/* * 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 "checkuninitvar.h" #include "astutils.h" #include "errorlogger.h" #include "library.h" #include "mathlib.h" #include "settings.h" #include "symboldatabase.h" #include "token.h" #include "tokenize.h" #include "valueflow.h" #include "checknullpointer.h" // CheckNullPointer::isPointerDeref #include #include #include #include #include #include #include #include #include namespace tinyxml2 { class XMLElement; } //--------------------------------------------------------------------------- // Register this check class (by creating a static instance of it) namespace { CheckUninitVar instance; } //--------------------------------------------------------------------------- // get ast parent, skip possible address-of and casts static const Token *getAstParentSkipPossibleCastAndAddressOf(const Token *vartok, bool *unknown) { if (unknown) *unknown = false; if (!vartok) return nullptr; const Token *parent = vartok->astParent(); while (Token::Match(parent, ".|::")) parent = parent->astParent(); if (!parent) return nullptr; if (parent->isUnaryOp("&")) parent = parent->astParent(); else if (parent->str() == "&" && vartok == parent->astOperand2() && Token::Match(parent->astOperand1()->previous(), "( %type% )")) { parent = parent->astParent(); if (unknown) *unknown = true; } while (parent && parent->isCast()) parent = parent->astParent(); return parent; } void CheckUninitVar::check() { const SymbolDatabase *symbolDatabase = mTokenizer->getSymbolDatabase(); std::set arrayTypeDefs; for (const Token *tok = mTokenizer->tokens(); tok; tok = tok->next()) { if (Token::Match(tok, "%name% [") && tok->variable() && Token::Match(tok->variable()->typeStartToken(), "%type% %var% ;")) arrayTypeDefs.insert(tok->variable()->typeStartToken()->str()); } // check every executable scope for (const Scope &scope : symbolDatabase->scopeList) { if (scope.isExecutable()) { checkScope(&scope, arrayTypeDefs); } } } void CheckUninitVar::checkScope(const Scope* scope, const std::set &arrayTypeDefs) { for (const Variable &var : scope->varlist) { if ((mTokenizer->isCPP() && var.type() && !var.isPointer() && var.type()->needInitialization != Type::NeedInitialization::True) || var.isStatic() || var.isExtern() || var.isReference()) continue; // don't warn for try/catch exception variable if (var.isThrow()) continue; if (Token::Match(var.nameToken()->next(), "[({:]")) continue; if (Token::Match(var.nameToken(), "%name% =")) { // Variable is initialized, but Rhs might be not checkRhs(var.nameToken(), var, NO_ALLOC, 0U, emptyString); continue; } if (Token::Match(var.nameToken(), "%name% ) (") && Token::simpleMatch(var.nameToken()->linkAt(2), ") =")) { // Function pointer is initialized, but Rhs might be not checkRhs(var.nameToken()->linkAt(2)->next(), var, NO_ALLOC, 0U, emptyString); continue; } if (var.isArray() || var.isPointerToArray()) { const Token *tok = var.nameToken()->next(); if (var.isPointerToArray()) tok = tok->next(); while (Token::simpleMatch(tok->link(), "] [")) tok = tok->link()->next(); if (Token::Match(tok->link(), "] =|{")) continue; } bool stdtype = mTokenizer->isC() && arrayTypeDefs.find(var.typeStartToken()->str()) == arrayTypeDefs.end(); const Token* tok = var.typeStartToken(); for (; tok != var.nameToken() && tok->str() != "<"; tok = tok->next()) { if (tok->isStandardType() || tok->isEnumType()) stdtype = true; } if (var.isArray() && !stdtype) { // std::array if (!(var.isStlType() && Token::simpleMatch(var.typeStartToken(), "std :: array") && var.valueType() && var.valueType()->containerTypeToken && var.valueType()->containerTypeToken->isStandardType())) continue; } while (tok && tok->str() != ";") tok = tok->next(); if (!tok) continue; if (tok->astParent() && Token::simpleMatch(tok->astParent()->previous(), "for (") && checkLoopBody(tok->astParent()->link()->next(), var, var.isArray() ? ARRAY : NO_ALLOC, emptyString, true)) continue; if (var.isArray()) { Alloc alloc = ARRAY; const std::map variableValue; bool init = false; for (const Token *parent = var.nameToken(); parent; parent = parent->astParent()) { if (parent->str() == "=") { init = true; break; } } if (!init) checkScopeForVariable(tok, var, nullptr, nullptr, &alloc, emptyString, variableValue); continue; } if (stdtype || var.isPointer()) { Alloc alloc = NO_ALLOC; const std::map variableValue; checkScopeForVariable(tok, var, nullptr, nullptr, &alloc, emptyString, variableValue); } if (var.type()) checkStruct(tok, var); } if (scope->function) { for (const Variable &arg : scope->function->argumentList) { if (arg.declarationId() && Token::Match(arg.typeStartToken(), "%type% * %name% [,)]")) { // Treat the pointer as initialized until it is assigned by malloc for (const Token *tok = scope->bodyStart; tok != scope->bodyEnd; tok = tok->next()) { if (!Token::Match(tok, "[;{}] %varid% =", arg.declarationId())) continue; const Token *allocFuncCallToken = findAllocFuncCallToken(tok->tokAt(2)->astOperand2(), mSettings->library); if (!allocFuncCallToken) continue; const Library::AllocFunc *allocFunc = mSettings->library.getAllocFuncInfo(allocFuncCallToken); if (!allocFunc || allocFunc->initData) continue; if (arg.typeStartToken()->strAt(-1) == "struct" || (arg.type() && arg.type()->isStructType())) checkStruct(tok, arg); else if (arg.typeStartToken()->isStandardType() || arg.typeStartToken()->isEnumType()) { Alloc alloc = NO_ALLOC; const std::map variableValue; checkScopeForVariable(tok->next(), arg, nullptr, nullptr, &alloc, emptyString, variableValue); } } } } } } void CheckUninitVar::checkStruct(const Token *tok, const Variable &structvar) { const Token *typeToken = structvar.typeStartToken(); while (Token::Match(typeToken, "%name% ::")) typeToken = typeToken->tokAt(2); const SymbolDatabase * symbolDatabase = mTokenizer->getSymbolDatabase(); for (const Scope *scope2 : symbolDatabase->classAndStructScopes) { if (scope2->className == typeToken->str() && scope2->numConstructors == 0U) { for (const Variable &var : scope2->varlist) { if (var.isStatic() || var.hasDefault() || var.isArray() || (!mTokenizer->isC() && var.isClass() && (!var.type() || var.type()->needInitialization != Type::NeedInitialization::True))) continue; // is the variable declared in a inner union? bool innerunion = false; for (const Scope *innerScope : scope2->nestedList) { if (innerScope->type == Scope::eUnion) { if (var.typeStartToken()->linenr() >= innerScope->bodyStart->linenr() && var.typeStartToken()->linenr() <= innerScope->bodyEnd->linenr()) { innerunion = true; break; } } } if (!innerunion) { Alloc alloc = NO_ALLOC; const Token *tok2 = tok; if (tok->str() == "}") tok2 = tok2->next(); const std::map variableValue; checkScopeForVariable(tok2, structvar, nullptr, nullptr, &alloc, var.name(), variableValue); } } } } } static VariableValue operator!(VariableValue v) { v.notEqual = !v.notEqual; return v; } static bool operator==(const VariableValue & v, MathLib::bigint i) { return v.notEqual ? (i != v.value) : (i == v.value); } static bool operator!=(const VariableValue & v, MathLib::bigint i) { return v.notEqual ? (i == v.value) : (i != v.value); } static void conditionAlwaysTrueOrFalse(const Token *tok, const std::map &variableValue, bool *alwaysTrue, bool *alwaysFalse) { if (!tok) return; if (tok->hasKnownIntValue()) { if (tok->getKnownIntValue() == 0) *alwaysFalse = true; else *alwaysTrue = true; return; } if (tok->isName() || tok->str() == ".") { while (tok && tok->str() == ".") tok = tok->astOperand2(); const std::map::const_iterator it = variableValue.find(tok ? tok->varId() : ~0U); if (it != variableValue.end()) { *alwaysTrue = (it->second != 0LL); *alwaysFalse = (it->second == 0LL); } } else if (tok->isComparisonOp()) { if (variableValue.empty()) { return; } const Token *vartok, *numtok; if (tok->astOperand2() && tok->astOperand2()->isNumber()) { vartok = tok->astOperand1(); numtok = tok->astOperand2(); } else if (tok->astOperand1() && tok->astOperand1()->isNumber()) { vartok = tok->astOperand2(); numtok = tok->astOperand1(); } else { return; } while (vartok && vartok->str() == ".") vartok = vartok->astOperand2(); const std::map::const_iterator it = variableValue.find(vartok ? vartok->varId() : ~0U); if (it == variableValue.end()) return; if (tok->str() == "==") *alwaysTrue = (it->second == MathLib::toLongNumber(numtok->str())); else if (tok->str() == "!=") *alwaysTrue = (it->second != MathLib::toLongNumber(numtok->str())); else return; *alwaysFalse = !(*alwaysTrue); } else if (tok->str() == "!") { bool t=false,f=false; conditionAlwaysTrueOrFalse(tok->astOperand1(), variableValue, &t, &f); if (t || f) { *alwaysTrue = !t; *alwaysFalse = !f; } } else if (tok->str() == "||") { bool t1=false, f1=false; conditionAlwaysTrueOrFalse(tok->astOperand1(), variableValue, &t1, &f1); bool t2=false, f2=false; if (!t1) conditionAlwaysTrueOrFalse(tok->astOperand2(), variableValue, &t2, &f2); *alwaysTrue = (t1 || t2); *alwaysFalse = (f1 && f2); } else if (tok->str() == "&&") { bool t1=false, f1=false; conditionAlwaysTrueOrFalse(tok->astOperand1(), variableValue, &t1, &f1); bool t2=false, f2=false; if (!f1) conditionAlwaysTrueOrFalse(tok->astOperand2(), variableValue, &t2, &f2); *alwaysTrue = (t1 && t2); *alwaysFalse = (f1 || f2); } } static bool isVariableUsed(const Token *tok, const Variable& var) { if (!tok) return false; if (tok->str() == "&" && !tok->astOperand2()) return false; if (tok->isConstOp()) return isVariableUsed(tok->astOperand1(),var) || isVariableUsed(tok->astOperand2(),var); if (tok->varId() != var.declarationId()) return false; if (!var.isArray()) return true; const Token *parent = tok->astParent(); while (Token::Match(parent, "[?:]")) parent = parent->astParent(); // no dereference, then array is not "used" if (!Token::Match(parent, "*|[")) return false; const Token *parent2 = parent->astParent(); // TODO: handle function calls. There is a TODO assertion in TestUninitVar::uninitvar_arrays return !parent2 || parent2->isConstOp() || (parent2->str() == "=" && parent2->astOperand2() == parent); } bool CheckUninitVar::checkScopeForVariable(const Token *tok, const Variable& var, bool * const possibleInit, bool * const noreturn, Alloc* const alloc, const std::string &membervar, std::map variableValue) { const bool suppressErrors(possibleInit && *possibleInit); // Assume that this is a variable declaration, rather than a fundef const bool printDebug = mSettings->debugwarnings; if (possibleInit) *possibleInit = false; int number_of_if = 0; if (var.declarationId() == 0U) return true; for (; tok; tok = tok->next()) { // End of scope.. if (tok->str() == "}") { if (number_of_if && possibleInit) *possibleInit = true; // might be a noreturn function.. if (mTokenizer->isScopeNoReturn(tok)) { if (noreturn) *noreturn = true; return false; } break; } // Unconditional inner scope, try, lambda, init list if (tok->str() == "{" && Token::Match(tok->previous(), ",|;|{|}|]|try")) { bool possibleInitInner = false; if (checkScopeForVariable(tok->next(), var, &possibleInitInner, noreturn, alloc, membervar, variableValue)) return true; tok = tok->link(); if (possibleInitInner) { number_of_if = 1; if (possibleInit) *possibleInit = true; } continue; } // assignment with nonzero constant.. if (Token::Match(tok->previous(), "[;{}] %var% = - %name% ;")) variableValue[tok->varId()] = !VariableValue(0); // Inner scope.. else if (Token::simpleMatch(tok, "if (")) { bool alwaysTrue = false; bool alwaysFalse = false; // Is variable assigned in condition? if (!membervar.empty()) { for (const Token *cond = tok->linkAt(1); cond != tok; cond = cond->previous()) { if (cond->varId() == var.declarationId() && isMemberVariableAssignment(cond, membervar)) return true; } } conditionAlwaysTrueOrFalse(tok->next()->astOperand2(), variableValue, &alwaysTrue, &alwaysFalse); // initialization / usage in condition.. if (!alwaysTrue && checkIfForWhileHead(tok->next(), var, suppressErrors, bool(number_of_if == 0), *alloc, membervar)) return true; // checking if a not-zero variable is zero => bail out nonneg int condVarId = 0; VariableValue condVarValue(0); const Token *condVarTok = nullptr; if (alwaysFalse) ; else if (Token::simpleMatch(tok, "if (") && astIsVariableComparison(tok->next()->astOperand2(), "!=", "0", &condVarTok)) { const std::map::const_iterator it = variableValue.find(condVarTok->varId()); if (it != variableValue.end() && it->second != 0) return true; // this scope is not fully analysed => return true else { condVarId = condVarTok->varId(); condVarValue = !VariableValue(0); } } else if (Token::simpleMatch(tok, "if (") && Token::Match(tok->next()->astOperand2(), "==|!=")) { const Token *condition = tok->next()->astOperand2(); const Token *lhs = condition->astOperand1(); const Token *rhs = condition->astOperand2(); const Token *vartok = (lhs && lhs->hasKnownIntValue()) ? rhs : lhs; const Token *numtok = (lhs == vartok) ? rhs : lhs; while (Token::simpleMatch(vartok, ".")) vartok = vartok->astOperand2(); if (vartok && vartok->varId() && numtok && numtok->hasKnownIntValue()) { const std::map::const_iterator it = variableValue.find(vartok->varId()); if (it != variableValue.end() && it->second != numtok->getKnownIntValue()) return true; // this scope is not fully analysed => return true condVarId = vartok->varId(); condVarValue = VariableValue(numtok->getKnownIntValue()); if (condition->str() == "!=") condVarValue = !condVarValue; } } // goto the { tok = tok->next()->link()->next(); if (!tok) break; if (tok->str() == "{") { bool possibleInitIf((!alwaysTrue && number_of_if > 0) || suppressErrors); bool noreturnIf = false; const bool initif = !alwaysFalse && checkScopeForVariable(tok->next(), var, &possibleInitIf, &noreturnIf, alloc, membervar, variableValue); // bail out for such code: // if (a) x=0; // conditional initialization // if (b) return; // cppcheck doesn't know if b can be false when a is false. // x++; // it's possible x is always initialized if (!alwaysTrue && noreturnIf && number_of_if > 0) { if (printDebug) { std::string condition; for (const Token *tok2 = tok->linkAt(-1); tok2 != tok; tok2 = tok2->next()) { condition += tok2->str(); if (tok2->isName() && tok2->next()->isName()) condition += ' '; } reportError(tok, Severity::debug, "bailoutUninitVar", "bailout uninitialized variable checking for '" + var.name() + "'. can't determine if this condition can be false when previous condition is false: " + condition); } return true; } if (alwaysTrue && (initif || noreturnIf)) return true; std::map varValueIf; if (!alwaysFalse && !initif && !noreturnIf) { for (const Token *tok2 = tok; tok2 && tok2 != tok->link(); tok2 = tok2->next()) { if (Token::Match(tok2, "[;{}.] %name% = - %name% ;")) varValueIf[tok2->next()->varId()] = !VariableValue(0); else if (Token::Match(tok2, "[;{}.] %name% = %num% ;")) varValueIf[tok2->next()->varId()] = VariableValue(MathLib::toLongNumber(tok2->strAt(3))); } } if (initif && condVarId > 0) variableValue[condVarId] = !condVarValue; // goto the } tok = tok->link(); if (!Token::simpleMatch(tok, "} else {")) { if (initif || possibleInitIf) { ++number_of_if; if (number_of_if >= 2) return true; } } else { // goto the { tok = tok->tokAt(2); bool possibleInitElse((!alwaysFalse && number_of_if > 0) || suppressErrors); bool noreturnElse = false; const bool initelse = !alwaysTrue && checkScopeForVariable(tok->next(), var, &possibleInitElse, &noreturnElse, alloc, membervar, variableValue); std::map varValueElse; if (!alwaysTrue && !initelse && !noreturnElse) { for (const Token *tok2 = tok; tok2 && tok2 != tok->link(); tok2 = tok2->next()) { if (Token::Match(tok2, "[;{}.] %var% = - %name% ;")) varValueElse[tok2->next()->varId()] = !VariableValue(0); else if (Token::Match(tok2, "[;{}.] %var% = %num% ;")) varValueElse[tok2->next()->varId()] = VariableValue(MathLib::toLongNumber(tok2->strAt(3))); } } if (initelse && condVarId > 0 && !noreturnIf && !noreturnElse) variableValue[condVarId] = condVarValue; // goto the } tok = tok->link(); if ((alwaysFalse || initif || noreturnIf) && (alwaysTrue || initelse || noreturnElse)) return true; if (initif || initelse || possibleInitElse) ++number_of_if; if (!initif && !noreturnIf) variableValue.insert(varValueIf.begin(), varValueIf.end()); if (!initelse && !noreturnElse) variableValue.insert(varValueElse.begin(), varValueElse.end()); } } } // = { .. } else if (Token::simpleMatch(tok, "= {")) { // end token const Token *end = tok->next()->link(); // If address of variable is taken in the block then bail out if (var.isPointer() || var.isArray()) { if (Token::findmatch(tok->tokAt(2), "%varid%", end, var.declarationId())) return true; } else if (Token::findmatch(tok->tokAt(2), "& %varid%", end, var.declarationId())) { return true; } const Token *errorToken = nullptr; visitAstNodes(tok->next(), [&](const Token *child) { if (child->isUnaryOp("&")) return ChildrenToVisit::none; if (child->str() == "," || child->str() == "{" || child->isConstOp()) return ChildrenToVisit::op1_and_op2; if (child->str() == "." && Token::Match(child->astOperand1(), "%varid%", var.declarationId()) && child->astOperand2() && child->astOperand2()->str() == membervar) { errorToken = child; return ChildrenToVisit::done; } return ChildrenToVisit::none; }); if (errorToken) { uninitStructMemberError(errorToken->astOperand2(), errorToken->astOperand1()->str() + "." + membervar); return true; } // Skip block tok = end; continue; } // skip sizeof / offsetof if (isSizeOfEtc(tok)) tok = tok->linkAt(1); // for/while.. else if (Token::Match(tok, "for|while (") || Token::simpleMatch(tok, "do {")) { const bool forwhile = Token::Match(tok, "for|while ("); // is variable initialized in for-head? if (forwhile && checkIfForWhileHead(tok->next(), var, tok->str() == "for", false, *alloc, membervar)) return true; // goto the { const Token *tok2 = forwhile ? tok->next()->link()->next() : tok->next(); if (tok2 && tok2->str() == "{") { const bool init = checkLoopBody(tok2, var, *alloc, membervar, (number_of_if > 0) || suppressErrors); // variable is initialized in the loop.. if (init) return true; // is variable used in for-head? bool initcond = false; if (!suppressErrors) { const Token *startCond = forwhile ? tok->next() : tok->next()->link()->tokAt(2); initcond = checkIfForWhileHead(startCond, var, false, bool(number_of_if == 0), *alloc, membervar); } // goto "}" tok = tok2->link(); // do-while => goto ")" if (!forwhile) { // Assert that the tokens are '} while (' if (!Token::simpleMatch(tok, "} while (")) { if (printDebug) reportError(tok,Severity::debug,"","assertion failed '} while ('"); break; } // Goto ')' tok = tok->linkAt(2); if (!tok) // bailout : invalid code / bad tokenizer break; if (initcond) // variable is initialized in while-condition return true; } } } // Unknown or unhandled inner scope else if (Token::simpleMatch(tok, ") {") || (Token::Match(tok, "%name% {") && tok->str() != "try")) { if (tok->str() == "struct" || tok->str() == "union") { tok = tok->linkAt(1); continue; } return true; } // bailout if there is ({ if (Token::simpleMatch(tok, "( {")) { return true; } // bailout if there is assembler code or setjmp if (Token::Match(tok, "asm|setjmp (")) { return true; } // bailout if there is a goto label if (Token::Match(tok, "[;{}] %name% :")) { return true; } if (tok->str() == "?") { if (!tok->astOperand2()) return true; const bool used1 = isVariableUsed(tok->astOperand2()->astOperand1(), var); const bool used0 = isVariableUsed(tok->astOperand2()->astOperand2(), var); const bool err = (number_of_if == 0) ? (used1 || used0) : (used1 && used0); if (err) uninitvarError(tok, var.nameToken()->str(), *alloc); // Todo: skip expression if there is no error return true; } if (Token::Match(tok, "return|break|continue|throw|goto")) { if (noreturn) *noreturn = true; tok = tok->next(); while (tok && tok->str() != ";") { // variable is seen.. if (tok->varId() == var.declarationId()) { if (!membervar.empty()) { if (!suppressErrors && Token::Match(tok, "%name% . %name%") && tok->strAt(2) == membervar && Token::Match(tok->next()->astParent(), "%cop%|return|throw|?")) uninitStructMemberError(tok, tok->str() + "." + membervar); else if (mTokenizer->isCPP() && !suppressErrors && Token::Match(tok, "%name%") && Token::Match(tok->astParent(), "return|throw|?")) uninitStructMemberError(tok, tok->str() + "." + membervar); } // Use variable else if (!suppressErrors && isVariableUsage(tok, var.isPointer(), *alloc)) uninitvarError(tok, tok->str(), *alloc); return true; } else if (isSizeOfEtc(tok)) tok = tok->linkAt(1); else if (tok->str() == "?") { if (!tok->astOperand2()) return true; const bool used1 = isVariableUsed(tok->astOperand2()->astOperand1(), var); const bool used0 = isVariableUsed(tok->astOperand2()->astOperand2(), var); const bool err = (number_of_if == 0) ? (used1 || used0) : (used1 && used0); if (err) uninitvarError(tok, var.nameToken()->str(), *alloc); return true; } tok = tok->next(); } return (noreturn == nullptr); } // variable is seen.. if (tok->varId() == var.declarationId()) { // calling function that returns uninit data through pointer.. if (var.isPointer() && Token::simpleMatch(tok->next(), "=")) { const Token *rhs = tok->next()->astOperand2(); while (rhs && rhs->isCast()) rhs = rhs->astOperand2() ? rhs->astOperand2() : rhs->astOperand1(); if (rhs && Token::Match(rhs->previous(), "%name% (")) { const Library::AllocFunc *allocFunc = mSettings->library.getAllocFuncInfo(rhs->astOperand1()); if (allocFunc && !allocFunc->initData) { *alloc = NO_CTOR_CALL; continue; } } } if (mTokenizer->isCPP() && var.isPointer() && (var.typeStartToken()->isStandardType() || var.typeStartToken()->isEnumType() || (var.type() && var.type()->needInitialization == Type::NeedInitialization::True)) && Token::simpleMatch(tok->next(), "= new")) { *alloc = CTOR_CALL; // type has constructor(s) if (var.typeScope() && var.typeScope()->numConstructors > 0) return true; // standard or enum type: check if new initializes the allocated memory if (var.typeStartToken()->isStandardType() || var.typeStartToken()->isEnumType()) { // scalar new with initialization if (Token::Match(tok->next(), "= new %type% (")) return true; // array new if (Token::Match(tok->next(), "= new %type% [") && Token::simpleMatch(tok->linkAt(4), "] (")) return true; } continue; } if (!membervar.empty()) { if (isMemberVariableAssignment(tok, membervar)) { checkRhs(tok, var, *alloc, number_of_if, membervar); return true; } if (isMemberVariableUsage(tok, var.isPointer(), *alloc, membervar)) { uninitStructMemberError(tok, tok->str() + "." + membervar); return true; } if (Token::Match(tok->previous(), "[(,] %name% [,)]")) return true; if (Token::Match(tok->previous(), "= %var% . %var% ;") && membervar == tok->strAt(2)) return true; } else { // Use variable if (!suppressErrors && isVariableUsage(tok, var.isPointer(), *alloc)) { uninitvarError(tok, tok->str(), *alloc); return true; } else { const Token *parent = tok; while (parent->astParent() && ((astIsLHS(parent) && parent->astParent()->str() == "[") || parent->astParent()->isUnaryOp("*"))) { parent = parent->astParent(); if (parent->str() == "[") { if (const Token *errorToken = checkExpr(parent->astOperand2(), var, *alloc, number_of_if==0)) { if (!suppressErrors) uninitvarError(errorToken, errorToken->expressionString(), *alloc); return true; } } } if (Token::simpleMatch(parent->astParent(), "=") && astIsLHS(parent)) { const Token *eq = parent->astParent(); if (const Token *errorToken = checkExpr(eq->astOperand2(), var, *alloc, number_of_if==0)) { if (!suppressErrors) uninitvarError(errorToken, errorToken->expressionString(), *alloc); return true; } } // assume that variable is assigned return true; } } } } return false; } const Token *CheckUninitVar::checkExpr(const Token *tok, const Variable& var, const Alloc alloc, bool known, bool *bailout) { if (!tok) return nullptr; if (isSizeOfEtc(tok->previous())) return nullptr; if (tok->astOperand1()) { bool bailout1 = false; const Token *errorToken = checkExpr(tok->astOperand1(), var, alloc, known, &bailout1); if (bailout && bailout1) *bailout = true; if (errorToken) return errorToken; if ((bailout1 || !known) && Token::Match(tok, "%oror%|&&|?")) return nullptr; } if (tok->astOperand2()) return checkExpr(tok->astOperand2(), var, alloc, known, bailout); if (tok->varId() == var.declarationId()) { const Token *errorToken = isVariableUsage(tok, var.isPointer(), alloc); if (errorToken) return errorToken; else if (bailout) *bailout = true; } return nullptr; } bool CheckUninitVar::checkIfForWhileHead(const Token *startparentheses, const Variable& var, bool suppressErrors, bool isuninit, Alloc alloc, const std::string &membervar) { const Token * const endpar = startparentheses->link(); if (Token::Match(startparentheses, "( ! %name% %oror%") && startparentheses->tokAt(2)->getValue(0)) suppressErrors = true; for (const Token *tok = startparentheses->next(); tok && tok != endpar; tok = tok->next()) { if (tok->varId() == var.declarationId()) { if (Token::Match(tok, "%name% . %name%")) { if (membervar.empty()) return true; if (tok->strAt(2) == membervar) { if (isMemberVariableAssignment(tok, membervar)) return true; if (!suppressErrors && isMemberVariableUsage(tok, var.isPointer(), alloc, membervar)) uninitStructMemberError(tok, tok->str() + "." + membervar); } continue; } if (const Token *errorToken = isVariableUsage(tok, var.isPointer(), alloc)) { if (suppressErrors) continue; uninitvarError(errorToken, errorToken->expressionString(), alloc); } return true; } // skip sizeof / offsetof if (isSizeOfEtc(tok)) tok = tok->linkAt(1); if ((!isuninit || !membervar.empty()) && tok->str() == "&&") suppressErrors = true; } return false; } /** recursively check loop, return error token */ const Token* CheckUninitVar::checkLoopBodyRecursive(const Token *start, const Variable& var, const Alloc alloc, const std::string &membervar, bool &bailout) const { assert(start->str() == "{"); const Token *errorToken = nullptr; const Token *const end = start->link(); for (const Token *tok = start->next(); tok != end; tok = tok->next()) { // skip sizeof / offsetof if (isSizeOfEtc(tok)) { tok = tok->linkAt(1); continue; } if (Token::Match(tok, "asm ( %str% ) ;")) { bailout = true; return nullptr; } // for loop; skip third expression until loop body has been analyzed.. if (tok->str() == ";" && Token::simpleMatch(tok->astParent(), ";") && Token::simpleMatch(tok->astParent()->astParent(), "(")) { const Token *top = tok->astParent()->astParent(); if (!Token::simpleMatch(top->previous(), "for (") || !Token::simpleMatch(top->link(), ") {")) continue; const Token *bodyStart = top->link()->next(); const Token *errorToken1 = checkLoopBodyRecursive(bodyStart, var, alloc, membervar, bailout); if (!errorToken) errorToken = errorToken1; if (bailout) return nullptr; } // for loop; skip loop body if there is third expression if (Token::simpleMatch(tok, ") {") && Token::simpleMatch(tok->link()->previous(), "for (") && Token::simpleMatch(tok->link()->astOperand2(), ";") && Token::simpleMatch(tok->link()->astOperand2()->astOperand2(), ";")) { tok = tok->linkAt(1); } if (tok->str() == "{") { // switch => bailout if (tok->scope() && tok->scope()->type == Scope::ScopeType::eSwitch) { bailout = true; return nullptr; } const Token *errorToken1 = checkLoopBodyRecursive(tok, var, alloc, membervar, bailout); tok = tok->link(); if (Token::simpleMatch(tok, "} else {")) { const Token *elseBody = tok->tokAt(2); const Token *errorToken2 = checkLoopBodyRecursive(elseBody, var, alloc, membervar, bailout); tok = elseBody->link(); if (errorToken1 && errorToken2) return errorToken1; if (errorToken2) errorToken = errorToken2; } if (bailout) return nullptr; if (!errorToken) errorToken = errorToken1; } if (tok->varId() != var.declarationId()) continue; bool conditionalUsage = false; for (const Token* parent = tok; parent; parent = parent->astParent()) { if (Token::Match(parent->astParent(), "%oror%|&&|?") && astIsRHS(parent)) { conditionalUsage = true; break; } } if (!membervar.empty()) { if (isMemberVariableAssignment(tok, membervar)) { bool assign = true; bool rhs = false; // Used for tracking if an ")" is inner or outer const Token *rpar = nullptr; for (const Token *tok2 = tok->next(); tok2; tok2 = tok2->next()) { if (tok2->str() == "=") rhs = true; // Look at inner expressions but not outer expressions if (!rpar && tok2->str() == "(") rpar = tok2->link(); else if (tok2->str() == ")") { // No rpar => this is an outer right parenthesis if (!rpar) break; if (rpar == tok2) rpar = nullptr; } if (tok2->str() == ";" || (!rpar && tok2->str() == ",")) break; if (rhs && tok2->varId() == var.declarationId() && isMemberVariableUsage(tok2, var.isPointer(), alloc, membervar)) { assign = false; break; } } if (assign) { bailout = true; return nullptr; } } if (isMemberVariableUsage(tok, var.isPointer(), alloc, membervar)) { if (!conditionalUsage) return tok; if (!errorToken) errorToken = tok; } else if (Token::Match(tok->previous(), "[(,] %name% [,)]")) { bailout = true; return nullptr; } } else { if (const Token *errtok = isVariableUsage(tok, var.isPointer(), alloc)) { if (!conditionalUsage) return errtok; if (!errorToken) errorToken = errtok; } else if (tok->strAt(1) == "=") { bool varIsUsedInRhs = false; visitAstNodes(tok->next()->astOperand2(), [&](const Token * t) { if (!t) return ChildrenToVisit::none; if (t->varId() == var.declarationId()) { varIsUsedInRhs = true; return ChildrenToVisit::done; } if (isSizeOfEtc(t->previous())) return ChildrenToVisit::none; return ChildrenToVisit::op1_and_op2; }); if (!varIsUsedInRhs) { bailout = true; return nullptr; } } else { bailout = true; return nullptr; } } } return errorToken; } bool CheckUninitVar::checkLoopBody(const Token *tok, const Variable& var, const Alloc alloc, const std::string &membervar, const bool suppressErrors) { bool bailout = false; const Token *errorToken = checkLoopBodyRecursive(tok, var, alloc, membervar, bailout); if (!suppressErrors && !bailout && errorToken) { if (membervar.empty()) uninitvarError(errorToken, errorToken->expressionString(), alloc); else uninitStructMemberError(errorToken, errorToken->expressionString() + "." + membervar); return true; } return bailout; } void CheckUninitVar::checkRhs(const Token *tok, const Variable &var, Alloc alloc, nonneg int number_of_if, const std::string &membervar) { bool rhs = false; int indent = 0; while (nullptr != (tok = tok->next())) { if (tok->str() == "=") rhs = true; else if (rhs && tok->varId() == var.declarationId()) { if (membervar.empty() && isVariableUsage(tok, var.isPointer(), alloc)) uninitvarError(tok, tok->str(), alloc); else if (!membervar.empty() && isMemberVariableUsage(tok, var.isPointer(), alloc, membervar)) uninitStructMemberError(tok, tok->str() + "." + membervar); else if (Token::Match(tok, "%var% =")) break; else if (Token::Match(tok->previous(), "[(,&]")) break; } else if (tok->str() == ";" || (indent==0 && tok->str() == ",")) break; else if (tok->str() == "(") ++indent; else if (tok->str() == ")") { if (indent == 0) break; --indent; } else if (tok->str() == "?" && tok->astOperand2()) { const bool used1 = isVariableUsed(tok->astOperand2()->astOperand1(), var); const bool used0 = isVariableUsed(tok->astOperand2()->astOperand2(), var); const bool err = (number_of_if == 0) ? (used1 || used0) : (used1 && used0); if (err) uninitvarError(tok, var.nameToken()->str(), alloc); break; } else if (isSizeOfEtc(tok)) tok = tok->linkAt(1); } } static bool astIsLhs(const Token *tok) { return tok && tok->astParent() && tok == tok->astParent()->astOperand1(); } static bool astIsRhs(const Token *tok) { return tok && tok->astParent() && tok == tok->astParent()->astOperand2(); } static bool isVoidCast(const Token *tok) { return Token::simpleMatch(tok, "(") && tok->isCast() && tok->valueType() && tok->valueType()->type == ValueType::Type::VOID && tok->valueType()->pointer == 0; } const Token* CheckUninitVar::isVariableUsage(bool cpp, const Token *vartok, const Library& library, bool pointer, Alloc alloc, int indirect) { const Token *valueExpr = vartok; // non-dereferenced , no address of value as variable while (Token::Match(valueExpr->astParent(), ".|::") && astIsRhs(valueExpr)) valueExpr = valueExpr->astParent(); // stuff we ignore.. while (valueExpr->astParent()) { // *&x if (valueExpr->astParent()->isUnaryOp("&") && valueExpr->astParent()->astParent() && valueExpr->astParent()->astParent()->isUnaryOp("*")) valueExpr = valueExpr->astParent()->astParent(); // (type &)x else if (valueExpr->astParent()->isCast() && valueExpr->astParent()->isUnaryOp("(") && Token::simpleMatch(valueExpr->astParent()->link()->previous(), "& )")) valueExpr = valueExpr->astParent(); else break; } if (!pointer) { if (Token::Match(vartok, "%name% [.(]") && vartok->variable() && !vartok->variable()->isPointer()) return nullptr; while (Token::simpleMatch(valueExpr->astParent(), ".") && astIsLhs(valueExpr) && valueExpr->astParent()->valueType() && valueExpr->astParent()->valueType()->pointer == 0) valueExpr = valueExpr->astParent(); } const Token *derefValue = nullptr; // dereferenced value expression if (alloc != NO_ALLOC) { const int arrayDim = (vartok->variable() && vartok->variable()->isArray()) ? vartok->variable()->dimensions().size() : 1; int deref = 0; derefValue = valueExpr; while (Token::Match(derefValue->astParent(), "+|-|*|[|.") || (derefValue->astParent() && derefValue->astParent()->isCast()) || (deref < arrayDim && Token::simpleMatch(derefValue->astParent(), "&") && derefValue->astParent()->isBinaryOp())) { const Token * const derefValueParent = derefValue->astParent(); if (derefValueParent->str() == "*") { if (derefValueParent->isUnaryOp("*")) ++deref; else break; } else if (derefValueParent->str() == "[") { if (astIsLhs(derefValue)) ++deref; else break; } else if (Token::Match(derefValueParent, "[+-]")) { if (deref >= arrayDim) break; } else if (derefValueParent->str() == ".") ++deref; derefValue = derefValueParent; if (deref < arrayDim) valueExpr = derefValue; } if (deref < arrayDim) { // todo compare deref with array dimensions derefValue = nullptr; } } else if (vartok->astParent() && vartok->astParent()->isUnaryOp("&")) { const Token *child = vartok->astParent(); const Token *parent = child->astParent(); while (parent && (parent->isCast() || parent->str() == "+")) { child = parent; parent = child->astParent(); } if (parent && (parent->isUnaryOp("*") || (parent->str() == "[" && astIsLhs(child)))) derefValue = parent; } if (!valueExpr->astParent()) return nullptr; // FIXME handle address of!! if (derefValue && derefValue->astParent() && derefValue->astParent()->isUnaryOp("&")) return nullptr; // BAILOUT for binary & without parent if (Token::simpleMatch(valueExpr->astParent(), "&") && astIsRhs(valueExpr) && Token::Match(valueExpr->astParent()->tokAt(-3), "( %name% ) &")) return nullptr; // safe operations if (isVoidCast(valueExpr->astParent())) return nullptr; if (Token::simpleMatch(valueExpr->astParent(), ".")) { const Token *parent = valueExpr->astParent(); while (Token::simpleMatch(parent, ".")) parent = parent->astParent(); if (isVoidCast(parent)) return nullptr; } if (alloc != NO_ALLOC) { if (Token::Match(valueExpr->astParent(), "%comp%|%oror%|&&|?|!")) return nullptr; if (Token::Match(valueExpr->astParent(), "%or%|&") && valueExpr->astParent()->isBinaryOp()) return nullptr; if (alloc == CTOR_CALL && derefValue && Token::simpleMatch(derefValue->astParent(), "(") && astIsLhs(derefValue)) return nullptr; if (Token::simpleMatch(valueExpr->astParent(), "return")) return nullptr; } // Passing variable to function.. if (Token::Match(valueExpr->astParent(), "[(,]") && (valueExpr->astParent()->str() == "," || astIsRhs(valueExpr))) { const Token *parent = valueExpr->astParent(); while (Token::simpleMatch(parent, ",")) parent = parent->astParent(); if (Token::simpleMatch(parent, "{")) return valueExpr; const int use = isFunctionParUsage(valueExpr, library, pointer, alloc, indirect); return (use>0) ? valueExpr : nullptr; } if (derefValue && Token::Match(derefValue->astParent(), "[(,]") && (derefValue->astParent()->str() == "," || astIsRhs(derefValue))) { const int use = isFunctionParUsage(derefValue, library, false, NO_ALLOC, indirect); return (use>0) ? derefValue : nullptr; } if (valueExpr->astParent()->isUnaryOp("&")) { const Token *parent = valueExpr->astParent(); if (Token::Match(parent->astParent(), "[(,]") && (parent->astParent()->str() == "," || astIsRhs(parent))) { const int use = isFunctionParUsage(valueExpr, library, pointer, alloc, indirect); return (use>0) ? valueExpr : nullptr; } return nullptr; } // Assignments; // * Is this LHS in assignment // * Passing address in RHS to pointer variable { const Token *tok = derefValue ? derefValue : valueExpr; if (alloc == NO_ALLOC) { while (tok->valueType() && tok->valueType()->pointer == 0 && Token::simpleMatch(tok->astParent(), ".")) tok = tok->astParent(); } if (Token::simpleMatch(tok->astParent(), "=")) { if (astIsLhs(tok)) return nullptr; if (alloc != NO_ALLOC && astIsRhs(valueExpr)) return nullptr; } } // Initialize reference variable if (Token::Match((derefValue ? derefValue : vartok)->astParent(), "(|=") && astIsRhs(derefValue ? derefValue : vartok)) { const Token *rhstok = derefValue ? derefValue : vartok; const Token *lhstok = rhstok->astParent()->astOperand1(); const Variable *lhsvar = lhstok->variable(); if (lhsvar && lhsvar->isReference() && lhsvar->nameToken() == lhstok) return nullptr; } // range for loop if (Token::simpleMatch(valueExpr->astParent(), ":") && valueExpr->astParent()->astParent() && Token::simpleMatch(valueExpr->astParent()->astParent()->previous(), "for (")) { if (astIsLhs(valueExpr)) return nullptr; // Taking value by reference? const Token *lhs = valueExpr->astParent()->astOperand1(); if (lhs && lhs->variable() && lhs->variable()->nameToken() == lhs && lhs->variable()->isReference()) return nullptr; } // Stream read/write // FIXME this code is a hack!! if (cpp && Token::Match(valueExpr->astParent(), "<<|>>")) { if (isLikelyStreamRead(cpp, vartok->previous())) return nullptr; if (const auto* vt = valueExpr->valueType()) { if (vt->type == ValueType::Type::VOID) return nullptr; // passing a char* to a stream will dereference it if ((alloc == CTOR_CALL || alloc == ARRAY) && vt->pointer && vt->type != ValueType::Type::CHAR && vt->type != ValueType::Type::WCHAR_T) return nullptr; } } if (astIsRhs(derefValue) && isLikelyStreamRead(cpp, derefValue->astParent())) return nullptr; // Assignment with overloaded & if (cpp && Token::simpleMatch(valueExpr->astParent(), "&") && astIsRhs(valueExpr)) { const Token *parent = valueExpr->astParent(); while (Token::simpleMatch(parent, "&") && parent->isBinaryOp()) parent = parent->astParent(); if (!parent) { const Token *lhs = valueExpr->astParent(); while (Token::simpleMatch(lhs, "&") && lhs->isBinaryOp()) lhs = lhs->astOperand1(); if (lhs && lhs->isName() && (!lhs->valueType() || lhs->valueType()->type <= ValueType::Type::CONTAINER)) return nullptr; // <- possible assignment } } return derefValue ? derefValue : valueExpr; } const Token* CheckUninitVar::isVariableUsage(const Token *vartok, bool pointer, Alloc alloc, int indirect) const { return CheckUninitVar::isVariableUsage(mTokenizer->isCPP(), vartok, mSettings->library, pointer, alloc, indirect); } /*** * Is function parameter "used" so a "usage of uninitialized variable" can * be written? If parameter is passed "by value" then it is "used". If it * is passed "by reference" then it is not necessarily "used". * @return -1 => unknown 0 => not used 1 => used */ int CheckUninitVar::isFunctionParUsage(const Token *vartok, const Library& library, bool pointer, Alloc alloc, int indirect) { bool unknown = false; const Token *parent = getAstParentSkipPossibleCastAndAddressOf(vartok, &unknown); if (unknown || !Token::Match(parent, "[(,]")) return -1; // locate start parentheses in function call.. int argumentNumber = 0; const Token *start = vartok; while (start && !Token::Match(start, "[;{}(]")) { if (start->str() == ")") start = start->link(); else if (start->str() == ",") ++argumentNumber; start = start->previous(); } if (!start) return -1; if (Token::simpleMatch(start->link(), ") {") && Token::Match(start->previous(), "if|for|while|switch")) return (!pointer || alloc == NO_ALLOC); // is this a function call? if (Token::Match(start->previous(), "%name% (")) { const bool address(vartok->previous()->str() == "&"); const bool array(vartok->variable() && vartok->variable()->isArray()); // check how function handle uninitialized data arguments.. const Function *func = start->previous()->function(); if (func) { const Variable *arg = func->getArgumentVar(argumentNumber); if (arg) { const Token *argStart = arg->typeStartToken(); if (!address && !array && Token::Match(argStart, "%type% %name%| [,)]")) return 1; if (pointer && !address && alloc == NO_ALLOC && Token::Match(argStart, "%type% * %name% [,)]")) return 1; while (argStart->previous() && argStart->previous()->isName()) argStart = argStart->previous(); if (Token::Match(argStart, "const %type% & %name% [,)]")) { // If it's a record it's ok to pass a partially uninitialized struct. if (vartok->variable() && vartok->variable()->valueType() && vartok->variable()->valueType()->type == ValueType::Type::RECORD) return -1; return 1; } if ((pointer || address) && Token::Match(argStart, "const %type% %name% [") && Token::Match(argStart->linkAt(3), "] [,)]")) return 1; } } else if (Token::Match(start->previous(), "if|while|for")) { // control-flow statement reading the variable "by value" return alloc == NO_ALLOC; } else { const bool isnullbad = library.isnullargbad(start->previous(), argumentNumber + 1); if (indirect == 0 && pointer && !address && isnullbad && alloc == NO_ALLOC) return 1; bool hasIndirect = false; const bool isuninitbad = library.isuninitargbad(start->previous(), argumentNumber + 1, indirect, &hasIndirect); if (alloc != NO_ALLOC) return (isnullbad || hasIndirect) && isuninitbad; return isuninitbad && (!address || isnullbad); } } // unknown return -1; } int CheckUninitVar::isFunctionParUsage(const Token *vartok, bool pointer, Alloc alloc, int indirect) const { return CheckUninitVar::isFunctionParUsage(vartok, mSettings->library, pointer, alloc, indirect); } bool CheckUninitVar::isMemberVariableAssignment(const Token *tok, const std::string &membervar) const { if (Token::Match(tok, "%name% . %name%") && tok->strAt(2) == membervar) { if (Token::Match(tok->tokAt(3), "[=.[]")) return true; else if (Token::Match(tok->tokAt(-2), "[(,=] &")) return true; else if (isLikelyStreamRead(mTokenizer->isCPP(), tok->previous())) return true; else if ((tok->previous() && tok->previous()->isConstOp()) || Token::Match(tok->previous(), "[|=")) ; // member variable usage else if (tok->tokAt(3)->isConstOp()) ; // member variable usage else if (Token::Match(tok->previous(), "[(,] %name% . %name% [,)]") && 1 == isFunctionParUsage(tok, false, NO_ALLOC)) { return false; } else return true; } else if (tok->strAt(1) == "=") return true; else if (Token::Match(tok, "%var% . %name% (")) { const Token *ftok = tok->tokAt(2); if (!ftok->function() || !ftok->function()->isConst()) // TODO: Try to determine if membervar is assigned in method return true; } else if (tok->strAt(-1) == "&") { if (Token::Match(tok->tokAt(-2), "[(,] & %name%")) { // locate start parentheses in function call.. int argumentNumber = 0; const Token *ftok = tok; while (ftok && !Token::Match(ftok, "[;{}(]")) { if (ftok->str() == ")") ftok = ftok->link(); else if (ftok->str() == ",") ++argumentNumber; ftok = ftok->previous(); } // is this a function call? ftok = ftok ? ftok->previous() : nullptr; if (Token::Match(ftok, "%name% (")) { // check how function handle uninitialized data arguments.. const Function *function = ftok->function(); if (!function && mSettings) { // Function definition not seen, check if direction is specified in the library configuration const Library::ArgumentChecks::Direction argDirection = mSettings->library.getArgDirection(ftok, 1 + argumentNumber); if (argDirection == Library::ArgumentChecks::Direction::DIR_IN) return false; else if (argDirection == Library::ArgumentChecks::Direction::DIR_OUT) return true; } const Variable *arg = function ? function->getArgumentVar(argumentNumber) : nullptr; const Token *argStart = arg ? arg->typeStartToken() : nullptr; while (argStart && argStart->previous() && argStart->previous()->isName()) argStart = argStart->previous(); if (Token::Match(argStart, "const struct| %type% * const| %name% [,)]")) return false; } else if (ftok && Token::simpleMatch(ftok->previous(), "= * (")) return false; } return true; } return false; } bool CheckUninitVar::isMemberVariableUsage(const Token *tok, bool isPointer, Alloc alloc, const std::string &membervar) const { if (Token::Match(tok->previous(), "[(,] %name% . %name% [,)]") && tok->strAt(2) == membervar) { const int use = isFunctionParUsage(tok, isPointer, alloc); if (use == 1) return true; } if (isMemberVariableAssignment(tok, membervar)) return false; if (Token::Match(tok, "%name% . %name%") && tok->strAt(2) == membervar && !(tok->tokAt(-2)->variable() && tok->tokAt(-2)->variable()->isReference())) { const Token *parent = tok->next()->astParent(); if (parent && parent->isUnaryOp("&")) return false; return true; } else if (!isPointer && Token::Match(tok->previous(), "[(,] %name% [,)]") && isVariableUsage(tok, isPointer, alloc)) return true; else if (!isPointer && Token::Match(tok->previous(), "= %name% ;")) return true; // = *(&var); else if (!isPointer && Token::simpleMatch(tok->astParent(),"&") && Token::simpleMatch(tok->astParent()->astParent(),"*") && Token::Match(tok->astParent()->astParent()->astParent(), "= * (| &") && tok->astParent()->astParent()->astParent()->astOperand2() == tok->astParent()->astParent()) return true; else if (mSettings->certainty.isEnabled(Certainty::experimental) && !isPointer && Token::Match(tok->tokAt(-2), "[(,] & %name% [,)]") && isVariableUsage(tok, isPointer, alloc)) return true; return false; } void CheckUninitVar::uninitstringError(const Token *tok, const std::string &varname, bool strncpy_) { reportError(tok, Severity::error, "uninitstring", "$symbol:" + varname + "\nDangerous usage of '$symbol'" + (strncpy_ ? " (strncpy doesn't always null-terminate it)." : " (not null-terminated)."), CWE_USE_OF_POTENTIALLY_DANGEROUS_FUNCTION, Certainty::normal); } void CheckUninitVar::uninitdataError(const Token *tok, const std::string &varname) { reportError(tok, Severity::error, "uninitdata", "$symbol:" + varname + "\nMemory is allocated but not initialized: $symbol", CWE_USE_OF_UNINITIALIZED_VARIABLE, Certainty::normal); } void CheckUninitVar::uninitvarError(const Token *tok, const std::string &varname, ErrorPath errorPath) { errorPath.emplace_back(tok, ""); reportError(errorPath, Severity::error, "uninitvar", "$symbol:" + varname + "\nUninitialized variable: $symbol", CWE_USE_OF_UNINITIALIZED_VARIABLE, Certainty::normal); } void CheckUninitVar::uninitvarError(const Token* tok, const ValueFlow::Value& v) { const Token* ltok = tok; if (tok && Token::simpleMatch(tok->astParent(), ".") && astIsRHS(tok)) ltok = tok->astParent(); const std::string& varname = ltok ? ltok->expressionString() : "x"; ErrorPath errorPath = v.errorPath; errorPath.emplace_back(tok, ""); if (v.subexpressions.empty()) { reportError(errorPath, Severity::error, "uninitvar", "$symbol:" + varname + "\nUninitialized variable: $symbol", CWE_USE_OF_UNINITIALIZED_VARIABLE, Certainty::normal); return; } std::string vars = v.subexpressions.size() == 1 ? "variable: " : "variables: "; std::string prefix; for (const std::string& var : v.subexpressions) { vars += prefix + varname + "." + var; prefix = ", "; } reportError(errorPath, Severity::error, "uninitvar", "$symbol:" + varname + "\nUninitialized " + vars, CWE_USE_OF_UNINITIALIZED_VARIABLE, Certainty::normal); } void CheckUninitVar::uninitStructMemberError(const Token *tok, const std::string &membername) { reportError(tok, Severity::error, "uninitStructMember", "$symbol:" + membername + "\nUninitialized struct member: $symbol", CWE_USE_OF_UNINITIALIZED_VARIABLE, Certainty::normal); } enum class FunctionUsage { None, PassedByReference, Used }; static FunctionUsage getFunctionUsage(const Token* tok, int indirect, const Settings* settings) { const bool addressOf = tok->astParent() && tok->astParent()->isUnaryOp("&"); int argnr; const Token* ftok = getTokenArgumentFunction(tok, argnr); if (!ftok) return FunctionUsage::None; if (ftok->function()) { std::vector args = getArgumentVars(ftok, argnr); for (const Variable* arg : args) { if (!arg) continue; if (arg->isReference()) return FunctionUsage::PassedByReference; } } else { const bool isnullbad = settings->library.isnullargbad(ftok, argnr + 1); if (indirect == 0 && astIsPointer(tok) && !addressOf && isnullbad) return FunctionUsage::Used; bool hasIndirect = false; const bool isuninitbad = settings->library.isuninitargbad(ftok, argnr + 1, indirect, &hasIndirect); if (isuninitbad && (!addressOf || isnullbad)) return FunctionUsage::Used; } return FunctionUsage::None; } static bool isLeafDot(const Token* tok) { if (!tok) return false; const Token * parent = tok->astParent(); if (!Token::simpleMatch(parent, ".")) return false; if (parent->astOperand2() == tok) return true; return isLeafDot(parent); } void CheckUninitVar::valueFlowUninit() { const SymbolDatabase *symbolDatabase = mTokenizer->getSymbolDatabase(); std::unordered_set ids; for (bool subfunction : {false, true}) { // check every executable scope for (const Scope* scope : symbolDatabase->functionScopes) { for (const Token* tok = scope->bodyStart; tok != scope->bodyEnd; tok = tok->next()) { if (isSizeOfEtc(tok)) { tok = tok->linkAt(1); continue; } if (ids.count(tok->exprId()) > 0) continue; if (!tok->variable() && !tok->isUnaryOp("*")) continue; if (Token::Match(tok, "%name% (")) continue; const Token* parent = tok->astParent(); while (Token::simpleMatch(parent, ".")) parent = parent->astParent(); if (parent && parent->isUnaryOp("&")) continue; if (isVoidCast(parent)) continue; auto v = std::find_if( tok->values().begin(), tok->values().end(), std::mem_fn(&ValueFlow::Value::isUninitValue)); if (v == tok->values().end()) continue; if (v->tokvalue && ids.count(v->tokvalue->exprId()) > 0) continue; if (subfunction == (v->path == 0)) continue; if (v->isInconclusive()) continue; if (v->indirect > 1 || v->indirect < 0) continue; bool uninitderef = false; if (tok->variable()) { bool unknown; const bool isarray = !tok->variable() || tok->variable()->isArray(); const bool ispointer = astIsPointer(tok) && !isarray; const bool deref = CheckNullPointer::isPointerDeRef(tok, unknown, mSettings); if (ispointer && v->indirect == 1 && !deref) continue; if (isarray && !deref) continue; uninitderef = deref && v->indirect == 0; const bool isleaf = isLeafDot(tok) || uninitderef; if (Token::Match(tok->astParent(), ". %var%") && !isleaf) continue; } FunctionUsage fusage = getFunctionUsage(tok, v->indirect, mSettings); if (!v->subexpressions.empty() && fusage == FunctionUsage::PassedByReference) continue; if (fusage != FunctionUsage::Used) { if (!(Token::Match(tok->astParent(), ". %name% (") && uninitderef) && isVariableChanged(tok, v->indirect, mSettings, mTokenizer->isCPP())) continue; bool inconclusive = false; if (isVariableChangedByFunctionCall(tok, v->indirect, mSettings, &inconclusive) || inconclusive) continue; } uninitvarError(tok, *v); ids.insert(tok->exprId()); if (v->tokvalue) ids.insert(v->tokvalue->exprId()); const Token* nextTok = nextAfterAstRightmostLeaf(parent); if (nextTok == scope->bodyEnd) break; tok = nextTok ? nextTok : tok; } } } } std::string CheckUninitVar::MyFileInfo::toString() const { return CTU::toString(unsafeUsage); } Check::FileInfo *CheckUninitVar::getFileInfo(const Tokenizer *tokenizer, const Settings *settings) const { const CheckUninitVar checker(tokenizer, settings, nullptr); return checker.getFileInfo(); } static bool isVariableUsage(const Check *check, const Token *vartok, MathLib::bigint *value) { (void)value; const CheckUninitVar *c = dynamic_cast(check); return c && c->isVariableUsage(vartok, true, CheckUninitVar::Alloc::ARRAY); } Check::FileInfo *CheckUninitVar::getFileInfo() const { const std::list &unsafeUsage = CTU::getUnsafeUsage(mTokenizer, mSettings, this, ::isVariableUsage); if (unsafeUsage.empty()) return nullptr; MyFileInfo *fileInfo = new MyFileInfo; fileInfo->unsafeUsage = unsafeUsage; return fileInfo; } Check::FileInfo * CheckUninitVar::loadFileInfoFromXml(const tinyxml2::XMLElement *xmlElement) const { const std::list &unsafeUsage = CTU::loadUnsafeUsageListFromXml(xmlElement); if (unsafeUsage.empty()) return nullptr; MyFileInfo *fileInfo = new MyFileInfo; fileInfo->unsafeUsage = unsafeUsage; return fileInfo; } bool CheckUninitVar::analyseWholeProgram(const CTU::FileInfo *ctu, const std::list &fileInfo, const Settings& settings, ErrorLogger &errorLogger) { if (!ctu) return false; bool foundErrors = false; (void)settings; // This argument is unused const std::map> callsMap = ctu->getCallsMap(); for (Check::FileInfo *fi1 : fileInfo) { const MyFileInfo *fi = dynamic_cast(fi1); if (!fi) continue; for (const CTU::FileInfo::UnsafeUsage &unsafeUsage : fi->unsafeUsage) { const CTU::FileInfo::FunctionCall *functionCall = nullptr; const std::list &locationList = CTU::FileInfo::getErrorPath(CTU::FileInfo::InvalidValueType::uninit, unsafeUsage, callsMap, "Using argument ARG", &functionCall, false); if (locationList.empty()) continue; const ErrorMessage errmsg(locationList, emptyString, Severity::error, "Using argument " + unsafeUsage.myArgumentName + " that points at uninitialized variable " + functionCall->callArgumentExpression, "ctuuninitvar", CWE_USE_OF_UNINITIALIZED_VARIABLE, Certainty::normal); errorLogger.reportErr(errmsg); foundErrors = true; } } return foundErrors; }