/* Variables Plugin for Miranda-IM (www.miranda-im.org) Copyright 2003-2006 P. Boon This program is mir_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" /* some handles */ static HANDLE hOptionsHook = nullptr, hIconsChangedHook = nullptr; HCURSOR hCurSplitNS; struct ParseOptions gParseOpts; wchar_t* getArguments(wchar_t *string, TArgList &argv) { wchar_t *cur = string; while (*cur == ' ') cur++; if (*cur != '(') return nullptr; wchar_t *scur = cur; cur++; int brackets = 0; bool bDontParse = false, bNewArg = false, bDone = false; while (!bDone && *cur != 0) { switch (*cur) { case DONTPARSE_CHAR: bDontParse = !bDontParse; break; case ',': if ((!bDontParse) && (brackets == 0)) bNewArg = true; break; case '(': if (!bDontParse) brackets++; break; case ')': if (brackets == 0 && !bDontParse) bDone = bNewArg = TRUE; else if (brackets > 0 && !bDontParse) brackets--; break; } if (bNewArg) { wchar_t *tszArg = nullptr; if (cur > scur) tszArg = mir_wstrndup(scur + 1, cur - (scur + 1)); if (tszArg == nullptr) tszArg = mir_wstrdup(L""); argv.insert(tszArg); bNewArg = false; scur = cur; } cur++; } // set args if (cur[-1] != ')') { argv.destroy(); return nullptr; } return cur; } int isValidTokenChar(wchar_t tc) { return (tc != '(') && (tc != ',') && (tc != ')') && (tc != FIELD_CHAR) && (tc != FUNC_CHAR) && (tc != FUNC_ONCE_CHAR) && (tc != '/') && (tc != 0); } /* pretty much the main loop */ static wchar_t* replaceDynVars(FORMATINFO *fi) { if (fi->szFormat.w == nullptr) return nullptr; int i, scurPos, curPos, tmpVarPos; wchar_t *string = mir_wstrdup(fi->szFormat.w); if (string == nullptr) return nullptr; TArgList argv; FORMATINFO afi; memcpy(&afi, fi, sizeof(afi)); for (size_t pos = 0; pos < mir_wstrlen(string); pos++) { // string may move in memory, iterate by remembering the position in the string wchar_t *cur = string + pos; // new round if (*cur == DONTPARSE_CHAR) { memmove(cur, cur + 1, (mir_wstrlen(cur + 1) + 1)*sizeof(wchar_t)); if (*cur == DONTPARSE_CHAR) continue; while ((*cur != DONTPARSE_CHAR) && (*cur != 0)) cur++; memmove(cur, cur + 1, (mir_wstrlen(cur + 1) + 1)*sizeof(wchar_t)); pos = cur - string - 1; continue; } // remove end of lines else if ((!wcsncmp(cur, L"\r\n", 2)) && (gParseOpts.bStripEOL)) { memmove(cur, cur + 2, (mir_wstrlen(cur + 2) + 1)*sizeof(wchar_t)); pos = cur - string - 1; continue; } else if ((*cur == '\n' && gParseOpts.bStripEOL) || (*cur == ' ' && gParseOpts.bStripWS)) { memmove(cur, cur + 1, (mir_wstrlen(cur + 1) + 1)*sizeof(wchar_t)); pos = cur - string - 1; continue; } // remove comments else if (!wcsncmp(cur, _A2W(COMMENT_STRING), _countof(COMMENT_STRING))) { wchar_t *scur = cur; while (wcsncmp(cur, L"\r\n", 2) && *cur != '\n' && *cur != 0) cur++; if (*cur == 0) { *scur = 0; string = (wchar_t*)mir_realloc(string, (mir_wstrlen(string) + 1)*sizeof(wchar_t)); continue; } memmove(scur, cur, (mir_wstrlen(cur) + 1)*sizeof(wchar_t)); pos = scur - string - 1; continue; } else if ((*cur != FIELD_CHAR) && (*cur != FUNC_CHAR) && (*cur != FUNC_ONCE_CHAR)) { if (gParseOpts.bStripAll) { memmove(cur, cur + 1, (mir_wstrlen(cur + 1) + 1)*sizeof(wchar_t)); pos = cur - string - 1; } continue; } wchar_t *scur = cur + 1, *tcur = scur; while (isValidTokenChar(*tcur)) tcur++; if (tcur == cur) { fi->eCount++; continue; } TOKENREGISTEREX *tr = nullptr; { ptrW token(mir_wstrndup(cur + 1, tcur - scur)); // cur points to FIELD_CHAR or FUNC_CHAR tmpVarPos = -1; if (*cur == FIELD_CHAR) { for (i = 0; i < fi->cbTemporaryVarsSize; i += 2) { if (!mir_wstrcmp(fi->szTemporaryVars.w[i], token)) { tmpVarPos = i; break; } } } if (tmpVarPos < 0) tr = searchRegister(token, (*cur == FIELD_CHAR) ? TRF_FIELD : TRF_FUNCTION); } if (tmpVarPos < 0 && tr == nullptr) { fi->eCount++; // token not found, continue continue; } scur = cur; // store this pointer for later use if (*cur == FIELD_CHAR) { size_t len = mir_wstrlen(tr != nullptr ? tr->szTokenString.w : fi->szTemporaryVars.w[tmpVarPos]); cur++; if (cur[len] != FIELD_CHAR) { // the next char after the token should be % fi->eCount++; continue; } cur += len + 1; } else if ((*cur == FUNC_CHAR) || (*cur == FUNC_ONCE_CHAR)) { cur += mir_wstrlen(tr->szTokenString.w) + 1; wchar_t *argcur = getArguments(cur, argv); if (argcur == cur || argcur == nullptr) { fi->eCount++; // error getting arguments continue; } cur = argcur; // arguments for (i = 0; i < argv.getCount(); i++) { if (tr->flags & TRF_UNPARSEDARGS) continue; afi.szFormat.w = argv[i]; afi.eCount = afi.pCount = 0; argv.put(i, formatString(&afi)); fi->eCount += afi.eCount; fi->pCount += afi.pCount; mir_free(afi.szFormat.w); } } // cur should now point at the character after FIELD_CHAR or after the last ')' ARGUMENTSINFO ai = { 0 }; ptrW parsedToken; if (tr != nullptr) { argv.insert(mir_wstrdup(tr->szTokenString.w), 0); ai.cbSize = sizeof(ai); ai.argc = argv.getCount(); ai.argv.w = argv.getArray(); ai.fi = fi; if ((*scur == FUNC_ONCE_CHAR) || (*scur == FIELD_CHAR)) ai.flags |= AIF_DONTPARSE; parsedToken = parseFromRegister(&ai); } else parsedToken = mir_wstrdup(fi->szTemporaryVars.w[tmpVarPos + 1]); argv.destroy(); if (parsedToken == NULL) { fi->eCount++; continue; } // replaced a var if (ai.flags & AIF_FALSE) fi->eCount++; else fi->pCount++; size_t parsedTokenLen = mir_wstrlen(parsedToken); size_t initStrLen = mir_wstrlen(string); size_t tokenLen = cur - scur; scurPos = scur - string; curPos = cur - string; if (tokenLen < parsedTokenLen) { // string needs more memory string = (wchar_t*)mir_realloc(string, (initStrLen - tokenLen + parsedTokenLen + 1)*sizeof(wchar_t)); if (string == nullptr) { fi->eCount++; return nullptr; } } scur = string + scurPos; cur = string + curPos; memmove(scur + parsedTokenLen, cur, (mir_wstrlen(cur) + 1)*sizeof(wchar_t)); memcpy(scur, parsedToken, parsedTokenLen*sizeof(wchar_t)); { size_t len = mir_wstrlen(string); string = (wchar_t*)mir_realloc(string, (len + 1)*sizeof(wchar_t)); } if ((ai.flags & AIF_DONTPARSE) || tmpVarPos >= 0) pos += parsedTokenLen; pos--; // parse the same pos again, it changed } return (wchar_t*)mir_realloc(string, (mir_wstrlen(string) + 1)*sizeof(wchar_t)); } /* MS_VARS_FORMATSTRING */ static INT_PTR formatStringService(WPARAM wParam, LPARAM) { FORMATINFO *pfi = (FORMATINFO*)wParam; if (pfi->cbSize != sizeof(FORMATINFO)) return 0; // prevent the original structure from being altered FORMATINFO tmpfi = *pfi; bool copied; wchar_t *tszFormat, *tszSource; if (tmpfi.flags & FIF_UNICODE) { copied = false; tszFormat = tmpfi.szFormat.w; tszSource = tmpfi.szExtraText.w; } else { copied = true; tszFormat = mir_a2u(tmpfi.szFormat.a); tszSource = mir_a2u(tmpfi.szExtraText.a); for (int i = 0; i < tmpfi.cbTemporaryVarsSize; i++) tmpfi.szTemporaryVars.w[i] = mir_a2u(tmpfi.szTemporaryVars.a[i]); } tmpfi.szFormat.w = tszFormat; tmpfi.szExtraText.w = tszSource; wchar_t *tRes = formatString(&tmpfi); INT_PTR res; if (!(tmpfi.flags & FIF_UNICODE)) { res = (INT_PTR)mir_u2a(tRes); mir_free(tRes); } else res = (INT_PTR)tRes; if (copied) { mir_free(tszFormat); mir_free(tszSource); for (int i = 0; i < tmpfi.cbTemporaryVarsSize; i++) mir_free(tmpfi.szTemporaryVars.w); } ((FORMATINFO *)wParam)->eCount = tmpfi.eCount; ((FORMATINFO *)wParam)->pCount = tmpfi.pCount; return res; } wchar_t* formatString(FORMATINFO *fi) { if (fi == nullptr) return nullptr; /* the service to format a given string */ if ((fi->eCount + fi->pCount) > 5000) { fi->eCount++; fi->pCount++; log_debug(0, "Variables: Overflow protection; %d parses", (fi->eCount + fi->pCount)); return nullptr; } return replaceDynVars(fi); } int setParseOptions(struct ParseOptions *po) { if (po == nullptr) po = &gParseOpts; memset(po, 0, sizeof(struct ParseOptions)); if (!g_plugin.getByte(SETTING_STRIPALL, 0)) { po->bStripEOL = g_plugin.getByte(SETTING_STRIPCRLF, 0); po->bStripWS = g_plugin.getByte(SETTING_STRIPWS, 0); } else po->bStripAll = TRUE; return 0; } static IconItem iconList[] = { { LPGEN("Help"), "vars_help", IDI_V } }; int LoadVarModule() { if (initTokenRegister() != 0 || initContactModule() != 0) return -1; setParseOptions(nullptr); CreateServiceFunction(MS_VARS_FORMATSTRING, formatStringService); CreateServiceFunction(MS_VARS_REGISTERTOKEN, registerToken); // help dialog hCurSplitNS = LoadCursor(nullptr, IDC_SIZENS); CreateServiceFunction(MS_VARS_SHOWHELP, showHelpService); CreateServiceFunction(MS_VARS_SHOWHELPEX, showHelpExService); g_plugin.registerIcon(LPGEN("Variables"), iconList); hIconsChangedHook = HookEvent(ME_SKIN_ICONSCHANGED, iconsChanged); CreateServiceFunction(MS_VARS_GETSKINITEM, getSkinItemService); hOptionsHook = HookEvent(ME_OPT_INITIALISE, OptionsInit); // register internal tokens registerExternalTokens(); registerLogicTokens(); registerMathTokens(); registerMirandaTokens(); registerStrTokens(); registerSystemTokens(); registerVariablesTokens(); registerRegExpTokens(); registerInetTokens(); registerAliasTokens(); registerMetaContactsTokens(); log_debug(0, "Variables: Internal tokens registered"); if (g_plugin.getByte(SETTING_PARSEATSTARTUP, 0)) { FORMATINFO fi = { 0 }; fi.cbSize = sizeof(fi); fi.szFormat.w = g_plugin.getWStringA(SETTING_STARTUPTEXT); if (fi.szFormat.w != nullptr) { mir_free(formatString(&fi)); mir_free(fi.szFormat.w); } } log_debug(0, "Variables: Init done"); return 0; } int UnloadVarModule() { UnhookEvent(hOptionsHook); if (hIconsChangedHook != nullptr) UnhookEvent(hIconsChangedHook); DestroyCursor(hCurSplitNS); deinitContactModule(); deinitTokenRegister(); unregisterAliasTokens(); unregisterVariablesTokens(); return 0; }