/* * Cppcheck - A tool for static C/C++ code analysis * Copyright (C) 2007-2023 Cppcheck team. * * 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 3 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, see . */ #include "errorlogger.h" #include "color.h" #include "cppcheck.h" #include "path.h" #include "suppressions.h" #include "token.h" #include "tokenlist.h" #include "utils.h" #include #include #include #include #include #include #include // IWYU pragma: keep #include #include #include #include "xml.h" const std::set ErrorLogger::mCriticalErrorIds{ "cppcheckError", "cppcheckLimit", "internalAstError", "instantiationError", "internalError", "misra-config", "premium-internalError", "premium-invalidArgument", "premium-invalidLicense", "preprocessorErrorDirective", "syntaxError", "unknownMacro" }; ErrorMessage::ErrorMessage() : severity(Severity::none), cwe(0U), certainty(Certainty::normal), hash(0) {} // TODO: id and msg are swapped compared to other calls ErrorMessage::ErrorMessage(std::list callStack, std::string file1, Severity severity, const std::string &msg, std::string id, Certainty certainty) : callStack(std::move(callStack)), // locations for this error message id(std::move(id)), // set the message id file0(std::move(file1)), severity(severity), // severity for this error message cwe(0U), certainty(certainty), hash(0) { // set the summary and verbose messages setmsg(msg); } // TODO: id and msg are swapped compared to other calls ErrorMessage::ErrorMessage(std::list callStack, std::string file1, Severity severity, const std::string &msg, std::string id, const CWE &cwe, Certainty certainty) : callStack(std::move(callStack)), // locations for this error message id(std::move(id)), // set the message id file0(std::move(file1)), severity(severity), // severity for this error message cwe(cwe.id), certainty(certainty), hash(0) { // set the summary and verbose messages setmsg(msg); } ErrorMessage::ErrorMessage(const std::list& callstack, const TokenList* list, Severity severity, std::string id, const std::string& msg, Certainty certainty) : id(std::move(id)), severity(severity), cwe(0U), certainty(certainty), hash(0) { // Format callstack for (std::list::const_iterator it = callstack.cbegin(); it != callstack.cend(); ++it) { // --errorlist can provide null values here if (!(*it)) continue; callStack.emplace_back(*it, list); } if (list && !list->getFiles().empty()) file0 = list->getFiles()[0]; setmsg(msg); } ErrorMessage::ErrorMessage(const std::list& callstack, const TokenList* list, Severity severity, std::string id, const std::string& msg, const CWE &cwe, Certainty certainty) : id(std::move(id)), severity(severity), cwe(cwe.id), certainty(certainty) { // Format callstack for (const Token *tok: callstack) { // --errorlist can provide null values here if (!tok) continue; callStack.emplace_back(tok, list); } if (list && !list->getFiles().empty()) file0 = list->getFiles()[0]; setmsg(msg); hash = 0; // calculateWarningHash(list, hashWarning.str()); } ErrorMessage::ErrorMessage(const ErrorPath &errorPath, const TokenList *tokenList, Severity severity, const char id[], const std::string &msg, const CWE &cwe, Certainty certainty) : id(id), severity(severity), cwe(cwe.id), certainty(certainty) { // Format callstack for (const ErrorPathItem& e: errorPath) { const Token *tok = e.first; // --errorlist can provide null values here if (!tok) continue; std::string info = e.second; if (startsWith(info,"$symbol:") && info.find('\n') < info.size()) { const std::string::size_type pos = info.find('\n'); const std::string &symbolName = info.substr(8, pos - 8); info = replaceStr(info.substr(pos+1), "$symbol", symbolName); } callStack.emplace_back(tok, info, tokenList); } if (tokenList && !tokenList->getFiles().empty()) file0 = tokenList->getFiles()[0]; setmsg(msg); hash = 0; // calculateWarningHash(tokenList, hashWarning.str()); } ErrorMessage::ErrorMessage(const tinyxml2::XMLElement * const errmsg) : severity(Severity::none), cwe(0U), certainty(Certainty::normal) { const char * const unknown = ""; const char *attr = errmsg->Attribute("id"); id = attr ? attr : unknown; attr = errmsg->Attribute("severity"); severity = attr ? severityFromString(attr) : Severity::none; attr = errmsg->Attribute("cwe"); cwe.id = attr ? strToInt(attr) : 0; attr = errmsg->Attribute("inconclusive"); certainty = (attr && (std::strcmp(attr, "true") == 0)) ? Certainty::inconclusive : Certainty::normal; attr = errmsg->Attribute("msg"); mShortMessage = attr ? attr : ""; attr = errmsg->Attribute("verbose"); mVerboseMessage = attr ? attr : ""; attr = errmsg->Attribute("hash"); hash = attr ? strToInt(attr) : 0; for (const tinyxml2::XMLElement *e = errmsg->FirstChildElement(); e; e = e->NextSiblingElement()) { if (std::strcmp(e->Name(),"location")==0) { const char *strfile = e->Attribute("file"); const char *strinfo = e->Attribute("info"); const char *strline = e->Attribute("line"); const char *strcolumn = e->Attribute("column"); const char *file = strfile ? strfile : unknown; const char *info = strinfo ? strinfo : ""; const int line = strline ? strToInt(strline) : 0; const int column = strcolumn ? strToInt(strcolumn) : 0; callStack.emplace_front(file, info, line, column); } else if (std::strcmp(e->Name(),"symbol")==0) { mSymbolNames += e->GetText(); } } } void ErrorMessage::setmsg(const std::string &msg) { // If a message ends to a '\n' and contains only a one '\n' // it will cause the mVerboseMessage to be empty which will show // as an empty message to the user if --verbose is used. // Even this doesn't cause problems with messages that have multiple // lines, none of the error messages should end into it. assert(!endsWith(msg,'\n')); // The summary and verbose message are separated by a newline // If there is no newline then both the summary and verbose messages // are the given message const std::string::size_type pos = msg.find('\n'); const std::string symbolName = mSymbolNames.empty() ? std::string() : mSymbolNames.substr(0, mSymbolNames.find('\n')); if (pos == std::string::npos) { mShortMessage = replaceStr(msg, "$symbol", symbolName); mVerboseMessage = replaceStr(msg, "$symbol", symbolName); } else if (startsWith(msg,"$symbol:")) { mSymbolNames += msg.substr(8, pos-7); setmsg(msg.substr(pos + 1)); } else { mShortMessage = replaceStr(msg.substr(0, pos), "$symbol", symbolName); mVerboseMessage = replaceStr(msg.substr(pos + 1), "$symbol", symbolName); } } static void serializeString(std::string &oss, const std::string & str) { oss += std::to_string(str.length()); oss += " "; oss += str; } ErrorMessage ErrorMessage::fromInternalError(const InternalError &internalError, const TokenList *tokenList, const std::string &filename, const std::string& msg) { if (internalError.token) assert(tokenList != nullptr); // we need to make sure we can look up the provided token std::list locationList; if (tokenList && internalError.token) { ErrorMessage::FileLocation loc(internalError.token, tokenList); locationList.push_back(std::move(loc)); } else { ErrorMessage::FileLocation loc2(filename, 0, 0); locationList.push_back(std::move(loc2)); if (tokenList && (filename != tokenList->getSourceFilePath())) { ErrorMessage::FileLocation loc(tokenList->getSourceFilePath(), 0, 0); locationList.push_back(std::move(loc)); } } ErrorMessage errmsg(std::move(locationList), tokenList ? tokenList->getSourceFilePath() : filename, Severity::error, (msg.empty() ? "" : (msg + ": ")) + internalError.errorMessage, internalError.id, Certainty::normal); // TODO: find a better way if (!internalError.details.empty()) errmsg.mVerboseMessage = errmsg.mVerboseMessage + ": " + internalError.details; return errmsg; } std::string ErrorMessage::serialize() const { // Serialize this message into a simple string std::string oss; serializeString(oss, id); serializeString(oss, severityToString(severity)); serializeString(oss, std::to_string(cwe.id)); serializeString(oss, std::to_string(hash)); serializeString(oss, file0); if (certainty == Certainty::inconclusive) { const std::string text("inconclusive"); serializeString(oss, text); } const std::string saneShortMessage = fixInvalidChars(mShortMessage); const std::string saneVerboseMessage = fixInvalidChars(mVerboseMessage); serializeString(oss, saneShortMessage); serializeString(oss, saneVerboseMessage); oss += std::to_string(callStack.size()); oss += " "; for (std::list::const_iterator loc = callStack.cbegin(); loc != callStack.cend(); ++loc) { std::string frame; frame += std::to_string(loc->line); frame += '\t'; frame += std::to_string(loc->column); frame += '\t'; frame += loc->getfile(false); frame += '\t'; frame += loc->getOrigFile(false); frame += '\t'; frame += loc->getinfo(); serializeString(oss, frame); } return oss; } void ErrorMessage::deserialize(const std::string &data) { // TODO: clear all fields certainty = Certainty::normal; callStack.clear(); std::istringstream iss(data); std::array results; std::size_t elem = 0; while (iss.good() && elem < 7) { unsigned int len = 0; if (!(iss >> len)) throw InternalError(nullptr, "Internal Error: Deserialization of error message failed - invalid length"); if (iss.get() != ' ') throw InternalError(nullptr, "Internal Error: Deserialization of error message failed - invalid separator"); if (!iss.good()) throw InternalError(nullptr, "Internal Error: Deserialization of error message failed - premature end of data"); std::string temp; if (len > 0) { temp.resize(len); iss.read(&temp[0], len); if (!iss.good()) throw InternalError(nullptr, "Internal Error: Deserialization of error message failed - premature end of data"); if (temp == "inconclusive") { certainty = Certainty::inconclusive; continue; } } results[elem++] = temp; } if (!iss.good()) throw InternalError(nullptr, "Internal Error: Deserialization of error message failed - premature end of data"); if (elem != 7) throw InternalError(nullptr, "Internal Error: Deserialization of error message failed - insufficient elements"); id = std::move(results[0]); severity = severityFromString(results[1]); cwe.id = 0; if (!results[2].empty()) { std::string err; if (!strToInt(results[2], cwe.id, &err)) throw InternalError(nullptr, "Internal Error: Deserialization of error message failed - invalid CWE ID - " + err); } hash = 0; if (!results[3].empty()) { std::string err; if (!strToInt(results[3], hash, &err)) throw InternalError(nullptr, "Internal Error: Deserialization of error message failed - invalid hash - " + err); } file0 = std::move(results[4]); mShortMessage = std::move(results[5]); mVerboseMessage = std::move(results[6]); unsigned int stackSize = 0; if (!(iss >> stackSize)) throw InternalError(nullptr, "Internal Error: Deserialization of error message failed - invalid stack size"); if (iss.get() != ' ') throw InternalError(nullptr, "Internal Error: Deserialization of error message failed - invalid separator"); if (stackSize == 0) return; while (iss.good()) { unsigned int len = 0; if (!(iss >> len)) throw InternalError(nullptr, "Internal Error: Deserialization of error message failed - invalid length (stack)"); if (iss.get() != ' ') throw InternalError(nullptr, "Internal Error: Deserialization of error message failed - invalid separator (stack)"); std::string temp; if (len > 0) { temp.resize(len); iss.read(&temp[0], len); if (!iss.good()) throw InternalError(nullptr, "Internal Error: Deserialization of error message failed - premature end of data (stack)"); } std::vector substrings; substrings.reserve(5); for (std::string::size_type pos = 0; pos < temp.size() && substrings.size() < 5; ++pos) { if (substrings.size() == 4) { substrings.push_back(temp.substr(pos)); break; } const std::string::size_type start = pos; pos = temp.find('\t', pos); if (pos == std::string::npos) { substrings.push_back(temp.substr(start)); break; } substrings.push_back(temp.substr(start, pos - start)); } if (substrings.size() < 4) throw InternalError(nullptr, "Internal Error: Deserializing of error message failed"); // (*loc).line << '\t' << (*loc).column << '\t' << (*loc).getfile(false) << '\t' << loc->getOrigFile(false) << '\t' << loc->getinfo(); ErrorMessage::FileLocation loc(substrings[3], strToInt(substrings[0]), strToInt(substrings[1])); loc.setfile(std::move(substrings[2])); if (substrings.size() == 5) loc.setinfo(substrings[4]); callStack.push_back(std::move(loc)); if (callStack.size() >= stackSize) break; } } std::string ErrorMessage::getXMLHeader(std::string productName) { std::string version = CppCheck::version(); if (!productName.empty() && std::isdigit(productName.back())) { const std::string::size_type pos = productName.find_last_not_of(".0123456789"); if (pos > 1 && pos != std::string::npos && productName[pos] == ' ') { version = productName.substr(pos+1); productName.erase(pos); } } tinyxml2::XMLPrinter printer; // standard xml header printer.PushDeclaration("xml version=\"1.0\" encoding=\"UTF-8\""); // header printer.OpenElement("results", false); printer.PushAttribute("version", 2); printer.OpenElement("cppcheck", false); if (!productName.empty()) printer.PushAttribute("product-name", productName.c_str()); printer.PushAttribute("version", version.c_str()); printer.CloseElement(false); printer.OpenElement("errors", false); return std::string(printer.CStr()) + '>'; } std::string ErrorMessage::getXMLFooter() { return " \n"; } // There is no utf-8 support around but the strings should at least be safe for to tinyxml2. // See #5300 "Invalid encoding in XML output" and #6431 "Invalid XML created - Invalid encoding of string literal " std::string ErrorMessage::fixInvalidChars(const std::string& raw) { std::string result; result.reserve(raw.length()); std::string::const_iterator from=raw.cbegin(); while (from!=raw.cend()) { if (std::isprint(static_cast(*from))) { result.push_back(*from); } else { std::ostringstream es; // straight cast to (unsigned) doesn't work out. const unsigned uFrom = (unsigned char)*from; es << '\\' << std::setbase(8) << std::setw(3) << std::setfill('0') << uFrom; result += es.str(); } ++from; } return result; } std::string ErrorMessage::toXML() const { tinyxml2::XMLPrinter printer(nullptr, false, 2); printer.OpenElement("error", false); printer.PushAttribute("id", id.c_str()); printer.PushAttribute("severity", severityToString(severity).c_str()); printer.PushAttribute("msg", fixInvalidChars(mShortMessage).c_str()); printer.PushAttribute("verbose", fixInvalidChars(mVerboseMessage).c_str()); if (cwe.id) printer.PushAttribute("cwe", cwe.id); if (hash) printer.PushAttribute("hash", std::to_string(hash).c_str()); if (certainty == Certainty::inconclusive) printer.PushAttribute("inconclusive", "true"); if (!file0.empty()) printer.PushAttribute("file0", file0.c_str()); for (std::list::const_reverse_iterator it = callStack.crbegin(); it != callStack.crend(); ++it) { printer.OpenElement("location", false); printer.PushAttribute("file", it->getfile().c_str()); printer.PushAttribute("line", std::max(it->line,0)); printer.PushAttribute("column", it->column); if (!it->getinfo().empty()) printer.PushAttribute("info", fixInvalidChars(it->getinfo()).c_str()); printer.CloseElement(false); } for (std::string::size_type pos = 0; pos < mSymbolNames.size();) { const std::string::size_type pos2 = mSymbolNames.find('\n', pos); std::string symbolName; if (pos2 == std::string::npos) { symbolName = mSymbolNames.substr(pos); pos = pos2; } else { symbolName = mSymbolNames.substr(pos, pos2-pos); pos = pos2 + 1; } printer.OpenElement("symbol", false); printer.PushText(symbolName.c_str()); printer.CloseElement(false); } printer.CloseElement(false); return printer.CStr(); } /** * Replace all occurrences of searchFor with replaceWith in the * given source. * @param source The string to modify * @param searchFor What should be searched for * @param replaceWith What will replace the found item */ static void findAndReplace(std::string &source, const std::string &searchFor, const std::string &replaceWith) { std::string::size_type index = 0; while ((index = source.find(searchFor, index)) != std::string::npos) { source.replace(index, searchFor.length(), replaceWith); index += replaceWith.length(); } } // TODO: read info from some shared resource instead? static std::string readCode(const std::string &file, int linenr, int column, const char endl[]) { std::ifstream fin(file); std::string line; while (linenr > 0 && std::getline(fin,line)) { linenr--; } const std::string::size_type endPos = line.find_last_not_of("\r\n\t "); if (endPos + 1 < line.size()) line.erase(endPos + 1); std::string::size_type pos = 0; while ((pos = line.find('\t', pos)) != std::string::npos) line[pos] = ' '; return line + endl + std::string((column>0 ? column-1 : 0), ' ') + '^'; } static void replaceSpecialChars(std::string& source) { // Support a few special characters to allow to specific formatting, see http://sourceforge.net/apps/phpbb/cppcheck/viewtopic.php?f=4&t=494&sid=21715d362c0dbafd3791da4d9522f814 // Substitution should be done first so messages from cppcheck never get translated. static const std::unordered_map substitutionMap = { {'b', "\b"}, {'n', "\n"}, {'r', "\r"}, {'t', "\t"} }; std::string::size_type index = 0; while ((index = source.find('\\', index)) != std::string::npos) { const char searchFor = source[index+1]; const auto it = substitutionMap.find(searchFor); if (it == substitutionMap.end()) { index += 1; continue; } const std::string& replaceWith = it->second; source.replace(index, 2, replaceWith); index += replaceWith.length(); } } static void replace(std::string& source, const std::unordered_map &substitutionMap) { std::string::size_type index = 0; while ((index = source.find('{', index)) != std::string::npos) { const std::string::size_type end = source.find('}', index); if (end == std::string::npos) break; const std::string searchFor = source.substr(index, end-index+1); const auto it = substitutionMap.find(searchFor); if (it == substitutionMap.end()) { index += 1; continue; } const std::string& replaceWith = it->second; source.replace(index, searchFor.length(), replaceWith); index += replaceWith.length(); } } static void replaceColors(std::string& source) { // TODO: colors are not applied when either stdout or stderr is not a TTY because we resolve them before the stream usage static const std::unordered_map substitutionMap = { {"{reset}", ::toString(Color::Reset)}, {"{bold}", ::toString(Color::Bold)}, {"{dim}", ::toString(Color::Dim)}, {"{red}", ::toString(Color::FgRed)}, {"{green}", ::toString(Color::FgGreen)}, {"{blue}", ::toString(Color::FgBlue)}, {"{magenta}", ::toString(Color::FgMagenta)}, {"{default}", ::toString(Color::FgDefault)}, }; replace(source, substitutionMap); } std::string ErrorMessage::toString(bool verbose, const std::string &templateFormat, const std::string &templateLocation) const { // Save this ErrorMessage in plain text. // No template is given if (templateFormat.empty()) { std::string text; if (!callStack.empty()) { text += ErrorLogger::callStackToString(callStack); text += ": "; } if (severity != Severity::none) { text += '('; text += severityToString(severity); if (certainty == Certainty::inconclusive) text += ", inconclusive"; text += ") "; } text += (verbose ? mVerboseMessage : mShortMessage); return text; } // template is given. Reformat the output according to it std::string result = templateFormat; findAndReplace(result, "{id}", id); std::string::size_type pos1 = result.find("{inconclusive:"); while (pos1 != std::string::npos) { const std::string::size_type pos2 = result.find('}', pos1+1); const std::string replaceFrom = result.substr(pos1,pos2-pos1+1); const std::string replaceWith = (certainty == Certainty::inconclusive) ? result.substr(pos1+14, pos2-pos1-14) : std::string(); findAndReplace(result, replaceFrom, replaceWith); pos1 = result.find("{inconclusive:", pos1); } findAndReplace(result, "{severity}", severityToString(severity)); findAndReplace(result, "{cwe}", std::to_string(cwe.id)); findAndReplace(result, "{message}", verbose ? mVerboseMessage : mShortMessage); if (!callStack.empty()) { if (result.find("{callstack}") != std::string::npos) findAndReplace(result, "{callstack}", ErrorLogger::callStackToString(callStack)); findAndReplace(result, "{file}", callStack.back().getfile()); findAndReplace(result, "{line}", std::to_string(callStack.back().line)); findAndReplace(result, "{column}", std::to_string(callStack.back().column)); if (result.find("{code}") != std::string::npos) { const std::string::size_type pos = result.find('\r'); const char *endl; if (pos == std::string::npos) endl = "\n"; else if (pos+1 < result.size() && result[pos+1] == '\n') endl = "\r\n"; else endl = "\r"; findAndReplace(result, "{code}", readCode(callStack.back().getOrigFile(), callStack.back().line, callStack.back().column, endl)); } } else { static const std::unordered_map callStackSubstitutionMap = { {"{callstack}", ""}, {"{file}", "nofile"}, {"{line}", "0"}, {"{column}", "0"}, {"{code}", ""} }; replace(result, callStackSubstitutionMap); } if (!templateLocation.empty() && callStack.size() >= 2U) { for (const FileLocation &fileLocation : callStack) { std::string text = templateLocation; findAndReplace(text, "{file}", fileLocation.getfile()); findAndReplace(text, "{line}", std::to_string(fileLocation.line)); findAndReplace(text, "{column}", std::to_string(fileLocation.column)); findAndReplace(text, "{info}", fileLocation.getinfo().empty() ? mShortMessage : fileLocation.getinfo()); if (text.find("{code}") != std::string::npos) { const std::string::size_type pos = text.find('\r'); const char *endl; if (pos == std::string::npos) endl = "\n"; else if (pos+1 < text.size() && text[pos+1] == '\n') endl = "\r\n"; else endl = "\r"; findAndReplace(text, "{code}", readCode(fileLocation.getOrigFile(), fileLocation.line, fileLocation.column, endl)); } result += '\n' + text; } } return result; } std::string ErrorLogger::callStackToString(const std::list &callStack) { std::string str; for (std::list::const_iterator tok = callStack.cbegin(); tok != callStack.cend(); ++tok) { str += (tok == callStack.cbegin() ? "" : " -> "); str += tok->stringify(); } return str; } ErrorMessage::FileLocation::FileLocation(const Token* tok, const TokenList* tokenList) : fileIndex(tok->fileIndex()), line(tok->linenr()), column(tok->column()), mOrigFileName(tokenList->getOrigFile(tok)), mFileName(tokenList->file(tok)) {} ErrorMessage::FileLocation::FileLocation(const Token* tok, std::string info, const TokenList* tokenList) : fileIndex(tok->fileIndex()), line(tok->linenr()), column(tok->column()), mOrigFileName(tokenList->getOrigFile(tok)), mFileName(tokenList->file(tok)), mInfo(std::move(info)) {} std::string ErrorMessage::FileLocation::getfile(bool convert) const { if (convert) return Path::toNativeSeparators(mFileName); return mFileName; } std::string ErrorMessage::FileLocation::getOrigFile(bool convert) const { if (convert) return Path::toNativeSeparators(mOrigFileName); return mOrigFileName; } void ErrorMessage::FileLocation::setfile(std::string file) { mFileName = Path::fromNativeSeparators(std::move(file)); mFileName = Path::simplifyPath(std::move(mFileName)); } std::string ErrorMessage::FileLocation::stringify() const { std::string str; str += '['; str += Path::toNativeSeparators(mFileName); if (line != Suppressions::Suppression::NO_LINE) { str += ':'; str += std::to_string(line); } str += ']'; return str; } std::string ErrorLogger::toxml(const std::string &str) { std::string xml; for (const unsigned char c : str) { switch (c) { case '<': xml += "<"; break; case '>': xml += ">"; break; case '&': xml += "&"; break; case '\"': xml += """; break; case '\'': xml += "'"; break; case '\0': xml += "\\0"; break; default: if (c >= ' ' && c <= 0x7f) xml += c; else xml += 'x'; break; } } return xml; } std::string ErrorLogger::plistHeader(const std::string &version, const std::vector &files) { std::ostringstream ostr; ostr << "\r\n" << "\r\n" << "\r\n" << "\r\n" << " clang_version\r\n" << "cppcheck version " << version << "\r\n" << " files\r\n" << " \r\n"; for (const std::string & file : files) ostr << " " << ErrorLogger::toxml(file) << "\r\n"; ostr << " \r\n" << " diagnostics\r\n" << " \r\n"; return ostr.str(); } static std::string plistLoc(const char indent[], const ErrorMessage::FileLocation &loc) { std::ostringstream ostr; ostr << indent << "\r\n" << indent << ' ' << "line" << loc.line << "\r\n" << indent << ' ' << "col" << loc.column << "\r\n" << indent << ' ' << "file" << loc.fileIndex << "\r\n" << indent << "\r\n"; return ostr.str(); } std::string ErrorLogger::plistData(const ErrorMessage &msg) { std::ostringstream plist; plist << " \r\n" << " path\r\n" << " \r\n"; std::list::const_iterator prev = msg.callStack.cbegin(); for (std::list::const_iterator it = msg.callStack.cbegin(); it != msg.callStack.cend(); ++it) { if (prev != it) { plist << " \r\n" << " kindcontrol\r\n" << " edges\r\n" << " \r\n" << " \r\n" << " start\r\n" << " \r\n" << plistLoc(" ", *prev) << plistLoc(" ", *prev) << " \r\n" << " end\r\n" << " \r\n" << plistLoc(" ", *it) << plistLoc(" ", *it) << " \r\n" << " \r\n" << " \r\n" << " \r\n"; prev = it; } std::list::const_iterator next = it; ++next; const std::string message = (it->getinfo().empty() && next == msg.callStack.cend() ? msg.shortMessage() : it->getinfo()); plist << " \r\n" << " kindevent\r\n" << " location\r\n" << plistLoc(" ", *it) << " ranges\r\n" << " \r\n" << " \r\n" << plistLoc(" ", *it) << plistLoc(" ", *it) << " \r\n" << " \r\n" << " depth0\r\n" << " extended_message\r\n" << " " << ErrorLogger::toxml(message) << "\r\n" << " message\r\n" << " " << ErrorLogger::toxml(message) << "\r\n" << " \r\n"; } plist << " \r\n" << " description" << ErrorLogger::toxml(msg.shortMessage()) << "\r\n" << " category" << severityToString(msg.severity) << "\r\n" << " type" << ErrorLogger::toxml(msg.shortMessage()) << "\r\n" << " check_name" << msg.id << "\r\n" << " \r\n" << " issue_hash_content_of_line_in_context" << 0 << "\r\n" << " issue_context_kind\r\n" << " issue_context\r\n" << " issue_hash_function_offset\r\n" << " location\r\n" << plistLoc(" ", msg.callStack.back()) << " \r\n"; return plist.str(); } std::string replaceStr(std::string s, const std::string &from, const std::string &to) { std::string::size_type pos1 = 0; while (pos1 < s.size()) { pos1 = s.find(from, pos1); if (pos1 == std::string::npos) return s; if (pos1 > 0 && (s[pos1-1] == '_' || std::isalnum(s[pos1-1]))) { pos1++; continue; } const std::string::size_type pos2 = pos1 + from.size(); if (pos2 >= s.size()) return s.substr(0,pos1) + to; if (s[pos2] == '_' || std::isalnum(s[pos2])) { pos1++; continue; } s.replace(pos1, from.size(), to); pos1 += to.size(); } return s; } void substituteTemplateFormatStatic(std::string& templateFormat) { replaceSpecialChars(templateFormat); replaceColors(templateFormat); } void substituteTemplateLocationStatic(std::string& templateLocation) { replaceSpecialChars(templateLocation); replaceColors(templateLocation); }