/* Fingerprint NG (client version) icons module for Miranda NG Copyright © 2006-12 ghazan, mataes, HierOS, FYR, Bio, nullbie, faith_healer and all respective contributors. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ //Start of header #include "global.h" static UINT g_LPCodePage; static TCHAR g_szSkinLib[MAX_PATH]; static HANDLE hExtraIcon = NULL; static HANDLE hFolderChanged = NULL, hIconFolder = NULL; static FOUNDINFO* fiList = NULL; static int nFICount = 0; /* * Prepare * prepares upperstring masks and registers them in IcoLib */ static TCHAR* getSectionName(int flag) { switch(flag) { #include "finger_groups.h" } return NULL; } void FASTCALL Prepare(KN_FP_MASK* mask, bool bEnable) { mask->szMaskUpper = NULL; if (mask->hIcolibItem) Skin_RemoveIcon(mask->szIconName); mask->hIcolibItem = NULL; if (!mask->szMask || !bEnable) return; size_t iMaskLen = _tcslen(mask->szMask) + 1; LPTSTR pszNewMask = (LPTSTR)HeapAlloc(hHeap, HEAP_NO_SERIALIZE, iMaskLen * sizeof(TCHAR)); _tcscpy_s(pszNewMask, iMaskLen, mask->szMask); _tcsupr_s(pszNewMask, iMaskLen); mask->szMaskUpper = pszNewMask; TCHAR destfile[MAX_PATH]; if (mask->iIconIndex == IDI_NOTFOUND || mask->iIconIndex == IDI_UNKNOWN || mask->iIconIndex == IDI_UNDETECTED) GetModuleFileName(g_hInst, destfile, MAX_PATH); else { mir_sntprintf(destfile, SIZEOF(destfile), _T("%s"), g_szSkinLib); struct _stat64i32 stFileInfo; if ( _tstat(destfile, &stFileInfo) == -1) return; } LPTSTR SectName = getSectionName(mask->iSectionFlag); if (SectName == NULL) return; SKINICONDESC sid = { sizeof(sid) }; sid.flags = SIDF_ALL_TCHAR; sid.ptszSection = SectName; sid.pszName = mask->szIconName; sid.ptszDescription = mask->szClientDescription; sid.ptszDefaultFile = destfile; sid.iDefaultIndex = -mask->iIconIndex; sid.cx = sid.cy = 16; mask->hIcolibItem = Skin_AddIcon(&sid); } /* * Register icons */ void RegisterIcons() { // prepare masks int i; if (hHeap) HeapDestroy(hHeap); hHeap = HeapCreate(HEAP_NO_SERIALIZE, 0, 0); for (i = 0; i < DEFAULT_KN_FP_MASK_COUNT; i++) Prepare(&def_kn_fp_mask[i], true); for (i = 0; i < DEFAULT_KN_FP_OVERLAYS_COUNT; i++) Prepare(&def_kn_fp_overlays_mask[i], true); if ( db_get_b(NULL, "Finger", "GroupMirandaVersion", 0)) { for (i = 0; i < DEFAULT_KN_FP_OVERLAYS2_COUNT; i++) Prepare(&def_kn_fp_overlays2_mask[i], true); } else { for (i = 0; i < DEFAULT_KN_FP_OVERLAYS2_NO_VER_COUNT; i++) Prepare(&def_kn_fp_overlays2_mask[i], true); for (; i < DEFAULT_KN_FP_OVERLAYS2_COUNT; i++) Prepare(&def_kn_fp_overlays2_mask[i], false); } for (i = 0; i < DEFAULT_KN_FP_OVERLAYS3_COUNT; i++) Prepare(&def_kn_fp_overlays3_mask[i], true); for (i = 0; i < DEFAULT_KN_FP_OVERLAYS4_COUNT; i++) Prepare(&def_kn_fp_overlays4_mask[i], true); } /* * OnModulesLoaded * Hook necessary events here */ int OnModulesLoaded(WPARAM wParam, LPARAM lParam) { g_LPCodePage = CallService(MS_LANGPACK_GETCODEPAGE, 0, 0); //Hook necessary events HookEvent(ME_SKIN2_ICONSCHANGED, OnIconsChanged); HookEvent(ME_DB_CONTACT_SETTINGCHANGED, OnContactSettingChanged); HookEvent(ME_OPT_INITIALISE, OnOptInitialise); CallService(MS_UTILS_PATHTOABSOLUTET, (WPARAM)DEFAULT_SKIN_FOLDER, (LPARAM)g_szSkinLib); RegisterIcons(); hExtraIcon = ExtraIcon_Register("Client","Fingerprint","client_Miranda_Unknown", OnExtraIconListRebuild,OnExtraImageApply,OnExtraIconClick); return 0; } /* ApplyFingerprintImage * 1)Try to find appropriate mask * 2)Register icon in extraimage list if not yet registered (EMPTY_EXTRA_ICON) * 3)Set ExtraImage for contact */ int FASTCALL ApplyFingerprintImage(HANDLE hContact, LPTSTR szMirVer) { if (hContact == NULL) return 0; HANDLE hImage = INVALID_HANDLE_VALUE; if (szMirVer) hImage = GetIconIndexFromFI(szMirVer); ExtraIcon_SetIcon(hExtraIcon, hContact, hImage); return 0; } int OnExtraIconClick(WPARAM wParam, LPARAM lParam, LPARAM) { CallService(MS_USERINFO_SHOWDIALOG, wParam, NULL); return 0; } /* * OnExtraIconListRebuild * Set all registered indexes in array to EMPTY_EXTRA_ICON (unregistered icon) */ int OnExtraIconListRebuild(WPARAM wParam, LPARAM lParam) { ClearFI(); return 0; } /* * OnIconsChanged */ int OnIconsChanged(WPARAM wParam, LPARAM lParam) { ClearFI(); return 0; } /* * OnExtraImageApply * Try to get MirVer value from db for contact and if success calls ApplyFingerprintImage */ int OnExtraImageApply(WPARAM wParam, LPARAM lParam) { HANDLE hContact = (HANDLE)wParam; if (hContact == NULL) return 0; char *szProto = GetContactProto((HANDLE)wParam); if (szProto != NULL) { DBVARIANT dbvMirVer; if ( !db_get_ts(hContact, szProto, "MirVer", &dbvMirVer)) { ApplyFingerprintImage(hContact, dbvMirVer.ptszVal); DBFreeVariant(&dbvMirVer); } else ApplyFingerprintImage(hContact, NULL); } else ApplyFingerprintImage(hContact, NULL); return 0; } /* * OnContactSettingChanged * if contact settings changed apply new image or remove it */ int OnContactSettingChanged(WPARAM wParam, LPARAM lParam) { if ((HANDLE)wParam == NULL) return 0; DBCONTACTWRITESETTING* cws = (DBCONTACTWRITESETTING*)lParam; if (cws && cws->szSetting && !strcmp(cws->szSetting, "MirVer")) { if (cws->value.type == DBVT_UTF8) { LPWSTR wszVal = NULL; int iValLen = MultiByteToWideChar(CP_UTF8, 0, cws->value.pszVal, -1, NULL, 0); if (iValLen > 0) { wszVal = (LPWSTR)mir_alloc(iValLen * sizeof(WCHAR)); MultiByteToWideChar(CP_UTF8, 0, cws->value.pszVal, -1, wszVal, iValLen); } ApplyFingerprintImage((HANDLE)wParam, wszVal); mir_free(wszVal); } else if (cws->value.type == DBVT_ASCIIZ) { LPWSTR wszVal = NULL; int iValLen = MultiByteToWideChar(g_LPCodePage, 0, cws->value.pszVal, -1, NULL, 0); if (iValLen > 0) { wszVal = (LPWSTR)mir_alloc(iValLen * sizeof(WCHAR)); MultiByteToWideChar(g_LPCodePage, 0, cws->value.pszVal, -1, wszVal, iValLen); } ApplyFingerprintImage((HANDLE)wParam, wszVal); mir_free(wszVal); } else if (cws->value.type == DBVT_WCHAR) { ApplyFingerprintImage((HANDLE)wParam, cws->value.pwszVal); } else ApplyFingerprintImage((HANDLE)wParam, NULL); } return 0; } /* * WildCompareA * Compare 'name' string with 'mask' strings. * Masks can contain '*' or '?' wild symbols * Asterics '*' symbol covers 'empty' symbol too e.g WildCompare("Tst","T*st*"), returns TRUE * In order to handle situation 'at least one any sybol' use "?*" combination: * e.g WildCompare("Tst","T?*st*"), returns FALSE, but both WildCompare("Test","T?*st*") and * WildCompare("Teeest","T?*st*") return TRUE. * * Function is case sensitive! so convert input or modify func to use _qtoupper() * * Mask can contain several submasks. In this case each submask (including first) * should start from '|' e.g: "|first*submask|second*mask". * * Dec 25, 2006 by FYR: * Added Exception to masks: the mask "|^mask3|mask2|mask1" means: * if NOT according to mask 3 AND (mask1 OR mask2) * EXCEPTION should be BEFORE main mask: * IF Exception match - the comparing stops as FALSE * IF Exception does not match - comparing continue * IF Mask match - comparing stops as TRUE * IF Mask does not not match comparing continue */ BOOL FASTCALL WildCompareA(LPSTR szName, LPSTR szMask) { if (*szMask != '|') return WildCompareProcA(szName, szMask); size_t s = 1, e = 1; LPSTR szTemp = (LPSTR)_alloca(strlen(szMask) * sizeof(CHAR) + sizeof(CHAR)); BOOL bExcept; while(szMask[e] != '\0') { s = e; while(szMask[e] != '\0' && szMask[e] != '|') e++; // exception mask bExcept = (*(szMask + s) == '^'); if (bExcept) s++; memcpy(szTemp, szMask + s, (e - s) * sizeof(CHAR)); szTemp[e - s] = '\0'; if (WildCompareProcA(szName, szTemp)) return !bExcept; if (szMask[e] != '\0') e++; else return FALSE; } return FALSE; } /* * WildCompareW * Compare 'name' string with 'mask' strings. * Masks can contain '*' or '?' wild symbols * Asterics '*' symbol covers 'empty' symbol too e.g WildCompare("Tst","T*st*"), returns TRUE * In order to handle situation 'at least one any sybol' use "?*" combination: * e.g WildCompare("Tst","T?*st*"), returns FALSE, but both WildCompare("Test","T?*st*") and * WildCompare("Teeest","T?*st*") return TRUE. * * Function is case sensitive! so convert input or modify func to use _qtoupper() * * Mask can contain several submasks. In this case each submask (including first) * should start from '|' e.g: "|first*submask|second*mask". * * Dec 25, 2006 by FYR: * Added Exception to masks: the mask "|^mask3|mask2|mask1" means: * if NOT according to mask 3 AND (mask1 OR mask2) * EXCEPTION should be BEFORE main mask: * IF Exception match - the comparing stops as FALSE * IF Exception does not match - comparing continue * IF Mask match - comparing stops as TRUE * IF Mask does not not match comparing continue */ BOOL FASTCALL WildCompareW(LPWSTR wszName, LPWSTR wszMask) { if (wszMask == NULL) return NULL; if (*wszMask != L'|') return WildCompareProcW(wszName, wszMask); size_t s = 1, e = 1; LPWSTR wszTemp = (LPWSTR)_alloca(wcslen(wszMask) * sizeof(WCHAR) + sizeof(WCHAR)); BOOL bExcept; while(wszMask[e] != L'\0') { s = e; while(wszMask[e] != L'\0' && wszMask[e] != L'|') e++; // exception mask bExcept = (*(wszMask + s) == L'^'); if (bExcept) s++; memcpy(wszTemp, wszMask + s, (e - s) * sizeof(WCHAR)); wszTemp[e - s] = L'\0'; if (WildCompareProcW(wszName, wszTemp)) return !bExcept; if (wszMask[e] != L'\0') e++; else return FALSE; } return FALSE; } BOOL __inline WildCompareProcA(LPSTR szName, LPSTR szMask) { LPSTR szLast = NULL; for (;; szMask++, szName++) { if (*szMask != '?' && *szMask != *szName) break; if (*szName == '\0') return ((BOOL)!*szMask); } if (*szMask != '*') return FALSE; for (;; szMask++, szName++) { while(*szMask == '*') { szLast = szMask++; if (*szMask == '\0') return ((BOOL)!*szMask); /* true */ } if (*szName == '\0') return ((BOOL)!*szMask); /* *mask == EOS */ if (*szMask != '?' && *szMask != *szName && szLast != NULL) { szName -= (size_t)(szMask - szLast) - 1; szMask = szLast; } } } BOOL __inline WildCompareProcW(LPWSTR wszName, LPWSTR wszMask) { LPWSTR wszLast = NULL; for (;; wszMask++, wszName++) { if (*wszMask != L'?' && *wszMask != *wszName) break; if (*wszName == L'\0') return ((BOOL)!*wszMask); } if (*wszMask != L'*') return FALSE; for (;; wszMask++, wszName++) { while(*wszMask == L'*') { wszLast = wszMask++; if (*wszMask == L'\0') return ((BOOL)!*wszMask); /* true */ } if (*wszName == L'\0') return ((BOOL)!*wszMask); /* *mask == EOS */ if (*wszMask != L'?' && *wszMask != *wszName && wszLast != NULL) { wszName -= (size_t)(wszMask - wszLast) - 1; wszMask = wszLast; } } } static void MatchMasks(TCHAR* szMirVer, short *base, short *overlay, short *overlay2, short *overlay3, short *overlay4) { int i = 0, j = -1, k = -1, n = -1, m = -1; for (i=0; i < DEFAULT_KN_FP_MASK_COUNT; i++) { KN_FP_MASK& p = def_kn_fp_mask[i]; if (p.hIcolibItem == NULL) continue; if ( !WildCompareW(szMirVer, p.szMaskUpper)) continue; if (p.iIconIndex != IDI_NOTFOUND && p.iIconIndex != IDI_UNKNOWN && p.iIconIndex != IDI_UNDETECTED) { TCHAR destfile[MAX_PATH]; mir_sntprintf(destfile, SIZEOF(destfile), _T("%s"), g_szSkinLib); struct _stat64i32 stFileInfo; if ( _tstat(destfile, &stFileInfo) == -1) i = NOTFOUND_MASK_NUMBER; } break; } if (i == DEFAULT_KN_FP_MASK_COUNT-1) i = -1; if (!def_kn_fp_mask[i].fNotUseOverlay && i < DEFAULT_KN_FP_MASK_COUNT) { for (j = 0; j < DEFAULT_KN_FP_OVERLAYS_COUNT; j++) { KN_FP_MASK& p = def_kn_fp_overlays_mask[j]; if (p.hIcolibItem == NULL) continue; if ( !WildCompare(szMirVer, p.szMaskUpper)) continue; struct _stat64i32 stFileInfo; if ( _tstat(g_szSkinLib, &stFileInfo) != -1) break; } for (k = 0; k < DEFAULT_KN_FP_OVERLAYS2_COUNT; k++) { KN_FP_MASK& p = def_kn_fp_overlays2_mask[k]; if (p.hIcolibItem == NULL) continue; if ( WildCompareW(szMirVer, p.szMaskUpper)) break; } for (n = 0; n < DEFAULT_KN_FP_OVERLAYS3_COUNT; n++) { KN_FP_MASK& p = def_kn_fp_overlays3_mask[n]; if (p.hIcolibItem == NULL) continue; if ( WildCompareW(szMirVer, p.szMaskUpper)) break; } for (m = 0; m < DEFAULT_KN_FP_OVERLAYS4_COUNT; m++) { KN_FP_MASK& p = def_kn_fp_overlays4_mask[m]; if (p.hIcolibItem == NULL) continue; if ( WildCompareW(szMirVer, p.szMaskUpper)) break; } } *base = (i < DEFAULT_KN_FP_MASK_COUNT) ? i : -1; *overlay = (j < DEFAULT_KN_FP_OVERLAYS_COUNT) ? j : -1; *overlay2 = (k < DEFAULT_KN_FP_OVERLAYS2_COUNT) ? k : -1; *overlay3 = (n < DEFAULT_KN_FP_OVERLAYS3_COUNT) ? n : -1; *overlay4 = (m < DEFAULT_KN_FP_OVERLAYS4_COUNT) ? m : -1; } /* GetIconsIndexesA * Retrieves Icons indexes by Mirver */ void FASTCALL GetIconsIndexesA(LPSTR szMirVer, short *base, short *overlay, short *overlay2, short *overlay3, short *overlay4) { if (strcmp(szMirVer, "?") == 0) { *base = UNKNOWN_MASK_NUMBER; *overlay = -1; *overlay2 = -1; *overlay3 = -1; *overlay4 = -1; return; } LPTSTR tszMirVerUp = mir_a2t(szMirVer); _tcsupr(tszMirVerUp); MatchMasks(tszMirVerUp, base, overlay, overlay2, overlay3, overlay4); mir_free(tszMirVerUp); } /* GetIconsIndexesW * Retrieves Icons indexes by Mirver */ void FASTCALL GetIconsIndexesW(LPWSTR wszMirVer, short *base, short *overlay, short *overlay2, short *overlay3, short *overlay4) { if (wcscmp(wszMirVer, L"?") == 0) { *base = UNKNOWN_MASK_NUMBER; *overlay = -1; *overlay2 = -1; *overlay3 = -1; *overlay4 = -1; return; } LPWSTR wszMirVerUp = NEWWSTR_ALLOCA(wszMirVer); _wcsupr(wszMirVerUp); MatchMasks(wszMirVerUp, base, overlay, overlay2, overlay3, overlay4); } /* * CreateIconFromIndexes * returns hIcon of joined icon by given indexes */ HICON FASTCALL CreateIconFromIndexes(short base, short overlay, short overlay2, short overlay3, short overlay4) { HICON hIcon = NULL; // returned HICON HICON hTmp = NULL; HICON icMain = NULL; HICON icOverlay = NULL; HICON icOverlay2 = NULL; HICON icOverlay3 = NULL; HICON icOverlay4 = NULL; KN_FP_MASK* mainMask = &(def_kn_fp_mask[base]); icMain = Skin_GetIconByHandle(mainMask->hIcolibItem); if (icMain) { KN_FP_MASK* overlayMask = (overlay != -1) ? &(def_kn_fp_overlays_mask[overlay]) : NULL; KN_FP_MASK* overlay2Mask = (overlay2 != -1) ? &(def_kn_fp_overlays2_mask[overlay2]) : NULL; KN_FP_MASK* overlay3Mask = (overlay3 != -1) ? &(def_kn_fp_overlays3_mask[overlay3]) : NULL; KN_FP_MASK* overlay4Mask = (overlay4 != -1) ? &(def_kn_fp_overlays4_mask[overlay4]) : NULL; icOverlay = (overlayMask == NULL) ? NULL : Skin_GetIconByHandle(overlayMask->hIcolibItem); icOverlay2 = (overlay2Mask == NULL) ? NULL : Skin_GetIconByHandle(overlay2Mask->hIcolibItem); icOverlay3 = (overlay3Mask == NULL) ? NULL : Skin_GetIconByHandle(overlay3Mask->hIcolibItem); icOverlay4 = (overlay4Mask == NULL) ? NULL : Skin_GetIconByHandle(overlay4Mask->hIcolibItem); hIcon = icMain; if (overlayMask) { hIcon = CreateJoinedIcon(hIcon, icOverlay); hTmp = hIcon; } if (overlay2Mask) { hIcon = CreateJoinedIcon(hIcon, icOverlay2); if (hTmp) DestroyIcon(hTmp); hTmp = hIcon; } if (overlay3Mask) { hIcon = CreateJoinedIcon(hIcon, icOverlay3); if (hTmp) DestroyIcon(hTmp); } if (overlay4Mask) { hIcon = CreateJoinedIcon(hIcon, icOverlay4); if (hTmp) DestroyIcon(hTmp); } } if (hIcon == icMain) hIcon = CopyIcon(icMain); Skin_ReleaseIcon(icMain); Skin_ReleaseIcon(icOverlay); Skin_ReleaseIcon(icOverlay2); Skin_ReleaseIcon(icOverlay3); Skin_ReleaseIcon(icOverlay4); return hIcon; } /* * ServiceGetClientIconA * MS_FP_GETCLIENTICON service implementation. * wParam - char * MirVer value to get client for. * lParam - int noCopy - if wParam is equal to "1" will return icon handler without copiing icon. * ICON IS ALWAYS COPIED!!! */ INT_PTR ServiceGetClientIconA(WPARAM wParam, LPARAM lParam) { LPSTR szMirVer = (LPSTR)wParam; // MirVer value to get client for. if (szMirVer == NULL) return 0; HICON hIcon = NULL; // returned HICON int NoCopy = (int)lParam; // noCopy short base, overlay, overlay2, overlay3, overlay4; GetIconsIndexesA(szMirVer, &base, &overlay, &overlay2, &overlay3, &overlay4); if (base != -1) hIcon = CreateIconFromIndexes(base, overlay, overlay2, overlay3, overlay4); return (INT_PTR)hIcon; } /* * ServiceSameClientA * MS_FP_SAMECLIENTS service implementation. * wParam - char * first MirVer value * lParam - char * second MirVer value * return pointer to char string - client desription (do not destroy) if clients are same */ INT_PTR ServiceSameClientsA(WPARAM wParam, LPARAM lParam) { LPSTR szMirVerFirst = (LPSTR)wParam; // MirVer value to get client for. LPSTR szMirVerSecond = (LPSTR)lParam; // MirVer value to get client for. int firstIndex, secondIndex; BOOL Result = FALSE; firstIndex = secondIndex = 0; if (!szMirVerFirst || !szMirVerSecond) return (INT_PTR)NULL; //one of its is not null { LPTSTR tszMirVerFirstUp, tszMirVerSecondUp; int iMirVerFirstUpLen, iMirVerSecondUpLen; iMirVerFirstUpLen = MultiByteToWideChar(g_LPCodePage, 0, szMirVerFirst, -1, NULL, 0); iMirVerSecondUpLen = MultiByteToWideChar(g_LPCodePage, 0, szMirVerSecond, -1, NULL, 0); tszMirVerFirstUp = (LPTSTR)mir_alloc(iMirVerFirstUpLen * sizeof(TCHAR)); tszMirVerSecondUp = (LPTSTR)mir_alloc(iMirVerSecondUpLen * sizeof(TCHAR)); MultiByteToWideChar(g_LPCodePage, 0, szMirVerFirst, -1, tszMirVerFirstUp, iMirVerFirstUpLen); MultiByteToWideChar(g_LPCodePage, 0, szMirVerSecond, -1, tszMirVerSecondUp, iMirVerSecondUpLen); _tcsupr_s(tszMirVerFirstUp, iMirVerFirstUpLen); _tcsupr_s(tszMirVerSecondUp, iMirVerSecondUpLen); if (_tcscmp(tszMirVerFirstUp, _T("?")) == 0) firstIndex = UNKNOWN_MASK_NUMBER; else while(firstIndex < DEFAULT_KN_FP_MASK_COUNT) { if (WildCompare(tszMirVerFirstUp, def_kn_fp_mask[firstIndex].szMaskUpper)) break; firstIndex++; } if (_tcscmp(tszMirVerSecondUp, _T("?")) == 0) secondIndex = UNKNOWN_MASK_NUMBER; else while(secondIndex < DEFAULT_KN_FP_MASK_COUNT) { if (WildCompare(tszMirVerSecondUp, def_kn_fp_mask[secondIndex].szMaskUpper)) break; secondIndex++; } mir_free(tszMirVerFirstUp); mir_free(tszMirVerSecondUp); if (firstIndex == secondIndex && firstIndex < DEFAULT_KN_FP_MASK_COUNT) { int iClientDescriptionLen = WideCharToMultiByte(g_LPCodePage, 0, def_kn_fp_mask[firstIndex].szClientDescription, -1, NULL, 0, NULL, NULL); if (iClientDescriptionLen > 0) g_szClientDescription = (LPSTR)mir_realloc(g_szClientDescription, iClientDescriptionLen * sizeof(CHAR)); else return (INT_PTR)NULL; WideCharToMultiByte(g_LPCodePage, 0, def_kn_fp_mask[firstIndex].szClientDescription, -1, g_szClientDescription, iClientDescriptionLen, NULL, NULL); return (INT_PTR)g_szClientDescription; } } return (INT_PTR)NULL; } /* * ServiceGetClientIconW * MS_FP_GETCLIENTICONW service implementation. * wParam - LPWSTR MirVer value to get client for. * lParam - int noCopy - if wParam is equal to "1" will return icon handler without copiing icon. * ICON IS ALWAYS COPIED!!! */ INT_PTR ServiceGetClientIconW(WPARAM wParam, LPARAM lParam) { LPWSTR wszMirVer = (LPWSTR)wParam; // MirVer value to get client for. if (wszMirVer == NULL) return 0; short base, overlay, overlay2, overlay3, overlay4; GetIconsIndexesW(wszMirVer, &base, &overlay, &overlay2, &overlay3, &overlay4); HICON hIcon = NULL; // returned HICON if (base != -1) hIcon = CreateIconFromIndexes(base, overlay, overlay2, overlay3, overlay4); return (INT_PTR)hIcon; } /* * ServiceSameClientW * MS_FP_SAMECLIENTSW service implementation. * wParam - LPWSTR first MirVer value * lParam - LPWSTR second MirVer value * return pointer to char string - client desription (do not destroy) if clients are same */ INT_PTR ServiceSameClientsW(WPARAM wParam, LPARAM lParam) { LPWSTR wszMirVerFirst = (LPWSTR)wParam; // MirVer value to get client for. LPWSTR wszMirVerSecond = (LPWSTR)lParam; // MirVer value to get client for. int firstIndex, secondIndex; BOOL Result = FALSE; firstIndex = secondIndex = 0; if (!wszMirVerFirst || !wszMirVerSecond) return (INT_PTR)NULL; //one of its is not null { LPWSTR wszMirVerFirstUp, wszMirVerSecondUp; size_t iMirVerFirstUpLen, iMirVerSecondUpLen; iMirVerFirstUpLen = wcslen(wszMirVerFirst) + 1; iMirVerSecondUpLen = wcslen(wszMirVerSecond) + 1; wszMirVerFirstUp = (LPWSTR)mir_alloc(iMirVerFirstUpLen * sizeof(WCHAR)); wszMirVerSecondUp = (LPWSTR)mir_alloc(iMirVerSecondUpLen * sizeof(WCHAR)); wcscpy_s(wszMirVerFirstUp, iMirVerFirstUpLen, wszMirVerFirst); wcscpy_s(wszMirVerSecondUp, iMirVerSecondUpLen, wszMirVerSecond); _wcsupr_s(wszMirVerFirstUp, iMirVerFirstUpLen); _wcsupr_s(wszMirVerSecondUp, iMirVerSecondUpLen); if (wcscmp(wszMirVerFirstUp, L"?") == 0) firstIndex = UNKNOWN_MASK_NUMBER; else while(firstIndex < DEFAULT_KN_FP_MASK_COUNT) { if (WildCompareW(wszMirVerFirstUp, def_kn_fp_mask[firstIndex].szMaskUpper)) break; firstIndex++; } if (wcscmp(wszMirVerSecondUp, L"?") == 0) secondIndex = UNKNOWN_MASK_NUMBER; else while(secondIndex < DEFAULT_KN_FP_MASK_COUNT) { if (WildCompareW(wszMirVerSecondUp, def_kn_fp_mask[secondIndex].szMaskUpper)) break; secondIndex++; } mir_free(wszMirVerFirstUp); mir_free(wszMirVerSecondUp); if (firstIndex == secondIndex && firstIndex < DEFAULT_KN_FP_MASK_COUNT) { return (INT_PTR)def_kn_fp_mask[firstIndex].szClientDescription; } } return (INT_PTR)NULL; } /****************************************************************************** * Futher routines is for creating joined 'overlay' icons. ******************************************************************************/ /* * CreateBitmap32 - Create DIB 32 bitmap with sizes cx*cy */ HBITMAP __inline CreateBitmap32(int cx, int cy) { return CreateBitmap32Point(cx, cy, NULL); } /* * CreateBitmap32 - Create DIB 32 bitmap with sizes cx*cy and put reference * to new bitmap pixel image memory area to void ** bits */ HBITMAP FASTCALL CreateBitmap32Point(int cx, int cy, LPVOID* bits) { BITMAPINFO bmpi = { 0 }; LPVOID ptPixels = NULL; HBITMAP DirectBitmap; if (cx < 0 || cy < 0) return NULL; bmpi.bmiHeader.biSize = sizeof(BITMAPINFOHEADER); bmpi.bmiHeader.biWidth = cx; bmpi.bmiHeader.biHeight = cy; bmpi.bmiHeader.biPlanes = 1; // bmpi.bmiHeader.biCompression = BI_RGB; bmpi.bmiHeader.biBitCount = 32; DirectBitmap = CreateDIBSection(NULL, &bmpi, DIB_RGB_COLORS, &ptPixels, NULL, 0); GdiFlush(); if (ptPixels) memset(ptPixels, 0, cx * cy * 4); if (bits != NULL) *bits = ptPixels; return DirectBitmap; } /* * checkHasAlfa - checks if image has at least one BYTE in alpha channel * that is not a 0. (is image real 32 bit or just 24 bit) */ BOOL FASTCALL checkHasAlfa(LPBYTE from, int width, int height) { LPDWORD pt = (LPDWORD)from; LPDWORD lim = pt + width * height; while(pt < lim) { if (*pt & 0xFF000000) return TRUE; pt++; } return FALSE; } /* * checkMaskUsed - checks if mask image has at least one that is not a 0. * Not sure is it required or not */ BOOL FASTCALL checkMaskUsed(LPBYTE from) { int i; for (i=0; i < 16 * 16 / 8; i++) { if (from[i] != 0) return TRUE; } return FALSE; } /* * GetMaskBit - return value of apropriate mask bit in line at x position */ BOOL __inline GetMaskBit(LPBYTE line, int x) { return ((*(line + (x >> 3))) & (0x01 << (7 - (x & 0x07)))) != 0; } /* * blend - alpha blend ARGB values of 2 pixels. X1 - underlaying, * X2 - overlaying points. */ DWORD FASTCALL blend(DWORD X1,DWORD X2) { RGBA* q1 = (RGBA*)&X1; RGBA* q2 = (RGBA*)&X2; BYTE a_1 = ~q1->a; BYTE a_2 = ~q2->a; WORD am = q1->a * a_2; WORD ar = q1->a + ((a_1 * q2->a) / 255); // if a2 more than 0 than result should be more // or equal (if a1==0) to a2, else in combination // with mask we can get here black points ar = (q2->a > ar) ? q2->a : ar; if (ar == 0) return 0; { WORD arm = ar * 255; WORD rr = ((q1->r * am + q2->r * q2->a * 255)) / arm; WORD gr = ((q1->g * am + q2->g * q2->a * 255)) / arm; WORD br = ((q1->b * am + q2->b * q2->a * 255)) / arm; return (ar << 24) | (rr << 16) | (gr << 8) | br; } } /* * CreateJoinedIcon - creates new icon by drawing hTop over hBottom. */ HICON FASTCALL CreateJoinedIcon(HICON hBottom, HICON hTop) { BOOL drawn = FALSE; HDC tempDC, tempDC2, tempDC3; HICON res = NULL; HBITMAP oImage,nImage; HBITMAP nMask, hbm, obmp, obmp2; LPBYTE ptPixels = NULL; ICONINFO iNew = { 0 }; BYTE p[32] = { 0 }; tempDC = CreateCompatibleDC(NULL); nImage = CreateBitmap32Point(16, 16, (LPVOID*)&ptPixels); oImage = (HBITMAP)SelectObject(tempDC, nImage); // if (ptPixels) memset(ptPixels, 0, 16 * 16 * 4); if (IsWinVerXPPlus()) { ICONINFO iciBottom = { 0 }; ICONINFO iciTop = { 0 }; BITMAP bmp_top = { 0 }; BITMAP bmp_top_mask = { 0 }; BITMAP bmp_bottom = { 0 }; BITMAP bmp_bottom_mask = { 0 }; GetIconInfo(hBottom, &iciBottom); GetObject(iciBottom.hbmColor, sizeof(BITMAP), &bmp_bottom); GetObject(iciBottom.hbmMask, sizeof(BITMAP), &bmp_bottom_mask); GetIconInfo(hTop, &iciTop); GetObject(iciTop.hbmColor, sizeof(BITMAP), &bmp_top); GetObject(iciTop.hbmMask, sizeof(BITMAP), &bmp_top_mask); if (bmp_bottom.bmBitsPixel == 32 && bmp_top.bmBitsPixel == 32) { LPBYTE BottomBuffer, TopBuffer, BottomMaskBuffer, TopMaskBuffer; LPBYTE bb, tb, bmb, tmb; LPBYTE db = ptPixels; int vstep_d = 16 * 4; int vstep_b = bmp_bottom.bmWidthBytes; int vstep_t = bmp_top.bmWidthBytes; int vstep_bm = bmp_bottom_mask.bmWidthBytes; int vstep_tm = bmp_top_mask.bmWidthBytes; if (bmp_bottom.bmBits) bb = BottomBuffer = (LPBYTE)bmp_bottom.bmBits; else { BottomBuffer = (LPBYTE)_alloca(bmp_bottom.bmHeight * bmp_bottom.bmWidthBytes); GetBitmapBits(iciBottom.hbmColor, bmp_bottom.bmHeight * bmp_bottom.bmWidthBytes, BottomBuffer); bb = BottomBuffer + vstep_b * (bmp_bottom.bmHeight - 1); vstep_b = -vstep_b; } if (bmp_top.bmBits) tb = TopBuffer = (LPBYTE)bmp_top.bmBits; else { TopBuffer = (LPBYTE)_alloca(bmp_top.bmHeight * bmp_top.bmWidthBytes); GetBitmapBits(iciTop.hbmColor, bmp_top.bmHeight * bmp_top.bmWidthBytes, TopBuffer); tb = TopBuffer + vstep_t * (bmp_top.bmHeight - 1); vstep_t = -vstep_t; } if (bmp_bottom_mask.bmBits) bmb = BottomMaskBuffer = (LPBYTE)bmp_bottom_mask.bmBits; else { BottomMaskBuffer = (LPBYTE)_alloca(bmp_bottom_mask.bmHeight * bmp_bottom_mask.bmWidthBytes); GetBitmapBits(iciBottom.hbmMask, bmp_bottom_mask.bmHeight * bmp_bottom_mask.bmWidthBytes, BottomMaskBuffer); bmb = BottomMaskBuffer + vstep_bm * (bmp_bottom_mask.bmHeight - 1); vstep_bm = -vstep_bm; } if (bmp_top_mask.bmBits) tmb = TopMaskBuffer = (LPBYTE)bmp_top_mask.bmBits; else { TopMaskBuffer = (LPBYTE)_alloca(bmp_top_mask.bmHeight * bmp_top_mask.bmWidthBytes); GetBitmapBits(iciTop.hbmMask, bmp_top_mask.bmHeight * bmp_top_mask.bmWidthBytes, TopMaskBuffer); tmb = TopMaskBuffer + vstep_tm * (bmp_top_mask.bmHeight - 1); vstep_tm = -vstep_tm; } { int x; int y; BOOL topHasAlpha = checkHasAlfa(TopBuffer, bmp_top.bmWidth, bmp_top.bmHeight); BOOL bottomHasAlpha = checkHasAlfa(BottomBuffer, bmp_bottom.bmWidth, bmp_bottom.bmHeight); BOOL topMaskUsed = !topHasAlpha && checkMaskUsed(TopMaskBuffer); BOOL bottomMaskUsed = !bottomHasAlpha && checkMaskUsed(BottomMaskBuffer); for(y = 0; y < 16; y++) { for(x = 0; x < 16; x++) { DWORD bottom_d = ((LPDWORD)bb)[x]; DWORD top_d = ((LPDWORD)tb)[x]; if (topMaskUsed) { if (GetMaskBit(tmb, x)) top_d &= 0x00FFFFFF; else top_d |= 0xFF000000; } else if (!topHasAlpha) top_d |= 0xFF000000; if (bottomMaskUsed) { if (GetMaskBit(bmb, x)) bottom_d &= 0x00FFFFFF; else bottom_d |= 0xFF000000; } else if (!bottomHasAlpha) bottom_d |= 0xFF000000; ((LPDWORD)db)[x] = blend(bottom_d, top_d); } bb += vstep_b; tb += vstep_t; bmb += vstep_bm; tmb += vstep_tm; db += vstep_d; } } drawn = TRUE; } DeleteObject(iciBottom.hbmColor); DeleteObject(iciTop.hbmColor); DeleteObject(iciBottom.hbmMask); DeleteObject(iciTop.hbmMask); } if (!drawn) { DrawIconEx(tempDC, 0, 0, hBottom, 16, 16, 0, NULL, DI_NORMAL); DrawIconEx(tempDC, 0, 0, hTop, 16, 16, 0, NULL, DI_NORMAL); } nMask = CreateBitmap(16, 16, 1, 1, p); tempDC2 = CreateCompatibleDC(NULL); tempDC3 = CreateCompatibleDC(NULL); hbm = CreateCompatibleBitmap(tempDC3, 16, 16); obmp = (HBITMAP)SelectObject(tempDC2, nMask); obmp2 = (HBITMAP)SelectObject(tempDC3, hbm); DrawIconEx(tempDC2, 0, 0, hBottom, 16, 16, 0, NULL, DI_MASK); DrawIconEx(tempDC3, 0, 0, hTop, 16, 16, 0, NULL, DI_MASK); BitBlt(tempDC2, 0, 0, 16, 16, tempDC3, 0, 0, SRCAND); GdiFlush(); SelectObject(tempDC2, obmp); DeleteDC(tempDC2); SelectObject(tempDC3, obmp2); DeleteDC(tempDC3); SelectObject(tempDC, oImage); DeleteDC(tempDC); DeleteObject(hbm); iNew.fIcon = TRUE; iNew.hbmColor = nImage; iNew.hbmMask = nMask; res = CreateIconIndirect(&iNew); DeleteObject(nImage); DeleteObject(nMask); return res; } HANDLE FASTCALL GetIconIndexFromFI(LPTSTR szMirVer) { short base, overlay, overlay2, overlay3, overlay4; GetIconsIndexes(szMirVer, &base, &overlay, &overlay2, &overlay3, &overlay4); if (base == -1 || nFICount == 0xFFFF) return INVALID_HANDLE_VALUE; // MAX: 256 + 64 + 64 + 64 + 64 DWORD val = (base << 24) | ((overlay & 0x3F) << 18) | ((overlay2 & 0x3F) << 12) | ((overlay3 & 0x3F) << 6) | (overlay4 & 0x3F); int i; HANDLE hFoundImage = INVALID_HANDLE_VALUE; for (i=0; i < nFICount; i++) { if (fiList[i].dwArray == val) { hFoundImage = fiList[i].hRegisteredImage; break; } } if (hFoundImage == INVALID_HANDLE_VALUE && i == nFICount) { //not found - then add HICON hIcon = CreateIconFromIndexes(base, overlay, overlay2, overlay3, overlay4); fiList = (FOUNDINFO*)mir_realloc(fiList, sizeof(FOUNDINFO) * (nFICount + 1)); fiList[nFICount].dwArray = val; if (hIcon != NULL) { hFoundImage = (HANDLE)CallService(MS_CLIST_EXTRA_ADD_ICON, (WPARAM)hIcon, 0); fiList[nFICount].hRegisteredImage = hFoundImage; DestroyIcon(hIcon); } else fiList[nFICount].hRegisteredImage = INVALID_HANDLE_VALUE; nFICount++; } return hFoundImage; } VOID ClearFI() { if (fiList != NULL) mir_free(fiList); fiList = NULL; nFICount = 0; }