/* * Window messaging support * * Copyright 2001 Alexandre Julliard * Copyright 2008 Maarten Lankhorst * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library 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 * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA */ #include "config.h" #include "wine/port.h" #include <assert.h> #include <stdarg.h> #define NONAMELESSUNION #define NONAMELESSSTRUCT #include "ntstatus.h" #define WIN32_NO_STATUS #include "windef.h" #include "winbase.h" #include "wingdi.h" #include "winuser.h" #include "winerror.h" #include "winnls.h" #include "dbt.h" #include "dde.h" #include "imm.h" #include "ddk/imm.h" #include "wine/unicode.h" #include "wine/server.h" #include "user_private.h" #include "win.h" #include "controls.h" #include "wine/debug.h" #include "wine/exception.h" WINE_DEFAULT_DEBUG_CHANNEL(msg); WINE_DECLARE_DEBUG_CHANNEL(relay); WINE_DECLARE_DEBUG_CHANNEL(key); #define WM_NCMOUSEFIRST WM_NCMOUSEMOVE #define WM_NCMOUSELAST (WM_NCMOUSEFIRST+(WM_MOUSELAST-WM_MOUSEFIRST)) #define MAX_PACK_COUNT 4 /* the various structures that can be sent in messages, in platform-independent layout */ struct packed_CREATESTRUCTW { ULONGLONG lpCreateParams; ULONGLONG hInstance; user_handle_t hMenu; DWORD __pad1; user_handle_t hwndParent; DWORD __pad2; INT cy; INT cx; INT y; INT x; LONG style; ULONGLONG lpszName; ULONGLONG lpszClass; DWORD dwExStyle; DWORD __pad3; }; struct packed_DRAWITEMSTRUCT { UINT CtlType; UINT CtlID; UINT itemID; UINT itemAction; UINT itemState; user_handle_t hwndItem; DWORD __pad1; user_handle_t hDC; DWORD __pad2; RECT rcItem; ULONGLONG itemData; }; struct packed_MEASUREITEMSTRUCT { UINT CtlType; UINT CtlID; UINT itemID; UINT itemWidth; UINT itemHeight; ULONGLONG itemData; }; struct packed_DELETEITEMSTRUCT { UINT CtlType; UINT CtlID; UINT itemID; user_handle_t hwndItem; DWORD __pad; ULONGLONG itemData; }; struct packed_COMPAREITEMSTRUCT { UINT CtlType; UINT CtlID; user_handle_t hwndItem; DWORD __pad1; UINT itemID1; ULONGLONG itemData1; UINT itemID2; ULONGLONG itemData2; DWORD dwLocaleId; DWORD __pad2; }; struct packed_WINDOWPOS { user_handle_t hwnd; DWORD __pad1; user_handle_t hwndInsertAfter; DWORD __pad2; INT x; INT y; INT cx; INT cy; UINT flags; DWORD __pad3; }; struct packed_COPYDATASTRUCT { ULONGLONG dwData; DWORD cbData; ULONGLONG lpData; }; struct packed_HELPINFO { UINT cbSize; INT iContextType; INT iCtrlId; user_handle_t hItemHandle; DWORD __pad; ULONGLONG dwContextId; POINT MousePos; }; struct packed_NCCALCSIZE_PARAMS { RECT rgrc[3]; ULONGLONG __pad1; user_handle_t hwnd; DWORD __pad2; user_handle_t hwndInsertAfter; DWORD __pad3; INT x; INT y; INT cx; INT cy; UINT flags; DWORD __pad4; }; struct packed_MSG { user_handle_t hwnd; DWORD __pad1; UINT message; ULONGLONG wParam; ULONGLONG lParam; DWORD time; POINT pt; DWORD __pad2; }; struct packed_MDINEXTMENU { user_handle_t hmenuIn; DWORD __pad1; user_handle_t hmenuNext; DWORD __pad2; user_handle_t hwndNext; DWORD __pad3; }; struct packed_MDICREATESTRUCTW { ULONGLONG szClass; ULONGLONG szTitle; ULONGLONG hOwner; INT x; INT y; INT cx; INT cy; DWORD style; ULONGLONG lParam; }; struct packed_hook_extra_info { user_handle_t handle; DWORD __pad; ULONGLONG lparam; }; /* the structures are unpacked on top of the packed ones, so make sure they fit */ C_ASSERT( sizeof(struct packed_CREATESTRUCTW) >= sizeof(CREATESTRUCTW) ); C_ASSERT( sizeof(struct packed_DRAWITEMSTRUCT) >= sizeof(DRAWITEMSTRUCT) ); C_ASSERT( sizeof(struct packed_MEASUREITEMSTRUCT) >= sizeof(MEASUREITEMSTRUCT) ); C_ASSERT( sizeof(struct packed_DELETEITEMSTRUCT) >= sizeof(DELETEITEMSTRUCT) ); C_ASSERT( sizeof(struct packed_COMPAREITEMSTRUCT) >= sizeof(COMPAREITEMSTRUCT) ); C_ASSERT( sizeof(struct packed_WINDOWPOS) >= sizeof(WINDOWPOS) ); C_ASSERT( sizeof(struct packed_COPYDATASTRUCT) >= sizeof(COPYDATASTRUCT) ); C_ASSERT( sizeof(struct packed_HELPINFO) >= sizeof(HELPINFO) ); C_ASSERT( sizeof(struct packed_NCCALCSIZE_PARAMS) >= sizeof(NCCALCSIZE_PARAMS) + sizeof(WINDOWPOS) ); C_ASSERT( sizeof(struct packed_MSG) >= sizeof(MSG) ); C_ASSERT( sizeof(struct packed_MDINEXTMENU) >= sizeof(MDINEXTMENU) ); C_ASSERT( sizeof(struct packed_MDICREATESTRUCTW) >= sizeof(MDICREATESTRUCTW) ); C_ASSERT( sizeof(struct packed_hook_extra_info) >= sizeof(struct hook_extra_info) ); union packed_structs { struct packed_CREATESTRUCTW cs; struct packed_DRAWITEMSTRUCT dis; struct packed_MEASUREITEMSTRUCT mis; struct packed_DELETEITEMSTRUCT dls; struct packed_COMPAREITEMSTRUCT cis; struct packed_WINDOWPOS wp; struct packed_COPYDATASTRUCT cds; struct packed_HELPINFO hi; struct packed_NCCALCSIZE_PARAMS ncp; struct packed_MSG msg; struct packed_MDINEXTMENU mnm; struct packed_MDICREATESTRUCTW mcs; struct packed_hook_extra_info hook; }; /* description of the data fields that need to be packed along with a sent message */ struct packed_message { union packed_structs ps; int count; const void *data[MAX_PACK_COUNT]; size_t size[MAX_PACK_COUNT]; }; /* info about the message currently being received by the current thread */ struct received_message_info { enum message_type type; MSG msg; UINT flags; /* InSendMessageEx return flags */ }; /* structure to group all parameters for sent messages of the various kinds */ struct send_message_info { enum message_type type; DWORD dest_tid; HWND hwnd; UINT msg; WPARAM wparam; LPARAM lparam; UINT flags; /* flags for SendMessageTimeout */ UINT timeout; /* timeout for SendMessageTimeout */ SENDASYNCPROC callback; /* callback function for SendMessageCallback */ ULONG_PTR data; /* callback data */ enum wm_char_mapping wm_char; }; /* Message class descriptor */ static const WCHAR messageW[] = {'M','e','s','s','a','g','e',0}; const struct builtin_class_descr MESSAGE_builtin_class = { messageW, /* name */ 0, /* style */ WINPROC_MESSAGE, /* proc */ 0, /* extra */ 0, /* cursor */ 0 /* brush */ }; /* flag for messages that contain pointers */ /* 32 messages per entry, messages 0..31 map to bits 0..31 */ #define SET(msg) (1 << ((msg) & 31)) static const unsigned int message_pointer_flags[] = { /* 0x00 - 0x1f */ SET(WM_CREATE) | SET(WM_SETTEXT) | SET(WM_GETTEXT) | SET(WM_WININICHANGE) | SET(WM_DEVMODECHANGE), /* 0x20 - 0x3f */ SET(WM_GETMINMAXINFO) | SET(WM_DRAWITEM) | SET(WM_MEASUREITEM) | SET(WM_DELETEITEM) | SET(WM_COMPAREITEM), /* 0x40 - 0x5f */ SET(WM_WINDOWPOSCHANGING) | SET(WM_WINDOWPOSCHANGED) | SET(WM_COPYDATA) | SET(WM_HELP), /* 0x60 - 0x7f */ SET(WM_STYLECHANGING) | SET(WM_STYLECHANGED), /* 0x80 - 0x9f */ SET(WM_NCCREATE) | SET(WM_NCCALCSIZE) | SET(WM_GETDLGCODE), /* 0xa0 - 0xbf */ SET(EM_GETSEL) | SET(EM_GETRECT) | SET(EM_SETRECT) | SET(EM_SETRECTNP), /* 0xc0 - 0xdf */ SET(EM_REPLACESEL) | SET(EM_GETLINE) | SET(EM_SETTABSTOPS), /* 0xe0 - 0xff */ SET(SBM_GETRANGE) | SET(SBM_SETSCROLLINFO) | SET(SBM_GETSCROLLINFO) | SET(SBM_GETSCROLLBARINFO), /* 0x100 - 0x11f */ 0, /* 0x120 - 0x13f */ 0, /* 0x140 - 0x15f */ SET(CB_GETEDITSEL) | SET(CB_ADDSTRING) | SET(CB_DIR) | SET(CB_GETLBTEXT) | SET(CB_INSERTSTRING) | SET(CB_FINDSTRING) | SET(CB_SELECTSTRING) | SET(CB_GETDROPPEDCONTROLRECT) | SET(CB_FINDSTRINGEXACT), /* 0x160 - 0x17f */ 0, /* 0x180 - 0x19f */ SET(LB_ADDSTRING) | SET(LB_INSERTSTRING) | SET(LB_GETTEXT) | SET(LB_SELECTSTRING) | SET(LB_DIR) | SET(LB_FINDSTRING) | SET(LB_GETSELITEMS) | SET(LB_SETTABSTOPS) | SET(LB_ADDFILE) | SET(LB_GETITEMRECT), /* 0x1a0 - 0x1bf */ SET(LB_FINDSTRINGEXACT), /* 0x1c0 - 0x1df */ 0, /* 0x1e0 - 0x1ff */ 0, /* 0x200 - 0x21f */ SET(WM_NEXTMENU) | SET(WM_SIZING) | SET(WM_MOVING) | SET(WM_DEVICECHANGE), /* 0x220 - 0x23f */ SET(WM_MDICREATE) | SET(WM_MDIGETACTIVE) | SET(WM_DROPOBJECT) | SET(WM_QUERYDROPOBJECT) | SET(WM_DRAGLOOP) | SET(WM_DRAGSELECT) | SET(WM_DRAGMOVE), /* 0x240 - 0x25f */ 0, /* 0x260 - 0x27f */ 0, /* 0x280 - 0x29f */ 0, /* 0x2a0 - 0x2bf */ 0, /* 0x2c0 - 0x2df */ 0, /* 0x2e0 - 0x2ff */ 0, /* 0x300 - 0x31f */ SET(WM_ASKCBFORMATNAME) }; /* flags for messages that contain Unicode strings */ static const unsigned int message_unicode_flags[] = { /* 0x00 - 0x1f */ SET(WM_CREATE) | SET(WM_SETTEXT) | SET(WM_GETTEXT) | SET(WM_GETTEXTLENGTH) | SET(WM_WININICHANGE) | SET(WM_DEVMODECHANGE), /* 0x20 - 0x3f */ SET(WM_CHARTOITEM), /* 0x40 - 0x5f */ 0, /* 0x60 - 0x7f */ 0, /* 0x80 - 0x9f */ SET(WM_NCCREATE), /* 0xa0 - 0xbf */ 0, /* 0xc0 - 0xdf */ SET(EM_REPLACESEL) | SET(EM_GETLINE) | SET(EM_SETPASSWORDCHAR), /* 0xe0 - 0xff */ 0, /* 0x100 - 0x11f */ SET(WM_CHAR) | SET(WM_DEADCHAR) | SET(WM_SYSCHAR) | SET(WM_SYSDEADCHAR), /* 0x120 - 0x13f */ SET(WM_MENUCHAR), /* 0x140 - 0x15f */ SET(CB_ADDSTRING) | SET(CB_DIR) | SET(CB_GETLBTEXT) | SET(CB_GETLBTEXTLEN) | SET(CB_INSERTSTRING) | SET(CB_FINDSTRING) | SET(CB_SELECTSTRING) | SET(CB_FINDSTRINGEXACT), /* 0x160 - 0x17f */ 0, /* 0x180 - 0x19f */ SET(LB_ADDSTRING) | SET(LB_INSERTSTRING) | SET(LB_GETTEXT) | SET(LB_GETTEXTLEN) | SET(LB_SELECTSTRING) | SET(LB_DIR) | SET(LB_FINDSTRING) | SET(LB_ADDFILE), /* 0x1a0 - 0x1bf */ SET(LB_FINDSTRINGEXACT), /* 0x1c0 - 0x1df */ 0, /* 0x1e0 - 0x1ff */ 0, /* 0x200 - 0x21f */ 0, /* 0x220 - 0x23f */ SET(WM_MDICREATE), /* 0x240 - 0x25f */ 0, /* 0x260 - 0x27f */ 0, /* 0x280 - 0x29f */ SET(WM_IME_CHAR), /* 0x2a0 - 0x2bf */ 0, /* 0x2c0 - 0x2df */ 0, /* 0x2e0 - 0x2ff */ 0, /* 0x300 - 0x31f */ SET(WM_PAINTCLIPBOARD) | SET(WM_SIZECLIPBOARD) | SET(WM_ASKCBFORMATNAME) }; /* check whether a given message type includes pointers */ static inline BOOL is_pointer_message( UINT message, WPARAM wparam ) { if (message >= 8*sizeof(message_pointer_flags)) return FALSE; if (message == WM_DEVICECHANGE && !(wparam & 0x8000)) return FALSE; return (message_pointer_flags[message / 32] & SET(message)) != 0; } /* check whether a given message type contains Unicode (or ASCII) chars */ static inline BOOL is_unicode_message( UINT message ) { if (message >= 8*sizeof(message_unicode_flags)) return FALSE; return (message_unicode_flags[message / 32] & SET(message)) != 0; } #undef SET /* add a data field to a packed message */ static inline void push_data( struct packed_message *data, const void *ptr, size_t size ) { data->data[data->count] = ptr; data->size[data->count] = size; data->count++; } /* add a string to a packed message */ static inline void push_string( struct packed_message *data, LPCWSTR str ) { push_data( data, str, (strlenW(str) + 1) * sizeof(WCHAR) ); } /* make sure that the buffer contains a valid null-terminated Unicode string */ static inline BOOL check_string( LPCWSTR str, size_t size ) { for (size /= sizeof(WCHAR); size; size--, str++) if (!*str) return TRUE; return FALSE; } /* pack a pointer into a 32/64 portable format */ static inline ULONGLONG pack_ptr( const void *ptr ) { return (ULONG_PTR)ptr; } /* unpack a potentially 64-bit pointer, returning 0 when truncated */ static inline void *unpack_ptr( ULONGLONG ptr64 ) { if ((ULONG_PTR)ptr64 != ptr64) return 0; return (void *)(ULONG_PTR)ptr64; } /* make sure that there is space for 'size' bytes in buffer, growing it if needed */ static inline void *get_buffer_space( void **buffer, size_t size ) { void *ret; if (*buffer) { if (!(ret = HeapReAlloc( GetProcessHeap(), 0, *buffer, size ))) HeapFree( GetProcessHeap(), 0, *buffer ); } else ret = HeapAlloc( GetProcessHeap(), 0, size ); *buffer = ret; return ret; } /* check whether a combobox expects strings or ids in CB_ADDSTRING/CB_INSERTSTRING */ static inline BOOL combobox_has_strings( HWND hwnd ) { DWORD style = GetWindowLongA( hwnd, GWL_STYLE ); return (!(style & (CBS_OWNERDRAWFIXED | CBS_OWNERDRAWVARIABLE)) || (style & CBS_HASSTRINGS)); } /* check whether a listbox expects strings or ids in LB_ADDSTRING/LB_INSERTSTRING */ static inline BOOL listbox_has_strings( HWND hwnd ) { DWORD style = GetWindowLongA( hwnd, GWL_STYLE ); return (!(style & (LBS_OWNERDRAWFIXED | LBS_OWNERDRAWVARIABLE)) || (style & LBS_HASSTRINGS)); } /* check whether message is in the range of keyboard messages */ static inline BOOL is_keyboard_message( UINT message ) { return (message >= WM_KEYFIRST && message <= WM_KEYLAST); } /* check whether message is in the range of mouse messages */ static inline BOOL is_mouse_message( UINT message ) { return ((message >= WM_NCMOUSEFIRST && message <= WM_NCMOUSELAST) || (message >= WM_MOUSEFIRST && message <= WM_MOUSELAST)); } /* check whether message matches the specified hwnd filter */ static inline BOOL check_hwnd_filter( const MSG *msg, HWND hwnd_filter ) { if (!hwnd_filter || hwnd_filter == GetDesktopWindow()) return TRUE; return (msg->hwnd == hwnd_filter || IsChild( hwnd_filter, msg->hwnd )); } /* check for pending WM_CHAR message with DBCS trailing byte */ static inline BOOL get_pending_wmchar( MSG *msg, UINT first, UINT last, BOOL remove ) { struct wm_char_mapping_data *data = get_user_thread_info()->wmchar_data; if (!data || !data->get_msg.message) return FALSE; if ((first || last) && (first > WM_CHAR || last < WM_CHAR)) return FALSE; if (!msg) return FALSE; *msg = data->get_msg; if (remove) data->get_msg.message = 0; return TRUE; } /*********************************************************************** * MessageWndProc * * Window procedure for "Message" windows (HWND_MESSAGE parent). */ LRESULT WINAPI MessageWndProc( HWND hwnd, UINT message, WPARAM wParam, LPARAM lParam ) { if (message == WM_NCCREATE) return TRUE; return 0; /* all other messages are ignored */ } /*********************************************************************** * broadcast_message_callback * * Helper callback for broadcasting messages. */ static BOOL CALLBACK broadcast_message_callback( HWND hwnd, LPARAM lparam ) { struct send_message_info *info = (struct send_message_info *)lparam; if (!(GetWindowLongW( hwnd, GWL_STYLE ) & (WS_POPUP|WS_CAPTION))) return TRUE; switch(info->type) { case MSG_UNICODE: SendMessageTimeoutW( hwnd, info->msg, info->wparam, info->lparam, info->flags, info->timeout, NULL ); break; case MSG_ASCII: SendMessageTimeoutA( hwnd, info->msg, info->wparam, info->lparam, info->flags, info->timeout, NULL ); break; case MSG_NOTIFY: SendNotifyMessageW( hwnd, info->msg, info->wparam, info->lparam ); break; case MSG_CALLBACK: SendMessageCallbackW( hwnd, info->msg, info->wparam, info->lparam, info->callback, info->data ); break; case MSG_POSTED: PostMessageW( hwnd, info->msg, info->wparam, info->lparam ); break; default: ERR( "bad type %d\n", info->type ); break; } return TRUE; } DWORD get_input_codepage( void ) { DWORD cp; int ret; HKL hkl = GetKeyboardLayout( 0 ); ret = GetLocaleInfoW( LOWORD(hkl), LOCALE_IDEFAULTANSICODEPAGE | LOCALE_RETURN_NUMBER, (WCHAR *)&cp, sizeof(cp) / sizeof(WCHAR) ); if (!ret) cp = CP_ACP; return cp; } /*********************************************************************** * map_wparam_AtoW * * Convert the wparam of an ASCII message to Unicode. */ BOOL map_wparam_AtoW( UINT message, WPARAM *wparam, enum wm_char_mapping mapping ) { char ch[2]; WCHAR wch[2]; DWORD cp = get_input_codepage(); wch[0] = wch[1] = 0; switch(message) { case WM_CHAR: /* WM_CHAR is magic: a DBCS char can be sent/posted as two consecutive WM_CHAR * messages, in which case the first char is stored, and the conversion * to Unicode only takes place once the second char is sent/posted. */ if (mapping != WMCHAR_MAP_NOMAPPING) { struct wm_char_mapping_data *data = get_user_thread_info()->wmchar_data; BYTE low = LOBYTE(*wparam); if (HIBYTE(*wparam)) { ch[0] = low; ch[1] = HIBYTE(*wparam); MultiByteToWideChar( cp, 0, ch, 2, wch, 2 ); TRACE( "map %02x,%02x -> %04x mapping %u\n", (BYTE)ch[0], (BYTE)ch[1], wch[0], mapping ); if (data) data->lead_byte[mapping] = 0; } else if (data && data->lead_byte[mapping]) { ch[0] = data->lead_byte[mapping]; ch[1] = low; MultiByteToWideChar( cp, 0, ch, 2, wch, 2 ); TRACE( "map stored %02x,%02x -> %04x mapping %u\n", (BYTE)ch[0], (BYTE)ch[1], wch[0], mapping ); data->lead_byte[mapping] = 0; } else if (!IsDBCSLeadByte( low )) { ch[0] = low; MultiByteToWideChar( cp, 0, ch, 1, wch, 2 ); TRACE( "map %02x -> %04x\n", (BYTE)ch[0], wch[0] ); if (data) data->lead_byte[mapping] = 0; } else /* store it and wait for trail byte */ { if (!data) { if (!(data = HeapAlloc( GetProcessHeap(), HEAP_ZERO_MEMORY, sizeof(*data) ))) return FALSE; get_user_thread_info()->wmchar_data = data; } TRACE( "storing lead byte %02x mapping %u\n", low, mapping ); data->lead_byte[mapping] = low; return FALSE; } *wparam = MAKEWPARAM(wch[0], wch[1]); break; } /* else fall through */ case WM_CHARTOITEM: case EM_SETPASSWORDCHAR: case WM_DEADCHAR: case WM_SYSCHAR: case WM_SYSDEADCHAR: case WM_MENUCHAR: ch[0] = LOBYTE(*wparam); ch[1] = HIBYTE(*wparam); MultiByteToWideChar( cp, 0, ch, 2, wch, 2 ); *wparam = MAKEWPARAM(wch[0], wch[1]); break; case WM_IME_CHAR: ch[0] = HIBYTE(*wparam); ch[1] = LOBYTE(*wparam); if (ch[0]) MultiByteToWideChar( cp, 0, ch, 2, wch, 2 ); else MultiByteToWideChar( cp, 0, ch + 1, 1, wch, 1 ); *wparam = MAKEWPARAM(wch[0], HIWORD(*wparam)); break; } return TRUE; } /*********************************************************************** * map_wparam_WtoA * * Convert the wparam of a Unicode message to ASCII. */ static void map_wparam_WtoA( MSG *msg, BOOL remove ) { BYTE ch[4]; WCHAR wch[2]; DWORD len; DWORD cp = get_input_codepage(); switch(msg->message) { case WM_CHAR: if (!HIWORD(msg->wParam)) { wch[0] = LOWORD(msg->wParam); ch[0] = ch[1] = 0; len = WideCharToMultiByte( cp, 0, wch, 1, (LPSTR)ch, 2, NULL, NULL ); if (len == 2) /* DBCS char */ { struct wm_char_mapping_data *data = get_user_thread_info()->wmchar_data; if (!data) { if (!(data = HeapAlloc( GetProcessHeap(), HEAP_ZERO_MEMORY, sizeof(*data) ))) return; get_user_thread_info()->wmchar_data = data; } if (remove) { data->get_msg = *msg; data->get_msg.wParam = ch[1]; } msg->wParam = ch[0]; return; } } /* else fall through */ case WM_CHARTOITEM: case EM_SETPASSWORDCHAR: case WM_DEADCHAR: case WM_SYSCHAR: case WM_SYSDEADCHAR: case WM_MENUCHAR: wch[0] = LOWORD(msg->wParam); wch[1] = HIWORD(msg->wParam); ch[0] = ch[1] = 0; WideCharToMultiByte( cp, 0, wch, 2, (LPSTR)ch, 4, NULL, NULL ); msg->wParam = MAKEWPARAM( ch[0] | (ch[1] << 8), 0 ); break; case WM_IME_CHAR: wch[0] = LOWORD(msg->wParam); ch[0] = ch[1] = 0; len = WideCharToMultiByte( cp, 0, wch, 1, (LPSTR)ch, 2, NULL, NULL ); if (len == 2) msg->wParam = MAKEWPARAM( (ch[0] << 8) | ch[1], HIWORD(msg->wParam) ); else msg->wParam = MAKEWPARAM( ch[0], HIWORD(msg->wParam) ); break; } } /*********************************************************************** * pack_message * * Pack a message for sending to another process. * Return the size of the data we expect in the message reply. * Set data->count to -1 if there is an error. */ static size_t pack_message( HWND hwnd, UINT message, WPARAM wparam, LPARAM lparam, struct packed_message *data ) { data->count = 0; switch(message) { case WM_NCCREATE: case WM_CREATE: { CREATESTRUCTW *cs = (CREATESTRUCTW *)lparam; data->ps.cs.lpCreateParams = pack_ptr( cs->lpCreateParams ); data->ps.cs.hInstance = pack_ptr( cs->hInstance ); data->ps.cs.hMenu = wine_server_user_handle( cs->hMenu ); data->ps.cs.hwndParent = wine_server_user_handle( cs->hwndParent ); data->ps.cs.cy = cs->cy; data->ps.cs.cx = cs->cx; data->ps.cs.y = cs->y; data->ps.cs.x = cs->x; data->ps.cs.style = cs->style; data->ps.cs.dwExStyle = cs->dwExStyle; data->ps.cs.lpszName = pack_ptr( cs->lpszName ); data->ps.cs.lpszClass = pack_ptr( cs->lpszClass ); push_data( data, &data->ps.cs, sizeof(data->ps.cs) ); if (!IS_INTRESOURCE(cs->lpszName)) push_string( data, cs->lpszName ); if (!IS_INTRESOURCE(cs->lpszClass)) push_string( data, cs->lpszClass ); return sizeof(data->ps.cs); } case WM_GETTEXT: case WM_ASKCBFORMATNAME: return wparam * sizeof(WCHAR); case WM_WININICHANGE: if (lparam) push_string(data, (LPWSTR)lparam ); return 0; case WM_SETTEXT: case WM_DEVMODECHANGE: case CB_DIR: case LB_DIR: case LB_ADDFILE: case EM_REPLACESEL: push_string( data, (LPWSTR)lparam ); return 0; case WM_GETMINMAXINFO: push_data( data, (MINMAXINFO *)lparam, sizeof(MINMAXINFO) ); return sizeof(MINMAXINFO); case WM_DRAWITEM: { DRAWITEMSTRUCT *dis = (DRAWITEMSTRUCT *)lparam; data->ps.dis.CtlType = dis->CtlType; data->ps.dis.CtlID = dis->CtlID; data->ps.dis.itemID = dis->itemID; data->ps.dis.itemAction = dis->itemAction; data->ps.dis.itemState = dis->itemState; data->ps.dis.hwndItem = wine_server_user_handle( dis->hwndItem ); data->ps.dis.hDC = wine_server_user_handle( dis->hDC ); /* FIXME */ data->ps.dis.rcItem = dis->rcItem; data->ps.dis.itemData = dis->itemData; push_data( data, &data->ps.dis, sizeof(data->ps.dis) ); return 0; } case WM_MEASUREITEM: { MEASUREITEMSTRUCT *mis = (MEASUREITEMSTRUCT *)lparam; data->ps.mis.CtlType = mis->CtlType; data->ps.mis.CtlID = mis->CtlID; data->ps.mis.itemID = mis->itemID; data->ps.mis.itemWidth = mis->itemWidth; data->ps.mis.itemHeight = mis->itemHeight; data->ps.mis.itemData = mis->itemData; push_data( data, &data->ps.mis, sizeof(data->ps.mis) ); return sizeof(data->ps.mis); } case WM_DELETEITEM: { DELETEITEMSTRUCT *dls = (DELETEITEMSTRUCT *)lparam; data->ps.dls.CtlType = dls->CtlType; data->ps.dls.CtlID = dls->CtlID; data->ps.dls.itemID = dls->itemID; data->ps.dls.hwndItem = wine_server_user_handle( dls->hwndItem ); data->ps.dls.itemData = dls->itemData; push_data( data, &data->ps.dls, sizeof(data->ps.dls) ); return 0; } case WM_COMPAREITEM: { COMPAREITEMSTRUCT *cis = (COMPAREITEMSTRUCT *)lparam; data->ps.cis.CtlType = cis->CtlType; data->ps.cis.CtlID = cis->CtlID; data->ps.cis.hwndItem = wine_server_user_handle( cis->hwndItem ); data->ps.cis.itemID1 = cis->itemID1; data->ps.cis.itemData1 = cis->itemData1; data->ps.cis.itemID2 = cis->itemID2; data->ps.cis.itemData2 = cis->itemData2; data->ps.cis.dwLocaleId = cis->dwLocaleId; push_data( data, &data->ps.cis, sizeof(data->ps.cis) ); return 0; } case WM_WINE_SETWINDOWPOS: case WM_WINDOWPOSCHANGING: case WM_WINDOWPOSCHANGED: { WINDOWPOS *wp = (WINDOWPOS *)lparam; data->ps.wp.hwnd = wine_server_user_handle( wp->hwnd ); data->ps.wp.hwndInsertAfter = wine_server_user_handle( wp->hwndInsertAfter ); data->ps.wp.x = wp->x; data->ps.wp.y = wp->y; data->ps.wp.cx = wp->cx; data->ps.wp.cy = wp->cy; data->ps.wp.flags = wp->flags; push_data( data, &data->ps.wp, sizeof(data->ps.wp) ); return sizeof(data->ps.wp); } case WM_COPYDATA: { COPYDATASTRUCT *cds = (COPYDATASTRUCT *)lparam; data->ps.cds.cbData = cds->cbData; data->ps.cds.dwData = cds->dwData; data->ps.cds.lpData = pack_ptr( cds->lpData ); push_data( data, &data->ps.cds, sizeof(data->ps.cds) ); if (cds->lpData) push_data( data, cds->lpData, cds->cbData ); return 0; } case WM_NOTIFY: /* WM_NOTIFY cannot be sent across processes (MSDN) */ data->count = -1; return 0; case WM_HELP: { HELPINFO *hi = (HELPINFO *)lparam; data->ps.hi.iContextType = hi->iContextType; data->ps.hi.iCtrlId = hi->iCtrlId; data->ps.hi.hItemHandle = wine_server_user_handle( hi->hItemHandle ); data->ps.hi.dwContextId = hi->dwContextId; data->ps.hi.MousePos = hi->MousePos; push_data( data, &data->ps.hi, sizeof(data->ps.hi) ); return 0; } case WM_STYLECHANGING: case WM_STYLECHANGED: push_data( data, (STYLESTRUCT *)lparam, sizeof(STYLESTRUCT) ); return 0; case WM_NCCALCSIZE: if (!wparam) { push_data( data, (RECT *)lparam, sizeof(RECT) ); return sizeof(RECT); } else { NCCALCSIZE_PARAMS *ncp = (NCCALCSIZE_PARAMS *)lparam; data->ps.ncp.rgrc[0] = ncp->rgrc[0]; data->ps.ncp.rgrc[1] = ncp->rgrc[1]; data->ps.ncp.rgrc[2] = ncp->rgrc[2]; data->ps.ncp.hwnd = wine_server_user_handle( ncp->lppos->hwnd ); data->ps.ncp.hwndInsertAfter = wine_server_user_handle( ncp->lppos->hwndInsertAfter ); data->ps.ncp.x = ncp->lppos->x; data->ps.ncp.y = ncp->lppos->y; data->ps.ncp.cx = ncp->lppos->cx; data->ps.ncp.cy = ncp->lppos->cy; data->ps.ncp.flags = ncp->lppos->flags; push_data( data, &data->ps.ncp, sizeof(data->ps.ncp) ); return sizeof(data->ps.ncp); } case WM_GETDLGCODE: if (lparam) { MSG *msg = (MSG *)lparam; data->ps.msg.hwnd = wine_server_user_handle( msg->hwnd ); data->ps.msg.message = msg->message; data->ps.msg.wParam = msg->wParam; data->ps.msg.lParam = msg->lParam; data->ps.msg.time = msg->time; data->ps.msg.pt = msg->pt; push_data( data, &data->ps.msg, sizeof(data->ps.msg) ); return sizeof(data->ps.msg); } return 0; case SBM_SETSCROLLINFO: push_data( data, (SCROLLINFO *)lparam, sizeof(SCROLLINFO) ); return 0; case SBM_GETSCROLLINFO: push_data( data, (SCROLLINFO *)lparam, sizeof(SCROLLINFO) ); return sizeof(SCROLLINFO); case SBM_GETSCROLLBARINFO: { const SCROLLBARINFO *info = (const SCROLLBARINFO *)lparam; size_t size = min( info->cbSize, sizeof(SCROLLBARINFO) ); push_data( data, info, size ); return size; } case EM_GETSEL: case SBM_GETRANGE: case CB_GETEDITSEL: { size_t size = 0; if (wparam) size += sizeof(DWORD); if (lparam) size += sizeof(DWORD); return size; } case EM_GETRECT: case LB_GETITEMRECT: case CB_GETDROPPEDCONTROLRECT: return sizeof(RECT); case EM_SETRECT: case EM_SETRECTNP: push_data( data, (RECT *)lparam, sizeof(RECT) ); return 0; case EM_GETLINE: { WORD *pw = (WORD *)lparam; push_data( data, pw, sizeof(*pw) ); return *pw * sizeof(WCHAR); } case EM_SETTABSTOPS: case LB_SETTABSTOPS: if (wparam) push_data( data, (UINT *)lparam, sizeof(UINT) * wparam ); return 0; case CB_ADDSTRING: case CB_INSERTSTRING: case CB_FINDSTRING: case CB_FINDSTRINGEXACT: case CB_SELECTSTRING: if (combobox_has_strings( hwnd )) push_string( data, (LPWSTR)lparam ); return 0; case CB_GETLBTEXT: if (!combobox_has_strings( hwnd )) return sizeof(ULONG_PTR); return (SendMessageW( hwnd, CB_GETLBTEXTLEN, wparam, 0 ) + 1) * sizeof(WCHAR); case LB_ADDSTRING: case LB_INSERTSTRING: case LB_FINDSTRING: case LB_FINDSTRINGEXACT: case LB_SELECTSTRING: if (listbox_has_strings( hwnd )) push_string( data, (LPWSTR)lparam ); return 0; case LB_GETTEXT: if (!listbox_has_strings( hwnd )) return sizeof(ULONG_PTR); return (SendMessageW( hwnd, LB_GETTEXTLEN, wparam, 0 ) + 1) * sizeof(WCHAR); case LB_GETSELITEMS: return wparam * sizeof(UINT); case WM_NEXTMENU: { MDINEXTMENU *mnm = (MDINEXTMENU *)lparam; data->ps.mnm.hmenuIn = wine_server_user_handle( mnm->hmenuIn ); data->ps.mnm.hmenuNext = wine_server_user_handle( mnm->hmenuNext ); data->ps.mnm.hwndNext = wine_server_user_handle( mnm->hwndNext ); push_data( data, &data->ps.mnm, sizeof(data->ps.mnm) ); return sizeof(data->ps.mnm); } case WM_SIZING: case WM_MOVING: push_data( data, (RECT *)lparam, sizeof(RECT) ); return sizeof(RECT); case WM_MDICREATE: { MDICREATESTRUCTW *mcs = (MDICREATESTRUCTW *)lparam; data->ps.mcs.szClass = pack_ptr( mcs->szClass ); data->ps.mcs.szTitle = pack_ptr( mcs->szTitle ); data->ps.mcs.hOwner = pack_ptr( mcs->hOwner ); data->ps.mcs.x = mcs->x; data->ps.mcs.y = mcs->y; data->ps.mcs.cx = mcs->cx; data->ps.mcs.cy = mcs->cy; data->ps.mcs.style = mcs->style; data->ps.mcs.lParam = mcs->lParam; push_data( data, &data->ps.mcs, sizeof(data->ps.mcs) ); if (!IS_INTRESOURCE(mcs->szClass)) push_string( data, mcs->szClass ); if (!IS_INTRESOURCE(mcs->szTitle)) push_string( data, mcs->szTitle ); return sizeof(data->ps.mcs); } case WM_MDIGETACTIVE: if (lparam) return sizeof(BOOL); return 0; case WM_DEVICECHANGE: { DEV_BROADCAST_HDR *header = (DEV_BROADCAST_HDR *)lparam; push_data( data, header, header->dbch_size ); return 0; } case WM_WINE_KEYBOARD_LL_HOOK: { struct hook_extra_info *h_extra = (struct hook_extra_info *)lparam; data->ps.hook.handle = wine_server_user_handle( h_extra->handle ); push_data( data, &data->ps.hook, sizeof(data->ps.hook) ); push_data( data, (LPVOID)h_extra->lparam, sizeof(KBDLLHOOKSTRUCT) ); return 0; } case WM_WINE_MOUSE_LL_HOOK: { struct hook_extra_info *h_extra = (struct hook_extra_info *)lparam; data->ps.hook.handle = wine_server_user_handle( h_extra->handle ); push_data( data, &data->ps.hook, sizeof(data->ps.hook) ); push_data( data, (LPVOID)h_extra->lparam, sizeof(MSLLHOOKSTRUCT) ); return 0; } case WM_NCPAINT: if (wparam <= 1) return 0; FIXME( "WM_NCPAINT hdc packing not supported yet\n" ); data->count = -1; return 0; case WM_PAINT: if (!wparam) return 0; /* fall through */ /* these contain an HFONT */ case WM_SETFONT: case WM_GETFONT: /* these contain an HDC */ case WM_ERASEBKGND: case WM_ICONERASEBKGND: case WM_CTLCOLORMSGBOX: case WM_CTLCOLOREDIT: case WM_CTLCOLORLISTBOX: case WM_CTLCOLORBTN: case WM_CTLCOLORDLG: case WM_CTLCOLORSCROLLBAR: case WM_CTLCOLORSTATIC: case WM_PRINT: case WM_PRINTCLIENT: /* these contain an HGLOBAL */ case WM_PAINTCLIPBOARD: case WM_SIZECLIPBOARD: /* these contain HICON */ case WM_GETICON: case WM_SETICON: case WM_QUERYDRAGICON: case WM_QUERYPARKICON: /* these contain pointers */ case WM_DROPOBJECT: case WM_QUERYDROPOBJECT: case WM_DRAGLOOP: case WM_DRAGSELECT: case WM_DRAGMOVE: FIXME( "msg %x (%s) not supported yet\n", message, SPY_GetMsgName(message, hwnd) ); data->count = -1; return 0; } return 0; } /*********************************************************************** * unpack_message * * Unpack a message received from another process. */ static BOOL unpack_message( HWND hwnd, UINT message, WPARAM *wparam, LPARAM *lparam, void **buffer, size_t size ) { size_t minsize = 0; union packed_structs *ps = *buffer; switch(message) { case WM_NCCREATE: case WM_CREATE: { CREATESTRUCTW cs; WCHAR *str = (WCHAR *)(&ps->cs + 1); if (size < sizeof(ps->cs)) return FALSE; size -= sizeof(ps->cs); cs.lpCreateParams = unpack_ptr( ps->cs.lpCreateParams ); cs.hInstance = unpack_ptr( ps->cs.hInstance ); cs.hMenu = wine_server_ptr_handle( ps->cs.hMenu ); cs.hwndParent = wine_server_ptr_handle( ps->cs.hwndParent ); cs.cy = ps->cs.cy; cs.cx = ps->cs.cx; cs.y = ps->cs.y; cs.x = ps->cs.x; cs.style = ps->cs.style; cs.dwExStyle = ps->cs.dwExStyle; cs.lpszName = unpack_ptr( ps->cs.lpszName ); cs.lpszClass = unpack_ptr( ps->cs.lpszClass ); if (ps->cs.lpszName >> 16) { if (!check_string( str, size )) return FALSE; cs.lpszName = str; size -= (strlenW(str) + 1) * sizeof(WCHAR); str += strlenW(str) + 1; } if (ps->cs.lpszClass >> 16) { if (!check_string( str, size )) return FALSE; cs.lpszClass = str; } memcpy( &ps->cs, &cs, sizeof(cs) ); break; } case WM_GETTEXT: case WM_ASKCBFORMATNAME: if (!get_buffer_space( buffer, (*wparam * sizeof(WCHAR)) )) return FALSE; break; case WM_WININICHANGE: if (!*lparam) return TRUE; /* fall through */ case WM_SETTEXT: case WM_DEVMODECHANGE: case CB_DIR: case LB_DIR: case LB_ADDFILE: case EM_REPLACESEL: if (!check_string( *buffer, size )) return FALSE; break; case WM_GETMINMAXINFO: minsize = sizeof(MINMAXINFO); break; case WM_DRAWITEM: { DRAWITEMSTRUCT dis; if (size < sizeof(ps->dis)) return FALSE; dis.CtlType = ps->dis.CtlType; dis.CtlID = ps->dis.CtlID; dis.itemID = ps->dis.itemID; dis.itemAction = ps->dis.itemAction; dis.itemState = ps->dis.itemState; dis.hwndItem = wine_server_ptr_handle( ps->dis.hwndItem ); dis.hDC = wine_server_ptr_handle( ps->dis.hDC ); dis.rcItem = ps->dis.rcItem; dis.itemData = (ULONG_PTR)unpack_ptr( ps->dis.itemData ); memcpy( &ps->dis, &dis, sizeof(dis) ); break; } case WM_MEASUREITEM: { MEASUREITEMSTRUCT mis; if (size < sizeof(ps->mis)) return FALSE; mis.CtlType = ps->mis.CtlType; mis.CtlID = ps->mis.CtlID; mis.itemID = ps->mis.itemID; mis.itemWidth = ps->mis.itemWidth; mis.itemHeight = ps->mis.itemHeight; mis.itemData = (ULONG_PTR)unpack_ptr( ps->mis.itemData ); memcpy( &ps->mis, &mis, sizeof(mis) ); break; } case WM_DELETEITEM: { DELETEITEMSTRUCT dls; if (size < sizeof(ps->dls)) return FALSE; dls.CtlType = ps->dls.CtlType; dls.CtlID = ps->dls.CtlID; dls.itemID = ps->dls.itemID; dls.hwndItem = wine_server_ptr_handle( ps->dls.hwndItem ); dls.itemData = (ULONG_PTR)unpack_ptr( ps->dls.itemData ); memcpy( &ps->dls, &dls, sizeof(dls) ); break; } case WM_COMPAREITEM: { COMPAREITEMSTRUCT cis; if (size < sizeof(ps->cis)) return FALSE; cis.CtlType = ps->cis.CtlType; cis.CtlID = ps->cis.CtlID; cis.hwndItem = wine_server_ptr_handle( ps->cis.hwndItem ); cis.itemID1 = ps->cis.itemID1; cis.itemData1 = (ULONG_PTR)unpack_ptr( ps->cis.itemData1 ); cis.itemID2 = ps->cis.itemID2; cis.itemData2 = (ULONG_PTR)unpack_ptr( ps->cis.itemData2 ); cis.dwLocaleId = ps->cis.dwLocaleId; memcpy( &ps->cis, &cis, sizeof(cis) ); break; } case WM_WINDOWPOSCHANGING: case WM_WINDOWPOSCHANGED: case WM_WINE_SETWINDOWPOS: { WINDOWPOS wp; if (size < sizeof(ps->wp)) return FALSE; wp.hwnd = wine_server_ptr_handle( ps->wp.hwnd ); wp.hwndInsertAfter = wine_server_ptr_handle( ps->wp.hwndInsertAfter ); wp.x = ps->wp.x; wp.y = ps->wp.y; wp.cx = ps->wp.cx; wp.cy = ps->wp.cy; wp.flags = ps->wp.flags; memcpy( &ps->wp, &wp, sizeof(wp) ); break; } case WM_COPYDATA: { COPYDATASTRUCT cds; if (size < sizeof(ps->cds)) return FALSE; cds.dwData = (ULONG_PTR)unpack_ptr( ps->cds.dwData ); if (ps->cds.lpData) { cds.cbData = ps->cds.cbData; cds.lpData = &ps->cds + 1; minsize = sizeof(ps->cds) + cds.cbData; } else { cds.cbData = 0; cds.lpData = 0; } memcpy( &ps->cds, &cds, sizeof(cds) ); break; } case WM_NOTIFY: /* WM_NOTIFY cannot be sent across processes (MSDN) */ return FALSE; case WM_HELP: { HELPINFO hi; if (size < sizeof(ps->hi)) return FALSE; hi.cbSize = sizeof(hi); hi.iContextType = ps->hi.iContextType; hi.iCtrlId = ps->hi.iCtrlId; hi.hItemHandle = wine_server_ptr_handle( ps->hi.hItemHandle ); hi.dwContextId = (ULONG_PTR)unpack_ptr( ps->hi.dwContextId ); hi.MousePos = ps->hi.MousePos; memcpy( &ps->hi, &hi, sizeof(hi) ); break; } case WM_STYLECHANGING: case WM_STYLECHANGED: minsize = sizeof(STYLESTRUCT); break; case WM_NCCALCSIZE: if (!*wparam) minsize = sizeof(RECT); else { NCCALCSIZE_PARAMS ncp; WINDOWPOS wp; if (size < sizeof(ps->ncp)) return FALSE; ncp.rgrc[0] = ps->ncp.rgrc[0]; ncp.rgrc[1] = ps->ncp.rgrc[1]; ncp.rgrc[2] = ps->ncp.rgrc[2]; wp.hwnd = wine_server_ptr_handle( ps->ncp.hwnd ); wp.hwndInsertAfter = wine_server_ptr_handle( ps->ncp.hwndInsertAfter ); wp.x = ps->ncp.x; wp.y = ps->ncp.y; wp.cx = ps->ncp.cx; wp.cy = ps->ncp.cy; wp.flags = ps->ncp.flags; ncp.lppos = (WINDOWPOS *)((NCCALCSIZE_PARAMS *)&ps->ncp + 1); memcpy( &ps->ncp, &ncp, sizeof(ncp) ); *ncp.lppos = wp; } break; case WM_GETDLGCODE: if (*lparam) { MSG msg; if (size < sizeof(ps->msg)) return FALSE; msg.hwnd = wine_server_ptr_handle( ps->msg.hwnd ); msg.message = ps->msg.message; msg.wParam = (ULONG_PTR)unpack_ptr( ps->msg.wParam ); msg.lParam = (ULONG_PTR)unpack_ptr( ps->msg.lParam ); msg.time = ps->msg.time; msg.pt = ps->msg.pt; memcpy( &ps->msg, &msg, sizeof(msg) ); break; } return TRUE; case SBM_SETSCROLLINFO: minsize = sizeof(SCROLLINFO); break; case SBM_GETSCROLLINFO: if (!get_buffer_space( buffer, sizeof(SCROLLINFO ))) return FALSE; break; case SBM_GETSCROLLBARINFO: if (!get_buffer_space( buffer, sizeof(SCROLLBARINFO ))) return FALSE; break; case EM_GETSEL: case SBM_GETRANGE: case CB_GETEDITSEL: if (*wparam || *lparam) { if (!get_buffer_space( buffer, 2*sizeof(DWORD) )) return FALSE; if (*wparam) *wparam = (WPARAM)*buffer; if (*lparam) *lparam = (LPARAM)((DWORD *)*buffer + 1); } return TRUE; case EM_GETRECT: case LB_GETITEMRECT: case CB_GETDROPPEDCONTROLRECT: if (!get_buffer_space( buffer, sizeof(RECT) )) return FALSE; break; case EM_SETRECT: case EM_SETRECTNP: minsize = sizeof(RECT); break; case EM_GETLINE: { WORD len; if (size < sizeof(WORD)) return FALSE; len = *(WORD *)*buffer; if (!get_buffer_space( buffer, (len + 1) * sizeof(WCHAR) )) return FALSE; *lparam = (LPARAM)*buffer + sizeof(WORD); /* don't erase WORD at start of buffer */ return TRUE; } case EM_SETTABSTOPS: case LB_SETTABSTOPS: if (!*wparam) return TRUE; minsize = *wparam * sizeof(UINT); break; case CB_ADDSTRING: case CB_INSERTSTRING: case CB_FINDSTRING: case CB_FINDSTRINGEXACT: case CB_SELECTSTRING: case LB_ADDSTRING: case LB_INSERTSTRING: case LB_FINDSTRING: case LB_FINDSTRINGEXACT: case LB_SELECTSTRING: if (!*buffer) return TRUE; if (!check_string( *buffer, size )) return FALSE; break; case CB_GETLBTEXT: { size = sizeof(ULONG_PTR); if (combobox_has_strings( hwnd )) size = (SendMessageW( hwnd, CB_GETLBTEXTLEN, *wparam, 0 ) + 1) * sizeof(WCHAR); if (!get_buffer_space( buffer, size )) return FALSE; break; } case LB_GETTEXT: { size = sizeof(ULONG_PTR); if (listbox_has_strings( hwnd )) size = (SendMessageW( hwnd, LB_GETTEXTLEN, *wparam, 0 ) + 1) * sizeof(WCHAR); if (!get_buffer_space( buffer, size )) return FALSE; break; } case LB_GETSELITEMS: if (!get_buffer_space( buffer, *wparam * sizeof(UINT) )) return FALSE; break; case WM_NEXTMENU: { MDINEXTMENU mnm; if (size < sizeof(ps->mnm)) return FALSE; mnm.hmenuIn = wine_server_ptr_handle( ps->mnm.hmenuIn ); mnm.hmenuNext = wine_server_ptr_handle( ps->mnm.hmenuNext ); mnm.hwndNext = wine_server_ptr_handle( ps->mnm.hwndNext ); memcpy( &ps->mnm, &mnm, sizeof(mnm) ); break; } case WM_SIZING: case WM_MOVING: minsize = sizeof(RECT); if (!get_buffer_space( buffer, sizeof(RECT) )) return FALSE; break; case WM_MDICREATE: { MDICREATESTRUCTW mcs; WCHAR *str = (WCHAR *)(&ps->mcs + 1); if (size < sizeof(ps->mcs)) return FALSE; size -= sizeof(ps->mcs); mcs.szClass = unpack_ptr( ps->mcs.szClass ); mcs.szTitle = unpack_ptr( ps->mcs.szTitle ); mcs.hOwner = unpack_ptr( ps->mcs.hOwner ); mcs.x = ps->mcs.x; mcs.y = ps->mcs.y; mcs.cx = ps->mcs.cx; mcs.cy = ps->mcs.cy; mcs.style = ps->mcs.style; mcs.lParam = (LPARAM)unpack_ptr( ps->mcs.lParam ); if (ps->mcs.szClass >> 16) { if (!check_string( str, size )) return FALSE; mcs.szClass = str; size -= (strlenW(str) + 1) * sizeof(WCHAR); str += strlenW(str) + 1; } if (ps->mcs.szTitle >> 16) { if (!check_string( str, size )) return FALSE; mcs.szTitle = str; } memcpy( &ps->mcs, &mcs, sizeof(mcs) ); break; } case WM_MDIGETACTIVE: if (!*lparam) return TRUE; if (!get_buffer_space( buffer, sizeof(BOOL) )) return FALSE; break; case WM_DEVICECHANGE: minsize = sizeof(DEV_BROADCAST_HDR); break; case WM_WINE_KEYBOARD_LL_HOOK: case WM_WINE_MOUSE_LL_HOOK: { struct hook_extra_info h_extra; minsize = sizeof(ps->hook) + (message == WM_WINE_KEYBOARD_LL_HOOK ? sizeof(KBDLLHOOKSTRUCT) : sizeof(MSLLHOOKSTRUCT)); if (size < minsize) return FALSE; h_extra.handle = wine_server_ptr_handle( ps->hook.handle ); h_extra.lparam = (LPARAM)(&ps->hook + 1); memcpy( &ps->hook, &h_extra, sizeof(h_extra) ); break; } case WM_NCPAINT: if (*wparam <= 1) return TRUE; FIXME( "WM_NCPAINT hdc unpacking not supported\n" ); return FALSE; case WM_PAINT: if (!*wparam) return TRUE; /* fall through */ /* these contain an HFONT */ case WM_SETFONT: case WM_GETFONT: /* these contain an HDC */ case WM_ERASEBKGND: case WM_ICONERASEBKGND: case WM_CTLCOLORMSGBOX: case WM_CTLCOLOREDIT: case WM_CTLCOLORLISTBOX: case WM_CTLCOLORBTN: case WM_CTLCOLORDLG: case WM_CTLCOLORSCROLLBAR: case WM_CTLCOLORSTATIC: case WM_PRINT: case WM_PRINTCLIENT: /* these contain an HGLOBAL */ case WM_PAINTCLIPBOARD: case WM_SIZECLIPBOARD: /* these contain HICON */ case WM_GETICON: case WM_SETICON: case WM_QUERYDRAGICON: case WM_QUERYPARKICON: /* these contain pointers */ case WM_DROPOBJECT: case WM_QUERYDROPOBJECT: case WM_DRAGLOOP: case WM_DRAGSELECT: case WM_DRAGMOVE: FIXME( "msg %x (%s) not supported yet\n", message, SPY_GetMsgName(message, hwnd) ); return FALSE; default: return TRUE; /* message doesn't need any unpacking */ } /* default exit for most messages: check minsize and store buffer in lparam */ if (size < minsize) return FALSE; *lparam = (LPARAM)*buffer; return TRUE; } /*********************************************************************** * pack_reply * * Pack a reply to a message for sending to another process. */ static void pack_reply( HWND hwnd, UINT message, WPARAM wparam, LPARAM lparam, LRESULT res, struct packed_message *data ) { data->count = 0; switch(message) { case WM_NCCREATE: case WM_CREATE: { CREATESTRUCTW *cs = (CREATESTRUCTW *)lparam; data->ps.cs.lpCreateParams = (ULONG_PTR)cs->lpCreateParams; data->ps.cs.hInstance = (ULONG_PTR)cs->hInstance; data->ps.cs.hMenu = wine_server_user_handle( cs->hMenu ); data->ps.cs.hwndParent = wine_server_user_handle( cs->hwndParent ); data->ps.cs.cy = cs->cy; data->ps.cs.cx = cs->cx; data->ps.cs.y = cs->y; data->ps.cs.x = cs->x; data->ps.cs.style = cs->style; data->ps.cs.dwExStyle = cs->dwExStyle; data->ps.cs.lpszName = (ULONG_PTR)cs->lpszName; data->ps.cs.lpszClass = (ULONG_PTR)cs->lpszClass; push_data( data, &data->ps.cs, sizeof(data->ps.cs) ); break; } case WM_GETTEXT: case CB_GETLBTEXT: case LB_GETTEXT: push_data( data, (WCHAR *)lparam, (res + 1) * sizeof(WCHAR) ); break; case WM_GETMINMAXINFO: push_data( data, (MINMAXINFO *)lparam, sizeof(MINMAXINFO) ); break; case WM_MEASUREITEM: { MEASUREITEMSTRUCT *mis = (MEASUREITEMSTRUCT *)lparam; data->ps.mis.CtlType = mis->CtlType; data->ps.mis.CtlID = mis->CtlID; data->ps.mis.itemID = mis->itemID; data->ps.mis.itemWidth = mis->itemWidth; data->ps.mis.itemHeight = mis->itemHeight; data->ps.mis.itemData = mis->itemData; push_data( data, &data->ps.mis, sizeof(data->ps.mis) ); break; } case WM_WINDOWPOSCHANGING: case WM_WINDOWPOSCHANGED: { WINDOWPOS *wp = (WINDOWPOS *)lparam; data->ps.wp.hwnd = wine_server_user_handle( wp->hwnd ); data->ps.wp.hwndInsertAfter = wine_server_user_handle( wp->hwndInsertAfter ); data->ps.wp.x = wp->x; data->ps.wp.y = wp->y; data->ps.wp.cx = wp->cx; data->ps.wp.cy = wp->cy; data->ps.wp.flags = wp->flags; push_data( data, &data->ps.wp, sizeof(data->ps.wp) ); break; } case WM_GETDLGCODE: if (lparam) { MSG *msg = (MSG *)lparam; data->ps.msg.hwnd = wine_server_user_handle( msg->hwnd ); data->ps.msg.message = msg->message; data->ps.msg.wParam = msg->wParam; data->ps.msg.lParam = msg->lParam; data->ps.msg.time = msg->time; data->ps.msg.pt = msg->pt; push_data( data, &data->ps.msg, sizeof(data->ps.msg) ); } break; case SBM_GETSCROLLINFO: push_data( data, (SCROLLINFO *)lparam, sizeof(SCROLLINFO) ); break; case EM_GETRECT: case LB_GETITEMRECT: case CB_GETDROPPEDCONTROLRECT: case WM_SIZING: case WM_MOVING: push_data( data, (RECT *)lparam, sizeof(RECT) ); break; case EM_GETLINE: { WORD *ptr = (WORD *)lparam; push_data( data, ptr, ptr[-1] * sizeof(WCHAR) ); break; } case LB_GETSELITEMS: push_data( data, (UINT *)lparam, wparam * sizeof(UINT) ); break; case WM_MDIGETACTIVE: if (lparam) push_data( data, (BOOL *)lparam, sizeof(BOOL) ); break; case WM_NCCALCSIZE: if (!wparam) push_data( data, (RECT *)lparam, sizeof(RECT) ); else { NCCALCSIZE_PARAMS *ncp = (NCCALCSIZE_PARAMS *)lparam; data->ps.ncp.rgrc[0] = ncp->rgrc[0]; data->ps.ncp.rgrc[1] = ncp->rgrc[1]; data->ps.ncp.rgrc[2] = ncp->rgrc[2]; data->ps.ncp.hwnd = wine_server_user_handle( ncp->lppos->hwnd ); data->ps.ncp.hwndInsertAfter = wine_server_user_handle( ncp->lppos->hwndInsertAfter ); data->ps.ncp.x = ncp->lppos->x; data->ps.ncp.y = ncp->lppos->y; data->ps.ncp.cx = ncp->lppos->cx; data->ps.ncp.cy = ncp->lppos->cy; data->ps.ncp.flags = ncp->lppos->flags; push_data( data, &data->ps.ncp, sizeof(data->ps.ncp) ); } break; case EM_GETSEL: case SBM_GETRANGE: case CB_GETEDITSEL: if (wparam) push_data( data, (DWORD *)wparam, sizeof(DWORD) ); if (lparam) push_data( data, (DWORD *)lparam, sizeof(DWORD) ); break; case WM_NEXTMENU: { MDINEXTMENU *mnm = (MDINEXTMENU *)lparam; data->ps.mnm.hmenuIn = wine_server_user_handle( mnm->hmenuIn ); data->ps.mnm.hmenuNext = wine_server_user_handle( mnm->hmenuNext ); data->ps.mnm.hwndNext = wine_server_user_handle( mnm->hwndNext ); push_data( data, &data->ps.mnm, sizeof(data->ps.mnm) ); break; } case WM_MDICREATE: { MDICREATESTRUCTW *mcs = (MDICREATESTRUCTW *)lparam; data->ps.mcs.szClass = pack_ptr( mcs->szClass ); data->ps.mcs.szTitle = pack_ptr( mcs->szTitle ); data->ps.mcs.hOwner = pack_ptr( mcs->hOwner ); data->ps.mcs.x = mcs->x; data->ps.mcs.y = mcs->y; data->ps.mcs.cx = mcs->cx; data->ps.mcs.cy = mcs->cy; data->ps.mcs.style = mcs->style; data->ps.mcs.lParam = mcs->lParam; push_data( data, &data->ps.mcs, sizeof(data->ps.mcs) ); break; } case WM_ASKCBFORMATNAME: push_data( data, (WCHAR *)lparam, (strlenW((WCHAR *)lparam) + 1) * sizeof(WCHAR) ); break; } } /*********************************************************************** * unpack_reply * * Unpack a message reply received from another process. */ static void unpack_reply( HWND hwnd, UINT message, WPARAM wparam, LPARAM lparam, void *buffer, size_t size ) { union packed_structs *ps = buffer; switch(message) { case WM_NCCREATE: case WM_CREATE: if (size >= sizeof(ps->cs)) { CREATESTRUCTW *cs = (CREATESTRUCTW *)lparam; cs->lpCreateParams = unpack_ptr( ps->cs.lpCreateParams ); cs->hInstance = unpack_ptr( ps->cs.hInstance ); cs->hMenu = wine_server_ptr_handle( ps->cs.hMenu ); cs->hwndParent = wine_server_ptr_handle( ps->cs.hwndParent ); cs->cy = ps->cs.cy; cs->cx = ps->cs.cx; cs->y = ps->cs.y; cs->x = ps->cs.x; cs->style = ps->cs.style; cs->dwExStyle = ps->cs.dwExStyle; /* don't allow changing name and class pointers */ } break; case WM_GETTEXT: case WM_ASKCBFORMATNAME: memcpy( (WCHAR *)lparam, buffer, min( wparam*sizeof(WCHAR), size )); break; case WM_GETMINMAXINFO: memcpy( (MINMAXINFO *)lparam, buffer, min( sizeof(MINMAXINFO), size )); break; case WM_MEASUREITEM: if (size >= sizeof(ps->mis)) { MEASUREITEMSTRUCT *mis = (MEASUREITEMSTRUCT *)lparam; mis->CtlType = ps->mis.CtlType; mis->CtlID = ps->mis.CtlID; mis->itemID = ps->mis.itemID; mis->itemWidth = ps->mis.itemWidth; mis->itemHeight = ps->mis.itemHeight; mis->itemData = (ULONG_PTR)unpack_ptr( ps->mis.itemData ); } break; case WM_WINDOWPOSCHANGING: case WM_WINDOWPOSCHANGED: if (size >= sizeof(ps->wp)) { WINDOWPOS *wp = (WINDOWPOS *)lparam; wp->hwnd = wine_server_ptr_handle( ps->wp.hwnd ); wp->hwndInsertAfter = wine_server_ptr_handle( ps->wp.hwndInsertAfter ); wp->x = ps->wp.x; wp->y = ps->wp.y; wp->cx = ps->wp.cx; wp->cy = ps->wp.cy; wp->flags = ps->wp.flags; } break; case WM_GETDLGCODE: if (lparam && size >= sizeof(ps->msg)) { MSG *msg = (MSG *)lparam; msg->hwnd = wine_server_ptr_handle( ps->msg.hwnd ); msg->message = ps->msg.message; msg->wParam = (ULONG_PTR)unpack_ptr( ps->msg.wParam ); msg->lParam = (ULONG_PTR)unpack_ptr( ps->msg.lParam ); msg->time = ps->msg.time; msg->pt = ps->msg.pt; } break; case SBM_GETSCROLLINFO: memcpy( (SCROLLINFO *)lparam, buffer, min( sizeof(SCROLLINFO), size )); break; case SBM_GETSCROLLBARINFO: memcpy( (SCROLLBARINFO *)lparam, buffer, min( sizeof(SCROLLBARINFO), size )); break; case EM_GETRECT: case CB_GETDROPPEDCONTROLRECT: case LB_GETITEMRECT: case WM_SIZING: case WM_MOVING: memcpy( (RECT *)lparam, buffer, min( sizeof(RECT), size )); break; case EM_GETLINE: size = min( size, (size_t)*(WORD *)lparam ); memcpy( (WCHAR *)lparam, buffer, size ); break; case LB_GETSELITEMS: memcpy( (UINT *)lparam, buffer, min( wparam*sizeof(UINT), size )); break; case LB_GETTEXT: case CB_GETLBTEXT: memcpy( (WCHAR *)lparam, buffer, size ); break; case WM_NEXTMENU: if (size >= sizeof(ps->mnm)) { MDINEXTMENU *mnm = (MDINEXTMENU *)lparam; mnm->hmenuIn = wine_server_ptr_handle( ps->mnm.hmenuIn ); mnm->hmenuNext = wine_server_ptr_handle( ps->mnm.hmenuNext ); mnm->hwndNext = wine_server_ptr_handle( ps->mnm.hwndNext ); } break; case WM_MDIGETACTIVE: if (lparam) memcpy( (BOOL *)lparam, buffer, min( sizeof(BOOL), size )); break; case WM_NCCALCSIZE: if (!wparam) memcpy( (RECT *)lparam, buffer, min( sizeof(RECT), size )); else if (size >= sizeof(ps->ncp)) { NCCALCSIZE_PARAMS *ncp = (NCCALCSIZE_PARAMS *)lparam; ncp->rgrc[0] = ps->ncp.rgrc[0]; ncp->rgrc[1] = ps->ncp.rgrc[1]; ncp->rgrc[2] = ps->ncp.rgrc[2]; ncp->lppos->hwnd = wine_server_ptr_handle( ps->ncp.hwnd ); ncp->lppos->hwndInsertAfter = wine_server_ptr_handle( ps->ncp.hwndInsertAfter ); ncp->lppos->x = ps->ncp.x; ncp->lppos->y = ps->ncp.y; ncp->lppos->cx = ps->ncp.cx; ncp->lppos->cy = ps->ncp.cy; ncp->lppos->flags = ps->ncp.flags; } break; case EM_GETSEL: case SBM_GETRANGE: case CB_GETEDITSEL: if (wparam) { memcpy( (DWORD *)wparam, buffer, min( sizeof(DWORD), size )); if (size <= sizeof(DWORD)) break; size -= sizeof(DWORD); buffer = (DWORD *)buffer + 1; } if (lparam) memcpy( (DWORD *)lparam, buffer, min( sizeof(DWORD), size )); break; case WM_MDICREATE: if (size >= sizeof(ps->mcs)) { MDICREATESTRUCTW *mcs = (MDICREATESTRUCTW *)lparam; mcs->hOwner = unpack_ptr( ps->mcs.hOwner ); mcs->x = ps->mcs.x; mcs->y = ps->mcs.y; mcs->cx = ps->mcs.cx; mcs->cy = ps->mcs.cy; mcs->style = ps->mcs.style; mcs->lParam = (LPARAM)unpack_ptr( ps->mcs.lParam ); /* don't allow changing class and title pointers */ } break; default: ERR( "should not happen: unexpected message %x\n", message ); break; } } /*********************************************************************** * reply_message * * Send a reply to a sent message. */ static void reply_message( struct received_message_info *info, LRESULT result, BOOL remove ) { struct packed_message data; int i, replied = info->flags & ISMEX_REPLIED; if (info->flags & ISMEX_NOTIFY) return; /* notify messages don't get replies */ if (!remove && replied) return; /* replied already */ memset( &data, 0, sizeof(data) ); info->flags |= ISMEX_REPLIED; if (info->type == MSG_OTHER_PROCESS && !replied) { pack_reply( info->msg.hwnd, info->msg.message, info->msg.wParam, info->msg.lParam, result, &data ); } SERVER_START_REQ( reply_message ) { req->result = result; req->remove = remove; for (i = 0; i < data.count; i++) wine_server_add_data( req, data.data[i], data.size[i] ); wine_server_call( req ); } SERVER_END_REQ; } /*********************************************************************** * handle_internal_message * * Handle an internal Wine message instead of calling the window proc. */ static LRESULT handle_internal_message( HWND hwnd, UINT msg, WPARAM wparam, LPARAM lparam ) { switch(msg) { case WM_WINE_DESTROYWINDOW: return WIN_DestroyWindow( hwnd ); case WM_WINE_SETWINDOWPOS: if (is_desktop_window( hwnd )) return 0; return USER_SetWindowPos( (WINDOWPOS *)lparam ); case WM_WINE_SHOWWINDOW: if (is_desktop_window( hwnd )) return 0; return ShowWindow( hwnd, wparam ); case WM_WINE_SETPARENT: if (is_desktop_window( hwnd )) return 0; return (LRESULT)SetParent( hwnd, (HWND)wparam ); case WM_WINE_SETWINDOWLONG: return WIN_SetWindowLong( hwnd, (short)LOWORD(wparam), HIWORD(wparam), lparam, TRUE ); case WM_WINE_SETSTYLE: if (is_desktop_window( hwnd )) return 0; return WIN_SetStyle(hwnd, wparam, lparam); case WM_WINE_SETACTIVEWINDOW: if (is_desktop_window( hwnd )) return 0; if (!wparam && GetForegroundWindow() == hwnd) return 0; return (LRESULT)SetActiveWindow( (HWND)wparam ); case WM_WINE_KEYBOARD_LL_HOOK: case WM_WINE_MOUSE_LL_HOOK: { struct hook_extra_info *h_extra = (struct hook_extra_info *)lparam; return call_current_hook( h_extra->handle, HC_ACTION, wparam, h_extra->lparam ); } case WM_WINE_CLIPCURSOR: if (wparam) { RECT rect; GetClipCursor( &rect ); return USER_Driver->pClipCursor( &rect ); } return USER_Driver->pClipCursor( NULL ); default: if (msg >= WM_WINE_FIRST_DRIVER_MSG && msg <= WM_WINE_LAST_DRIVER_MSG) return USER_Driver->pWindowMessage( hwnd, msg, wparam, lparam ); FIXME( "unknown internal message %x\n", msg ); return 0; } } /* since the WM_DDE_ACK response to a WM_DDE_EXECUTE message should contain the handle * to the memory handle, we keep track (in the server side) of all pairs of handle * used (the client passes its value and the content of the memory handle), and * the server stored both values (the client, and the local one, created after the * content). When a ACK message is generated, the list of pair is searched for a * matching pair, so that the client memory handle can be returned. */ struct DDE_pair { HGLOBAL client_hMem; HGLOBAL server_hMem; }; static struct DDE_pair* dde_pairs; static int dde_num_alloc; static int dde_num_used; static CRITICAL_SECTION dde_crst; static CRITICAL_SECTION_DEBUG critsect_debug = { 0, 0, &dde_crst, { &critsect_debug.ProcessLocksList, &critsect_debug.ProcessLocksList }, 0, 0, { (DWORD_PTR)(__FILE__ ": dde_crst") } }; static CRITICAL_SECTION dde_crst = { &critsect_debug, -1, 0, 0, 0, 0 }; static BOOL dde_add_pair(HGLOBAL chm, HGLOBAL shm) { int i; #define GROWBY 4 EnterCriticalSection(&dde_crst); /* now remember the pair of hMem on both sides */ if (dde_num_used == dde_num_alloc) { struct DDE_pair* tmp; if (dde_pairs) tmp = HeapReAlloc( GetProcessHeap(), 0, dde_pairs, (dde_num_alloc + GROWBY) * sizeof(struct DDE_pair)); else tmp = HeapAlloc( GetProcessHeap(), 0, (dde_num_alloc + GROWBY) * sizeof(struct DDE_pair)); if (!tmp) { LeaveCriticalSection(&dde_crst); return FALSE; } dde_pairs = tmp; /* zero out newly allocated part */ memset(&dde_pairs[dde_num_alloc], 0, GROWBY * sizeof(struct DDE_pair)); dde_num_alloc += GROWBY; } #undef GROWBY for (i = 0; i < dde_num_alloc; i++) { if (dde_pairs[i].server_hMem == 0) { dde_pairs[i].client_hMem = chm; dde_pairs[i].server_hMem = shm; dde_num_used++; break; } } LeaveCriticalSection(&dde_crst); return TRUE; } static HGLOBAL dde_get_pair(HGLOBAL shm) { int i; HGLOBAL ret = 0; EnterCriticalSection(&dde_crst); for (i = 0; i < dde_num_alloc; i++) { if (dde_pairs[i].server_hMem == shm) { /* free this pair */ dde_pairs[i].server_hMem = 0; dde_num_used--; ret = dde_pairs[i].client_hMem; break; } } LeaveCriticalSection(&dde_crst); return ret; } /*********************************************************************** * post_dde_message * * Post a DDE message */ static BOOL post_dde_message( struct packed_message *data, const struct send_message_info *info ) { void* ptr = NULL; int size = 0; UINT_PTR uiLo, uiHi; LPARAM lp; HGLOBAL hunlock = 0; int i; DWORD res; ULONGLONG hpack; if (!UnpackDDElParam( info->msg, info->lparam, &uiLo, &uiHi )) return FALSE; lp = info->lparam; switch (info->msg) { /* DDE messages which don't require packing are: * WM_DDE_INITIATE * WM_DDE_TERMINATE * WM_DDE_REQUEST * WM_DDE_UNADVISE */ case WM_DDE_ACK: if (HIWORD(uiHi)) { /* uiHi should contain a hMem from WM_DDE_EXECUTE */ HGLOBAL h = dde_get_pair( (HANDLE)uiHi ); if (h) { hpack = pack_ptr( h ); /* send back the value of h on the other side */ push_data( data, &hpack, sizeof(hpack) ); lp = uiLo; TRACE( "send dde-ack %lx %08lx => %p\n", uiLo, uiHi, h ); } } else { /* uiHi should contain either an atom or 0 */ TRACE( "send dde-ack %lx atom=%lx\n", uiLo, uiHi ); lp = MAKELONG( uiLo, uiHi ); } break; case WM_DDE_ADVISE: case WM_DDE_DATA: case WM_DDE_POKE: size = 0; if (uiLo) { size = GlobalSize( (HGLOBAL)uiLo ) ; if ((info->msg == WM_DDE_ADVISE && size < sizeof(DDEADVISE)) || (info->msg == WM_DDE_DATA && size < FIELD_OFFSET(DDEDATA, Value)) || (info->msg == WM_DDE_POKE && size < FIELD_OFFSET(DDEPOKE, Value)) ) return FALSE; } else if (info->msg != WM_DDE_DATA) return FALSE; lp = uiHi; if (uiLo) { if ((ptr = GlobalLock( (HGLOBAL)uiLo) )) { DDEDATA *dde_data = ptr; TRACE("unused %d, fResponse %d, fRelease %d, fDeferUpd %d, fAckReq %d, cfFormat %d\n", dde_data->unused, dde_data->fResponse, dde_data->fRelease, dde_data->reserved, dde_data->fAckReq, dde_data->cfFormat); push_data( data, ptr, size ); hunlock = (HGLOBAL)uiLo; } } TRACE( "send ddepack %u %lx\n", size, uiHi ); break; case WM_DDE_EXECUTE: if (info->lparam) { if ((ptr = GlobalLock( (HGLOBAL)info->lparam) )) { push_data(data, ptr, GlobalSize( (HGLOBAL)info->lparam )); /* so that the other side can send it back on ACK */ lp = info->lparam; hunlock = (HGLOBAL)info->lparam; } } break; } SERVER_START_REQ( send_message ) { req->id = info->dest_tid; req->type = info->type; req->flags = 0; req->win = wine_server_user_handle( info->hwnd ); req->msg = info->msg; req->wparam = info->wparam; req->lparam = lp; req->timeout = TIMEOUT_INFINITE; for (i = 0; i < data->count; i++) wine_server_add_data( req, data->data[i], data->size[i] ); if ((res = wine_server_call( req ))) { if (res == STATUS_INVALID_PARAMETER) /* FIXME: find a STATUS_ value for this one */ SetLastError( ERROR_INVALID_THREAD_ID ); else SetLastError( RtlNtStatusToDosError(res) ); } else FreeDDElParam(info->msg, info->lparam); } SERVER_END_REQ; if (hunlock) GlobalUnlock(hunlock); return !res; } /*********************************************************************** * unpack_dde_message * * Unpack a posted DDE message received from another process. */ static BOOL unpack_dde_message( HWND hwnd, UINT message, WPARAM *wparam, LPARAM *lparam, void **buffer, size_t size ) { UINT_PTR uiLo, uiHi; HGLOBAL hMem = 0; void* ptr; switch (message) { case WM_DDE_ACK: if (size) { ULONGLONG hpack; /* hMem is being passed */ if (size != sizeof(hpack)) return FALSE; if (!buffer || !*buffer) return FALSE; uiLo = *lparam; memcpy( &hpack, *buffer, size ); hMem = unpack_ptr( hpack ); uiHi = (UINT_PTR)hMem; TRACE("recv dde-ack %lx mem=%lx[%lx]\n", uiLo, uiHi, GlobalSize( hMem )); } else { uiLo = LOWORD( *lparam ); uiHi = HIWORD( *lparam ); TRACE("recv dde-ack %lx atom=%lx\n", uiLo, uiHi); } *lparam = PackDDElParam( WM_DDE_ACK, uiLo, uiHi ); break; case WM_DDE_ADVISE: case WM_DDE_DATA: case WM_DDE_POKE: if ((!buffer || !*buffer) && message != WM_DDE_DATA) return FALSE; uiHi = *lparam; if (size) { if (!(hMem = GlobalAlloc( GMEM_MOVEABLE|GMEM_DDESHARE, size ))) return FALSE; if ((ptr = GlobalLock( hMem ))) { memcpy( ptr, *buffer, size ); GlobalUnlock( hMem ); } else { GlobalFree( hMem ); return FALSE; } } uiLo = (UINT_PTR)hMem; *lparam = PackDDElParam( message, uiLo, uiHi ); break; case WM_DDE_EXECUTE: if (size) { if (!buffer || !*buffer) return FALSE; if (!(hMem = GlobalAlloc( GMEM_MOVEABLE|GMEM_DDESHARE, size ))) return FALSE; if ((ptr = GlobalLock( hMem ))) { memcpy( ptr, *buffer, size ); GlobalUnlock( hMem ); TRACE( "exec: pairing c=%08lx s=%p\n", *lparam, hMem ); if (!dde_add_pair( (HGLOBAL)*lparam, hMem )) { GlobalFree( hMem ); return FALSE; } } else { GlobalFree( hMem ); return FALSE; } } else return FALSE; *lparam = (LPARAM)hMem; break; } return TRUE; } /*********************************************************************** * call_window_proc * * Call a window procedure and the corresponding hooks. */ static LRESULT call_window_proc( HWND hwnd, UINT msg, WPARAM wparam, LPARAM lparam, BOOL unicode, BOOL same_thread, enum wm_char_mapping mapping ) { LRESULT result = 0; CWPSTRUCT cwp; CWPRETSTRUCT cwpret; if (msg & 0x80000000) { result = handle_internal_message( hwnd, msg, wparam, lparam ); goto done; } /* first the WH_CALLWNDPROC hook */ hwnd = WIN_GetFullHandle( hwnd ); cwp.lParam = lparam; cwp.wParam = wparam; cwp.message = msg; cwp.hwnd = hwnd; HOOK_CallHooks( WH_CALLWNDPROC, HC_ACTION, same_thread, (LPARAM)&cwp, unicode ); /* now call the window procedure */ if (!WINPROC_call_window( hwnd, msg, wparam, lparam, &result, unicode, mapping )) goto done; /* and finally the WH_CALLWNDPROCRET hook */ cwpret.lResult = result; cwpret.lParam = lparam; cwpret.wParam = wparam; cwpret.message = msg; cwpret.hwnd = hwnd; HOOK_CallHooks( WH_CALLWNDPROCRET, HC_ACTION, same_thread, (LPARAM)&cwpret, unicode ); done: return result; } /*********************************************************************** * send_parent_notify * * Send a WM_PARENTNOTIFY to all ancestors of the given window, unless * the window has the WS_EX_NOPARENTNOTIFY style. */ static void send_parent_notify( HWND hwnd, WORD event, WORD idChild, POINT pt ) { /* pt has to be in the client coordinates of the parent window */ MapWindowPoints( 0, hwnd, &pt, 1 ); for (;;) { HWND parent; if (!(GetWindowLongW( hwnd, GWL_STYLE ) & WS_CHILD)) break; if (GetWindowLongW( hwnd, GWL_EXSTYLE ) & WS_EX_NOPARENTNOTIFY) break; if (!(parent = GetParent(hwnd))) break; if (parent == GetDesktopWindow()) break; MapWindowPoints( hwnd, parent, &pt, 1 ); hwnd = parent; SendMessageW( hwnd, WM_PARENTNOTIFY, MAKEWPARAM( event, idChild ), MAKELPARAM( pt.x, pt.y ) ); } } /*********************************************************************** * accept_hardware_message * * Tell the server we have passed the message to the app * (even though we may end up dropping it later on) */ static void accept_hardware_message( UINT hw_id, BOOL remove ) { SERVER_START_REQ( accept_hardware_message ) { req->hw_id = hw_id; req->remove = remove; if (wine_server_call( req )) FIXME("Failed to reply to MSG_HARDWARE message. Message may not be removed from queue.\n"); } SERVER_END_REQ; } static BOOL process_rawinput_message( MSG *msg, const struct hardware_msg_data *msg_data ) { struct user_thread_info *thread_info = get_user_thread_info(); RAWINPUT *rawinput = thread_info->rawinput; if (!rawinput) { thread_info->rawinput = HeapAlloc( GetProcessHeap(), 0, sizeof(*rawinput) ); if (!(rawinput = thread_info->rawinput)) return FALSE; } rawinput->header.dwType = msg_data->rawinput.type; if (msg_data->rawinput.type == RIM_TYPEMOUSE) { static const unsigned int button_flags[] = { 0, /* MOUSEEVENTF_MOVE */ RI_MOUSE_LEFT_BUTTON_DOWN, /* MOUSEEVENTF_LEFTDOWN */ RI_MOUSE_LEFT_BUTTON_UP, /* MOUSEEVENTF_LEFTUP */ RI_MOUSE_RIGHT_BUTTON_DOWN, /* MOUSEEVENTF_RIGHTDOWN */ RI_MOUSE_RIGHT_BUTTON_UP, /* MOUSEEVENTF_RIGHTUP */ RI_MOUSE_MIDDLE_BUTTON_DOWN, /* MOUSEEVENTF_MIDDLEDOWN */ RI_MOUSE_MIDDLE_BUTTON_UP, /* MOUSEEVENTF_MIDDLEUP */ }; unsigned int i; rawinput->header.dwSize = FIELD_OFFSET(RAWINPUT, data) + sizeof(RAWMOUSE); rawinput->header.hDevice = WINE_MOUSE_HANDLE; rawinput->header.wParam = 0; rawinput->data.mouse.usFlags = MOUSE_MOVE_RELATIVE; rawinput->data.mouse.u.s.usButtonFlags = 0; rawinput->data.mouse.u.s.usButtonData = 0; for (i = 1; i < sizeof(button_flags) / sizeof(*button_flags); ++i) { if (msg_data->flags & (1 << i)) rawinput->data.mouse.u.s.usButtonFlags |= button_flags[i]; } if (msg_data->flags & MOUSEEVENTF_WHEEL) { rawinput->data.mouse.u.s.usButtonFlags |= RI_MOUSE_WHEEL; rawinput->data.mouse.u.s.usButtonData = msg_data->rawinput.mouse.data; } if (msg_data->flags & MOUSEEVENTF_HWHEEL) { rawinput->data.mouse.u.s.usButtonFlags |= RI_MOUSE_HORIZONTAL_WHEEL; rawinput->data.mouse.u.s.usButtonData = msg_data->rawinput.mouse.data; } if (msg_data->flags & MOUSEEVENTF_XDOWN) { if (msg_data->rawinput.mouse.data == XBUTTON1) rawinput->data.mouse.u.s.usButtonFlags |= RI_MOUSE_BUTTON_4_DOWN; else if (msg_data->rawinput.mouse.data == XBUTTON2) rawinput->data.mouse.u.s.usButtonFlags |= RI_MOUSE_BUTTON_5_DOWN; } if (msg_data->flags & MOUSEEVENTF_XUP) { if (msg_data->rawinput.mouse.data == XBUTTON1) rawinput->data.mouse.u.s.usButtonFlags |= RI_MOUSE_BUTTON_4_UP; else if (msg_data->rawinput.mouse.data == XBUTTON2) rawinput->data.mouse.u.s.usButtonFlags |= RI_MOUSE_BUTTON_5_UP; } rawinput->data.mouse.ulRawButtons = 0; rawinput->data.mouse.lLastX = msg_data->rawinput.mouse.x; rawinput->data.mouse.lLastY = msg_data->rawinput.mouse.y; rawinput->data.mouse.ulExtraInformation = msg_data->info; } else if (msg_data->rawinput.type == RIM_TYPEKEYBOARD) { rawinput->header.dwSize = FIELD_OFFSET(RAWINPUT, data) + sizeof(RAWKEYBOARD); rawinput->header.hDevice = WINE_KEYBOARD_HANDLE; rawinput->header.wParam = 0; rawinput->data.keyboard.MakeCode = msg_data->rawinput.kbd.scan; rawinput->data.keyboard.Flags = msg_data->flags & KEYEVENTF_KEYUP ? RI_KEY_BREAK : RI_KEY_MAKE; if (msg_data->flags & KEYEVENTF_EXTENDEDKEY) rawinput->data.keyboard.Flags |= RI_KEY_E0; rawinput->data.keyboard.Reserved = 0; switch (msg_data->rawinput.kbd.vkey) { case VK_LSHIFT: case VK_RSHIFT: rawinput->data.keyboard.VKey = VK_SHIFT; rawinput->data.keyboard.Flags &= ~RI_KEY_E0; break; case VK_LCONTROL: case VK_RCONTROL: rawinput->data.keyboard.VKey = VK_CONTROL; break; case VK_LMENU: case VK_RMENU: rawinput->data.keyboard.VKey = VK_MENU; break; default: rawinput->data.keyboard.VKey = msg_data->rawinput.kbd.vkey; break; } rawinput->data.keyboard.Message = msg_data->rawinput.kbd.message; rawinput->data.keyboard.ExtraInformation = msg_data->info; } else { FIXME("Unhandled rawinput type %#x.\n", msg_data->rawinput.type); return FALSE; } msg->lParam = (LPARAM)rawinput; return TRUE; } /*********************************************************************** * process_keyboard_message * * returns TRUE if the contents of 'msg' should be passed to the application */ static BOOL process_keyboard_message( MSG *msg, UINT hw_id, HWND hwnd_filter, UINT first, UINT last, BOOL remove ) { EVENTMSG event; if (msg->message == WM_KEYDOWN || msg->message == WM_SYSKEYDOWN || msg->message == WM_KEYUP || msg->message == WM_SYSKEYUP) switch (msg->wParam) { case VK_LSHIFT: case VK_RSHIFT: msg->wParam = VK_SHIFT; break; case VK_LCONTROL: case VK_RCONTROL: msg->wParam = VK_CONTROL; break; case VK_LMENU: case VK_RMENU: msg->wParam = VK_MENU; break; } /* FIXME: is this really the right place for this hook? */ event.message = msg->message; event.hwnd = msg->hwnd; event.time = msg->time; event.paramL = (msg->wParam & 0xFF) | (HIWORD(msg->lParam) << 8); event.paramH = msg->lParam & 0x7FFF; if (HIWORD(msg->lParam) & 0x0100) event.paramH |= 0x8000; /* special_key - bit */ HOOK_CallHooks( WH_JOURNALRECORD, HC_ACTION, 0, (LPARAM)&event, TRUE ); /* check message filters */ if (msg->message < first || msg->message > last) return FALSE; if (!check_hwnd_filter( msg, hwnd_filter )) return FALSE; if (remove) { if((msg->message == WM_KEYDOWN) && (msg->hwnd != GetDesktopWindow())) { /* Handle F1 key by sending out WM_HELP message */ if (msg->wParam == VK_F1) { PostMessageW( msg->hwnd, WM_KEYF1, 0, 0 ); } else if(msg->wParam >= VK_BROWSER_BACK && msg->wParam <= VK_LAUNCH_APP2) { /* FIXME: Process keystate */ SendMessageW(msg->hwnd, WM_APPCOMMAND, (WPARAM)msg->hwnd, MAKELPARAM(0, (FAPPCOMMAND_KEY | (msg->wParam - VK_BROWSER_BACK + 1)))); } } else if (msg->message == WM_KEYUP) { /* Handle VK_APPS key by posting a WM_CONTEXTMENU message */ if (msg->wParam == VK_APPS && !MENU_IsMenuActive()) PostMessageW(msg->hwnd, WM_CONTEXTMENU, (WPARAM)msg->hwnd, -1); } } if (HOOK_CallHooks( WH_KEYBOARD, remove ? HC_ACTION : HC_NOREMOVE, LOWORD(msg->wParam), msg->lParam, TRUE )) { /* skip this message */ HOOK_CallHooks( WH_CBT, HCBT_KEYSKIPPED, LOWORD(msg->wParam), msg->lParam, TRUE ); accept_hardware_message( hw_id, TRUE ); return FALSE; } accept_hardware_message( hw_id, remove ); if ( remove && msg->message == WM_KEYDOWN ) if (ImmProcessKey(msg->hwnd, GetKeyboardLayout(0), msg->wParam, msg->lParam, 0) ) msg->wParam = VK_PROCESSKEY; return TRUE; } /*********************************************************************** * process_mouse_message * * returns TRUE if the contents of 'msg' should be passed to the application */ static BOOL process_mouse_message( MSG *msg, UINT hw_id, ULONG_PTR extra_info, HWND hwnd_filter, UINT first, UINT last, BOOL remove ) { static MSG clk_msg; POINT pt; UINT message; INT hittest; EVENTMSG event; GUITHREADINFO info; MOUSEHOOKSTRUCTEX hook; BOOL eatMsg; WPARAM wparam; /* find the window to dispatch this mouse message to */ info.cbSize = sizeof(info); GetGUIThreadInfo( GetCurrentThreadId(), &info ); if (info.hwndCapture) { hittest = HTCLIENT; msg->hwnd = info.hwndCapture; } else { msg->hwnd = WINPOS_WindowFromPoint( msg->hwnd, msg->pt, &hittest ); } if (!msg->hwnd || !WIN_IsCurrentThread( msg->hwnd )) { accept_hardware_message( hw_id, TRUE ); return FALSE; } /* FIXME: is this really the right place for this hook? */ event.message = msg->message; event.time = msg->time; event.hwnd = msg->hwnd; event.paramL = msg->pt.x; event.paramH = msg->pt.y; HOOK_CallHooks( WH_JOURNALRECORD, HC_ACTION, 0, (LPARAM)&event, TRUE ); if (!check_hwnd_filter( msg, hwnd_filter )) return FALSE; pt = msg->pt; message = msg->message; wparam = msg->wParam; /* Note: windows has no concept of a non-client wheel message */ if (message != WM_MOUSEWHEEL) { if (hittest != HTCLIENT) { message += WM_NCMOUSEMOVE - WM_MOUSEMOVE; wparam = hittest; } else { /* coordinates don't get translated while tracking a menu */ /* FIXME: should differentiate popups and top-level menus */ if (!(info.flags & GUI_INMENUMODE)) ScreenToClient( msg->hwnd, &pt ); } } msg->lParam = MAKELONG( pt.x, pt.y ); /* translate double clicks */ if ((msg->message == WM_LBUTTONDOWN) || (msg->message == WM_RBUTTONDOWN) || (msg->message == WM_MBUTTONDOWN) || (msg->message == WM_XBUTTONDOWN)) { BOOL update = remove; /* translate double clicks - * note that ...MOUSEMOVEs can slip in between * ...BUTTONDOWN and ...BUTTONDBLCLK messages */ if ((info.flags & (GUI_INMENUMODE|GUI_INMOVESIZE)) || hittest != HTCLIENT || (GetClassLongA( msg->hwnd, GCL_STYLE ) & CS_DBLCLKS)) { if ((msg->message == clk_msg.message) && (msg->hwnd == clk_msg.hwnd) && (msg->wParam == clk_msg.wParam) && (msg->time - clk_msg.time < GetDoubleClickTime()) && (abs(msg->pt.x - clk_msg.pt.x) < GetSystemMetrics(SM_CXDOUBLECLK)/2) && (abs(msg->pt.y - clk_msg.pt.y) < GetSystemMetrics(SM_CYDOUBLECLK)/2)) { message += (WM_LBUTTONDBLCLK - WM_LBUTTONDOWN); if (update) { clk_msg.message = 0; /* clear the double click conditions */ update = FALSE; } } } if (message < first || message > last) return FALSE; /* update static double click conditions */ if (update) clk_msg = *msg; } else { if (message < first || message > last) return FALSE; } msg->wParam = wparam; /* message is accepted now (but may still get dropped) */ hook.s.pt = msg->pt; hook.s.hwnd = msg->hwnd; hook.s.wHitTestCode = hittest; hook.s.dwExtraInfo = extra_info; hook.mouseData = msg->wParam; if (HOOK_CallHooks( WH_MOUSE, remove ? HC_ACTION : HC_NOREMOVE, message, (LPARAM)&hook, TRUE )) { hook.s.pt = msg->pt; hook.s.hwnd = msg->hwnd; hook.s.wHitTestCode = hittest; hook.s.dwExtraInfo = extra_info; hook.mouseData = msg->wParam; HOOK_CallHooks( WH_CBT, HCBT_CLICKSKIPPED, message, (LPARAM)&hook, TRUE ); accept_hardware_message( hw_id, TRUE ); return FALSE; } if ((hittest == HTERROR) || (hittest == HTNOWHERE)) { SendMessageW( msg->hwnd, WM_SETCURSOR, (WPARAM)msg->hwnd, MAKELONG( hittest, msg->message )); accept_hardware_message( hw_id, TRUE ); return FALSE; } accept_hardware_message( hw_id, remove ); if (!remove || info.hwndCapture) { msg->message = message; return TRUE; } eatMsg = FALSE; if ((msg->message == WM_LBUTTONDOWN) || (msg->message == WM_RBUTTONDOWN) || (msg->message == WM_MBUTTONDOWN) || (msg->message == WM_XBUTTONDOWN)) { /* Send the WM_PARENTNOTIFY, * note that even for double/nonclient clicks * notification message is still WM_L/M/RBUTTONDOWN. */ send_parent_notify( msg->hwnd, msg->message, 0, msg->pt ); /* Activate the window if needed */ if (msg->hwnd != info.hwndActive) { HWND hwndTop = msg->hwnd; while (hwndTop) { if ((GetWindowLongW( hwndTop, GWL_STYLE ) & (WS_POPUP|WS_CHILD)) != WS_CHILD) break; hwndTop = GetParent( hwndTop ); } if (hwndTop && hwndTop != GetDesktopWindow()) { LONG ret = SendMessageW( msg->hwnd, WM_MOUSEACTIVATE, (WPARAM)hwndTop, MAKELONG( hittest, msg->message ) ); switch(ret) { case MA_NOACTIVATEANDEAT: eatMsg = TRUE; /* fall through */ case MA_NOACTIVATE: break; case MA_ACTIVATEANDEAT: eatMsg = TRUE; /* fall through */ case MA_ACTIVATE: case 0: if (!FOCUS_MouseActivate( hwndTop )) eatMsg = TRUE; break; default: WARN( "unknown WM_MOUSEACTIVATE code %d\n", ret ); break; } } } } /* send the WM_SETCURSOR message */ /* Windows sends the normal mouse message as the message parameter in the WM_SETCURSOR message even if it's non-client mouse message */ SendMessageW( msg->hwnd, WM_SETCURSOR, (WPARAM)msg->hwnd, MAKELONG( hittest, msg->message )); msg->message = message; return !eatMsg; } /*********************************************************************** * process_hardware_message * * Process a hardware message; return TRUE if message should be passed on to the app */ static BOOL process_hardware_message( MSG *msg, UINT hw_id, const struct hardware_msg_data *msg_data, HWND hwnd_filter, UINT first, UINT last, BOOL remove ) { if (msg->message == WM_INPUT) return process_rawinput_message( msg, msg_data ); if (is_keyboard_message( msg->message )) return process_keyboard_message( msg, hw_id, hwnd_filter, first, last, remove ); if (is_mouse_message( msg->message )) return process_mouse_message( msg, hw_id, msg_data->info, hwnd_filter, first, last, remove ); ERR( "unknown message type %x\n", msg->message ); return FALSE; } /*********************************************************************** * call_sendmsg_callback * * Call the callback function of SendMessageCallback. */ static inline void call_sendmsg_callback( SENDASYNCPROC callback, HWND hwnd, UINT msg, ULONG_PTR data, LRESULT result ) { if (!callback) return; if (TRACE_ON(relay)) DPRINTF( "%04x:Call message callback %p (hwnd=%p,msg=%s,data=%08lx,result=%08lx)\n", GetCurrentThreadId(), callback, hwnd, SPY_GetMsgName( msg, hwnd ), data, result ); callback( hwnd, msg, data, result ); if (TRACE_ON(relay)) DPRINTF( "%04x:Ret message callback %p (hwnd=%p,msg=%s,data=%08lx,result=%08lx)\n", GetCurrentThreadId(), callback, hwnd, SPY_GetMsgName( msg, hwnd ), data, result ); } /*********************************************************************** * peek_message * * Peek for a message matching the given parameters. Return FALSE if none available. * All pending sent messages are processed before returning. */ static BOOL peek_message( MSG *msg, HWND hwnd, UINT first, UINT last, UINT flags, UINT changed_mask ) { LRESULT result; struct user_thread_info *thread_info = get_user_thread_info(); struct received_message_info info, *old_info; unsigned int hw_id = 0; /* id of previous hardware message */ void *buffer; size_t buffer_size = 256; if (!(buffer = HeapAlloc( GetProcessHeap(), 0, buffer_size ))) return FALSE; if (!first && !last) last = ~0; if (hwnd == HWND_BROADCAST) hwnd = HWND_TOPMOST; for (;;) { NTSTATUS res; size_t size = 0; const message_data_t *msg_data = buffer; SERVER_START_REQ( get_message ) { req->flags = flags; req->get_win = wine_server_user_handle( hwnd ); req->get_first = first; req->get_last = last; req->hw_id = hw_id; req->wake_mask = changed_mask & (QS_SENDMESSAGE | QS_SMRESULT); req->changed_mask = changed_mask; wine_server_set_reply( req, buffer, buffer_size ); if (!(res = wine_server_call( req ))) { size = wine_server_reply_size( reply ); info.type = reply->type; info.msg.hwnd = wine_server_ptr_handle( reply->win ); info.msg.message = reply->msg; info.msg.wParam = reply->wparam; info.msg.lParam = reply->lparam; info.msg.time = reply->time; info.msg.pt.x = reply->x; info.msg.pt.y = reply->y; hw_id = 0; thread_info->active_hooks = reply->active_hooks; } else buffer_size = reply->total; } SERVER_END_REQ; if (res) { HeapFree( GetProcessHeap(), 0, buffer ); if (res == STATUS_PENDING) { thread_info->wake_mask = changed_mask & (QS_SENDMESSAGE | QS_SMRESULT); thread_info->changed_mask = changed_mask; } if (res != STATUS_BUFFER_OVERFLOW) return FALSE; if (!(buffer = HeapAlloc( GetProcessHeap(), 0, buffer_size ))) return FALSE; continue; } TRACE( "got type %d msg %x (%s) hwnd %p wp %lx lp %lx\n", info.type, info.msg.message, (info.type == MSG_WINEVENT) ? "MSG_WINEVENT" : SPY_GetMsgName(info.msg.message, info.msg.hwnd), info.msg.hwnd, info.msg.wParam, info.msg.lParam ); switch(info.type) { case MSG_ASCII: case MSG_UNICODE: info.flags = ISMEX_SEND; break; case MSG_NOTIFY: info.flags = ISMEX_NOTIFY; break; case MSG_CALLBACK: info.flags = ISMEX_CALLBACK; break; case MSG_CALLBACK_RESULT: if (size >= sizeof(msg_data->callback)) call_sendmsg_callback( wine_server_get_ptr(msg_data->callback.callback), info.msg.hwnd, info.msg.message, msg_data->callback.data, msg_data->callback.result ); continue; case MSG_WINEVENT: if (size >= sizeof(msg_data->winevent)) { WINEVENTPROC hook_proc; HMODULE free_module = 0; hook_proc = wine_server_get_ptr( msg_data->winevent.hook_proc ); size -= sizeof(msg_data->winevent); if (size) { WCHAR module[MAX_PATH]; size = min( size, (MAX_PATH - 1) * sizeof(WCHAR) ); memcpy( module, &msg_data->winevent + 1, size ); module[size / sizeof(WCHAR)] = 0; if (!(hook_proc = get_hook_proc( hook_proc, module, &free_module ))) { ERR( "invalid winevent hook module name %s\n", debugstr_w(module) ); continue; } } if (TRACE_ON(relay)) DPRINTF( "%04x:Call winevent proc %p (hook=%04x,event=%x,hwnd=%p,object_id=%lx,child_id=%lx,tid=%04x,time=%x)\n", GetCurrentThreadId(), hook_proc, msg_data->winevent.hook, info.msg.message, info.msg.hwnd, info.msg.wParam, info.msg.lParam, msg_data->winevent.tid, info.msg.time); hook_proc( wine_server_ptr_handle( msg_data->winevent.hook ), info.msg.message, info.msg.hwnd, info.msg.wParam, info.msg.lParam, msg_data->winevent.tid, info.msg.time ); if (TRACE_ON(relay)) DPRINTF( "%04x:Ret winevent proc %p (hook=%04x,event=%x,hwnd=%p,object_id=%lx,child_id=%lx,tid=%04x,time=%x)\n", GetCurrentThreadId(), hook_proc, msg_data->winevent.hook, info.msg.message, info.msg.hwnd, info.msg.wParam, info.msg.lParam, msg_data->winevent.tid, info.msg.time); if (free_module) FreeLibrary(free_module); } continue; case MSG_HOOK_LL: info.flags = ISMEX_SEND; result = 0; if (info.msg.message == WH_KEYBOARD_LL && size >= sizeof(msg_data->hardware)) { KBDLLHOOKSTRUCT hook; hook.vkCode = LOWORD( info.msg.lParam ); hook.scanCode = HIWORD( info.msg.lParam ); hook.flags = msg_data->hardware.flags; hook.time = info.msg.time; hook.dwExtraInfo = msg_data->hardware.info; TRACE( "calling keyboard LL hook vk %x scan %x flags %x time %u info %lx\n", hook.vkCode, hook.scanCode, hook.flags, hook.time, hook.dwExtraInfo ); result = HOOK_CallHooks( WH_KEYBOARD_LL, HC_ACTION, info.msg.wParam, (LPARAM)&hook, TRUE ); } else if (info.msg.message == WH_MOUSE_LL && size >= sizeof(msg_data->hardware)) { MSLLHOOKSTRUCT hook; hook.pt = info.msg.pt; hook.mouseData = info.msg.lParam; hook.flags = msg_data->hardware.flags; hook.time = info.msg.time; hook.dwExtraInfo = msg_data->hardware.info; TRACE( "calling mouse LL hook pos %d,%d data %x flags %x time %u info %lx\n", hook.pt.x, hook.pt.y, hook.mouseData, hook.flags, hook.time, hook.dwExtraInfo ); result = HOOK_CallHooks( WH_MOUSE_LL, HC_ACTION, info.msg.wParam, (LPARAM)&hook, TRUE ); } reply_message( &info, result, TRUE ); continue; case MSG_OTHER_PROCESS: info.flags = ISMEX_SEND; if (!unpack_message( info.msg.hwnd, info.msg.message, &info.msg.wParam, &info.msg.lParam, &buffer, size )) { /* ignore it */ reply_message( &info, 0, TRUE ); continue; } break; case MSG_HARDWARE: if (size >= sizeof(msg_data->hardware)) { hw_id = msg_data->hardware.hw_id; if (!process_hardware_message( &info.msg, hw_id, &msg_data->hardware, hwnd, first, last, flags & PM_REMOVE )) { TRACE("dropping msg %x\n", info.msg.message ); continue; /* ignore it */ } *msg = info.msg; thread_info->GetMessagePosVal = MAKELONG( info.msg.pt.x, info.msg.pt.y ); thread_info->GetMessageTimeVal = info.msg.time; thread_info->GetMessageExtraInfoVal = msg_data->hardware.info; HeapFree( GetProcessHeap(), 0, buffer ); HOOK_CallHooks( WH_GETMESSAGE, HC_ACTION, flags & PM_REMOVE, (LPARAM)msg, TRUE ); return TRUE; } continue; case MSG_POSTED: if (info.msg.message & 0x80000000) /* internal message */ { if (flags & PM_REMOVE) { handle_internal_message( info.msg.hwnd, info.msg.message, info.msg.wParam, info.msg.lParam ); /* if this is a nested call return right away */ if (first == info.msg.message && last == info.msg.message) { HeapFree( GetProcessHeap(), 0, buffer ); return FALSE; } } else peek_message( msg, info.msg.hwnd, info.msg.message, info.msg.message, flags | PM_REMOVE, changed_mask ); continue; } if (info.msg.message >= WM_DDE_FIRST && info.msg.message <= WM_DDE_LAST) { if (!unpack_dde_message( info.msg.hwnd, info.msg.message, &info.msg.wParam, &info.msg.lParam, &buffer, size )) continue; /* ignore it */ } *msg = info.msg; thread_info->GetMessagePosVal = MAKELONG( info.msg.pt.x, info.msg.pt.y ); thread_info->GetMessageTimeVal = info.msg.time; thread_info->GetMessageExtraInfoVal = 0; HeapFree( GetProcessHeap(), 0, buffer ); HOOK_CallHooks( WH_GETMESSAGE, HC_ACTION, flags & PM_REMOVE, (LPARAM)msg, TRUE ); return TRUE; } /* if we get here, we have a sent message; call the window procedure */ old_info = thread_info->receive_info; thread_info->receive_info = &info; result = call_window_proc( info.msg.hwnd, info.msg.message, info.msg.wParam, info.msg.lParam, (info.type != MSG_ASCII), FALSE, WMCHAR_MAP_RECVMESSAGE ); reply_message( &info, result, TRUE ); thread_info->receive_info = old_info; /* if some PM_QS* flags were specified, only handle sent messages from now on */ if (HIWORD(flags) && !changed_mask) flags = PM_QS_SENDMESSAGE | LOWORD(flags); } } /*********************************************************************** * process_sent_messages * * Process all pending sent messages. */ static inline void process_sent_messages(void) { MSG msg; peek_message( &msg, 0, 0, 0, PM_REMOVE | PM_QS_SENDMESSAGE, 0 ); } /*********************************************************************** * get_server_queue_handle * * Get a handle to the server message queue for the current thread. */ static HANDLE get_server_queue_handle(void) { struct user_thread_info *thread_info = get_user_thread_info(); HANDLE ret; if (!(ret = thread_info->server_queue)) { SERVER_START_REQ( get_msg_queue ) { wine_server_call( req ); ret = wine_server_ptr_handle( reply->handle ); } SERVER_END_REQ; thread_info->server_queue = ret; if (!ret) ERR( "Cannot get server thread queue\n" ); } return ret; } /*********************************************************************** * wait_message_reply * * Wait until a sent message gets replied to. */ static void wait_message_reply( UINT flags ) { struct user_thread_info *thread_info = get_user_thread_info(); HANDLE server_queue = get_server_queue_handle(); unsigned int wake_mask = QS_SMRESULT | ((flags & SMTO_BLOCK) ? 0 : QS_SENDMESSAGE); for (;;) { unsigned int wake_bits = 0; SERVER_START_REQ( set_queue_mask ) { req->wake_mask = wake_mask; req->changed_mask = wake_mask; req->skip_wait = 1; if (!wine_server_call( req )) wake_bits = reply->wake_bits & wake_mask; } SERVER_END_REQ; thread_info->wake_mask = thread_info->changed_mask = 0; if (wake_bits & QS_SMRESULT) return; /* got a result */ if (wake_bits & QS_SENDMESSAGE) { /* Process the sent message immediately */ process_sent_messages(); continue; } wow_handlers.wait_message( 1, &server_queue, INFINITE, wake_mask, 0 ); } } /*********************************************************************** * wait_objects * * Wait for multiple objects including the server queue, with specific queue masks. */ static DWORD wait_objects( DWORD count, const HANDLE *handles, DWORD timeout, DWORD wake_mask, DWORD changed_mask, DWORD flags ) { struct user_thread_info *thread_info = get_user_thread_info(); DWORD ret; assert( count ); /* we must have at least the server queue */ flush_window_surfaces( TRUE ); if (thread_info->wake_mask != wake_mask || thread_info->changed_mask != changed_mask) { SERVER_START_REQ( set_queue_mask ) { req->wake_mask = wake_mask; req->changed_mask = changed_mask; req->skip_wait = 0; wine_server_call( req ); } SERVER_END_REQ; thread_info->wake_mask = wake_mask; thread_info->changed_mask = changed_mask; } ret = wow_handlers.wait_message( count, handles, timeout, changed_mask, flags ); if (ret != WAIT_TIMEOUT) thread_info->wake_mask = thread_info->changed_mask = 0; return ret; } /*********************************************************************** * put_message_in_queue * * Put a sent message into the destination queue. * For inter-process message, reply_size is set to expected size of reply data. */ static BOOL put_message_in_queue( const struct send_message_info *info, size_t *reply_size ) { struct packed_message data; message_data_t msg_data; unsigned int res; int i; timeout_t timeout = TIMEOUT_INFINITE; /* Check for INFINITE timeout for compatibility with Win9x, * although Windows >= NT does not do so */ if (info->type != MSG_NOTIFY && info->type != MSG_CALLBACK && info->type != MSG_POSTED && info->timeout && info->timeout != INFINITE) { /* timeout is signed despite the prototype */ timeout = (timeout_t)max( 0, (int)info->timeout ) * -10000; } memset( &data, 0, sizeof(data) ); if (info->type == MSG_OTHER_PROCESS) { *reply_size = pack_message( info->hwnd, info->msg, info->wparam, info->lparam, &data ); if (data.count == -1) { WARN( "cannot pack message %x\n", info->msg ); return FALSE; } } else if (info->type == MSG_CALLBACK) { msg_data.callback.callback = wine_server_client_ptr( info->callback ); msg_data.callback.data = info->data; msg_data.callback.result = 0; data.data[0] = &msg_data; data.size[0] = sizeof(msg_data.callback); data.count = 1; } else if (info->type == MSG_POSTED && info->msg >= WM_DDE_FIRST && info->msg <= WM_DDE_LAST) { return post_dde_message( &data, info ); } SERVER_START_REQ( send_message ) { req->id = info->dest_tid; req->type = info->type; req->flags = 0; req->win = wine_server_user_handle( info->hwnd ); req->msg = info->msg; req->wparam = info->wparam; req->lparam = info->lparam; req->timeout = timeout; if (info->flags & SMTO_ABORTIFHUNG) req->flags |= SEND_MSG_ABORT_IF_HUNG; for (i = 0; i < data.count; i++) wine_server_add_data( req, data.data[i], data.size[i] ); if ((res = wine_server_call( req ))) { if (res == STATUS_INVALID_PARAMETER) /* FIXME: find a STATUS_ value for this one */ SetLastError( ERROR_INVALID_THREAD_ID ); else SetLastError( RtlNtStatusToDosError(res) ); } } SERVER_END_REQ; return !res; } /*********************************************************************** * retrieve_reply * * Retrieve a message reply from the server. */ static LRESULT retrieve_reply( const struct send_message_info *info, size_t reply_size, LRESULT *result ) { NTSTATUS status; void *reply_data = NULL; if (reply_size) { if (!(reply_data = HeapAlloc( GetProcessHeap(), 0, reply_size ))) { WARN( "no memory for reply, will be truncated\n" ); reply_size = 0; } } SERVER_START_REQ( get_message_reply ) { req->cancel = 1; if (reply_size) wine_server_set_reply( req, reply_data, reply_size ); if (!(status = wine_server_call( req ))) *result = reply->result; reply_size = wine_server_reply_size( reply ); } SERVER_END_REQ; if (!status && reply_size) unpack_reply( info->hwnd, info->msg, info->wparam, info->lparam, reply_data, reply_size ); HeapFree( GetProcessHeap(), 0, reply_data ); TRACE( "hwnd %p msg %x (%s) wp %lx lp %lx got reply %lx (err=%d)\n", info->hwnd, info->msg, SPY_GetMsgName(info->msg, info->hwnd), info->wparam, info->lparam, *result, status ); /* MSDN states that last error is 0 on timeout, but at least NT4 returns ERROR_TIMEOUT */ if (status) SetLastError( RtlNtStatusToDosError(status) ); return !status; } /*********************************************************************** * send_inter_thread_message */ static LRESULT send_inter_thread_message( const struct send_message_info *info, LRESULT *res_ptr ) { size_t reply_size = 0; TRACE( "hwnd %p msg %x (%s) wp %lx lp %lx\n", info->hwnd, info->msg, SPY_GetMsgName(info->msg, info->hwnd), info->wparam, info->lparam ); USER_CheckNotLock(); if (!put_message_in_queue( info, &reply_size )) return 0; /* there's no reply to wait for on notify/callback messages */ if (info->type == MSG_NOTIFY || info->type == MSG_CALLBACK) return 1; wait_message_reply( info->flags ); return retrieve_reply( info, reply_size, res_ptr ); } /*********************************************************************** * send_inter_thread_callback */ static LRESULT send_inter_thread_callback( HWND hwnd, UINT msg, WPARAM wp, LPARAM lp, LRESULT *result, void *arg ) { struct send_message_info *info = arg; info->hwnd = hwnd; info->msg = msg; info->wparam = wp; info->lparam = lp; return send_inter_thread_message( info, result ); } static BOOL is_message_broadcastable(UINT msg) { return msg < WM_USER || msg >= 0xc000; } /*********************************************************************** * send_message * * Backend implementation of the various SendMessage functions. */ static BOOL send_message( struct send_message_info *info, DWORD_PTR *res_ptr, BOOL unicode ) { DWORD dest_pid; BOOL ret; LRESULT result; if (is_broadcast(info->hwnd)) { if (is_message_broadcastable( info->msg )) EnumWindows( broadcast_message_callback, (LPARAM)info ); if (res_ptr) *res_ptr = 1; return TRUE; } if (!(info->dest_tid = GetWindowThreadProcessId( info->hwnd, &dest_pid ))) return FALSE; if (USER_IsExitingThread( info->dest_tid )) return FALSE; SPY_EnterMessage( SPY_SENDMESSAGE, info->hwnd, info->msg, info->wparam, info->lparam ); if (info->dest_tid == GetCurrentThreadId()) { result = call_window_proc( info->hwnd, info->msg, info->wparam, info->lparam, unicode, TRUE, info->wm_char ); if (info->type == MSG_CALLBACK) call_sendmsg_callback( info->callback, info->hwnd, info->msg, info->data, result ); ret = TRUE; } else { if (dest_pid != GetCurrentProcessId() && (info->type == MSG_ASCII || info->type == MSG_UNICODE)) info->type = MSG_OTHER_PROCESS; /* MSG_ASCII can be sent unconverted except for WM_CHAR; everything else needs to be Unicode */ if (!unicode && is_unicode_message( info->msg ) && (info->type != MSG_ASCII || info->msg == WM_CHAR)) ret = WINPROC_CallProcAtoW( send_inter_thread_callback, info->hwnd, info->msg, info->wparam, info->lparam, &result, info, info->wm_char ); else ret = send_inter_thread_message( info, &result ); } SPY_ExitMessage( SPY_RESULT_OK, info->hwnd, info->msg, result, info->wparam, info->lparam ); if (ret && res_ptr) *res_ptr = result; return ret; } /*********************************************************************** * send_hardware_message */ NTSTATUS send_hardware_message( HWND hwnd, const INPUT *input, UINT flags ) { struct user_key_state_info *key_state_info = get_user_thread_info()->key_state; struct send_message_info info; int prev_x, prev_y, new_x, new_y; INT counter = global_key_state_counter; NTSTATUS ret; BOOL wait; info.type = MSG_HARDWARE; info.dest_tid = 0; info.hwnd = hwnd; info.flags = 0; info.timeout = 0; SERVER_START_REQ( send_hardware_message ) { req->win = wine_server_user_handle( hwnd ); req->flags = flags; req->input.type = input->type; switch (input->type) { case INPUT_MOUSE: req->input.mouse.x = input->u.mi.dx; req->input.mouse.y = input->u.mi.dy; req->input.mouse.data = input->u.mi.mouseData; req->input.mouse.flags = input->u.mi.dwFlags; req->input.mouse.time = input->u.mi.time; req->input.mouse.info = input->u.mi.dwExtraInfo; break; case INPUT_KEYBOARD: req->input.kbd.vkey = input->u.ki.wVk; req->input.kbd.scan = input->u.ki.wScan; req->input.kbd.flags = input->u.ki.dwFlags; req->input.kbd.time = input->u.ki.time; req->input.kbd.info = input->u.ki.dwExtraInfo; break; case INPUT_HARDWARE: req->input.hw.msg = input->u.hi.uMsg; req->input.hw.lparam = MAKELONG( input->u.hi.wParamL, input->u.hi.wParamH ); break; } if (key_state_info) wine_server_set_reply( req, key_state_info->state, sizeof(key_state_info->state) ); ret = wine_server_call( req ); wait = reply->wait; prev_x = reply->prev_x; prev_y = reply->prev_y; new_x = reply->new_x; new_y = reply->new_y; } SERVER_END_REQ; if (!ret) { if (key_state_info) { key_state_info->time = GetTickCount(); key_state_info->counter = counter; } if ((flags & SEND_HWMSG_INJECTED) && (prev_x != new_x || prev_y != new_y)) USER_Driver->pSetCursorPos( new_x, new_y ); } if (wait) { LRESULT ignored; wait_message_reply( 0 ); retrieve_reply( &info, 0, &ignored ); } return ret; } /*********************************************************************** * MSG_SendInternalMessageTimeout * * Same as SendMessageTimeoutW but sends the message to a specific thread * without requiring a window handle. Only works for internal Wine messages. */ LRESULT MSG_SendInternalMessageTimeout( DWORD dest_pid, DWORD dest_tid, UINT msg, WPARAM wparam, LPARAM lparam, UINT flags, UINT timeout, PDWORD_PTR res_ptr ) { struct send_message_info info; LRESULT ret, result; assert( msg & 0x80000000 ); /* must be an internal Wine message */ info.type = MSG_UNICODE; info.dest_tid = dest_tid; info.hwnd = 0; info.msg = msg; info.wparam = wparam; info.lparam = lparam; info.flags = flags; info.timeout = timeout; if (USER_IsExitingThread( dest_tid )) return 0; if (dest_tid == GetCurrentThreadId()) { result = handle_internal_message( 0, msg, wparam, lparam ); ret = 1; } else { if (dest_pid != GetCurrentProcessId()) info.type = MSG_OTHER_PROCESS; ret = send_inter_thread_message( &info, &result ); } if (ret && res_ptr) *res_ptr = result; return ret; } /*********************************************************************** * SendMessageTimeoutW (USER32.@) */ LRESULT WINAPI SendMessageTimeoutW( HWND hwnd, UINT msg, WPARAM wparam, LPARAM lparam, UINT flags, UINT timeout, PDWORD_PTR res_ptr ) { struct send_message_info info; info.type = MSG_UNICODE; info.hwnd = hwnd; info.msg = msg; info.wparam = wparam; info.lparam = lparam; info.flags = flags; info.timeout = timeout; return send_message( &info, res_ptr, TRUE ); } /*********************************************************************** * SendMessageTimeoutA (USER32.@) */ LRESULT WINAPI SendMessageTimeoutA( HWND hwnd, UINT msg, WPARAM wparam, LPARAM lparam, UINT flags, UINT timeout, PDWORD_PTR res_ptr ) { struct send_message_info info; info.type = MSG_ASCII; info.hwnd = hwnd; info.msg = msg; info.wparam = wparam; info.lparam = lparam; info.flags = flags; info.timeout = timeout; info.wm_char = WMCHAR_MAP_SENDMESSAGETIMEOUT; return send_message( &info, res_ptr, FALSE ); } /*********************************************************************** * SendMessageW (USER32.@) */ LRESULT WINAPI SendMessageW( HWND hwnd, UINT msg, WPARAM wparam, LPARAM lparam ) { DWORD_PTR res = 0; struct send_message_info info; info.type = MSG_UNICODE; info.hwnd = hwnd; info.msg = msg; info.wparam = wparam; info.lparam = lparam; info.flags = SMTO_NORMAL; info.timeout = 0; send_message( &info, &res, TRUE ); return res; } /*********************************************************************** * SendMessageA (USER32.@) */ LRESULT WINAPI SendMessageA( HWND hwnd, UINT msg, WPARAM wparam, LPARAM lparam ) { DWORD_PTR res = 0; struct send_message_info info; info.type = MSG_ASCII; info.hwnd = hwnd; info.msg = msg; info.wparam = wparam; info.lparam = lparam; info.flags = SMTO_NORMAL; info.timeout = 0; info.wm_char = WMCHAR_MAP_SENDMESSAGE; send_message( &info, &res, FALSE ); return res; } /*********************************************************************** * SendNotifyMessageA (USER32.@) */ BOOL WINAPI SendNotifyMessageA( HWND hwnd, UINT msg, WPARAM wparam, LPARAM lparam ) { struct send_message_info info; if (is_pointer_message( msg, wparam )) { SetLastError( ERROR_MESSAGE_SYNC_ONLY ); return FALSE; } info.type = MSG_NOTIFY; info.hwnd = hwnd; info.msg = msg; info.wparam = wparam; info.lparam = lparam; info.flags = 0; info.wm_char = WMCHAR_MAP_SENDMESSAGETIMEOUT; return send_message( &info, NULL, FALSE ); } /*********************************************************************** * SendNotifyMessageW (USER32.@) */ BOOL WINAPI SendNotifyMessageW( HWND hwnd, UINT msg, WPARAM wparam, LPARAM lparam ) { struct send_message_info info; if (is_pointer_message( msg, wparam )) { SetLastError( ERROR_MESSAGE_SYNC_ONLY ); return FALSE; } info.type = MSG_NOTIFY; info.hwnd = hwnd; info.msg = msg; info.wparam = wparam; info.lparam = lparam; info.flags = 0; return send_message( &info, NULL, TRUE ); } /*********************************************************************** * SendMessageCallbackA (USER32.@) */ BOOL WINAPI SendMessageCallbackA( HWND hwnd, UINT msg, WPARAM wparam, LPARAM lparam, SENDASYNCPROC callback, ULONG_PTR data ) { struct send_message_info info; if (is_pointer_message( msg, wparam )) { SetLastError( ERROR_MESSAGE_SYNC_ONLY ); return FALSE; } info.type = MSG_CALLBACK; info.hwnd = hwnd; info.msg = msg; info.wparam = wparam; info.lparam = lparam; info.callback = callback; info.data = data; info.flags = 0; info.wm_char = WMCHAR_MAP_SENDMESSAGETIMEOUT; return send_message( &info, NULL, FALSE ); } /*********************************************************************** * SendMessageCallbackW (USER32.@) */ BOOL WINAPI SendMessageCallbackW( HWND hwnd, UINT msg, WPARAM wparam, LPARAM lparam, SENDASYNCPROC callback, ULONG_PTR data ) { struct send_message_info info; if (is_pointer_message( msg, wparam )) { SetLastError( ERROR_MESSAGE_SYNC_ONLY ); return FALSE; } info.type = MSG_CALLBACK; info.hwnd = hwnd; info.msg = msg; info.wparam = wparam; info.lparam = lparam; info.callback = callback; info.data = data; info.flags = 0; return send_message( &info, NULL, TRUE ); } /*********************************************************************** * ReplyMessage (USER32.@) */ BOOL WINAPI ReplyMessage( LRESULT result ) { struct received_message_info *info = get_user_thread_info()->receive_info; if (!info) return FALSE; reply_message( info, result, FALSE ); return TRUE; } /*********************************************************************** * InSendMessage (USER32.@) */ BOOL WINAPI InSendMessage(void) { return (InSendMessageEx( NULL ) & (ISMEX_SEND | ISMEX_NOTIFY | ISMEX_CALLBACK)) != 0; } /*********************************************************************** * InSendMessageEx (USER32.@) */ DWORD WINAPI InSendMessageEx( LPVOID reserved ) { struct received_message_info *info = get_user_thread_info()->receive_info; if (info) return info->flags; return ISMEX_NOSEND; } /*********************************************************************** * PostMessageA (USER32.@) */ BOOL WINAPI PostMessageA( HWND hwnd, UINT msg, WPARAM wparam, LPARAM lparam ) { if (!map_wparam_AtoW( msg, &wparam, WMCHAR_MAP_POSTMESSAGE )) return TRUE; return PostMessageW( hwnd, msg, wparam, lparam ); } /*********************************************************************** * PostMessageW (USER32.@) */ BOOL WINAPI PostMessageW( HWND hwnd, UINT msg, WPARAM wparam, LPARAM lparam ) { struct send_message_info info; if (is_pointer_message( msg, wparam )) { SetLastError( ERROR_MESSAGE_SYNC_ONLY ); return FALSE; } TRACE( "hwnd %p msg %x (%s) wp %lx lp %lx\n", hwnd, msg, SPY_GetMsgName(msg, hwnd), wparam, lparam ); info.type = MSG_POSTED; info.hwnd = hwnd; info.msg = msg; info.wparam = wparam; info.lparam = lparam; info.flags = 0; if (is_broadcast(hwnd)) { if (is_message_broadcastable( info.msg )) EnumWindows( broadcast_message_callback, (LPARAM)&info ); return TRUE; } if (!hwnd) return PostThreadMessageW( GetCurrentThreadId(), msg, wparam, lparam ); if (!(info.dest_tid = GetWindowThreadProcessId( hwnd, NULL ))) return FALSE; if (USER_IsExitingThread( info.dest_tid )) return TRUE; return put_message_in_queue( &info, NULL ); } /********************************************************************** * PostThreadMessageA (USER32.@) */ BOOL WINAPI PostThreadMessageA( DWORD thread, UINT msg, WPARAM wparam, LPARAM lparam ) { if (!map_wparam_AtoW( msg, &wparam, WMCHAR_MAP_POSTMESSAGE )) return TRUE; return PostThreadMessageW( thread, msg, wparam, lparam ); } /********************************************************************** * PostThreadMessageW (USER32.@) */ BOOL WINAPI PostThreadMessageW( DWORD thread, UINT msg, WPARAM wparam, LPARAM lparam ) { struct send_message_info info; if (is_pointer_message( msg, wparam )) { SetLastError( ERROR_MESSAGE_SYNC_ONLY ); return FALSE; } if (USER_IsExitingThread( thread )) return TRUE; info.type = MSG_POSTED; info.dest_tid = thread; info.hwnd = 0; info.msg = msg; info.wparam = wparam; info.lparam = lparam; info.flags = 0; return put_message_in_queue( &info, NULL ); } /*********************************************************************** * PostQuitMessage (USER32.@) * * Posts a quit message to the current thread's message queue. * * PARAMS * exit_code [I] Exit code to return from message loop. * * RETURNS * Nothing. * * NOTES * This function is not the same as calling: *|PostThreadMessage(GetCurrentThreadId(), WM_QUIT, exit_code, 0); * It instead sets a flag in the message queue that signals it to generate * a WM_QUIT message when there are no other pending sent or posted messages * in the queue. */ void WINAPI PostQuitMessage( INT exit_code ) { SERVER_START_REQ( post_quit_message ) { req->exit_code = exit_code; wine_server_call( req ); } SERVER_END_REQ; } /* check for driver events if we detect that the app is not properly consuming messages */ static inline void check_for_driver_events( UINT msg ) { if (get_user_thread_info()->message_count > 200) { flush_window_surfaces( FALSE ); USER_Driver->pMsgWaitForMultipleObjectsEx( 0, NULL, 0, QS_ALLINPUT, 0 ); } else if (msg == WM_TIMER || msg == WM_SYSTIMER) { /* driver events should have priority over timers, so make sure we'll check for them soon */ get_user_thread_info()->message_count += 100; } else get_user_thread_info()->message_count++; } /*********************************************************************** * PeekMessageW (USER32.@) */ BOOL WINAPI DECLSPEC_HOTPATCH PeekMessageW( MSG *msg_out, HWND hwnd, UINT first, UINT last, UINT flags ) { MSG msg; USER_CheckNotLock(); check_for_driver_events( 0 ); if (!peek_message( &msg, hwnd, first, last, flags, 0 )) { DWORD ret; flush_window_surfaces( TRUE ); ret = wow_handlers.wait_message( 0, NULL, 0, QS_ALLINPUT, 0 ); /* if we received driver events, check again for a pending message */ if (ret == WAIT_TIMEOUT || !peek_message( &msg, hwnd, first, last, flags, 0 )) return FALSE; } check_for_driver_events( msg.message ); /* copy back our internal safe copy of message data to msg_out. * msg_out is a variable from the *program*, so it can't be used * internally as it can get "corrupted" by our use of SendMessage() * (back to the program) inside the message handling itself. */ if (!msg_out) { SetLastError( ERROR_NOACCESS ); return FALSE; } *msg_out = msg; return TRUE; } /*********************************************************************** * PeekMessageA (USER32.@) */ BOOL WINAPI DECLSPEC_HOTPATCH PeekMessageA( MSG *msg, HWND hwnd, UINT first, UINT last, UINT flags ) { if (get_pending_wmchar( msg, first, last, (flags & PM_REMOVE) )) return TRUE; if (!PeekMessageW( msg, hwnd, first, last, flags )) return FALSE; map_wparam_WtoA( msg, (flags & PM_REMOVE) ); return TRUE; } /*********************************************************************** * GetMessageW (USER32.@) */ BOOL WINAPI DECLSPEC_HOTPATCH GetMessageW( MSG *msg, HWND hwnd, UINT first, UINT last ) { HANDLE server_queue = get_server_queue_handle(); unsigned int mask = QS_POSTMESSAGE | QS_SENDMESSAGE; /* Always selected */ USER_CheckNotLock(); check_for_driver_events( 0 ); if (first || last) { if ((first <= WM_KEYLAST) && (last >= WM_KEYFIRST)) mask |= QS_KEY; if ( ((first <= WM_MOUSELAST) && (last >= WM_MOUSEFIRST)) || ((first <= WM_NCMOUSELAST) && (last >= WM_NCMOUSEFIRST)) ) mask |= QS_MOUSE; if ((first <= WM_TIMER) && (last >= WM_TIMER)) mask |= QS_TIMER; if ((first <= WM_SYSTIMER) && (last >= WM_SYSTIMER)) mask |= QS_TIMER; if ((first <= WM_PAINT) && (last >= WM_PAINT)) mask |= QS_PAINT; } else mask = QS_ALLINPUT; while (!peek_message( msg, hwnd, first, last, PM_REMOVE | (mask << 16), mask )) { wait_objects( 1, &server_queue, INFINITE, mask & (QS_SENDMESSAGE | QS_SMRESULT), mask, 0 ); } check_for_driver_events( msg->message ); return (msg->message != WM_QUIT); } /*********************************************************************** * GetMessageA (USER32.@) */ BOOL WINAPI DECLSPEC_HOTPATCH GetMessageA( MSG *msg, HWND hwnd, UINT first, UINT last ) { if (get_pending_wmchar( msg, first, last, TRUE )) return TRUE; GetMessageW( msg, hwnd, first, last ); map_wparam_WtoA( msg, TRUE ); return (msg->message != WM_QUIT); } /*********************************************************************** * IsDialogMessageA (USER32.@) * IsDialogMessage (USER32.@) */ BOOL WINAPI IsDialogMessageA( HWND hwndDlg, LPMSG pmsg ) { MSG msg = *pmsg; map_wparam_AtoW( msg.message, &msg.wParam, WMCHAR_MAP_NOMAPPING ); return IsDialogMessageW( hwndDlg, &msg ); } /*********************************************************************** * TranslateMessage (USER32.@) * * Implementation of TranslateMessage. * * TranslateMessage translates virtual-key messages into character-messages, * as follows : * WM_KEYDOWN/WM_KEYUP combinations produce a WM_CHAR or WM_DEADCHAR message. * ditto replacing WM_* with WM_SYS* * This produces WM_CHAR messages only for keys mapped to ASCII characters * by the keyboard driver. * * If the message is WM_KEYDOWN, WM_KEYUP, WM_SYSKEYDOWN, or WM_SYSKEYUP, the * return value is nonzero, regardless of the translation. * */ BOOL WINAPI TranslateMessage( const MSG *msg ) { UINT message; WCHAR wp[8]; BYTE state[256]; INT len; if (msg->message < WM_KEYFIRST || msg->message > WM_KEYLAST) return FALSE; if (msg->message != WM_KEYDOWN && msg->message != WM_SYSKEYDOWN) return TRUE; TRACE_(key)("Translating key %s (%04lX), scancode %04x\n", SPY_GetVKeyName(msg->wParam), msg->wParam, HIWORD(msg->lParam)); switch (msg->wParam) { case VK_PACKET: message = (msg->message == WM_KEYDOWN) ? WM_CHAR : WM_SYSCHAR; TRACE_(key)("PostMessageW(%p,%s,%04x,%08x)\n", msg->hwnd, SPY_GetMsgName(message, msg->hwnd), HIWORD(msg->lParam), LOWORD(msg->lParam)); PostMessageW( msg->hwnd, message, HIWORD(msg->lParam), LOWORD(msg->lParam)); return TRUE; case VK_PROCESSKEY: return ImmTranslateMessage(msg->hwnd, msg->message, msg->wParam, msg->lParam); } GetKeyboardState( state ); len = ToUnicode(msg->wParam, HIWORD(msg->lParam), state, wp, sizeof(wp)/sizeof(WCHAR), 0); if (len == -1) { message = (msg->message == WM_KEYDOWN) ? WM_DEADCHAR : WM_SYSDEADCHAR; TRACE_(key)("-1 -> PostMessageW(%p,%s,%04x,%08lx)\n", msg->hwnd, SPY_GetMsgName(message, msg->hwnd), wp[0], msg->lParam); PostMessageW( msg->hwnd, message, wp[0], msg->lParam ); } else if (len > 0) { INT i; message = (msg->message == WM_KEYDOWN) ? WM_CHAR : WM_SYSCHAR; TRACE_(key)("%d -> PostMessageW(%p,%s,<x>,%08lx) for <x> in %s\n", len, msg->hwnd, SPY_GetMsgName(message, msg->hwnd), msg->lParam, debugstr_wn(wp, len)); for (i = 0; i < len; i++) PostMessageW( msg->hwnd, message, wp[i], msg->lParam ); } return TRUE; } /*********************************************************************** * DispatchMessageA (USER32.@) * * See DispatchMessageW. */ LRESULT WINAPI DECLSPEC_HOTPATCH DispatchMessageA( const MSG* msg ) { LRESULT retval; /* Process timer messages */ if ((msg->message == WM_TIMER) || (msg->message == WM_SYSTIMER)) { if (msg->lParam) { __TRY { retval = CallWindowProcA( (WNDPROC)msg->lParam, msg->hwnd, msg->message, msg->wParam, GetTickCount() ); } __EXCEPT_ALL { retval = 0; } __ENDTRY return retval; } } if (!msg->hwnd) return 0; SPY_EnterMessage( SPY_DISPATCHMESSAGE, msg->hwnd, msg->message, msg->wParam, msg->lParam ); if (!WINPROC_call_window( msg->hwnd, msg->message, msg->wParam, msg->lParam, &retval, FALSE, WMCHAR_MAP_DISPATCHMESSAGE )) { if (!IsWindow( msg->hwnd )) SetLastError( ERROR_INVALID_WINDOW_HANDLE ); else SetLastError( ERROR_MESSAGE_SYNC_ONLY ); retval = 0; } SPY_ExitMessage( SPY_RESULT_OK, msg->hwnd, msg->message, retval, msg->wParam, msg->lParam ); if (msg->message == WM_PAINT) { /* send a WM_NCPAINT and WM_ERASEBKGND if the non-client area is still invalid */ HRGN hrgn = CreateRectRgn( 0, 0, 0, 0 ); GetUpdateRgn( msg->hwnd, hrgn, TRUE ); DeleteObject( hrgn ); } return retval; } /*********************************************************************** * DispatchMessageW (USER32.@) Process a message * * Process the message specified in the structure *_msg_. * * If the lpMsg parameter points to a WM_TIMER message and the * parameter of the WM_TIMER message is not NULL, the lParam parameter * points to the function that is called instead of the window * procedure. The function stored in lParam (timer callback) is protected * from causing page-faults. * * The message must be valid. * * RETURNS * * DispatchMessage() returns the result of the window procedure invoked. * * CONFORMANCE * * ECMA-234, Win32 * */ LRESULT WINAPI DECLSPEC_HOTPATCH DispatchMessageW( const MSG* msg ) { LRESULT retval; /* Process timer messages */ if ((msg->message == WM_TIMER) || (msg->message == WM_SYSTIMER)) { if (msg->lParam) { __TRY { retval = CallWindowProcW( (WNDPROC)msg->lParam, msg->hwnd, msg->message, msg->wParam, GetTickCount() ); } __EXCEPT_ALL { retval = 0; } __ENDTRY return retval; } } if (!msg->hwnd) return 0; SPY_EnterMessage( SPY_DISPATCHMESSAGE, msg->hwnd, msg->message, msg->wParam, msg->lParam ); if (!WINPROC_call_window( msg->hwnd, msg->message, msg->wParam, msg->lParam, &retval, TRUE, WMCHAR_MAP_DISPATCHMESSAGE )) { if (!IsWindow( msg->hwnd )) SetLastError( ERROR_INVALID_WINDOW_HANDLE ); else SetLastError( ERROR_MESSAGE_SYNC_ONLY ); retval = 0; } SPY_ExitMessage( SPY_RESULT_OK, msg->hwnd, msg->message, retval, msg->wParam, msg->lParam ); if (msg->message == WM_PAINT) { /* send a WM_NCPAINT and WM_ERASEBKGND if the non-client area is still invalid */ HRGN hrgn = CreateRectRgn( 0, 0, 0, 0 ); GetUpdateRgn( msg->hwnd, hrgn, TRUE ); DeleteObject( hrgn ); } return retval; } /*********************************************************************** * GetMessagePos (USER.119) * GetMessagePos (USER32.@) * * The GetMessagePos() function returns a long value representing a * cursor position, in screen coordinates, when the last message * retrieved by the GetMessage() function occurs. The x-coordinate is * in the low-order word of the return value, the y-coordinate is in * the high-order word. The application can use the MAKEPOINT() * macro to obtain a POINT structure from the return value. * * For the current cursor position, use GetCursorPos(). * * RETURNS * * Cursor position of last message on success, zero on failure. * * CONFORMANCE * * ECMA-234, Win32 * */ DWORD WINAPI GetMessagePos(void) { return get_user_thread_info()->GetMessagePosVal; } /*********************************************************************** * GetMessageTime (USER.120) * GetMessageTime (USER32.@) * * GetMessageTime() returns the message time for the last message * retrieved by the function. The time is measured in milliseconds with * the same offset as GetTickCount(). * * Since the tick count wraps, this is only useful for moderately short * relative time comparisons. * * RETURNS * * Time of last message on success, zero on failure. */ LONG WINAPI GetMessageTime(void) { return get_user_thread_info()->GetMessageTimeVal; } /*********************************************************************** * GetMessageExtraInfo (USER.288) * GetMessageExtraInfo (USER32.@) */ LPARAM WINAPI GetMessageExtraInfo(void) { return get_user_thread_info()->GetMessageExtraInfoVal; } /*********************************************************************** * SetMessageExtraInfo (USER32.@) */ LPARAM WINAPI SetMessageExtraInfo(LPARAM lParam) { struct user_thread_info *thread_info = get_user_thread_info(); LONG old_value = thread_info->GetMessageExtraInfoVal; thread_info->GetMessageExtraInfoVal = lParam; return old_value; } /*********************************************************************** * WaitMessage (USER.112) Suspend thread pending messages * WaitMessage (USER32.@) Suspend thread pending messages * * WaitMessage() suspends a thread until events appear in the thread's * queue. */ BOOL WINAPI WaitMessage(void) { return (MsgWaitForMultipleObjectsEx( 0, NULL, INFINITE, QS_ALLINPUT, 0 ) != WAIT_FAILED); } /*********************************************************************** * MsgWaitForMultipleObjectsEx (USER32.@) */ DWORD WINAPI MsgWaitForMultipleObjectsEx( DWORD count, const HANDLE *pHandles, DWORD timeout, DWORD mask, DWORD flags ) { HANDLE handles[MAXIMUM_WAIT_OBJECTS]; DWORD i; if (count > MAXIMUM_WAIT_OBJECTS-1) { SetLastError( ERROR_INVALID_PARAMETER ); return WAIT_FAILED; } /* add the queue to the handle list */ for (i = 0; i < count; i++) handles[i] = pHandles[i]; handles[count] = get_server_queue_handle(); return wait_objects( count+1, handles, timeout, (flags & MWMO_INPUTAVAILABLE) ? mask : 0, mask, flags ); } /*********************************************************************** * MsgWaitForMultipleObjects (USER32.@) */ DWORD WINAPI MsgWaitForMultipleObjects( DWORD count, const HANDLE *handles, BOOL wait_all, DWORD timeout, DWORD mask ) { return MsgWaitForMultipleObjectsEx( count, handles, timeout, mask, wait_all ? MWMO_WAITALL : 0 ); } /*********************************************************************** * WaitForInputIdle (USER32.@) */ DWORD WINAPI WaitForInputIdle( HANDLE hProcess, DWORD dwTimeOut ) { DWORD start_time, elapsed, ret; HANDLE handles[2]; handles[0] = hProcess; SERVER_START_REQ( get_process_idle_event ) { req->handle = wine_server_obj_handle( hProcess ); wine_server_call_err( req ); handles[1] = wine_server_ptr_handle( reply->event ); } SERVER_END_REQ; if (!handles[1]) return WAIT_FAILED; /* no event to wait on */ start_time = GetTickCount(); elapsed = 0; TRACE("waiting for %p\n", handles[1] ); do { ret = MsgWaitForMultipleObjects ( 2, handles, FALSE, dwTimeOut - elapsed, QS_SENDMESSAGE ); switch (ret) { case WAIT_OBJECT_0: return 0; case WAIT_OBJECT_0+2: process_sent_messages(); break; case WAIT_TIMEOUT: case WAIT_FAILED: TRACE("timeout or error\n"); return ret; default: TRACE("finished\n"); return 0; } if (dwTimeOut != INFINITE) { elapsed = GetTickCount() - start_time; if (elapsed > dwTimeOut) break; } } while (1); return WAIT_TIMEOUT; } /*********************************************************************** * RegisterWindowMessageA (USER32.@) * RegisterWindowMessage (USER.118) */ UINT WINAPI RegisterWindowMessageA( LPCSTR str ) { UINT ret = GlobalAddAtomA(str); TRACE("%s, ret=%x\n", str, ret); return ret; } /*********************************************************************** * RegisterWindowMessageW (USER32.@) */ UINT WINAPI RegisterWindowMessageW( LPCWSTR str ) { UINT ret = GlobalAddAtomW(str); TRACE("%s ret=%x\n", debugstr_w(str), ret); return ret; } typedef struct BroadcastParm { DWORD flags; LPDWORD recipients; UINT msg; WPARAM wp; LPARAM lp; BOOL success; HWINSTA winsta; } BroadcastParm; static BOOL CALLBACK bcast_childwindow( HWND hw, LPARAM lp ) { BroadcastParm *parm = (BroadcastParm*)lp; DWORD_PTR retval = 0; LRESULT lresult; if (parm->flags & BSF_IGNORECURRENTTASK && WIN_IsCurrentProcess(hw)) { TRACE("Not telling myself %p\n", hw); return TRUE; } /* I don't know 100% for sure if this is what Windows does, but it fits the tests */ if (parm->flags & BSF_QUERY) { TRACE("Telling window %p using SendMessageTimeout\n", hw); /* Not tested for conflicting flags */ if (parm->flags & BSF_FORCEIFHUNG || parm->flags & BSF_NOHANG) lresult = SendMessageTimeoutW( hw, parm->msg, parm->wp, parm->lp, SMTO_ABORTIFHUNG, 2000, &retval ); else if (parm->flags & BSF_NOTIMEOUTIFNOTHUNG) lresult = SendMessageTimeoutW( hw, parm->msg, parm->wp, parm->lp, SMTO_NOTIMEOUTIFNOTHUNG, 2000, &retval ); else lresult = SendMessageTimeoutW( hw, parm->msg, parm->wp, parm->lp, SMTO_NORMAL, 2000, &retval ); if (!lresult && GetLastError() == ERROR_TIMEOUT) { WARN("Timed out!\n"); if (!(parm->flags & BSF_FORCEIFHUNG)) goto fail; } if (retval == BROADCAST_QUERY_DENY) goto fail; return TRUE; fail: parm->success = FALSE; return FALSE; } else if (parm->flags & BSF_POSTMESSAGE) { TRACE("Telling window %p using PostMessage\n", hw); PostMessageW( hw, parm->msg, parm->wp, parm->lp ); } else { TRACE("Telling window %p using SendNotifyMessage\n", hw); SendNotifyMessageW( hw, parm->msg, parm->wp, parm->lp ); } return TRUE; } static BOOL CALLBACK bcast_desktop( LPWSTR desktop, LPARAM lp ) { BOOL ret; HDESK hdesktop; BroadcastParm *parm = (BroadcastParm*)lp; TRACE("desktop: %s\n", debugstr_w( desktop )); hdesktop = open_winstation_desktop( parm->winsta, desktop, 0, FALSE, DESKTOP_ENUMERATE|DESKTOP_WRITEOBJECTS|STANDARD_RIGHTS_WRITE ); if (!hdesktop) { FIXME("Could not open desktop %s\n", debugstr_w(desktop)); return TRUE; } ret = EnumDesktopWindows( hdesktop, bcast_childwindow, lp ); CloseDesktop(hdesktop); TRACE("-->%d\n", ret); return parm->success; } static BOOL CALLBACK bcast_winsta( LPWSTR winsta, LPARAM lp ) { BOOL ret; HWINSTA hwinsta = OpenWindowStationW( winsta, FALSE, WINSTA_ENUMDESKTOPS ); TRACE("hwinsta: %p/%s/%08x\n", hwinsta, debugstr_w( winsta ), GetLastError()); if (!hwinsta) return TRUE; ((BroadcastParm *)lp)->winsta = hwinsta; ret = EnumDesktopsW( hwinsta, bcast_desktop, lp ); CloseWindowStation( hwinsta ); TRACE("-->%d\n", ret); return ret; } /*********************************************************************** * BroadcastSystemMessageA (USER32.@) * BroadcastSystemMessage (USER32.@) */ LONG WINAPI BroadcastSystemMessageA( DWORD flags, LPDWORD recipients, UINT msg, WPARAM wp, LPARAM lp ) { return BroadcastSystemMessageExA( flags, recipients, msg, wp, lp, NULL ); } /*********************************************************************** * BroadcastSystemMessageW (USER32.@) */ LONG WINAPI BroadcastSystemMessageW( DWORD flags, LPDWORD recipients, UINT msg, WPARAM wp, LPARAM lp ) { return BroadcastSystemMessageExW( flags, recipients, msg, wp, lp, NULL ); } /*********************************************************************** * BroadcastSystemMessageExA (USER32.@) */ LONG WINAPI BroadcastSystemMessageExA( DWORD flags, LPDWORD recipients, UINT msg, WPARAM wp, LPARAM lp, PBSMINFO pinfo ) { map_wparam_AtoW( msg, &wp, WMCHAR_MAP_NOMAPPING ); return BroadcastSystemMessageExW( flags, recipients, msg, wp, lp, NULL ); } /*********************************************************************** * BroadcastSystemMessageExW (USER32.@) */ LONG WINAPI BroadcastSystemMessageExW( DWORD flags, LPDWORD recipients, UINT msg, WPARAM wp, LPARAM lp, PBSMINFO pinfo ) { BroadcastParm parm; DWORD recips = BSM_ALLCOMPONENTS; BOOL ret = TRUE; static const DWORD all_flags = ( BSF_QUERY | BSF_IGNORECURRENTTASK | BSF_FLUSHDISK | BSF_NOHANG | BSF_POSTMESSAGE | BSF_FORCEIFHUNG | BSF_NOTIMEOUTIFNOTHUNG | BSF_ALLOWSFW | BSF_SENDNOTIFYMESSAGE | BSF_RETURNHDESK | BSF_LUID ); TRACE("Flags: %08x, recipients: %p(0x%x), msg: %04x, wparam: %08lx, lparam: %08lx\n", flags, recipients, (recipients ? *recipients : recips), msg, wp, lp); if (flags & ~all_flags) { SetLastError(ERROR_INVALID_PARAMETER); return 0; } if (!recipients) recipients = &recips; if ( pinfo && flags & BSF_QUERY ) FIXME("Not returning PBSMINFO information yet\n"); parm.flags = flags; parm.recipients = recipients; parm.msg = msg; parm.wp = wp; parm.lp = lp; parm.success = TRUE; if (*recipients & BSM_ALLDESKTOPS || *recipients == BSM_ALLCOMPONENTS) ret = EnumWindowStationsW(bcast_winsta, (LONG_PTR)&parm); else if (*recipients & BSM_APPLICATIONS) { EnumWindows(bcast_childwindow, (LONG_PTR)&parm); ret = parm.success; } else FIXME("Recipients %08x not supported!\n", *recipients); return ret; } /*********************************************************************** * SetMessageQueue (USER32.@) */ BOOL WINAPI SetMessageQueue( INT size ) { /* now obsolete the message queue will be expanded dynamically as necessary */ return TRUE; } /*********************************************************************** * MessageBeep (USER32.@) */ BOOL WINAPI MessageBeep( UINT i ) { BOOL active = TRUE; SystemParametersInfoA( SPI_GETBEEP, 0, &active, FALSE ); if (active) USER_Driver->pBeep(); return TRUE; } /*********************************************************************** * SetCoalescableTimer (USER32.@) */ UINT_PTR WINAPI SetCoalescableTimer( HWND hwnd, UINT_PTR id, UINT timeout, TIMERPROC proc, ULONG tolerance ) { UINT_PTR ret; WNDPROC winproc = 0; if (proc) winproc = WINPROC_AllocProc( (WNDPROC)proc, FALSE ); timeout = min( max( USER_TIMER_MINIMUM, timeout ), USER_TIMER_MAXIMUM ); SERVER_START_REQ( set_win_timer ) { req->win = wine_server_user_handle( hwnd ); req->msg = WM_TIMER; req->id = id; req->rate = timeout; req->lparam = (ULONG_PTR)winproc; if (!wine_server_call_err( req )) { ret = reply->id; if (!ret) ret = TRUE; } else ret = 0; } SERVER_END_REQ; TRACE("Added %p %lx %p timeout %d\n", hwnd, id, winproc, timeout ); return ret; } /****************************************************************** * SetTimer (USER32.@) */ UINT_PTR WINAPI SetTimer( HWND hwnd, UINT_PTR id, UINT timeout, TIMERPROC proc ) { return SetCoalescableTimer( hwnd, id, timeout, proc, TIMERV_DEFAULT_COALESCING ); } /*********************************************************************** * SetSystemTimer (USER32.@) */ UINT_PTR WINAPI SetSystemTimer( HWND hwnd, UINT_PTR id, UINT timeout, TIMERPROC proc ) { UINT_PTR ret; WNDPROC winproc = 0; if (proc) winproc = WINPROC_AllocProc( (WNDPROC)proc, FALSE ); timeout = min( max( USER_TIMER_MINIMUM, timeout ), USER_TIMER_MAXIMUM ); SERVER_START_REQ( set_win_timer ) { req->win = wine_server_user_handle( hwnd ); req->msg = WM_SYSTIMER; req->id = id; req->rate = timeout; req->lparam = (ULONG_PTR)winproc; if (!wine_server_call_err( req )) { ret = reply->id; if (!ret) ret = TRUE; } else ret = 0; } SERVER_END_REQ; TRACE("Added %p %lx %p timeout %d\n", hwnd, id, winproc, timeout ); return ret; } /*********************************************************************** * KillTimer (USER32.@) */ BOOL WINAPI KillTimer( HWND hwnd, UINT_PTR id ) { BOOL ret; SERVER_START_REQ( kill_win_timer ) { req->win = wine_server_user_handle( hwnd ); req->msg = WM_TIMER; req->id = id; ret = !wine_server_call_err( req ); } SERVER_END_REQ; return ret; } /*********************************************************************** * KillSystemTimer (USER32.@) */ BOOL WINAPI KillSystemTimer( HWND hwnd, UINT_PTR id ) { BOOL ret; SERVER_START_REQ( kill_win_timer ) { req->win = wine_server_user_handle( hwnd ); req->msg = WM_SYSTIMER; req->id = id; ret = !wine_server_call_err( req ); } SERVER_END_REQ; return ret; } /********************************************************************** * IsGUIThread (USER32.@) */ BOOL WINAPI IsGUIThread( BOOL convert ) { FIXME( "%u: stub\n", convert ); return TRUE; } /********************************************************************** * GetGUIThreadInfo (USER32.@) */ BOOL WINAPI GetGUIThreadInfo( DWORD id, GUITHREADINFO *info ) { BOOL ret; if (info->cbSize != sizeof(*info)) { SetLastError( ERROR_INVALID_PARAMETER ); return FALSE; } SERVER_START_REQ( get_thread_input ) { req->tid = id; if ((ret = !wine_server_call_err( req ))) { info->flags = 0; info->hwndActive = wine_server_ptr_handle( reply->active ); info->hwndFocus = wine_server_ptr_handle( reply->focus ); info->hwndCapture = wine_server_ptr_handle( reply->capture ); info->hwndMenuOwner = wine_server_ptr_handle( reply->menu_owner ); info->hwndMoveSize = wine_server_ptr_handle( reply->move_size ); info->hwndCaret = wine_server_ptr_handle( reply->caret ); info->rcCaret.left = reply->rect.left; info->rcCaret.top = reply->rect.top; info->rcCaret.right = reply->rect.right; info->rcCaret.bottom = reply->rect.bottom; if (reply->menu_owner) info->flags |= GUI_INMENUMODE; if (reply->move_size) info->flags |= GUI_INMOVESIZE; if (reply->caret) info->flags |= GUI_CARETBLINKING; } } SERVER_END_REQ; return ret; } /****************************************************************** * IsHungAppWindow (USER32.@) * */ BOOL WINAPI IsHungAppWindow( HWND hWnd ) { BOOL ret; SERVER_START_REQ( is_window_hung ) { req->win = wine_server_user_handle( hWnd ); ret = !wine_server_call_err( req ) && reply->is_hung; } SERVER_END_REQ; return ret; } /****************************************************************** * ChangeWindowMessageFilter (USER32.@) */ BOOL WINAPI ChangeWindowMessageFilter( UINT message, DWORD flag ) { FIXME( "%x %08x\n", message, flag ); return TRUE; } /****************************************************************** * ChangeWindowMessageFilterEx (USER32.@) */ BOOL WINAPI ChangeWindowMessageFilterEx( HWND hwnd, UINT message, DWORD action, CHANGEFILTERSTRUCT *changefilter ) { FIXME( "%p %x %d %p\n", hwnd, message, action, changefilter ); return TRUE; }