cppcheck/lib/checkfunctions.cpp

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/*
* Cppcheck - A tool for static C/C++ code analysis
2023-01-28 10:16:34 +01:00
* 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 <http://www.gnu.org/licenses/>.
*/
//---------------------------------------------------------------------------
// Check functions
//---------------------------------------------------------------------------
#include "checkfunctions.h"
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#include "astutils.h"
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#include "mathlib.h"
#include "standards.h"
#include "symboldatabase.h"
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#include "token.h"
#include "tokenize.h"
#include "valueflow.h"
#include "vfvalue.h"
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#include <iomanip>
#include <sstream>
#include <unordered_map>
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#include <vector>
//---------------------------------------------------------------------------
// Register this check class (by creating a static instance of it)
namespace {
CheckFunctions instance;
}
static const CWE CWE252(252U); // Unchecked Return Value
static const CWE CWE477(477U); // Use of Obsolete Functions
static const CWE CWE758(758U); // Reliance on Undefined, Unspecified, or Implementation-Defined Behavior
static const CWE CWE628(628U); // Function Call with Incorrectly Specified Arguments
static const CWE CWE686(686U); // Function Call With Incorrect Argument Type
static const CWE CWE687(687U); // Function Call With Incorrectly Specified Argument Value
static const CWE CWE688(688U); // Function Call With Incorrect Variable or Reference as Argument
void CheckFunctions::checkProhibitedFunctions()
{
const bool checkAlloca = mSettings->severity.isEnabled(Severity::warning) && ((mSettings->standards.c >= Standards::C99 && mTokenizer->isC()) || mSettings->standards.cpp >= Standards::CPP11);
const SymbolDatabase *symbolDatabase = mTokenizer->getSymbolDatabase();
for (const Scope *scope : symbolDatabase->functionScopes) {
for (const Token* tok = scope->bodyStart; tok != scope->bodyEnd; tok = tok->next()) {
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if (!Token::Match(tok, "%name% (") && tok->varId() == 0)
continue;
// alloca() is special as it depends on the code being C or C++, so it is not in Library
if (checkAlloca && Token::simpleMatch(tok, "alloca (") && (!tok->function() || tok->function()->nestedIn->type == Scope::eGlobal)) {
if (mTokenizer->isC()) {
if (mSettings->standards.c > Standards::C89)
reportError(tok, Severity::warning, "allocaCalled",
"$symbol:alloca\n"
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"Obsolete function 'alloca' called. In C99 and later it is recommended to use a variable length array instead.\n"
"The obsolete function 'alloca' is called. In C99 and later it is recommended to use a variable length array or "
"a dynamically allocated array instead. The function 'alloca' is dangerous for many reasons "
"(http://stackoverflow.com/questions/1018853/why-is-alloca-not-considered-good-practice and http://linux.die.net/man/3/alloca).");
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} else
reportError(tok, Severity::warning, "allocaCalled",
"$symbol:alloca\n"
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"Obsolete function 'alloca' called.\n"
"The obsolete function 'alloca' is called. In C++11 and later it is recommended to use std::array<> or "
"a dynamically allocated array instead. The function 'alloca' is dangerous for many reasons "
"(http://stackoverflow.com/questions/1018853/why-is-alloca-not-considered-good-practice and http://linux.die.net/man/3/alloca).");
} else {
if (tok->function() && tok->function()->hasBody())
continue;
const Library::WarnInfo* wi = mSettings->library.getWarnInfo(tok);
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if (wi) {
if (mSettings->severity.isEnabled(wi->severity) && mSettings->standards.c >= wi->standards.c && mSettings->standards.cpp >= wi->standards.cpp) {
const std::string daca = mSettings->daca ? "prohibited" : "";
reportError(tok, wi->severity, daca + tok->str() + "Called", wi->message, CWE477, Certainty::normal);
}
}
}
}
}
}
//---------------------------------------------------------------------------
// Check <valid>, <strz> and <not-bool>
//---------------------------------------------------------------------------
void CheckFunctions::invalidFunctionUsage()
{
const SymbolDatabase* symbolDatabase = mTokenizer->getSymbolDatabase();
for (const Scope *scope : symbolDatabase->functionScopes) {
for (const Token* tok = scope->bodyStart->next(); tok != scope->bodyEnd; tok = tok->next()) {
if (!Token::Match(tok, "%name% ( !!)"))
continue;
const Token * const functionToken = tok;
const std::vector<const Token *> arguments = getArguments(tok);
for (int argnr = 1; argnr <= arguments.size(); ++argnr) {
const Token * const argtok = arguments[argnr-1];
// check <valid>...</valid>
const ValueFlow::Value *invalidValue = argtok->getInvalidValue(functionToken,argnr,mSettings);
if (invalidValue) {
invalidFunctionArgError(argtok, functionToken->next()->astOperand1()->expressionString(), argnr, invalidValue, mSettings->library.validarg(functionToken, argnr));
}
if (astIsBool(argtok)) {
// check <not-bool>
if (mSettings->library.isboolargbad(functionToken, argnr))
invalidFunctionArgBoolError(argtok, functionToken->str(), argnr);
// Are the values 0 and 1 valid?
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else if (!mSettings->library.isIntArgValid(functionToken, argnr, 0))
invalidFunctionArgError(argtok, functionToken->str(), argnr, nullptr, mSettings->library.validarg(functionToken, argnr));
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else if (!mSettings->library.isIntArgValid(functionToken, argnr, 1))
invalidFunctionArgError(argtok, functionToken->str(), argnr, nullptr, mSettings->library.validarg(functionToken, argnr));
}
// check <strz>
if (mSettings->library.isargstrz(functionToken, argnr)) {
if (Token::Match(argtok, "& %var% !![") && argtok->next() && argtok->next()->valueType()) {
const ValueType * valueType = argtok->next()->valueType();
const Variable * variable = argtok->next()->variable();
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if ((valueType->type == ValueType::Type::CHAR || valueType->type == ValueType::Type::WCHAR_T || (valueType->type == ValueType::Type::RECORD && Token::Match(argtok, "& %var% . %var% ,|)"))) &&
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!variable->isArray() &&
(variable->isConst() || !variable->isGlobal()) &&
(!argtok->next()->hasKnownValue() || argtok->next()->getValue(0) == nullptr)) {
invalidFunctionArgStrError(argtok, functionToken->str(), argnr);
}
}
const ValueType* const valueType = argtok->valueType();
const Variable* const variable = argtok->variable();
// Is non-null terminated local variable of type char (e.g. char buf[] = {'x'};) ?
if (variable && variable->isLocal()
&& valueType && (valueType->type == ValueType::Type::CHAR || valueType->type == ValueType::Type::WCHAR_T)
&& !isVariablesChanged(variable->declEndToken(), functionToken, 0 /*indirect*/, { variable }, mSettings, mTokenizer->isCPP())) {
const Token* varTok = variable->declEndToken();
auto count = -1; // Find out explicitly set count, e.g.: char buf[3] = {...}. Variable 'count' is set to 3 then.
if (varTok && Token::simpleMatch(varTok->astOperand1(), "["))
{
const Token* const countTok = varTok->astOperand1()->astOperand2();
if (countTok && countTok->hasKnownIntValue())
count = countTok->getKnownIntValue();
}
if (Token::simpleMatch(varTok, "= {")) {
varTok = varTok->tokAt(1);
auto charsUntilFirstZero = 0;
bool search = true;
while (search && varTok && !Token::simpleMatch(varTok->next(), "}")) {
varTok = varTok->next();
if (!Token::simpleMatch(varTok, ",")) {
if (Token::Match(varTok, "%op%")) {
varTok = varTok->next();
continue;
}
++charsUntilFirstZero;
if (varTok && varTok->hasKnownIntValue() && varTok->getKnownIntValue() == 0)
search=false; // stop counting for cases like char buf[3] = {'x', '\0', 'y'};
}
}
if (varTok && varTok->hasKnownIntValue() && varTok->getKnownIntValue() != 0
&& (count == -1 || (count > 0 && count <= charsUntilFirstZero))) {
invalidFunctionArgStrError(argtok, functionToken->str(), argnr);
}
} else if (count > -1 && Token::Match(varTok, "= %str%")) {
const Token* strTok = varTok->getValueTokenMinStrSize(mSettings);
if (strTok) {
const int strSize = Token::getStrArraySize(strTok);
if (strSize > count && strTok->str().find('\0') == std::string::npos)
invalidFunctionArgStrError(argtok, functionToken->str(), argnr);
}
}
}
}
}
}
}
}
void CheckFunctions::invalidFunctionArgError(const Token *tok, const std::string &functionName, int argnr, const ValueFlow::Value *invalidValue, const std::string &validstr)
{
std::ostringstream errmsg;
errmsg << "$symbol:" << functionName << '\n';
if (invalidValue && invalidValue->condition)
errmsg << ValueFlow::eitherTheConditionIsRedundant(invalidValue->condition)
<< " or $symbol() argument nr " << argnr << " can have invalid value.";
else
errmsg << "Invalid $symbol() argument nr " << argnr << '.';
if (invalidValue)
errmsg << " The value is " << std::setprecision(10) << (invalidValue->isIntValue() ? invalidValue->intvalue : invalidValue->floatValue) << " but the valid values are '" << validstr << "'.";
else
errmsg << " The value is 0 or 1 (boolean) but the valid values are '" << validstr << "'.";
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if (invalidValue)
reportError(getErrorPath(tok, invalidValue, "Invalid argument"),
invalidValue->errorSeverity() && invalidValue->isKnown() ? Severity::error : Severity::warning,
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"invalidFunctionArg",
errmsg.str(),
CWE628,
invalidValue->isInconclusive() ? Certainty::inconclusive : Certainty::normal);
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else
reportError(tok,
Severity::error,
"invalidFunctionArg",
errmsg.str(),
CWE628,
Certainty::normal);
}
void CheckFunctions::invalidFunctionArgBoolError(const Token *tok, const std::string &functionName, int argnr)
{
std::ostringstream errmsg;
errmsg << "$symbol:" << functionName << '\n';
errmsg << "Invalid $symbol() argument nr " << argnr << ". A non-boolean value is required.";
reportError(tok, Severity::error, "invalidFunctionArgBool", errmsg.str(), CWE628, Certainty::normal);
}
void CheckFunctions::invalidFunctionArgStrError(const Token *tok, const std::string &functionName, nonneg int argnr)
{
std::ostringstream errmsg;
errmsg << "$symbol:" << functionName << '\n';
errmsg << "Invalid $symbol() argument nr " << argnr << ". A nul-terminated string is required.";
reportError(tok, Severity::error, "invalidFunctionArgStr", errmsg.str(), CWE628, Certainty::normal);
}
//---------------------------------------------------------------------------
// Check for ignored return values.
//---------------------------------------------------------------------------
void CheckFunctions::checkIgnoredReturnValue()
{
if (!mSettings->severity.isEnabled(Severity::warning) && !mSettings->severity.isEnabled(Severity::style))
return;
const SymbolDatabase *symbolDatabase = mTokenizer->getSymbolDatabase();
for (const Scope *scope : symbolDatabase->functionScopes) {
for (const Token* tok = scope->bodyStart->next(); tok != scope->bodyEnd; tok = tok->next()) {
// skip c++11 initialization, ({...})
if (Token::Match(tok, "%var%|(|,|return {"))
tok = tok->linkAt(1);
else if (Token::Match(tok, "[(<]") && tok->link())
tok = tok->link();
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if (tok->varId() || !Token::Match(tok, "%name% (") || tok->isKeyword())
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continue;
const Token *parent = tok->next()->astParent();
while (Token::Match(parent, "%cop%")) {
if (Token::Match(parent, "<<|>>") && !parent->astParent())
break;
parent = parent->astParent();
}
if (parent)
continue;
if (!tok->scope()->isExecutable()) {
tok = tok->scope()->bodyEnd;
continue;
}
if ((!tok->function() || !Token::Match(tok->function()->retDef, "void %name%")) &&
!WRONG_DATA(!tok->next()->astOperand1(), tok)) {
const Library::UseRetValType retvalTy = mSettings->library.getUseRetValType(tok);
const bool warn = (tok->function() && tok->function()->isAttributeNodiscard()) || // avoid duplicate warnings for resource-allocating functions
(retvalTy == Library::UseRetValType::DEFAULT && mSettings->library.getAllocFuncInfo(tok) == nullptr);
if (mSettings->severity.isEnabled(Severity::warning) && warn)
ignoredReturnValueError(tok, tok->next()->astOperand1()->expressionString());
else if (mSettings->severity.isEnabled(Severity::style) &&
retvalTy == Library::UseRetValType::ERROR_CODE)
ignoredReturnErrorCode(tok, tok->next()->astOperand1()->expressionString());
}
}
}
}
void CheckFunctions::ignoredReturnValueError(const Token* tok, const std::string& function)
{
reportError(tok, Severity::warning, "ignoredReturnValue",
"$symbol:" + function + "\nReturn value of function $symbol() is not used.", CWE252, Certainty::normal);
}
void CheckFunctions::ignoredReturnErrorCode(const Token* tok, const std::string& function)
{
reportError(tok, Severity::style, "ignoredReturnErrorCode",
"$symbol:" + function + "\nError code from the return value of function $symbol() is not used.", CWE252, Certainty::normal);
}
//---------------------------------------------------------------------------
// Check for ignored return values.
//---------------------------------------------------------------------------
static const Token *checkMissingReturnScope(const Token *tok, const Library &library);
void CheckFunctions::checkMissingReturn()
{
const SymbolDatabase *symbolDatabase = mTokenizer->getSymbolDatabase();
for (const Scope *scope : symbolDatabase->functionScopes) {
const Function *function = scope->function;
if (!function || !function->hasBody())
continue;
if (function->name() == "main" && !(mSettings->standards.c < Standards::C99 && mTokenizer->isC()))
continue;
if (function->type != Function::Type::eFunction && function->type != Function::Type::eOperatorEqual)
continue;
if (Token::Match(function->retDef, "%name% (") && function->retDef->isUpperCaseName())
continue;
if (Function::returnsVoid(function, true))
continue;
const Token *errorToken = checkMissingReturnScope(scope->bodyEnd, mSettings->library);
if (errorToken)
missingReturnError(errorToken);
}
}
static bool isForwardJump(const Token *gotoToken)
{
if (!Token::Match(gotoToken, "goto %name% ;"))
return false;
for (const Token *prev = gotoToken; gotoToken; gotoToken = gotoToken->previous()) {
if (Token::Match(prev, "%name% :") && prev->str() == gotoToken->next()->str())
return true;
if (prev->str() == "{" && prev->scope()->type == Scope::eFunction)
return false;
}
return false;
}
static const Token *checkMissingReturnScope(const Token *tok, const Library &library)
{
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const Token *lastStatement = nullptr;
while ((tok = tok->previous()) != nullptr) {
if (tok->str() == ")")
tok = tok->link();
if (tok->str() == "{")
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return lastStatement ? lastStatement : tok->next();
if (tok->str() == "}") {
for (const Token *prev = tok->link()->previous(); prev && prev->scope() == tok->scope() && !Token::Match(prev, "[;{}]"); prev = prev->previous()) {
if (prev->isKeyword() && Token::Match(prev, "return|throw"))
return nullptr;
if (prev->str() == "goto" && !isForwardJump(prev))
return nullptr;
}
if (tok->scope()->type == Scope::ScopeType::eSwitch) {
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// find reachable break / !default
bool hasDefault = false;
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bool reachable = false;
for (const Token *switchToken = tok->link()->next(); switchToken != tok; switchToken = switchToken->next()) {
if (reachable && Token::simpleMatch(switchToken, "break ;")) {
if (Token::simpleMatch(switchToken->previous(), "}") && !checkMissingReturnScope(switchToken->previous(), library))
reachable = false;
else
return switchToken;
}
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if (switchToken->isKeyword() && Token::Match(switchToken, "return|throw"))
reachable = false;
if (Token::Match(switchToken, "%name% (") && library.isnoreturn(switchToken))
reachable = false;
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if (Token::Match(switchToken, "case|default"))
reachable = true;
if (Token::simpleMatch(switchToken, "default :"))
hasDefault = true;
else if (switchToken->str() == "{" && (switchToken->scope()->isLoopScope() || switchToken->scope()->type == Scope::ScopeType::eSwitch))
switchToken = switchToken->link();
}
if (!hasDefault)
return tok->link();
} else if (tok->scope()->type == Scope::ScopeType::eIf) {
const Token *condition = tok->scope()->classDef->next()->astOperand2();
if (condition && condition->hasKnownIntValue() && condition->getKnownIntValue() == 1)
return checkMissingReturnScope(tok, library);
return tok;
} else if (tok->scope()->type == Scope::ScopeType::eElse) {
const Token *errorToken = checkMissingReturnScope(tok, library);
if (errorToken)
return errorToken;
tok = tok->link();
if (Token::simpleMatch(tok->tokAt(-2), "} else {"))
return checkMissingReturnScope(tok->tokAt(-2), library);
return tok;
}
// FIXME
return nullptr;
}
if (tok->isKeyword() && Token::Match(tok, "return|throw"))
return nullptr;
if (tok->str() == "goto" && !isForwardJump(tok))
return nullptr;
if (Token::Match(tok, "%name% (") && !library.isnotnoreturn(tok)) {
const Token *start = tok;
while (Token::Match(start->tokAt(-2), "%name% :: %name%"))
start = start->tokAt(-2);
if (Token::Match(start->previous(), "[;{}] %name% ::|("))
return nullptr;
}
if (Token::Match(tok, "[;{}] %name% :"))
return tok;
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if (Token::Match(tok, "; !!}") && !lastStatement)
lastStatement = tok->next();
}
return nullptr;
}
void CheckFunctions::missingReturnError(const Token* tok)
{
reportError(tok, Severity::error, "missingReturn",
"Found an exit path from function with non-void return type that has missing return statement", CWE758, Certainty::normal);
}
//---------------------------------------------------------------------------
// Detect passing wrong values to <cmath> functions like atan(0, x);
//---------------------------------------------------------------------------
void CheckFunctions::checkMathFunctions()
{
const bool styleC99 = mSettings->severity.isEnabled(Severity::style) && mSettings->standards.c != Standards::C89 && mSettings->standards.cpp != Standards::CPP03;
const bool printWarnings = mSettings->severity.isEnabled(Severity::warning);
const SymbolDatabase *symbolDatabase = mTokenizer->getSymbolDatabase();
for (const Scope *scope : symbolDatabase->functionScopes) {
for (const Token* tok = scope->bodyStart->next(); tok != scope->bodyEnd; tok = tok->next()) {
if (tok->varId())
continue;
if (printWarnings && Token::Match(tok, "%name% ( !!)")) {
if (tok->strAt(-1) != "."
&& Token::Match(tok, "log|logf|logl|log10|log10f|log10l|log2|log2f|log2l ( %num% )")) {
const std::string& number = tok->strAt(2);
if ((MathLib::isInt(number) && MathLib::toLongNumber(number) <= 0) ||
(MathLib::isFloat(number) && MathLib::toDoubleNumber(number) <= 0.))
mathfunctionCallWarning(tok);
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} else if (Token::Match(tok, "log1p|log1pf|log1pl ( %num% )")) {
const std::string& number = tok->strAt(2);
if ((MathLib::isInt(number) && MathLib::toLongNumber(number) <= -1) ||
(MathLib::isFloat(number) && MathLib::toDoubleNumber(number) <= -1.))
mathfunctionCallWarning(tok);
}
// atan2 ( x , y): x and y can not be zero, because this is mathematically not defined
else if (Token::Match(tok, "atan2|atan2f|atan2l ( %num% , %num% )")) {
if (MathLib::isNullValue(tok->strAt(2)) && MathLib::isNullValue(tok->strAt(4)))
mathfunctionCallWarning(tok, 2);
}
// fmod ( x , y) If y is zero, then either a range error will occur or the function will return zero (implementation-defined).
else if (Token::Match(tok, "fmod|fmodf|fmodl (")) {
const Token* nextArg = tok->tokAt(2)->nextArgument();
if (nextArg && MathLib::isNullValue(nextArg->str()))
mathfunctionCallWarning(tok, 2);
}
// pow ( x , y) If x is zero, and y is negative --> division by zero
else if (Token::Match(tok, "pow|powf|powl ( %num% , %num% )")) {
if (MathLib::isNullValue(tok->strAt(2)) && MathLib::isNegative(tok->strAt(4)))
mathfunctionCallWarning(tok, 2);
}
}
if (styleC99) {
if (Token::Match(tok, "%num% - erf (") && Tokenizer::isOneNumber(tok->str()) && tok->next()->astOperand2() == tok->tokAt(3)) {
mathfunctionCallWarning(tok, "1 - erf(x)", "erfc(x)");
} else if (Token::simpleMatch(tok, "exp (") && Token::Match(tok->linkAt(1), ") - %num%") && Tokenizer::isOneNumber(tok->linkAt(1)->strAt(2)) && tok->linkAt(1)->next()->astOperand1() == tok->next()) {
mathfunctionCallWarning(tok, "exp(x) - 1", "expm1(x)");
} else if (Token::simpleMatch(tok, "log (") && tok->next()->astOperand2()) {
const Token* plus = tok->next()->astOperand2();
if (plus->str() == "+" && ((plus->astOperand1() && Tokenizer::isOneNumber(plus->astOperand1()->str())) || (plus->astOperand2() && Tokenizer::isOneNumber(plus->astOperand2()->str()))))
mathfunctionCallWarning(tok, "log(1 + x)", "log1p(x)");
}
}
}
}
}
void CheckFunctions::mathfunctionCallWarning(const Token *tok, const nonneg int numParam)
{
if (tok) {
if (numParam == 1)
reportError(tok, Severity::warning, "wrongmathcall", "$symbol:" + tok->str() + "\nPassing value " + tok->strAt(2) + " to $symbol() leads to implementation-defined result.", CWE758, Certainty::normal);
else if (numParam == 2)
reportError(tok, Severity::warning, "wrongmathcall", "$symbol:" + tok->str() + "\nPassing values " + tok->strAt(2) + " and " + tok->strAt(4) + " to $symbol() leads to implementation-defined result.", CWE758, Certainty::normal);
} else
reportError(tok, Severity::warning, "wrongmathcall", "Passing value '#' to #() leads to implementation-defined result.", CWE758, Certainty::normal);
}
void CheckFunctions::mathfunctionCallWarning(const Token *tok, const std::string& oldexp, const std::string& newexp)
{
reportError(tok, Severity::style, "unpreciseMathCall", "Expression '" + oldexp + "' can be replaced by '" + newexp + "' to avoid loss of precision.", CWE758, Certainty::normal);
}
//---------------------------------------------------------------------------
// memset(p, y, 0 /* bytes to fill */) <- 2nd and 3rd arguments inverted
//---------------------------------------------------------------------------
void CheckFunctions::memsetZeroBytes()
{
// FIXME:
// Replace this with library configuration.
// For instance:
// <arg nr="3">
// <warn knownIntValue="0" severity="warning" msg="..."/>
// </arg>
if (!mSettings->severity.isEnabled(Severity::warning))
return;
const SymbolDatabase *symbolDatabase = mTokenizer->getSymbolDatabase();
for (const Scope *scope : symbolDatabase->functionScopes) {
for (const Token* tok = scope->bodyStart->next(); tok != scope->bodyEnd; tok = tok->next()) {
if (Token::Match(tok, "memset|wmemset (") && (numberOfArguments(tok)==3)) {
const std::vector<const Token *> &arguments = getArguments(tok);
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if (WRONG_DATA(arguments.size() != 3U, tok))
continue;
const Token* lastParamTok = arguments[2];
if (MathLib::isNullValue(lastParamTok->str()))
memsetZeroBytesError(tok);
}
}
}
}
void CheckFunctions::memsetZeroBytesError(const Token *tok)
{
const std::string summary("memset() called to fill 0 bytes.");
const std::string verbose(summary + " The second and third arguments might be inverted."
" The function memset ( void * ptr, int value, size_t num ) sets the"
" first num bytes of the block of memory pointed by ptr to the specified value.");
reportError(tok, Severity::warning, "memsetZeroBytes", summary + "\n" + verbose, CWE687, Certainty::normal);
}
void CheckFunctions::memsetInvalid2ndParam()
{
// FIXME:
// Replace this with library configuration.
// For instance:
// <arg nr="2">
// <not-float/>
// <warn possibleIntValue=":-129,256:" severity="warning" msg="..."/>
// </arg>
const bool printPortability = mSettings->severity.isEnabled(Severity::portability);
const bool printWarning = mSettings->severity.isEnabled(Severity::warning);
if (!printWarning && !printPortability)
return;
const SymbolDatabase *symbolDatabase = mTokenizer->getSymbolDatabase();
for (const Scope *scope : symbolDatabase->functionScopes) {
for (const Token* tok = scope->bodyStart->next(); tok && (tok != scope->bodyEnd); tok = tok->next()) {
if (!Token::simpleMatch(tok, "memset ("))
continue;
const std::vector<const Token *> args = getArguments(tok);
if (args.size() != 3)
continue;
// Second parameter is zero literal, i.e. 0.0f
const Token * const secondParamTok = args[1];
if (Token::Match(secondParamTok, "%num% ,") && MathLib::isNullValue(secondParamTok->str()))
continue;
// Check if second parameter is a float variable or a float literal != 0.0f
if (printPortability && astIsFloat(secondParamTok,false)) {
memsetFloatError(secondParamTok, secondParamTok->expressionString());
}
if (printWarning && secondParamTok->isNumber()) { // Check if the second parameter is a literal and is out of range
const long long int value = MathLib::toLongNumber(secondParamTok->str());
const long long sCharMin = mSettings->signedCharMin();
const long long uCharMax = mSettings->unsignedCharMax();
if (value < sCharMin || value > uCharMax)
memsetValueOutOfRangeError(secondParamTok, secondParamTok->str());
}
}
}
}
void CheckFunctions::memsetFloatError(const Token *tok, const std::string &var_value)
{
const std::string message("The 2nd memset() argument '" + var_value +
"' is a float, its representation is implementation defined.");
const std::string verbose(message + " memset() is used to set each byte of a block of memory to a specific value and"
" the actual representation of a floating-point value is implementation defined.");
reportError(tok, Severity::portability, "memsetFloat", message + "\n" + verbose, CWE688, Certainty::normal);
}
void CheckFunctions::memsetValueOutOfRangeError(const Token *tok, const std::string &value)
{
const std::string message("The 2nd memset() argument '" + value + "' doesn't fit into an 'unsigned char'.");
const std::string verbose(message + " The 2nd parameter is passed as an 'int', but the function fills the block of memory using the 'unsigned char' conversion of this value.");
reportError(tok, Severity::warning, "memsetValueOutOfRange", message + "\n" + verbose, CWE686, Certainty::normal);
}
//---------------------------------------------------------------------------
// --check-library => warn for unconfigured functions
//---------------------------------------------------------------------------
void CheckFunctions::checkLibraryMatchFunctions()
{
if (!mSettings->checkLibrary)
return;
bool insideNew = false;
for (const Token *tok = mTokenizer->tokens(); tok; tok = tok->next()) {
if (!tok->scope() || !tok->scope()->isExecutable())
continue;
if (tok->str() == "new")
insideNew = true;
else if (tok->str() == ";")
insideNew = false;
else if (insideNew)
continue;
if (tok->isKeyword() || !Token::Match(tok, "%name% ("))
continue;
if (tok->varId() != 0 || tok->type() || tok->isStandardType())
continue;
if (tok->linkAt(1)->strAt(1) == "(")
continue;
if (tok->function())
continue;
if (Token::simpleMatch(tok->astTop(), "throw"))
continue;
if (!mSettings->library.isNotLibraryFunction(tok))
continue;
const std::string &functionName = mSettings->library.getFunctionName(tok);
if (functionName.empty())
continue;
if (mSettings->library.functions.find(functionName) != mSettings->library.functions.end())
continue;
if (mSettings->library.podtype(tok->expressionString()))
continue;
if (mSettings->library.getTypeCheck("unusedvar", functionName) != Library::TypeCheck::def)
continue;
const Token* start = tok;
while (Token::Match(start->tokAt(-2), "%name% ::"))
start = start->tokAt(-2);
if (mSettings->library.detectContainerOrIterator(start))
continue;
reportError(tok,
Severity::information,
"checkLibraryFunction",
"--check-library: There is no matching configuration for function " + functionName + "()");
}
}
// Check for problems to compiler apply (Named) Return Value Optimization for local variable
// Technically we have different guarantees between standard versions
// details: https://en.cppreference.com/w/cpp/language/copy_elision
void CheckFunctions::returnLocalStdMove()
{
2021-07-06 12:18:03 +02:00
if (!mTokenizer->isCPP() || mSettings->standards.cpp < Standards::CPP11)
return;
if (!mSettings->severity.isEnabled(Severity::performance))
return;
const SymbolDatabase *symbolDatabase = mTokenizer->getSymbolDatabase();
for (const Scope *scope : symbolDatabase->functionScopes) {
// Expect return by-value
if (Function::returnsReference(scope->function, true))
continue;
const auto rets = Function::findReturns(scope->function);
for (const Token* ret : rets) {
if (!Token::simpleMatch(ret->tokAt(-3), "std :: move ("))
continue;
const Token* retval = ret->astOperand2();
// NRVO
if (retval->variable() && retval->variable()->isLocal() && !retval->variable()->isVolatile())
copyElisionError(retval);
// RVO
2022-06-30 13:50:31 +02:00
if (Token::Match(retval, "(|{") && !retval->isCast() && !(retval->valueType() && retval->valueType()->reference != Reference::None))
copyElisionError(retval);
}
}
}
void CheckFunctions::copyElisionError(const Token *tok)
{
reportError(tok,
Severity::performance,
"returnStdMoveLocal",
"Using std::move for returning object by-value from function will affect copy elision optimization."
" More: https://isocpp.github.io/CppCoreGuidelines/CppCoreGuidelines#Rf-return-move-local");
}
void CheckFunctions::useStandardLibrary()
{
if (!mSettings->severity.isEnabled(Severity::style))
return;
for (const Scope& scope: mTokenizer->getSymbolDatabase()->scopeList) {
if (scope.type != Scope::ScopeType::eFor)
continue;
const Token *forToken = scope.classDef;
// for ( initToken ; condToken ; stepToken )
const Token* initToken = getInitTok(forToken);
if (!initToken)
continue;
const Token* condToken = getCondTok(forToken);
if (!condToken)
continue;
const Token* stepToken = getStepTok(forToken);
if (!stepToken)
continue;
// 1. we expect that idx variable will be initialized with 0
const Token* idxToken = initToken->astOperand1();
const Token* initVal = initToken->astOperand2();
if (!idxToken || !initVal || !initVal->hasKnownIntValue() || initVal->getKnownIntValue() != 0)
continue;
const auto idxVarId = idxToken->varId();
if (0 == idxVarId)
continue;
// 2. we expect that idx will be less of some variable
if (!condToken->isComparisonOp())
continue;
const auto& secondOp = condToken->str();
const bool isLess = "<" == secondOp &&
isConstExpression(condToken->astOperand2(), mSettings->library, mTokenizer->isCPP()) &&
condToken->astOperand1()->varId() == idxVarId;
const bool isMore = ">" == secondOp &&
isConstExpression(condToken->astOperand1(), mSettings->library, mTokenizer->isCPP()) &&
condToken->astOperand2()->varId() == idxVarId;
if (!(isLess || isMore))
continue;
// 3. we expect idx incrementing by 1
const bool inc = stepToken->str() == "++" && stepToken->astOperand1()->varId() == idxVarId;
const bool plusOne = stepToken->isBinaryOp() && stepToken->str() == "+=" &&
stepToken->astOperand1()->varId() == idxVarId &&
stepToken->astOperand2()->str() == "1";
if (!inc && !plusOne)
continue;
// technically using void* here is not correct but some compilers could allow it
const Token *tok = scope.bodyStart;
const std::string memcpyName = mTokenizer->isCPP() ? "std::memcpy" : "memcpy";
// (reinterpret_cast<uint8_t*>(dest))[i] = (reinterpret_cast<const uint8_t*>(src))[i];
if (Token::Match(tok, "{ (| reinterpret_cast < uint8_t|int8_t|char|void * > ( %var% ) )| [ %varid% ] = "
"(| reinterpret_cast < const| uint8_t|int8_t|char|void * > ( %var% ) )| [ %varid% ] ; }", idxVarId)) {
useStandardLibraryError(tok->next(), memcpyName);
continue;
}
// ((char*)dst)[i] = ((const char*)src)[i];
if (Token::Match(tok, "{ ( ( uint8_t|int8_t|char|void * ) (| %var% ) )| [ %varid% ] = "
"( ( const| uint8_t|int8_t|char|void * ) (| %var% ) )| [ %varid% ] ; }", idxVarId)) {
useStandardLibraryError(tok->next(), memcpyName);
continue;
}
const static std::string memsetName = mTokenizer->isCPP() ? "std::memset" : "memset";
// ((char*)dst)[i] = 0;
if (Token::Match(tok, "{ ( ( uint8_t|int8_t|char|void * ) (| %var% ) )| [ %varid% ] = %char%|%num% ; }", idxVarId)) {
useStandardLibraryError(tok->next(), memsetName);
continue;
}
// ((char*)dst)[i] = (const char*)0;
if (Token::Match(tok, "{ ( ( uint8_t|int8_t|char|void * ) (| %var% ) )| [ %varid% ] = "
"( const| uint8_t|int8_t|char ) (| %char%|%num% )| ; }", idxVarId)) {
useStandardLibraryError(tok->next(), memsetName);
continue;
}
// (reinterpret_cast<uint8_t*>(dest))[i] = static_cast<const uint8_t>(0);
if (Token::Match(tok, "{ (| reinterpret_cast < uint8_t|int8_t|char|void * > ( %var% ) )| [ %varid% ] = "
"(| static_cast < const| uint8_t|int8_t|char > ( %char%|%num% ) )| ; }", idxVarId)) {
useStandardLibraryError(tok->next(), memsetName);
continue;
}
// (reinterpret_cast<int8_t*>(dest))[i] = 0;
if (Token::Match(tok, "{ (| reinterpret_cast < uint8_t|int8_t|char|void * > ( %var% ) )| [ %varid% ] = "
"%char%|%num% ; }", idxVarId)) {
useStandardLibraryError(tok->next(), memsetName);
continue;
}
}
}
void CheckFunctions::useStandardLibraryError(const Token *tok, const std::string& expected)
{
reportError(tok, Severity::style,
"useStandardLibrary",
"Consider using " + expected + " instead of loop.");
}