/* CmdLine plugin for Miranda IM Copyright © 2007 Cristian Libotean 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. */ #include "stdafx.h" int Info(char *title, char *format, ...) { char str[4096]; va_list vararg; int tBytes; va_start(vararg, format); tBytes = mir_vsnprintf(str, sizeof(str), format, vararg); if (tBytes > 0) { str[tBytes] = 0; } va_end(vararg); return MessageBoxA(0, str, title, MB_OK | MB_ICONINFORMATION); } int MyPUShowMessage(char *lpzText, BYTE kind) { if (ServiceExists(MS_POPUP_SHOWMESSAGE)) return PUShowMessage(lpzText, kind); char *title = (kind == SM_NOTIFY) ? Translate("Notify") : Translate("Warning"); return MessageBoxA(NULL, lpzText, title, MB_OK | (kind == SM_NOTIFY) ? MB_ICONINFORMATION : MB_ICONEXCLAMATION); } #define HEX_SIZE 8 char *BinToHex(int size, PBYTE data) { char *szresult = NULL; int maxSize = size * 2 + HEX_SIZE + 1; szresult = (char *) new char[ maxSize ]; mir_snprintf(szresult, maxSize, "%0*X", HEX_SIZE, size); return bin2hex(data, size, szresult + HEX_SIZE); } void HexToBin(char *inData, ULONG &size, LPBYTE &outData) { char buffer[32] = {0}; strcpy(buffer, "0x"); strncpy_s(buffer + 2, HEX_SIZE, inData, _TRUNCATE); sscanf(buffer, "%x", &size); outData = (unsigned char*)new char[size*2]; char *tmp = inData + HEX_SIZE; buffer[4] = '\0'; //mark the end of the string for (UINT i = 0; i < size; i++) { strncpy_s(buffer + 2, 3, &tmp[i*2], _TRUNCATE); sscanf(buffer, "%x", &outData[i]); } } int GetStringFromDatabase(MCONTACT hContact, char *szModule, char *szSettingName, char *szError, char *szResult, size_t size) { DBVARIANT dbv = {0}; int res = 1; size_t len; dbv.type = DBVT_ASCIIZ; if (db_get(hContact, szModule, szSettingName, &dbv) == 0) { res = 0; size_t tmp = mir_strlen(dbv.pszVal); len = (tmp < size - 1) ? tmp : size - 1; strncpy(szResult, dbv.pszVal, len); szResult[len] = '\0'; mir_free(dbv.pszVal); } else{ res = 1; if (szError) { size_t tmp = mir_strlen(szError); len = (tmp < size - 1) ? tmp : size - 1; strncpy(szResult, szError, len); szResult[len] = '\0'; } else{ szResult[0] = '\0'; } } return res; } int GetStringFromDatabase(MCONTACT hContact, char *szModule, char *szSettingName, WCHAR *szError, WCHAR *szResult, size_t count) { DBVARIANT dbv = {0}; int res = 1; size_t len; dbv.type = DBVT_WCHAR; if (db_get_ws(hContact, szModule, szSettingName, &dbv) == 0) { res = 0; if (dbv.type != DBVT_WCHAR) { MultiByteToWideChar(CP_ACP, 0, dbv.pszVal, -1, szResult, (int) count); } else{ size_t tmp = mir_wstrlen(dbv.pwszVal); len = (tmp < count - 1) ? tmp : count - 1; wcsncpy(szResult, dbv.pwszVal, len); szResult[len] = L'\0'; } mir_free(dbv.pwszVal); } else{ res = 1; if (szError) { size_t tmp = mir_wstrlen(szError); len = (tmp < count - 1) ? tmp : count - 1; wcsncpy(szResult, szError, len); szResult[len] = L'\0'; } else{ szResult[0] = L'\0'; } } return res; } int GetStringFromDatabase(char *szSettingName, char *szError, char *szResult, size_t size) { return GetStringFromDatabase(NULL, ModuleName, szSettingName, szError, szResult, size); } int GetStringFromDatabase(char *szSettingName, WCHAR *szError, WCHAR *szResult, size_t count) { return GetStringFromDatabase(NULL, ModuleName, szSettingName, szError, szResult, count); } #pragma warning (disable: 4312) char* GetContactName(MCONTACT hContact, char *szProto) { char proto[200]; CONTACTINFO ctInfo; memset(&ctInfo, 0, sizeof(ctInfo)); ctInfo.cbSize = sizeof(ctInfo); if (szProto) ctInfo.szProto = szProto; else { GetContactProto(hContact, proto, sizeof(proto)); ctInfo.szProto = proto; } ctInfo.dwFlag = CNF_DISPLAY; ctInfo.hContact = hContact; //_debug_message("retrieving contact name for %d", hContact); INT_PTR ret = CallService(MS_CONTACT_GETCONTACTINFO, 0, (LPARAM) &ctInfo); if (ret) return NULL; //_debug_message(" contact name %s", ctInfo.pszVal); char *buffer = strdup((char*)ctInfo.pszVal); mir_free(ctInfo.pszVal); return buffer; } #pragma warning (default: 4312) #pragma warning (disable: 4312) void GetContactProto(MCONTACT hContact, char *szProto, size_t size) { GetStringFromDatabase(hContact, "Protocol", "p", NULL, szProto, size); } #pragma warning (default: 4312) #pragma warning (disable: 4312) char* GetContactID(MCONTACT hContact) { char protocol[256]; GetContactProto(hContact, protocol, sizeof(protocol)); return GetContactID(hContact, protocol); } char* GetContactID(MCONTACT hContact, char *szProto) { CONTACTINFO ctInfo; memset(&ctInfo, 0, sizeof(ctInfo)); ctInfo.cbSize = sizeof(ctInfo); ctInfo.szProto = szProto; ctInfo.dwFlag = CNF_UNIQUEID; ctInfo.hContact = hContact; INT_PTR ret = CallService(MS_CONTACT_GETCONTACTINFO, 0, (LPARAM) &ctInfo); if (ret) return NULL; char *buffer; char tmp[16]; switch (ctInfo.type) { case CNFT_BYTE: mir_snprintf(tmp, _countof(tmp), "%d", ctInfo.bVal); buffer = strdup(tmp); break; case CNFT_WORD: mir_snprintf(tmp, _countof(tmp), "%d", ctInfo.wVal); buffer = strdup(tmp); break; case CNFT_DWORD: mir_snprintf(tmp, _countof(tmp), "%ld", ctInfo.dVal); buffer = strdup(tmp); break; case CNFT_ASCIIZ: default: buffer = _strdup((char*)ctInfo.pszVal); break; } mir_free(ctInfo.pszVal); return buffer; } #pragma warning (default: 4312) #pragma warning (disable: 4312) MCONTACT GetContactFromID(char *szID, char *szProto) { char dispName[1024]; char cProtocol[256]; int found = 0; for (MCONTACT hContact = db_find_first(); hContact; hContact = db_find_next(hContact)) { GetContactProto(hContact, cProtocol, sizeof(cProtocol)); char *szHandle = GetContactID(hContact, cProtocol); char *tmp = (char*) CallService(MS_CLIST_GETCONTACTDISPLAYNAME, hContact, 0); strncpy_s(dispName, tmp, _TRUNCATE); if ((szHandle) && ((mir_strcmpi(szHandle, szID) == 0) || (mir_strcmpi(dispName, szID) == 0)) && ((szProto == NULL) || (_stricmp(szProto, cProtocol) == 0))) found = 1; free(szHandle); if (found) return hContact; } return NULL; } #pragma warning (default: 4312) #pragma warning (disable: 4312) MCONTACT GetContactFromID(char *szID, wchar_t *szProto) { char protocol[1024]; WideCharToMultiByte(CP_ACP, 0, szProto, -1, protocol, sizeof(protocol), NULL, NULL); return GetContactFromID(szID, protocol); } #pragma warning (default: 4312) void ScreenToClient(HWND hWnd, LPRECT rect) { POINT pt; int cx = rect->right - rect->left; int cy = rect->bottom - rect->top; pt.x = rect->left; pt.y = rect->top; ScreenToClient(hWnd, &pt); rect->left = pt.x; rect->top = pt.y; rect->right = pt.x + cx; rect->bottom = pt.y + cy; } void AnchorMoveWindow(HWND window, const WINDOWPOS *parentPos, int anchors) { RECT rParent; RECT rChild; if (parentPos->flags & SWP_NOSIZE) return; GetWindowRect(parentPos->hwnd, &rParent); rChild = AnchorCalcPos(window, &rParent, parentPos, anchors); MoveWindow(window, rChild.left, rChild.top, rChild.right - rChild.left, rChild.bottom - rChild.top, FALSE); } RECT AnchorCalcPos(HWND window, const RECT *rParent, const WINDOWPOS *parentPos, int anchors) { RECT rChild; RECT rTmp; GetWindowRect(window, &rChild); ScreenToClient(parentPos->hwnd, &rChild); int cx = rParent->right - rParent->left; int cy = rParent->bottom - rParent->top; if ((cx == parentPos->cx) && (cy == parentPos->cy)) return rChild; if (parentPos->flags & SWP_NOSIZE) return rChild; rTmp.left = parentPos->x - rParent->left; rTmp.right = (parentPos->x + parentPos->cx) - rParent->right; rTmp.bottom = (parentPos->y + parentPos->cy) - rParent->bottom; rTmp.top = parentPos->y - rParent->top; cx = (rTmp.left) ? -rTmp.left : rTmp.right; cy = (rTmp.top) ? -rTmp.top : rTmp.bottom; rChild.right += cx; rChild.bottom += cy; //expanded the window accordingly, now we need to enforce the anchors if ((anchors & ANCHOR_LEFT) && (!(anchors & ANCHOR_RIGHT))) rChild.right -= cx; if ((anchors & ANCHOR_TOP) && (!(anchors & ANCHOR_BOTTOM))) rChild.bottom -= cy; if ((anchors & ANCHOR_RIGHT) && (!(anchors & ANCHOR_LEFT))) rChild.left += cx; if ((anchors & ANCHOR_BOTTOM) && (!(anchors & ANCHOR_TOP))) rChild.top += cy; return rChild; }