/* * Cppcheck - A tool for static C/C++ code analysis * Copyright (C) 2007-2022 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 "preprocessor.h" #include "errorlogger.h" #include "errortypes.h" #include "library.h" #include "path.h" #include "settings.h" #include "standards.h" #include "suppressions.h" #include #include #include // back_inserter #include #include #include #include static bool sameline(const simplecpp::Token *tok1, const simplecpp::Token *tok2) { return tok1 && tok2 && tok1->location.sameline(tok2->location); } /** * Remove heading and trailing whitespaces from the input parameter. * If string is all spaces/tabs, return empty string. * @param s The string to trim. */ static std::string trim(const std::string& s) { const std::string::size_type beg = s.find_first_not_of(" \t"); if (beg == std::string::npos) return ""; const std::string::size_type end = s.find_last_not_of(" \t"); return s.substr(beg, end - beg + 1); } Directive::Directive(std::string _file, const int _linenr, const std::string &_str) : file(std::move(_file)), linenr(_linenr), str(trim(_str)) {} std::atomic Preprocessor::missingIncludeFlag; std::atomic Preprocessor::missingSystemIncludeFlag; char Preprocessor::macroChar = char(1); Preprocessor::Preprocessor(Settings& settings, ErrorLogger *errorLogger) : mSettings(settings), mErrorLogger(errorLogger) {} Preprocessor::~Preprocessor() { for (const std::pair& tokenList : mTokenLists) delete tokenList.second; } namespace { struct BadInlineSuppression { BadInlineSuppression(const simplecpp::Location &l, std::string msg) : location(l), errmsg(std::move(msg)) {} simplecpp::Location location; std::string errmsg; }; } static bool parseInlineSuppressionCommentToken(const simplecpp::Token *tok, std::list &inlineSuppressions, std::list *bad) { const std::string cppchecksuppress("cppcheck-suppress"); const std::string &comment = tok->str(); if (comment.size() < cppchecksuppress.size()) return false; const std::string::size_type pos1 = comment.find_first_not_of("/* \t"); if (pos1 == std::string::npos) return false; if (pos1 + cppchecksuppress.size() >= comment.size()) return false; if (comment.substr(pos1, cppchecksuppress.size()) != cppchecksuppress) return false; // skip spaces after "cppcheck-suppress" const std::string::size_type pos2 = comment.find_first_not_of(" ", pos1+cppchecksuppress.size()); if (pos2 == std::string::npos) return false; if (comment[pos2] == '[') { // multi suppress format std::string errmsg; std::vector suppressions = Suppressions::parseMultiSuppressComment(comment, &errmsg); if (!errmsg.empty()) bad->emplace_back(tok->location, errmsg); for (const Suppressions::Suppression &s : suppressions) { if (!s.errorId.empty()) inlineSuppressions.push_back(s); } } else { //single suppress format std::string errmsg; Suppressions::Suppression s; if (!s.parseComment(comment, &errmsg)) return false; if (!s.errorId.empty()) inlineSuppressions.push_back(std::move(s)); if (!errmsg.empty()) bad->emplace_back(tok->location, errmsg); } return true; } static void addinlineSuppressions(const simplecpp::TokenList &tokens, Settings &mSettings, std::list *bad) { for (const simplecpp::Token *tok = tokens.cfront(); tok; tok = tok->next) { if (!tok->comment) continue; std::list inlineSuppressions; if (!parseInlineSuppressionCommentToken(tok, inlineSuppressions, bad)) continue; if (!sameline(tok->previous, tok)) { // find code after comment.. tok = tok->next; while (tok && tok->comment) { parseInlineSuppressionCommentToken(tok, inlineSuppressions, bad); tok = tok->next; } if (!tok) break; } if (inlineSuppressions.empty()) continue; // Relative filename std::string relativeFilename(tok->location.file()); if (mSettings.relativePaths) { for (const std::string & basePath : mSettings.basePaths) { const std::string bp = basePath + "/"; if (relativeFilename.compare(0,bp.size(),bp)==0) { relativeFilename = relativeFilename.substr(bp.size()); } } } relativeFilename = Path::simplifyPath(relativeFilename); // special handling when suppressing { warnings for backwards compatibility const bool thisAndNextLine = tok->previous && tok->previous->previous && tok->next && !sameline(tok->previous->previous, tok->previous) && tok->location.line + 1 == tok->next->location.line && tok->location.fileIndex == tok->next->location.fileIndex && tok->previous->str() == "{"; // Add the suppressions. for (Suppressions::Suppression &suppr : inlineSuppressions) { suppr.fileName = relativeFilename; suppr.lineNumber = tok->location.line; suppr.thisAndNextLine = thisAndNextLine; mSettings.nomsg.addSuppression(suppr); } } } void Preprocessor::inlineSuppressions(const simplecpp::TokenList &tokens) { if (!mSettings.inlineSuppressions) return; std::list err; ::addinlineSuppressions(tokens, mSettings, &err); for (std::map::const_iterator it = mTokenLists.begin(); it != mTokenLists.end(); ++it) { if (it->second) ::addinlineSuppressions(*it->second, mSettings, &err); } for (const BadInlineSuppression &bad : err) { error(bad.location.file(), bad.location.line, bad.errmsg); } } void Preprocessor::setDirectives(const simplecpp::TokenList &tokens) { // directive list.. mDirectives.clear(); std::vector list; list.reserve(1U + mTokenLists.size()); list.push_back(&tokens); for (std::map::const_iterator it = mTokenLists.begin(); it != mTokenLists.end(); ++it) { list.push_back(it->second); } for (const simplecpp::TokenList *tokenList : list) { for (const simplecpp::Token *tok = tokenList->cfront(); tok; tok = tok->next) { if ((tok->op != '#') || (tok->previous && tok->previous->location.line == tok->location.line)) continue; if (tok->next && tok->next->str() == "endfile") continue; Directive directive(tok->location.file(), tok->location.line, emptyString); for (const simplecpp::Token *tok2 = tok; tok2 && tok2->location.line == directive.linenr; tok2 = tok2->next) { if (tok2->comment) continue; if (!directive.str.empty() && (tok2->location.col > tok2->previous->location.col + tok2->previous->str().size())) directive.str += ' '; if (directive.str == "#" && tok2->str() == "file") directive.str += "include"; else directive.str += tok2->str(); } mDirectives.push_back(std::move(directive)); } } } static std::string readcondition(const simplecpp::Token *iftok, const std::set &defined, const std::set &undefined) { const simplecpp::Token *cond = iftok->next; if (!sameline(iftok,cond)) return ""; const simplecpp::Token *next1 = cond->next; const simplecpp::Token *next2 = next1 ? next1->next : nullptr; const simplecpp::Token *next3 = next2 ? next2->next : nullptr; unsigned int len = 1; if (sameline(iftok,next1)) len = 2; if (sameline(iftok,next2)) len = 3; if (sameline(iftok,next3)) len = 4; if (len == 1 && cond->str() == "0") return "0"; if (len == 1 && cond->name) { if (defined.find(cond->str()) == defined.end()) return cond->str(); } if (len == 2 && cond->op == '!' && next1->name) { if (defined.find(next1->str()) == defined.end()) return next1->str() + "=0"; } if (len == 3 && cond->op == '(' && next1->name && next2->op == ')') { if (defined.find(next1->str()) == defined.end() && undefined.find(next1->str()) == undefined.end()) return next1->str(); } if (len == 3 && cond->name && next1->str() == "==" && next2->number) { if (defined.find(cond->str()) == defined.end()) return cond->str() + '=' + cond->next->next->str(); } std::set configset; for (; sameline(iftok,cond); cond = cond->next) { if (cond->op == '!') { if (!sameline(iftok,cond->next) || !cond->next->name) break; if (cond->next->str() == "defined") continue; configset.insert(cond->next->str() + "=0"); continue; } if (cond->str() != "defined") continue; const simplecpp::Token *dtok = cond->next; if (!dtok) break; if (dtok->op == '(') dtok = dtok->next; if (sameline(iftok,dtok) && dtok->name && defined.find(dtok->str()) == defined.end() && undefined.find(dtok->str()) == undefined.end()) configset.insert(dtok->str()); } std::string cfgStr; for (const std::string &s : configset) { if (!cfgStr.empty()) cfgStr += ';'; cfgStr += s; } return cfgStr; } static bool hasDefine(const std::string &userDefines, const std::string &cfg) { if (cfg.empty()) { return false; } std::string::size_type pos = 0; while (pos < userDefines.size()) { pos = userDefines.find(cfg, pos); if (pos == std::string::npos) break; const std::string::size_type pos2 = pos + cfg.size(); if ((pos == 0 || userDefines[pos-1U] == ';') && (pos2 == userDefines.size() || userDefines[pos2] == '=')) return true; pos = pos2; } return false; } static std::string cfg(const std::vector &configs, const std::string &userDefines) { std::set configs2(configs.begin(), configs.end()); std::string ret; for (const std::string &c : configs2) { if (c.empty()) continue; if (c == "0") return ""; if (hasDefine(userDefines, c)) continue; if (!ret.empty()) ret += ';'; ret += c; } return ret; } static bool isUndefined(const std::string &cfg, const std::set &undefined) { for (std::string::size_type pos1 = 0U; pos1 < cfg.size();) { const std::string::size_type pos2 = cfg.find(';',pos1); const std::string def = (pos2 == std::string::npos) ? cfg.substr(pos1) : cfg.substr(pos1, pos2 - pos1); const std::string::size_type eq = def.find('='); if (eq == std::string::npos && undefined.find(def) != undefined.end()) return true; if (eq != std::string::npos && undefined.find(def.substr(0,eq)) != undefined.end() && def.substr(eq) != "=0") return true; pos1 = (pos2 == std::string::npos) ? pos2 : pos2 + 1U; } return false; } static bool getConfigsElseIsFalse(const std::vector &configs_if, const std::string &userDefines) { return std::any_of(configs_if.cbegin(), configs_if.cend(), [=](const std::string &cfg) { return hasDefine(userDefines, cfg); }); } static const simplecpp::Token *gotoEndIf(const simplecpp::Token *cmdtok) { int level = 0; while (nullptr != (cmdtok = cmdtok->next)) { if (cmdtok->op == '#' && !sameline(cmdtok->previous,cmdtok) && sameline(cmdtok, cmdtok->next)) { if (cmdtok->next->str().compare(0,2,"if")==0) ++level; else if (cmdtok->next->str() == "endif") { --level; if (level < 0) return cmdtok; } } } return nullptr; } static void getConfigs(const simplecpp::TokenList &tokens, std::set &defined, const std::string &userDefines, const std::set &undefined, std::set &ret) { std::vector configs_if; std::vector configs_ifndef; std::string elseError; for (const simplecpp::Token *tok = tokens.cfront(); tok; tok = tok->next) { if (tok->op != '#' || sameline(tok->previous, tok)) continue; const simplecpp::Token *cmdtok = tok->next; if (!sameline(tok, cmdtok)) continue; if (cmdtok->str() == "ifdef" || cmdtok->str() == "ifndef" || cmdtok->str() == "if") { std::string config; if (cmdtok->str() == "ifdef" || cmdtok->str() == "ifndef") { const simplecpp::Token *expr1 = cmdtok->next; if (sameline(tok,expr1) && expr1->name && !sameline(tok,expr1->next)) config = expr1->str(); if (defined.find(config) != defined.end()) config.clear(); } else if (cmdtok->str() == "if") { config = readcondition(cmdtok, defined, undefined); } // skip undefined configurations.. if (isUndefined(config, undefined)) config.clear(); bool ifndef = false; if (cmdtok->str() == "ifndef") ifndef = true; else { const std::vector match{"if", "!", "defined", "(", config, ")"}; int i = 0; ifndef = true; for (const simplecpp::Token *t = cmdtok; i < match.size(); t = t->next) { if (!t || t->str() != match[i++]) { ifndef = false; break; } } } // include guard.. if (ifndef && tok->location.fileIndex > 0) { bool includeGuard = true; for (const simplecpp::Token *t = tok->previous; t; t = t->previous) { if (t->location.fileIndex == tok->location.fileIndex) { includeGuard = false; break; } } if (includeGuard) { configs_if.emplace_back(/*std::string()*/); configs_ifndef.emplace_back(/*std::string()*/); continue; } } configs_if.push_back((cmdtok->str() == "ifndef") ? std::string() : config); configs_ifndef.push_back((cmdtok->str() == "ifndef") ? config : std::string()); ret.insert(cfg(configs_if,userDefines)); } else if (cmdtok->str() == "elif" || cmdtok->str() == "else") { if (getConfigsElseIsFalse(configs_if,userDefines)) { tok = gotoEndIf(tok); if (!tok) break; tok = tok->previous; continue; } if (cmdtok->str() == "else" && cmdtok->next && !sameline(cmdtok,cmdtok->next) && sameline(cmdtok->next, cmdtok->next->next) && cmdtok->next->op == '#' && cmdtok->next->next->str() == "error") { const std::string &ifcfg = cfg(configs_if, userDefines); if (!ifcfg.empty()) { if (!elseError.empty()) elseError += ';'; elseError += ifcfg; } } if (!configs_if.empty()) configs_if.pop_back(); if (cmdtok->str() == "elif") { std::string config = readcondition(cmdtok, defined, undefined); if (isUndefined(config,undefined)) config.clear(); configs_if.push_back(std::move(config)); ret.insert(cfg(configs_if, userDefines)); } else if (!configs_ifndef.empty()) { configs_if.push_back(configs_ifndef.back()); ret.insert(cfg(configs_if, userDefines)); } } else if (cmdtok->str() == "endif" && !sameline(tok, cmdtok->next)) { if (!configs_if.empty()) configs_if.pop_back(); if (!configs_ifndef.empty()) configs_ifndef.pop_back(); } else if (cmdtok->str() == "error") { if (!configs_ifndef.empty() && !configs_ifndef.back().empty()) { if (configs_ifndef.size() == 1U) ret.erase(emptyString); std::vector configs(configs_if); configs.push_back(configs_ifndef.back()); ret.erase(cfg(configs, userDefines)); std::set temp; temp.swap(ret); for (const std::string &c: temp) { if (c.find(configs_ifndef.back()) != std::string::npos) ret.insert(c); else if (c.empty()) ret.insert(configs.empty() ? configs_ifndef.back() : ""); else ret.insert(c + ";" + configs_ifndef.back()); } if (!elseError.empty()) elseError += ';'; elseError += cfg(configs_ifndef, userDefines); } if (!configs_if.empty() && !configs_if.back().empty()) { const std::string &last = configs_if.back(); if (last.size() > 2U && last.compare(last.size()-2U,2,"=0") == 0) { std::vector configs(configs_if); ret.erase(cfg(configs, userDefines)); configs[configs.size() - 1U] = last.substr(0,last.size()-2U); if (configs.size() == 1U) ret.erase(""); if (!elseError.empty()) elseError += ';'; elseError += cfg(configs, userDefines); } } } else if (cmdtok->str() == "define" && sameline(tok, cmdtok->next) && cmdtok->next->name) { defined.insert(cmdtok->next->str()); } } if (!elseError.empty()) ret.insert(std::move(elseError)); } std::set Preprocessor::getConfigs(const simplecpp::TokenList &tokens) const { std::set ret = { "" }; if (!tokens.cfront()) return ret; std::set defined = { "__cplusplus" }; ::getConfigs(tokens, defined, mSettings.userDefines, mSettings.userUndefs, ret); for (std::map::const_iterator it = mTokenLists.begin(); it != mTokenLists.end(); ++it) { if (!mSettings.configurationExcluded(it->first)) ::getConfigs(*(it->second), defined, mSettings.userDefines, mSettings.userUndefs, ret); } return ret; } void Preprocessor::preprocess(std::istream &istr, std::map &result, const std::string &filename, const std::list &includePaths) { (void)includePaths; simplecpp::OutputList outputList; std::vector files; const simplecpp::TokenList tokens1(istr, files, filename, &outputList); const std::set configs = getConfigs(tokens1); for (const std::string &c : configs) { if (mSettings.userUndefs.find(c) == mSettings.userUndefs.end()) { result[c] = getcode(tokens1, c, files, false); } } } void Preprocessor::preprocess(std::istream &srcCodeStream, std::string &processedFile, std::list &resultConfigurations, const std::string &filename, const std::list &includePaths) { (void)includePaths; if (mFile0.empty()) mFile0 = filename; simplecpp::OutputList outputList; std::vector files; const simplecpp::TokenList tokens1(srcCodeStream, files, filename, &outputList); const std::set configs = getConfigs(tokens1); std::copy(configs.cbegin(), configs.cend(), std::back_inserter(resultConfigurations)); processedFile = tokens1.stringify(); } static void splitcfg(const std::string &cfg, std::list &defines, const std::string &defaultValue) { for (std::string::size_type defineStartPos = 0U; defineStartPos < cfg.size();) { const std::string::size_type defineEndPos = cfg.find(';', defineStartPos); std::string def = (defineEndPos == std::string::npos) ? cfg.substr(defineStartPos) : cfg.substr(defineStartPos, defineEndPos - defineStartPos); if (!defaultValue.empty() && def.find('=') == std::string::npos) def += '=' + defaultValue; defines.push_back(std::move(def)); if (defineEndPos == std::string::npos) break; defineStartPos = defineEndPos + 1U; } } static simplecpp::DUI createDUI(const Settings &mSettings, const std::string &cfg, const std::string &filename) { simplecpp::DUI dui; splitcfg(mSettings.userDefines, dui.defines, "1"); if (!cfg.empty()) splitcfg(cfg, dui.defines, emptyString); for (const std::string &def : mSettings.library.defines) { const std::string::size_type pos = def.find_first_of(" ("); if (pos == std::string::npos) { dui.defines.push_back(def); continue; } std::string s = def; if (s[pos] == ' ') { s[pos] = '='; } else { s[s.find(')')+1] = '='; } dui.defines.push_back(std::move(s)); } dui.undefined = mSettings.userUndefs; // -U dui.includePaths = mSettings.includePaths; // -I dui.includes = mSettings.userIncludes; // --include // TODO: use mSettings.standards.stdValue instead if (Path::isCPP(filename)) dui.std = mSettings.standards.getCPP(); else dui.std = mSettings.standards.getC(); return dui; } static bool hasErrors(const simplecpp::OutputList &outputList) { for (simplecpp::OutputList::const_iterator it = outputList.begin(); it != outputList.end(); ++it) { switch (it->type) { case simplecpp::Output::ERROR: case simplecpp::Output::INCLUDE_NESTED_TOO_DEEPLY: case simplecpp::Output::SYNTAX_ERROR: case simplecpp::Output::UNHANDLED_CHAR_ERROR: case simplecpp::Output::EXPLICIT_INCLUDE_NOT_FOUND: return true; case simplecpp::Output::WARNING: case simplecpp::Output::MISSING_HEADER: case simplecpp::Output::PORTABILITY_BACKSLASH: break; } } return false; } void Preprocessor::handleErrors(const simplecpp::OutputList& outputList, bool throwError) { const bool showerror = (!mSettings.userDefines.empty() && !mSettings.force); reportOutput(outputList, showerror); if (throwError) { for (const simplecpp::Output& output : outputList) { switch (output.type) { case simplecpp::Output::ERROR: case simplecpp::Output::INCLUDE_NESTED_TOO_DEEPLY: case simplecpp::Output::SYNTAX_ERROR: case simplecpp::Output::UNHANDLED_CHAR_ERROR: case simplecpp::Output::EXPLICIT_INCLUDE_NOT_FOUND: throw output; case simplecpp::Output::WARNING: case simplecpp::Output::MISSING_HEADER: case simplecpp::Output::PORTABILITY_BACKSLASH: break; } } } } bool Preprocessor::loadFiles(const simplecpp::TokenList &rawtokens, std::vector &files) { const simplecpp::DUI dui = createDUI(mSettings, emptyString, files[0]); simplecpp::OutputList outputList; mTokenLists = simplecpp::load(rawtokens, files, dui, &outputList); handleErrors(outputList, false); return !hasErrors(outputList); } void Preprocessor::removeComments() { for (std::pair& tokenList : mTokenLists) { if (tokenList.second) tokenList.second->removeComments(); } } void Preprocessor::setPlatformInfo(simplecpp::TokenList *tokens) const { tokens->sizeOfType["bool"] = mSettings.sizeof_bool; tokens->sizeOfType["short"] = mSettings.sizeof_short; tokens->sizeOfType["int"] = mSettings.sizeof_int; tokens->sizeOfType["long"] = mSettings.sizeof_long; tokens->sizeOfType["long long"] = mSettings.sizeof_long_long; tokens->sizeOfType["float"] = mSettings.sizeof_float; tokens->sizeOfType["double"] = mSettings.sizeof_double; tokens->sizeOfType["long double"] = mSettings.sizeof_long_double; tokens->sizeOfType["bool *"] = mSettings.sizeof_pointer; tokens->sizeOfType["short *"] = mSettings.sizeof_pointer; tokens->sizeOfType["int *"] = mSettings.sizeof_pointer; tokens->sizeOfType["long *"] = mSettings.sizeof_pointer; tokens->sizeOfType["long long *"] = mSettings.sizeof_pointer; tokens->sizeOfType["float *"] = mSettings.sizeof_pointer; tokens->sizeOfType["double *"] = mSettings.sizeof_pointer; tokens->sizeOfType["long double *"] = mSettings.sizeof_pointer; } simplecpp::TokenList Preprocessor::preprocess(const simplecpp::TokenList &tokens1, const std::string &cfg, std::vector &files, bool throwError) { const simplecpp::DUI dui = createDUI(mSettings, cfg, files[0]); simplecpp::OutputList outputList; std::list macroUsage; std::list ifCond; simplecpp::TokenList tokens2(files); simplecpp::preprocess(tokens2, tokens1, files, mTokenLists, dui, &outputList, ¯oUsage, &ifCond); mMacroUsage = macroUsage; mIfCond = ifCond; handleErrors(outputList, throwError); tokens2.removeComments(); // ensure that guessed define macros without value are not used in the code if (!validateCfg(cfg, macroUsage)) return simplecpp::TokenList(files); return tokens2; } std::string Preprocessor::getcode(const simplecpp::TokenList &tokens1, const std::string &cfg, std::vector &files, const bool writeLocations) { simplecpp::TokenList tokens2 = preprocess(tokens1, cfg, files, false); unsigned int prevfile = 0; unsigned int line = 1; std::ostringstream ret; for (const simplecpp::Token *tok = tokens2.cfront(); tok; tok = tok->next) { if (writeLocations && tok->location.fileIndex != prevfile) { ret << "\n#line " << tok->location.line << " \"" << tok->location.file() << "\"\n"; prevfile = tok->location.fileIndex; line = tok->location.line; } if (tok->previous && line >= tok->location.line) // #7912 ret << ' '; while (tok->location.line > line) { ret << '\n'; line++; } if (!tok->macro.empty()) ret << Preprocessor::macroChar; ret << tok->str(); } return ret.str(); } std::string Preprocessor::getcode(const std::string &filedata, const std::string &cfg, const std::string &filename) { simplecpp::OutputList outputList; std::vector files; std::istringstream istr(filedata); simplecpp::TokenList tokens1(istr, files, Path::simplifyPath(filename), &outputList); inlineSuppressions(tokens1); tokens1.removeComments(); removeComments(); setDirectives(tokens1); reportOutput(outputList, true); if (hasErrors(outputList)) return ""; std::string ret; try { ret = getcode(tokens1, cfg, files, filedata.find("#file") != std::string::npos); // Since "files" is a local variable the tracking info must be cleared.. mMacroUsage.clear(); mIfCond.clear(); } catch (const simplecpp::Output &) { ret.clear(); } return ret; } void Preprocessor::reportOutput(const simplecpp::OutputList &outputList, bool showerror) { for (const simplecpp::Output &out : outputList) { switch (out.type) { case simplecpp::Output::ERROR: if (out.msg.compare(0,6,"#error")!=0 || showerror) error(out.location.file(), out.location.line, out.msg); break; case simplecpp::Output::WARNING: case simplecpp::Output::PORTABILITY_BACKSLASH: break; case simplecpp::Output::MISSING_HEADER: { const std::string::size_type pos1 = out.msg.find_first_of("<\""); const std::string::size_type pos2 = out.msg.find_first_of(">\"", pos1 + 1U); if (pos1 < pos2 && pos2 != std::string::npos) missingInclude(out.location.file(), out.location.line, out.msg.substr(pos1+1, pos2-pos1-1), out.msg[pos1] == '\"' ? UserHeader : SystemHeader); } break; case simplecpp::Output::INCLUDE_NESTED_TOO_DEEPLY: case simplecpp::Output::SYNTAX_ERROR: case simplecpp::Output::UNHANDLED_CHAR_ERROR: error(out.location.file(), out.location.line, out.msg); break; case simplecpp::Output::EXPLICIT_INCLUDE_NOT_FOUND: error(emptyString, 0, out.msg); break; } } } void Preprocessor::error(const std::string &filename, unsigned int linenr, const std::string &msg) { std::list locationList; if (!filename.empty()) { std::string file = Path::fromNativeSeparators(filename); if (mSettings.relativePaths) file = Path::getRelativePath(file, mSettings.basePaths); ErrorMessage::FileLocation loc(file, linenr, 0); locationList.push_back(std::move(loc)); } mErrorLogger->reportErr(ErrorMessage(locationList, mFile0, Severity::error, msg, "preprocessorErrorDirective", Certainty::normal)); } // Report that include is missing void Preprocessor::missingInclude(const std::string &filename, unsigned int linenr, const std::string &header, HeaderTypes headerType) { if (!mSettings.checks.isEnabled(Checks::missingInclude) && !mSettings.checkConfiguration) return; const std::string fname = Path::fromNativeSeparators(filename); Suppressions::ErrorMessage errorMessage; errorMessage.errorId = "missingInclude"; errorMessage.setFileName(fname); errorMessage.lineNumber = linenr; if (mSettings.nomsg.isSuppressed(errorMessage)) return; errorMessage.errorId = "missingIncludeSystem"; if (headerType == SystemHeader && mSettings.nomsg.isSuppressed(errorMessage)) return; if (headerType == SystemHeader) missingSystemIncludeFlag = true; else missingIncludeFlag = true; if (mErrorLogger && mSettings.checkConfiguration) { std::list locationList; if (!filename.empty()) { ErrorMessage::FileLocation loc; loc.line = linenr; loc.setfile(Path::toNativeSeparators(filename)); locationList.push_back(std::move(loc)); } ErrorMessage errmsg(locationList, mFile0, Severity::information, (headerType==SystemHeader) ? "Include file: <" + header + "> not found. Please note: Cppcheck does not need standard library headers to get proper results." : "Include file: \"" + header + "\" not found.", (headerType==SystemHeader) ? "missingIncludeSystem" : "missingInclude", Certainty::normal); mErrorLogger->reportInfo(errmsg); } } bool Preprocessor::validateCfg(const std::string &cfg, const std::list ¯oUsageList) { bool ret = true; std::list defines; splitcfg(cfg, defines, emptyString); for (const std::string &define : defines) { if (define.find('=') != std::string::npos) continue; const std::string macroName(define.substr(0, define.find('('))); for (const simplecpp::MacroUsage &mu : macroUsageList) { if (mu.macroValueKnown) continue; if (mu.macroName != macroName) continue; bool directiveLocation = std::any_of(mDirectives.cbegin(), mDirectives.cend(), [=](const Directive &dir) { return mu.useLocation.file() == dir.file && mu.useLocation.line == dir.linenr; }); if (!directiveLocation) { if (mSettings.severity.isEnabled(Severity::information)) validateCfgError(mu.useLocation.file(), mu.useLocation.line, cfg, macroName); ret = false; } } } return ret; } void Preprocessor::validateCfgError(const std::string &file, const unsigned int line, const std::string &cfg, const std::string ¯o) { const std::string id = "ConfigurationNotChecked"; ErrorMessage::FileLocation loc(file, line, 0); const ErrorMessage errmsg({std::move(loc)}, mFile0, Severity::information, "Skipping configuration '" + cfg + "' since the value of '" + macro + "' is unknown. Use -D if you want to check it. You can use -U to skip it explicitly.", id, Certainty::normal); mErrorLogger->reportInfo(errmsg); } void Preprocessor::getErrorMessages(ErrorLogger *errorLogger, const Settings *settings) { Settings settings2(*settings); Preprocessor preprocessor(settings2, errorLogger); settings2.checkConfiguration = true; preprocessor.missingInclude(emptyString, 1, emptyString, UserHeader); preprocessor.missingInclude(emptyString, 1, emptyString, SystemHeader); preprocessor.validateCfgError(emptyString, 1, "X", "X"); preprocessor.error(emptyString, 1, "#error message"); // #error .. } void Preprocessor::dump(std::ostream &out) const { // Create a xml dump. out << " " << std::endl; for (const Directive &dir : mDirectives) { out << " ' which // could result in invalid XML, so run it through toxml(). << "str=\"" << ErrorLogger::toxml(dir.str) << "\"/>" << std::endl; } out << " " << std::endl; if (!mMacroUsage.empty()) { out << " " << std::endl; for (const simplecpp::MacroUsage ¯oUsage: mMacroUsage) { out << " " << std::endl; } out << " " << std::endl; } if (!mIfCond.empty()) { out << " " << std::endl; for (const simplecpp::IfCond &ifCond: mIfCond) { out << " " << std::endl; } out << " " << std::endl; } } std::size_t Preprocessor::calculateHash(const simplecpp::TokenList &tokens1, const std::string &toolinfo) const { std::string hashData = toolinfo; for (const simplecpp::Token *tok = tokens1.cfront(); tok; tok = tok->next) { if (!tok->comment) hashData += tok->str(); } for (std::map::const_iterator it = mTokenLists.begin(); it != mTokenLists.end(); ++it) { for (const simplecpp::Token *tok = it->second->cfront(); tok; tok = tok->next) { if (!tok->comment) hashData += tok->str(); } } return (std::hash{})(hashData); } void Preprocessor::simplifyPragmaAsm(simplecpp::TokenList *tokenList) const { Preprocessor::simplifyPragmaAsmPrivate(tokenList); for (const std::pair& list : mTokenLists) { Preprocessor::simplifyPragmaAsmPrivate(list.second); } } void Preprocessor::simplifyPragmaAsmPrivate(simplecpp::TokenList *tokenList) { // assembler code.. for (simplecpp::Token *tok = tokenList->front(); tok; tok = tok->next) { if (tok->op != '#') continue; if (sameline(tok, tok->previousSkipComments())) continue; const simplecpp::Token * const tok2 = tok->nextSkipComments(); if (!tok2 || !sameline(tok, tok2) || tok2->str() != "pragma") continue; const simplecpp::Token * const tok3 = tok2->nextSkipComments(); if (!tok3 || !sameline(tok, tok3) || tok3->str() != "asm") continue; const simplecpp::Token *endasm = tok3; while ((endasm = endasm->next) != nullptr) { if (endasm->op != '#' || sameline(endasm,endasm->previousSkipComments())) continue; const simplecpp::Token * const endasm2 = endasm->nextSkipComments(); if (!endasm2 || !sameline(endasm, endasm2) || endasm2->str() != "pragma") continue; const simplecpp::Token * const endasm3 = endasm2->nextSkipComments(); if (!endasm3 || !sameline(endasm2, endasm3) || endasm3->str() != "endasm") continue; while (sameline(endasm,endasm3)) endasm = endasm->next; break; } const simplecpp::Token * const tok4 = tok3->next; tok->setstr("asm"); const_cast(tok2)->setstr("("); const_cast(tok3)->setstr(")"); const_cast(tok4)->setstr(";"); while (tok4->next != endasm) tokenList->deleteToken(tok4->next); } }