreDLL name 'mir_urlEncode'; /////////////////////////////////////////////////////////////////////////////// // exceptions type PEXCEPTION_POINTERS = ^EXCEPTION_POINTERS; pfnExceptionFilter = function(code:dword; info:PEXCEPTION_POINTERS):dword; cdecl; function GetExceptionFilter():pfnExceptionFilter; stdcall; external CoreDLL name 'GetExceptionFilter'; function SetExceptionFilter(pMirandaExceptFilter:pfnExceptionFilter):pfnExceptionFilter; stdcall; external CoreDLL name 'SetExceptionFilter'; /////////////////////////////////////////////////////////////////////////////// // icons support type pIconItem = ^tIconItem; tIconItem = record szDescr:pAnsiChar; szName :pAnsiChar; defIconID, size :int; hIcolib:THANDLE; end; tagIconItem = tIconItem; pIconItemW = ^tIconItemW; tIconItemW = record szDescr:pWideChar; szName :pAnsiChar; defIconID, size :int; hIcolib:THANDLE; end; tagIconItemW = tIconItemW; procedure mir_Icon_Register(hInst:HINST; const szSection:pAnsiChar; pIcons:pIconItem; iCount:size_t; prefix:PAnsiChar; hLangpack:int=0); stdcall; external CoreDLL name 'Icon_Register'; procedure mir_Icon_RegisterW(hInst:HINST; const szSection:pWideChar; pIcons:pIconItemW; iCount:size_t; prefix:PAnsiChar; hLangpack:int=0); stdcall; external CoreDLL name 'Icon_RegisterT'; /////////////////////////////////////////////////////////////////////////////// // language packs support const LANG_UNICODE = $1000; procedure Langpack_SortDuplicates(); stdcall; external CoreDLL name 'Langpack_SortDuplicates'; function Langpack_GetDefaultCodePage():int; stdcall; external CoreDLL name 'Langpack_GetDefaultCodePage'; function Langpack_GetDefaultLocale():int; stdcall; external CoreDLL name 'Langpack_GetDefaultLocale'; function Langpack_PcharToTchar(const pszStr:pAnsiChar):pWideChar; stdcall; external CoreDLL name 'Langpack_PcharToTchar'; function LoadLangPackModule():int; stdcall; external CoreDLL name 'LoadLangPackModule'; function LoadLangPack(const szLangPack:pWideChar):int; stdcall; external CoreDLL name 'LoadLangPack'; procedure ReloadLangpack(pszStr:pWideChar); stdcall; external CoreDLL name 'ReloadLangpack'; function TranslateA_LP(const str:pAnsiChar; hLang:int):pAnsiChar; stdcall; external CoreDLL name 'TranslateA_LP'; function TranslateW_LP(const str:pWideChar; hLang:int):pWideChar; stdcall; external CoreDLL name 'TranslateW_LP'; procedure TranslateMenu_LP(hMenu:HMENU; hLang:int); stdcall; external CoreDLL name 'TranslateMenu_LP'; procedure TranslateDialog_LP(hDlg:HWND; hLang:int); stdcall; external CoreDLL name 'TranslateDialog_LP'; function mir_hash(const key:pointer; len:uint):uint; stdcall; external CoreDLL name 'mir_hash'; /////////////////////////////////////////////////////////////////////////////// // lists type TFSortFunc = function (para1:pointer; para2:pointer):int;cdecl; { // 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 } const NumericKeySort = {TFSortFunc}(pointer(-1)); HandleKeySort = {TFSortFunc}(pointer(-2)); PtrKeySort = {TFSortFunc}(pointer(-3)); type PSortedList = ^TSortedList; TSortedList = record items : array of pointer; realCount: int; limit : int; increment: int; sortFunc : TFSortFunc; end; // BUGGED with limit <> 0. list pointer must befreed by mir_free function List_Create(limit:int; increment:int):PSortedList;stdcall; external CoreDLL name 'List_Create'; procedure List_Destroy(list:PSortedList);stdcall; external CoreDLL name 'List_Destroy'; function List_Find(list:PSortedList; value:pointer):pointer;stdcall; external CoreDLL name 'List_Find'; function List_GetIndex(list:PSortedList; value:pointer; index:Pint):int;stdcall; external CoreDLL name 'List_GetIndex'; function List_IndexOf(list:PSortedList; value:pointer):int;stdcall; external CoreDLL name 'List_IndexOf'; function List_Insert(list:PSortedList; value:pointer; index:int):int;stdcall; external CoreDLL name 'List_Insert'; function List_InsertPtr(list:PSortedList; p:pointer):int;stdcall; external CoreDLL name 'List_InsertPtr'; function List_Remove(list:PSortedList; index:int):int;stdcall; external CoreDLL name 'List_Remove'; function List_RemovePtr(list:PSortedList; p:pointer):int;stdcall; external CoreDLL name 'List_RemovePtr'; procedure List_Copy(src:PSortedList; dst:PSortedList; size:size_t); stdcall; external CoreDLL name 'List_Copy'; procedure List_ObjCopy(src:PSortedList; dst:PSortedList; size:size_t); stdcall; external CoreDLL name 'List_ObjCopy'; /////////////////////////////////////////////////////////////////////////////// // log functions function mir_createLog(pszName:PAnsiChar; ptszDescr, ptszFile:PWideChar; options:Cardinal):THandle;stdcall; external CoreDLL name 'mir_createLog'; function mir_writeLogA(hLog:THandle; format:PAnsiChar):int;cdecl; external CoreDLL name 'mir_writeLogA'; function mir_writeLogW(hLog:THandle; format:PWideChar):int;cdecl; external CoreDLL name 'mir_writeLogW'; /////////////////////////////////////////////////////////////////////////////// // md5 functions // Define the state of the MD5 Algorithm. type pmir_md5_state_t = ^mir_md5_state_t; mir_md5_state_t = record count:array [0.. 1] of cardinal; // message length in bits, lsw first abcd :array [0.. 3] of cardinal; // digest buffer buf :array [0..63] of byte; // accumulate block end; TMD5Hash = array [0..15] of byte; procedure mir_md5_init(pms:pmir_md5_state_t); stdcall; external CoreDLL name 'mir_md5_init'; procedure mir_md5_append(pms:pmir_md5_state_t; const data:pbyte; nbytes:int); stdcall; external CoreDLL name 'mir_md5_append'; procedure mir_md5_finish(pms:pmir_md5_state_t; digest:TMD5Hash); stdcall; external CoreDLL name 'mir_md5_finish'; procedure mir_md5_hash(const data:pbyte; len:int; digest:TMD5Hash); stdcall; external CoreDLL name 'mir_md5_hash'; /////////////////////////////////////////////////////////////////////////////// // memory functions function mir_alloc(para1:size_t):pointer; cdecl; external CoreDLL name 'mir_alloc'; function mir_calloc(para1:size_t):pointer; cdecl; external CoreDLL name 'mir_calloc'; function mir_realloc(para1:pointer; para2:size_t):pointer; cdecl; external CoreDLL name 'mir_realloc'; procedure mir_free(para1:pointer); cdecl; external CoreDLL name 'mir_free'; function mir_strdup(const src:PAnsiChar):PAnsiChar; stdcall; external CoreDLL name 'mir_strdup'; function mir_wstrdup(const src:PWideChar):PWideChar; stdcall; external CoreDLL name 'mir_wstrdup'; function mir_strndup(const src:PAnsiChar; len:size_t):PAnsiChar; stdcall; external CoreDLL name 'mir_strndup'; function mir_wstrndup(const src:PWideChar; len:size_t):PWideChar; stdcall; external CoreDLL name 'mir_wstrndup'; /////////////////////////////////////////////////////////////////////////////// // modules procedure RegisterModule(hInst:HINST); stdcall; external CoreDLL name 'RegisterModule'; procedure UnregisterModule(hInst:HINST); stdcall; external CoreDLL name 'UnregisterModule'; function GetInstByAddress(codePtr:pointer):HINST; stdcall; external CoreDLL name 'GetInstByAddress'; /////////////////////////////////////////////////////////////////////////////// // path utils procedure CreatePathToFile(wszFilePath:pAnsiChar); stdcall; external CoreDLL name 'CreatePathToFile'; function CreateDirectoryTree(const szDir:pAnsiChar):int; stdcall; external CoreDLL name 'CreateDirectoryTree'; function PathToAbsolute(const pSrc:pAnsiChar; pOut:pAnsiChar; base:pAnsiChar=nil):int; stdcall; external CoreDLL name 'PathToAbsolute'; function PathToRelative(const pSrc:pAnsiChar; pOut:pAnsiChar):int; stdcall; external CoreDLL name 'PathToRelative'; procedure CreatePathToFileW(wszFilePath:pWideChar); stdcall; external CoreDLL name 'CreatePathToFileW'; function CreateDirectoryTreeW(const szDir:pWideChar):int; stdcall; external CoreDLL name 'CreateDirectoryTreeW'; function PathToAbsoluteW(const pSrc:pWideChar; pOut:pWideChar; base:pWideChar=nil):int; stdcall; external CoreDLL name 'PathToAbsoluteW'; function PathToRelativeW(const pSrc:pWideChar; pOut:pWideChar):int; stdcall; external CoreDLL name 'PathToRelativeW'; /////////////////////////////////////////////////////////////////////////////// // print functions function mir_snprintf(buffer:pAnsiChar;count:size_t;fmt:pAnsiChar{, ...}):int; stdcall; external CoreDLL name 'mir_snprintf'; function mir_snwprintf(buffer:pWideChar;count:size_t;fmt:pWideChar{, ...}):int; stdcall; external CoreDLL name 'mir_snwprintf'; function mir_vsnprintf(buffer:pAnsiChar;count:size_t;fmt:pAnsiChar;va:va_list):int; stdcall; external CoreDLL name 'mir_vsnprintf'; function mir_vsnwprintf(buffer:pWideChar;count:size_t;fmt:pWideChar;va:va_list):int; stdcall; external CoreDLL name 'mir_vsnwprintf'; /////////////////////////////////////////////////////////////////////////////// // protocol functions function ProtoBroadcastAck(const szModule: PAnsiChar; hContact: THandle; type_: int; result_: int; hProcess: THandle; lParam: LPARAM): int_ptr; stdcall; external CoreDLL name 'ProtoBroadcastAck'; function ProtoServiceExists(const szModule, szName:PAnsiChar):int; stdcall; external CoreDLL name 'ProtoServiceExists'; function ProtoCallService(const szModule, szName:PAnsiChar; wParam:WPARAM; lParam:LPARAM):int_ptr; stdcall; external CoreDLL name 'ProtoServiceExists'; // Call it in the very beginning of your proto's constructor procedure ProtoConstructor(pThis:pointer{PPROTO_INTERFACE}; const pszModuleName:PAnsiChar; ptszUserName:PWideChar); stdcall; external CoreDLL name 'ProtoConstructor'; // Call it in the very end of your proto's destructor procedure ProtoDestructor(pThis:pointer{PPROTO_INTERFACE}); stdcall; external CoreDLL name 'ProtoDestructor'; {!! typedef void (__cdecl PROTO_INTERFACE::*ProtoThreadFunc)(void*); procedure ProtoForkThread(PROTO_INTERFACE *pThis, ProtoThreadFunc, void *param); function ProtoForkThreadEx(PROTO_INTERFACE *pThis, ProtoThreadFunc, void *param, UINT* threadID):THANDLE; typedef int (__cdecl PROTO_INTERFACE::*ProtoEventFunc)(WPARAM, LPARAM); procedure ProtoHookEvent(PROTO_INTERFACE *pThis, const char* szName, ProtoEventFunc pFunc); function ProtoCreateHookableEvent(PROTO_INTERFACE *pThis, const char* szService):THANDLE; typedef INT_PTR (__cdecl PROTO_INTERFACE::*ProtoServiceFunc)(WPARAM, LPARAM); procedure ProtoCreateService(PROTO_INTERFACE *pThis, const char* szService, ProtoServiceFunc); typedef INT_PTR (__cdecl PROTO_INTERFACE::*ProtoServiceFuncParam)(WPARAM, LPARAM, LPARAM); procedure ProtoCreateServiceParam(PROTO_INTERFACE *pThis, const char* szService, ProtoServiceFuncParam, LPARAM); } procedure ProtoLogA(pThis:pointer{PPROTO_INTERFACE}; szFormat :pAnsiChar; args:va_list); stdcall; external CoreDLL name 'ProtoLogA'; procedure ProtoLogW(pThis:pointer{PPROTO_INTERFACE}; wszFormat:pWideChar; args:va_list); stdcall; external CoreDLL name 'ProtoLogW'; // returns image extension by a PA_* constant or empty string for PA_FORMAT_UNKNOWN function ProtoGetAvatarExtension(format:int):PWideChar; stdcall; external CoreDLL name 'ProtoGetAvatarExtension'; // detects image format by extension function ProtoGetAvatarFormat(const szFileName:PWideChar):int; stdcall; external CoreDLL name 'ProtoGetAvatarFormat'; // detects image format by its contents function ProtoGetAvatarFileFormat(const szFileName:PWideChar):int; stdcall; external CoreDLL name 'ProtoGetAvatarFileFormat'; // returns the image format and extension by the first bytes of picture // ptszExtension might be NULL function ProtoGetBufferFormat(const buf:PByte; var ext:PWideChar):int; stdcall; external CoreDLL name 'ProtoGetBufferFormat'; /////////////////////////////////////////////////////////////////////////////// // sha1 functions const MIR_SHA1_HASH_SIZE = 20; type pmir_sha1_ctx = ^mir_sha1_ctx; mir_sha1_ctx = record H:array [0.. 4] of longword; W:array [0..79] of longword; lenW:int; sizeHi,sizeLo:longword; end; SHA1Hash = array [0..MIR_SHA1_HASH_SIZE-1] of byte; procedure mir_sha1_init(ctx:pmir_sha1_ctx); stdcall; external CoreDLL name 'mir_sha1_init'; procedure mir_sha1_append(ctx:pmir_sha1_ctx; dataIn:pbyte; len:int); stdcall; external CoreDLL name 'mir_sha1_append'; procedure mir_sha1_finish(ctx:pmir_sha1_ctx; hashout:SHA1Hash); stdcall; external CoreDLL name 'mir_sha1_finish'; procedure mir_sha1_hash(dataIn:pbyte; len:int;hashout:SHA1Hash); stdcall; external CoreDLL name 'mir_sha1_hash'; procedure mir_hmac_sha1(hashout:SHA1Hash; const key:pbyte; keyLen:size_t; const dataIn:pbyte; dataLen:size_t); stdcall; external CoreDLL name 'mir_hmac_sha1'; /////////////////////////////////////////////////////////////////////////////// // strings function mir_base64_decode(str:pAnsiChar; var resultSize:int):pByte; stdcall; external CoreDLL name 'mir_base64_decode'; function mir_base64_encode(str:pByte; dataSize:int):pAnsiChar; stdcall; external CoreDLL name 'mir_base64_encode'; function mir_base64_encodebuf(data:PByte; dataSize:int; output:pAnsiChar; outputLen:int):pAnsiChar; stdcall; external CoreDLL name 'mir_base64_encodebuf'; function rtrim(str:pAnsiChar):pAnsiChar; stdcall; external CoreDLL name 'rtrim'; function rtrimw(str:pWideChar):pWideChar; stdcall; external CoreDLL name 'rtrimw'; // returns pointer to the beginning of string function ltrim(str:pAnsiChar):pAnsiChar; stdcall; external CoreDLL name 'ltrim'; function ltrimw(str:pWideChar):pWideChar; stdcall; external CoreDLL name 'ltrimw'; // returns pointer to the trimmed portion of string function ltrimp(str:pAnsiChar):pAnsiChar; stdcall; external CoreDLL name 'ltrimp'; function ltrimpw(str:pWideChar):pWideChar; stdcall; external CoreDLL name 'ltrimpw'; function wildcmp(name:pAnsiChar; mask:pAnsiChar):int; stdcall; external CoreDLL name 'wildcmp'; function wildcmpw(name:pWideChar; mask:pWideChar):int; stdcall; external CoreDLL name 'wildcmpw'; function wildcmpi(name:pAnsiChar; mask:pAnsiChar):int; stdcall; external CoreDLL name 'wildcmpi'; function wildcmpiw(name:pWideChar; mask:pWideChar):int; stdcall; external CoreDLL name 'wildcmpiw'; // mir_free dest, mir_strdup src to dest function replaceStr(var dest:pAnsiChar; const src:pAnsiChar):pAnsiChar; stdcall; external CoreDLL name 'replaceStr'; function replaceStrW(var dest:pWideChar; const src:pWideChar):pWideChar; stdcall; external CoreDLL name 'replaceStrW'; function bin2hex(data:pointer; dataLen:size_t; pDest:pAnsiChar):pAnsiChar; stdcall; external CoreDLL name 'bin2hex'; function bin2hexW(data:pointer; dataLen:size_t; pDest:pWideChar):pWideChar; stdcall; external CoreDLL name 'bin2hexW'; /////////////////////////////////////////////////////////////////////////////// // text conversion functions function mir_a2u_cp(src:PAnsiChar;codepage:int):pWideChar; stdcall; external CoreDLL name 'mir_a2u_cp'; function mir_a2u(src:PAnsiChar):pWideChar; stdcall; external CoreDLL name 'mir_a2u'; function mir_u2a_cp(src:pWideChar;codepage:int):PAnsiChar; stdcall; external CoreDLL name 'mir_u2a_cp'; function mir_u2a(src:pWideChar):PAnsiChar; stdcall; external CoreDLL name 'mir_u2a'; /////////////////////////////////////////////////////////////////////////////// // threads type pThreadFunc = procedure(ptr:pointer); cdecl; pThreadFuncEx = function (ptr:pointer):uint_ptr; stdcall; pThreadFuncOwner = function (owner:pointer;param:pointer):uint_ptr; cdecl; function Thread_Push(hInst:HINST; Owner:pointer):int_ptr; stdcall; external CoreDLL name 'Thread_Push'; function Thread_Pop():int_ptr; stdcall; external CoreDLL name 'Thread_Pop'; procedure Thread_Wait(); stdcall; external CoreDLL name 'Thread_Wait'; function forkthread(func:pThreadFunc; stacksize:uint; arg:pointer):uint_ptr; stdcall; external CoreDLL name 'forkthread'; function forkthreadex(sec:pointer; stacksize:uint; func:pThreadFuncEx; owner:pointer; arg:pointer; thraddr:puint_ptr):uint_ptr; stdcall; external CoreDLL name 'forkthreadex'; procedure Thread_SetName(const szThreadName:pAnsiChar); stdcall; external CoreDLL name 'Thread_SetName'; procedure KillObjectThreads(pObject:pointer); stdcall; external CoreDLL name 'KillObjectThreads'; /////////////////////////////////////////////////////////////////////////////// // utf8 interface { commented to avoid newer Delphi version conflicts function Utf8Decode(str:PAnsiChar; var ucs2:pWideChar):PAnsiChar;stdcall; external CoreDLL name 'Utf8Decode'; function Utf8DecodeCP(str:PAnsiChar; codepage:int; var ucs2:pWideChar):PAnsiChar;stdcall; external CoreDLL name 'Utf8DecodeCP'; function Utf8DecodeW(const str:PAnsiChar):pWideChar;stdcall; external CoreDLL name 'Utf8DecodeW'; function Utf8Encode(const src:PAnsiChar):PAnsiChar;stdcall; external CoreDLL name 'Utf8Encode'; function Utf8EncodeCP(const src:PAnsiChar;codepage:int):PAnsiChar;stdcall; external CoreDLL name 'Utf8EncodeCP'; function Utf8EncodeW(const src:PWideChar):PAnsiChar;stdcall; external CoreDLL name 'Utf8EncodeW'; function Ucs2toUtf8Len(const src:pWideChar):int; stdcall; external CoreDLL name 'Ucs2toUtf8Len'; function Utf8CheckString(const astr:PAnsiChar):bool;stdcall; external CoreDLL name 'Utf8CheckString'; } // aliases function mir_utf8decode(str:PAnsiChar; var ucs2:pWideChar):PAnsiChar;stdcall; external CoreDLL name 'Utf8Decode'; function mir_utf8decodecp(str:PAnsiChar; codepage:int; var ucs2:pWideChar):PAnsiChar;stdcall; external CoreDLL name 'Utf8DecodeCP'; function mir_utf8decodew(const str:PAnsiChar):pWideChar;stdcall; external CoreDLL name 'Utf8DecodeW'; function mir_utf8encode(const src:PAnsiChar):PAnsiChar;stdcall; external CoreDLL name 'Utf8Encode'; function mir_utf8encodecp(const src:PAnsiChar;codepage:int):PAnsiChar;stdcall; external CoreDLL name 'Utf8EncodeCP'; function mir_utf8encodew(const src:PWideChar):PAnsiChar;stdcall; external CoreDLL name 'Utf8EncodeW'; function mir_utf8lenW(const src:pWideChar):int; stdcall; external CoreDLL name 'Ucs2toUtf8Len'; function mir_utf8checkstring(const astr:PAnsiChar):bool;stdcall; external CoreDLL name 'Utf8CheckString'; /////////////////////////////////////////////////////////////////////////////// // Window subclassing procedure mir_subclassWindow(Wnd:HWND; WndProc:TWNDPROC); stdcall; external CoreDLL name 'mir_subclassWindow'; procedure mir_subclassWindowFull(Wnd:HWND; WndProc, OldWndProc:TWNDPROC); stdcall; external CoreDLL name 'mir_subclassWindowFull'; function mir_callNextSubclass(Wnd:HWND; WndProc:TWNDPROC; uMsg:uint; wParam:WPARAM; lParam:LPARAM ):LRESULT; stdcall; external CoreDLL name 'mir_callNextSubclass'; procedure mir_unsubclassWindow(Wnd:HWND; WndProc:TWNDPROC); stdcall; external CoreDLL name 'mir_unsubclassWindow'; procedure KillModuleSubclassing(hInst: HMODULE); external CoreDLL name 'KillModuleSubclassing'; /////////////////////////////////////////////////////////////////////////////// // Windows utilities function IsWinVerVistaPlus():bool; stdcall; external CoreDLL name 'IsWinVerVistaPlus'; function IsWinVer7Plus():bool; stdcall; external CoreDLL name 'IsWinVer7Plus'; function IsFullScreen():int; stdcall; external CoreDLL name 'IsFullScreen'; function IsWorkstationLocked():int; stdcall; external CoreDLL name 'IsWorkstationLocked'; function IsScreenSaverRunning():int; stdcall; external CoreDLL name 'IsScreenSaverRunning'; procedure UnloadCoreModule(); stdcall; external CoreDLL name 'UnloadCoreModule'; {$ENDIF}