cppcheck/lib/exprengine.cpp

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/*
* Cppcheck - A tool for static C/C++ code analysis
* Copyright (C) 2007-2019 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/>.
*/
#include "exprengine.h"
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#include "astutils.h"
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#include "path.h"
#include "settings.h"
#include "symboldatabase.h"
#include "tokenize.h"
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#include <cstdlib>
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#include <cstring>
#include <limits>
#include <memory>
#include <iostream>
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#ifdef USE_Z3
#include <z3++.h>
#endif
namespace {
struct VerifyException {
VerifyException(const Token *tok, const std::string &what) : tok(tok), what(what) {}
const Token *tok;
const std::string what;
};
}
std::string ExprEngine::str(int128_t value)
{
std::ostringstream ostr;
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#ifdef __GNUC__
if (value == (int)value) {
ostr << (int) value;
return ostr.str();
}
if (value < 0) {
ostr << "-";
value = -value;
}
uint64_t high = value >> 64;
uint64_t low = value;
if (high > 0)
ostr << "h" << std::hex << high << "l";
ostr << std::hex << low;
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#else
ostr << value;
#endif
return ostr.str();
}
static ExprEngine::ValuePtr getValueRangeFromValueType(const std::string &name, const ValueType *vt, const cppcheck::Platform &platform);
namespace {
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class TrackExecution {
public:
TrackExecution() : mDataIndex(0), mAbortLine(-1) {}
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std::map<const Token *, std::vector<std::string>> map;
int getNewDataIndex() {
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return mDataIndex++;
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}
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void symbolRange(const Token *tok, ExprEngine::ValuePtr value) {
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if (!tok || !value)
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return;
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const std::string &symbolicExpression = value->getSymbolicExpression();
if (symbolicExpression[0] != '$')
return;
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if (mSymbols.find(symbolicExpression) != mSymbols.end())
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return;
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mSymbols.insert(symbolicExpression);
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map[tok].push_back(symbolicExpression + "=" + value->getRange());
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}
void state(const Token *tok, const std::string &s) {
map[tok].push_back(s);
}
void print(std::ostream &out) {
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std::set<std::pair<int,int>> locations;
for (auto it : map) {
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locations.insert(std::pair<int,int>(it.first->linenr(), it.first->column()));
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}
for (const std::pair<int,int> &loc : locations) {
int lineNumber = loc.first;
int column = loc.second;
for (auto &it : map) {
const Token *tok = it.first;
if (lineNumber != tok->linenr())
continue;
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if (column != tok->column())
continue;
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const std::vector<std::string> &dumps = it.second;
for (const std::string &dump : dumps)
out << lineNumber << ":" << column << ": " << dump << "\n";
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}
}
}
void report(std::ostream &out, const Scope *functionScope) {
int linenr = -1;
std::string code;
for (const Token *tok = functionScope->bodyStart->next(); tok != functionScope->bodyEnd; tok = tok->next()) {
if (tok->linenr() > linenr) {
if (!code.empty())
out << getStatus(linenr) << " " << code << std::endl;
linenr = tok->linenr();
code.clear();
}
code += " " + tok->str();
}
out << getStatus(linenr) << " " << code << std::endl;
}
void setAbortLine(int linenr) {
if (linenr > 0 && (mAbortLine == -1 || linenr < mAbortLine))
mAbortLine = linenr;
}
void addError(int linenr) {
mErrors.insert(linenr);
}
bool isAllOk() const {
return mErrors.empty();
}
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private:
const char *getStatus(int linenr) const {
if (mErrors.find(linenr) != mErrors.end())
return "ERROR";
if (mAbortLine > 0 && linenr >= mAbortLine)
return "--";
return "ok";
}
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int mDataIndex;
int mAbortLine;
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std::set<std::string> mSymbols;
std::set<int> mErrors;
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};
class Data : public ExprEngine::DataBase {
public:
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Data(int *symbolValueIndex, const Tokenizer *tokenizer, const Settings *settings, const std::vector<ExprEngine::Callback> &callbacks, TrackExecution *trackExecution)
: DataBase(settings)
, symbolValueIndex(symbolValueIndex)
, tokenizer(tokenizer)
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, callbacks(callbacks)
, mTrackExecution(trackExecution)
, mDataIndex(trackExecution->getNewDataIndex()) {}
typedef std::map<nonneg int, std::shared_ptr<ExprEngine::Value>> Memory;
Memory memory;
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int * const symbolValueIndex;
const Tokenizer * const tokenizer;
const std::vector<ExprEngine::Callback> &callbacks;
std::vector<ExprEngine::ValuePtr> constraints;
void addError(int linenr) OVERRIDE {
mTrackExecution->addError(linenr);
}
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void assignValue(const Token *tok, unsigned int varId, ExprEngine::ValuePtr value) {
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if (varId == 0)
return;
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mTrackExecution->symbolRange(tok, value);
if (value) {
if (auto arr = std::dynamic_pointer_cast<ExprEngine::ArrayValue>(value)) {
mTrackExecution->symbolRange(tok, arr->size);
for (const auto &indexAndValue: arr->data)
mTrackExecution->symbolRange(tok, indexAndValue.value);
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} else if (auto s = std::dynamic_pointer_cast<ExprEngine::StructValue>(value)) {
for (const auto &m: s->member)
mTrackExecution->symbolRange(tok, m.second);
}
}
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memory[varId] = value;
}
void assignStructMember(const Token *tok, ExprEngine::StructValue *structVal, const std::string &memberName, ExprEngine::ValuePtr value) {
mTrackExecution->symbolRange(tok, value);
structVal->member[memberName] = value;
}
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std::string getNewSymbolName() OVERRIDE {
return "$" + std::to_string(++(*symbolValueIndex));
}
std::shared_ptr<ExprEngine::ArrayValue> getArrayValue(const Token *tok) {
const Memory::iterator it = memory.find(tok->varId());
if (it != memory.end())
return std::dynamic_pointer_cast<ExprEngine::ArrayValue>(it->second);
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if (tok->varId() == 0)
return std::shared_ptr<ExprEngine::ArrayValue>();
auto val = std::make_shared<ExprEngine::ArrayValue>(this, tok->variable());
assignValue(tok, tok->varId(), val);
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return val;
}
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ExprEngine::ValuePtr getValue(unsigned int varId, const ValueType *valueType, const Token *tok) {
const Memory::const_iterator it = memory.find(varId);
if (it != memory.end())
return it->second;
if (!valueType)
return ExprEngine::ValuePtr();
ExprEngine::ValuePtr value = getValueRangeFromValueType(getNewSymbolName(), valueType, *settings);
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if (value) {
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assignValue(tok, varId, value);
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}
return value;
}
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void trackProgramState(const Token *tok) {
if (memory.empty())
return;
const SymbolDatabase * const symbolDatabase = tokenizer->getSymbolDatabase();
std::ostringstream s;
s << "{"; // << mDataIndex << ":";
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for (auto mem : memory) {
ExprEngine::ValuePtr value = mem.second;
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const Variable *var = symbolDatabase->getVariableFromVarId(mem.first);
if (!var)
continue;
s << " " << var->name() << "=";
if (!value)
s << "(null)";
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else if (value->name[0] == '$' && value->getSymbolicExpression() != value->name)
s << "(" << value->name << "," << value->getSymbolicExpression() << ")";
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else
s << value->name;
}
s << "}";
mTrackExecution->state(tok, s.str());
}
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ExprEngine::ValuePtr notValue(ExprEngine::ValuePtr v) {
auto b = std::dynamic_pointer_cast<ExprEngine::BinOpResult>(v);
if (b) {
std::string binop;
if (b->binop == "==")
binop = "!=";
else if (b->binop == "!=")
binop = "==";
else if (b->binop == ">=")
binop = "<";
else if (b->binop == "<=")
binop = ">";
else if (b->binop == ">")
binop = "<=";
else if (b->binop == "<")
binop = ">=";
if (!binop.empty())
return std::make_shared<ExprEngine::BinOpResult>(binop, b->op1, b->op2);
}
auto zero = std::make_shared<ExprEngine::IntRange>("0", 0, 0);
return std::make_shared<ExprEngine::BinOpResult>("==", v, zero);
}
void addConstraint(ExprEngine::ValuePtr condValue, bool trueCond) {
if (!condValue)
return;
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if (trueCond)
constraints.push_back(condValue);
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else
constraints.push_back(notValue(condValue));
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}
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void addConstraint(ExprEngine::ValuePtr lhsValue, ExprEngine::ValuePtr rhsValue, bool equals) {
if (!lhsValue || !rhsValue)
return;
constraints.push_back(std::make_shared<ExprEngine::BinOpResult>(equals?"==":"!=", lhsValue, rhsValue));
}
void addConstraints(ExprEngine::ValuePtr value, const Token *tok) {
MathLib::bigint low;
if (tok->getCppcheckAttribute(TokenImpl::CppcheckAttributes::Type::LOW, &low))
addConstraint(std::make_shared<ExprEngine::BinOpResult>(">=", value, std::make_shared<ExprEngine::IntRange>(std::to_string(low), low, low)), true);
MathLib::bigint high;
if (tok->getCppcheckAttribute(TokenImpl::CppcheckAttributes::Type::HIGH, &high))
addConstraint(std::make_shared<ExprEngine::BinOpResult>("<=", value, std::make_shared<ExprEngine::IntRange>(std::to_string(high), high, high)), true);
}
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private:
TrackExecution * const mTrackExecution;
const int mDataIndex;
};
}
static ExprEngine::ValuePtr simplifyValue(ExprEngine::ValuePtr origValue)
{
auto b = std::dynamic_pointer_cast<ExprEngine::BinOpResult>(origValue);
if (!b)
return origValue;
if (!b->op1 || !b->op2)
return origValue;
auto intRange1 = std::dynamic_pointer_cast<ExprEngine::IntRange>(b->op1);
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auto intRange2 = std::dynamic_pointer_cast<ExprEngine::IntRange>(b->op2);
if (intRange1 && intRange2 && intRange1->minValue == intRange1->maxValue && intRange2->minValue == intRange2->maxValue) {
const std::string &binop = b->binop;
int128_t v;
if (binop == "+")
v = intRange1->minValue + intRange2->minValue;
else if (binop == "-")
v = intRange1->minValue - intRange2->minValue;
else if (binop == "*")
v = intRange1->minValue * intRange2->minValue;
else if (binop == "/" && intRange2->minValue != 0)
v = intRange1->minValue / intRange2->minValue;
else if (binop == "%" && intRange2->minValue != 0)
v = intRange1->minValue % intRange2->minValue;
else
return origValue;
return std::make_shared<ExprEngine::IntRange>(ExprEngine::str(v), v, v);
}
return origValue;
}
static ExprEngine::ValuePtr translateUninitValueToRange(ExprEngine::ValuePtr value, const ::ValueType *valueType, Data &data)
{
if (!value)
return value;
if (value->type == ExprEngine::ValueType::UninitValue) {
auto rangeValue = getValueRangeFromValueType(data.getNewSymbolName(), valueType, *data.settings);
if (rangeValue)
return rangeValue;
}
if (auto conditionalValue = std::dynamic_pointer_cast<ExprEngine::ConditionalValue>(value)) {
if (conditionalValue->values.size() == 1 && conditionalValue->values[0].second && conditionalValue->values[0].second->type == ExprEngine::ValueType::UninitValue) {
auto rangeValue = getValueRangeFromValueType(data.getNewSymbolName(), valueType, *data.settings);
if (rangeValue)
return rangeValue;
}
}
return value;
}
static int128_t truncateInt(int128_t value, int bits, char sign)
{
value = value & (((int128_t)1 << bits) - 1);
// Sign extension
if (sign == 's' && value & (1ULL << (bits - 1)))
value |= ~(((int128_t)1 << bits) - 1);
return value;
}
ExprEngine::ArrayValue::ArrayValue(const std::string &name, ExprEngine::ValuePtr size, ExprEngine::ValuePtr value, bool pointer, bool nullPointer, bool uninitPointer)
: Value(name, ExprEngine::ValueType::ArrayValue)
, pointer(pointer), nullPointer(nullPointer), uninitPointer(uninitPointer)
, size(size)
{
assign(ExprEngine::ValuePtr(), value);
}
ExprEngine::ArrayValue::ArrayValue(DataBase *data, const Variable *var)
: Value(data->getNewSymbolName(), ExprEngine::ValueType::ArrayValue)
, pointer(var->isPointer()), nullPointer(var->isPointer()), uninitPointer(var->isPointer())
{
if (var) {
int sz = 1;
for (const auto &dim : var->dimensions()) {
if (!dim.known) {
sz = -1;
break;
}
sz *= dim.num;
}
if (sz >= 1)
size = std::make_shared<ExprEngine::IntRange>(std::to_string(sz), sz, sz);
}
ValuePtr val;
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if (var && !var->isGlobal() && !var->isStatic())
val = std::make_shared<ExprEngine::UninitValue>();
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else if (var && var->valueType()) {
::ValueType vt(*var->valueType());
vt.pointer = 0;
val = getValueRangeFromValueType(data->getNewSymbolName(), &vt, *data->settings);
}
assign(ExprEngine::ValuePtr(), val);
}
std::string ExprEngine::ArrayValue::getRange() const
{
std::string r = getSymbolicExpression();
if (nullPointer)
r += std::string(r.empty() ? "" : ",") + "null";
if (uninitPointer)
r += std::string(r.empty() ? "" : ",") + "->?";
return r;
}
void ExprEngine::ArrayValue::assign(ExprEngine::ValuePtr index, ExprEngine::ValuePtr value)
{
if (!index)
data.clear();
if (value) {
ExprEngine::ArrayValue::IndexAndValue indexAndValue = {index, value};
data.push_back(indexAndValue);
}
}
void ExprEngine::ArrayValue::clear()
{
data.clear();
ExprEngine::ArrayValue::IndexAndValue indexAndValue = {
ExprEngine::ValuePtr(), std::make_shared<ExprEngine::IntRange>("0", 0, 0)
};
data.push_back(indexAndValue);
}
static bool isEqual(ExprEngine::ValuePtr v1, ExprEngine::ValuePtr v2)
{
if (!v1 || !v2)
return !v1 && !v2;
return v1->name == v2->name;
}
static bool isNonOverlapping(ExprEngine::ValuePtr v1, ExprEngine::ValuePtr v2)
{
if (!v1 || !v2)
return false; // Don't know!
auto intRange1 = std::dynamic_pointer_cast<ExprEngine::IntRange>(v1);
auto intRange2 = std::dynamic_pointer_cast<ExprEngine::IntRange>(v2);
if (intRange1 && intRange2 && (intRange1->minValue > intRange2->maxValue || intRange1->maxValue < intRange2->maxValue))
return true;
return false;
}
ExprEngine::ConditionalValue::Vector ExprEngine::ArrayValue::read(ExprEngine::ValuePtr index) const
{
ExprEngine::ConditionalValue::Vector ret;
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if (!index)
return ret;
for (const auto indexAndValue : data) {
if (::isEqual(index, indexAndValue.index))
ret.clear();
if (isNonOverlapping(index, indexAndValue.index))
continue;
// Array contains string literal data...
if (!indexAndValue.index && indexAndValue.value->type == ExprEngine::ValueType::StringLiteralValue) {
auto stringLiteral = std::dynamic_pointer_cast<ExprEngine::StringLiteralValue>(indexAndValue.value);
if (!stringLiteral) {
ret.push_back(std::pair<ValuePtr,ValuePtr>(indexAndValue.index, std::make_shared<ExprEngine::IntRange>("", -128, 128)));
continue;
}
if (auto i = std::dynamic_pointer_cast<ExprEngine::IntRange>(index)) {
if (stringLiteral && i->minValue >= 0 && i->minValue == i->maxValue) {
int c = 0;
if (i->minValue < stringLiteral->size())
c = stringLiteral->string[i->minValue];
ret.push_back(std::pair<ValuePtr,ValuePtr>(indexAndValue.index, std::make_shared<ExprEngine::IntRange>(std::to_string(c), c, c)));
continue;
}
}
int cmin = 0, cmax = 0;
for (char c : stringLiteral->string) {
if (c < cmin)
cmin = c;
else if (c > cmax)
cmax = c;
}
ret.push_back(std::pair<ValuePtr,ValuePtr>(indexAndValue.index, std::make_shared<ExprEngine::IntRange>("", cmin, cmax)));
continue;
}
// Rename IntRange
if (auto i = std::dynamic_pointer_cast<ExprEngine::IntRange>(indexAndValue.value)) {
ret.push_back(std::pair<ValuePtr,ValuePtr>(indexAndValue.index, std::make_shared<ExprEngine::IntRange>(indexAndValue.value->name + ":" + index->name, i->minValue, i->maxValue)));
continue;
}
ret.push_back(std::pair<ValuePtr,ValuePtr>(indexAndValue.index, indexAndValue.value));
}
if (ret.size() == 1)
ret[0].first = ExprEngine::ValuePtr();
else if (ret.size() == 2 && !ret[0].first) {
ret[0].first = std::make_shared<ExprEngine::BinOpResult>("!=", index, ret[1].first);
ret[1].first = std::make_shared<ExprEngine::BinOpResult>("==", index, ret[1].first);
} else {
// FIXME!!
ret.clear();
}
return ret;
}
std::string ExprEngine::ConditionalValue::getSymbolicExpression() const
{
std::ostringstream ostr;
ostr << "{";
bool first = true;
for (auto condvalue : values) {
ValuePtr cond = condvalue.first;
ValuePtr value = condvalue.second;
if (!first)
ostr << ",";
first = false;
ostr << "{"
<< (cond ? cond->getSymbolicExpression() : std::string("(null)"))
<< ","
<< value->getSymbolicExpression()
<< "}";
}
ostr << "}";
return ostr.str();
}
std::string ExprEngine::ArrayValue::getSymbolicExpression() const
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{
std::ostringstream ostr;
ostr << "size=" << (size ? size->name : std::string("(null)"));
for (const auto indexAndValue : data) {
ostr << ",["
<< (!indexAndValue.index ? std::string(":") : indexAndValue.index->name)
<< "]="
<< indexAndValue.value->name;
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}
return ostr.str();
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}
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std::string ExprEngine::StructValue::getSymbolicExpression() const
{
std::ostringstream ostr;
ostr << "{";
bool first = true;
for (const auto& m: member) {
const std::string &memberName = m.first;
auto memberValue = m.second;
if (!first)
ostr << ",";
first = false;
ostr << memberName << "=" << (memberValue ? memberValue->getSymbolicExpression() : std::string("(null)"));
}
ostr << "}";
return ostr.str();
}
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std::string ExprEngine::IntegerTruncation::getSymbolicExpression() const
{
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return sign + std::to_string(bits) + "(" + inputValue->getSymbolicExpression() + ")";
}
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#ifdef USE_Z3
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struct ExprData {
typedef std::map<std::string, z3::expr> ValueExpr;
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typedef std::vector<z3::expr> AssertionList;
z3::context context;
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ValueExpr valueExpr;
AssertionList assertionList;
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void addAssertions(z3::solver &solver) const {
for (auto assertExpr : assertionList)
solver.add(assertExpr);
}
z3::expr addInt(const std::string &name, int128_t minValue, int128_t maxValue) {
z3::expr e = context.int_const(name.c_str());
valueExpr.emplace(name, e);
if (minValue >= INT_MIN && maxValue <= INT_MAX)
assertionList.push_back(e >= int(minValue) && e <= int(maxValue));
else if (maxValue <= INT_MAX)
assertionList.push_back(e <= int(maxValue));
else if (minValue >= INT_MIN)
assertionList.push_back(e >= int(minValue));
return e;
}
z3::expr getExpr(const ExprEngine::BinOpResult *b) {
auto op1 = getExpr(b->op1);
auto op2 = getExpr(b->op2);
if (b->binop == "+")
return op1 + op2;
if (b->binop == "-")
return op1 - op2;
if (b->binop == "*")
return op1 * op2;
if (b->binop == "/")
return op1 / op2;
if (b->binop == "%")
return op1 % op2;
if (b->binop == "==")
return int_expr(op1) == int_expr(op2);
if (b->binop == "!=")
return op1 != op2;
if (b->binop == ">=")
return op1 >= op2;
if (b->binop == "<=")
return op1 <= op2;
if (b->binop == ">")
return op1 > op2;
if (b->binop == "<")
return op1 < op2;
if (b->binop == "&&")
return bool_expr(op1) && bool_expr(op2);
if (b->binop == "||")
return bool_expr(op1) || bool_expr(op2);
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if (b->binop == "<<")
return op1 * z3::pw(context.int_val(2), op2);
if (b->binop == ">>")
return op1 / z3::pw(context.int_val(2), op2);
throw VerifyException(nullptr, "Internal error: Unhandled operator " + b->binop);
}
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z3::expr getExpr(ExprEngine::ValuePtr v) {
if (!v)
throw VerifyException(nullptr, "Can not solve expressions, operand value is null");
if (auto intRange = std::dynamic_pointer_cast<ExprEngine::IntRange>(v)) {
if (intRange->name[0] != '$')
return context.int_val(int64_t(intRange->minValue));
auto it = valueExpr.find(v->name);
if (it != valueExpr.end())
return it->second;
return addInt(v->name, intRange->minValue, intRange->maxValue);
}
if (auto b = std::dynamic_pointer_cast<ExprEngine::BinOpResult>(v)) {
return getExpr(b.get());
}
if (auto c = std::dynamic_pointer_cast<ExprEngine::ConditionalValue>(v)) {
if (c->values.empty())
throw VerifyException(nullptr, "ConditionalValue is empty");
if (c->values.size() == 1)
return getExpr(c->values[0].second);
return z3::ite(getExpr(c->values[1].first),
getExpr(c->values[1].second),
getExpr(c->values[0].second));
}
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if (auto integerTruncation = std::dynamic_pointer_cast<ExprEngine::IntegerTruncation>(v)) {
return getExpr(integerTruncation->inputValue);
//return getExpr(integerTruncation->inputValue) & ((1 << integerTruncation->bits) - 1);
}
if (v->type == ExprEngine::ValueType::UninitValue)
return context.int_val(0);
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throw VerifyException(nullptr, "Internal error: Unhandled value type");
}
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z3::expr getConstraintExpr(ExprEngine::ValuePtr v) {
if (v->type == ExprEngine::ValueType::IntRange)
return (getExpr(v) != 0);
return getExpr(v);
}
private:
z3::expr bool_expr(z3::expr e) {
if (e.is_bool())
return e;
return e != 0;
}
z3::expr int_expr(z3::expr e) {
if (e.is_bool())
return z3::ite(e, context.int_val(1), context.int_val(0));
return e;
}
};
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#endif
bool ExprEngine::IntRange::isEqual(DataBase *dataBase, int value) const
{
if (value < minValue || value > maxValue)
return false;
const Data *data = dynamic_cast<Data *>(dataBase);
if (data->constraints.empty())
return true;
#ifdef USE_Z3
// Check the value against the constraints
ExprData exprData;
z3::solver solver(exprData.context);
try {
z3::expr e = exprData.addInt(name, minValue, maxValue);
for (auto constraint : dynamic_cast<const Data *>(dataBase)->constraints)
solver.add(exprData.getConstraintExpr(constraint));
exprData.addAssertions(solver);
solver.add(e == value);
return solver.check() == z3::sat;
} catch (const z3::exception &exception) {
std::cerr << "z3: " << exception << std::endl;
return true; // Safe option is to return true
}
#else
// The value may or may not be in range
return false;
#endif
}
bool ExprEngine::IntRange::isGreaterThan(DataBase *dataBase, int value) const
{
if (value < minValue || value > maxValue)
return false;
const Data *data = dynamic_cast<Data *>(dataBase);
if (data->constraints.empty())
return true;
#ifdef USE_Z3
// Check the value against the constraints
ExprData exprData;
z3::solver solver(exprData.context);
try {
z3::expr e = exprData.context.int_const(name.c_str());
exprData.valueExpr.emplace(name, e);
for (auto constraint : dynamic_cast<const Data *>(dataBase)->constraints)
solver.add(exprData.getConstraintExpr(constraint));
exprData.addAssertions(solver);
solver.add(e > value);
return solver.check() == z3::sat;
} catch (const z3::exception &exception) {
std::cerr << "z3: " << exception << std::endl;
return true; // Safe option is to return true
}
#else
// The value may or may not be in range
return false;
#endif
}
bool ExprEngine::IntRange::isLessThan(DataBase *dataBase, int value) const
{
if (value < minValue || value > maxValue)
return false;
const Data *data = dynamic_cast<Data *>(dataBase);
if (data->constraints.empty())
return true;
#ifdef USE_Z3
// Check the value against the constraints
ExprData exprData;
z3::solver solver(exprData.context);
try {
z3::expr e = exprData.context.int_const(name.c_str());
exprData.valueExpr.emplace(name, e);
for (auto constraint : dynamic_cast<const Data *>(dataBase)->constraints)
solver.add(exprData.getConstraintExpr(constraint));
exprData.addAssertions(solver);
solver.add(e < value);
return solver.check() == z3::sat;
} catch (const z3::exception &exception) {
std::cerr << "z3: " << exception << std::endl;
return true; // Safe option is to return true
}
#else
// The value may or may not be in range
return false;
#endif
}
bool ExprEngine::BinOpResult::isEqual(ExprEngine::DataBase *dataBase, int value) const
{
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#ifdef USE_Z3
ExprData exprData;
z3::solver solver(exprData.context);
z3::expr e = exprData.getExpr(this);
for (auto constraint : dynamic_cast<const Data *>(dataBase)->constraints)
solver.add(exprData.getConstraintExpr(constraint));
exprData.addAssertions(solver);
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solver.add(e == value);
return solver.check() == z3::sat;
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#else
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(void)dataBase;
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(void)value;
return false;
#endif
}
bool ExprEngine::BinOpResult::isGreaterThan(ExprEngine::DataBase *dataBase, int value) const
{
#ifdef USE_Z3
try {
ExprData exprData;
z3::solver solver(exprData.context);
z3::expr e = exprData.getExpr(this);
for (auto constraint : dynamic_cast<const Data *>(dataBase)->constraints)
solver.add(exprData.getConstraintExpr(constraint));
exprData.addAssertions(solver);
solver.add(e > value);
return solver.check() == z3::sat;
} catch (const z3::exception &exception) {
std::cerr << "z3:" << exception << std::endl;
return true; // Safe option is to return true
}
#else
(void)dataBase;
(void)value;
return false;
#endif
}
bool ExprEngine::BinOpResult::isLessThan(ExprEngine::DataBase *dataBase, int value) const
{
#ifdef USE_Z3
try {
ExprData exprData;
z3::solver solver(exprData.context);
z3::expr e = exprData.getExpr(this);
for (auto constraint : dynamic_cast<const Data *>(dataBase)->constraints)
solver.add(exprData.getConstraintExpr(constraint));
exprData.addAssertions(solver);
solver.add(e < value);
return solver.check() == z3::sat;
} catch (const z3::exception &exception) {
std::cerr << "z3:" << exception << std::endl;
return true; // Safe option is to return true
}
#else
(void)dataBase;
(void)value;
return false;
#endif
}
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std::string ExprEngine::BinOpResult::getExpr(ExprEngine::DataBase *dataBase) const
{
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#ifdef USE_Z3
try {
ExprData exprData;
z3::solver solver(exprData.context);
z3::expr e = exprData.getExpr(this);
for (auto constraint : dynamic_cast<const Data *>(dataBase)->constraints)
solver.add(exprData.getConstraintExpr(constraint));
exprData.addAssertions(solver);
solver.add(e);
std::ostringstream os;
os << solver;
switch (solver.check()) {
case z3::sat:
os << "z3::sat";
break;
case z3::unsat:
os << "z3::unsat";
break;
case z3::unknown:
os << "z3::unknown";
break;
}
return os.str();
} catch (const z3::exception &exception) {
std::ostringstream os;
os << "z3:" << exception;
return os.str();
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}
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#else
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(void)dataBase;
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return "";
#endif
}
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// Todo: This is taken from ValueFlow and modified.. we should reuse it
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static int getIntBitsFromValueType(const ValueType *vt, const cppcheck::Platform &platform)
{
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if (!vt)
return 0;
switch (vt->type) {
case ValueType::Type::BOOL:
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return 1;
case ValueType::Type::CHAR:
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return platform.char_bit;
case ValueType::Type::SHORT:
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return platform.short_bit;
case ValueType::Type::INT:
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return platform.int_bit;
case ValueType::Type::LONG:
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return platform.long_bit;
case ValueType::Type::LONGLONG:
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return platform.long_long_bit;
default:
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return 0;
};
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}
static ExprEngine::ValuePtr getValueRangeFromValueType(const std::string &name, const ValueType *vt, const cppcheck::Platform &platform)
{
if (!vt || !(vt->isIntegral() || vt->isFloat()) || vt->pointer)
return ExprEngine::ValuePtr();
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int bits = getIntBitsFromValueType(vt, platform);
if (bits == 1) {
return std::make_shared<ExprEngine::IntRange>(name, 0, 1);
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} else if (bits > 1) {
if (vt->sign == ValueType::Sign::UNSIGNED) {
return std::make_shared<ExprEngine::IntRange>(name, 0, ((int128_t)1 << bits) - 1);
} else {
return std::make_shared<ExprEngine::IntRange>(name, -((int128_t)1 << (bits - 1)), ((int128_t)1 << (bits - 1)) - 1);
}
}
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switch (vt->type) {
case ValueType::Type::FLOAT:
return std::make_shared<ExprEngine::FloatRange>(name, std::numeric_limits<float>::min(), std::numeric_limits<float>::max());
case ValueType::Type::DOUBLE:
return std::make_shared<ExprEngine::FloatRange>(name, std::numeric_limits<double>::min(), std::numeric_limits<double>::max());
case ValueType::Type::LONGDOUBLE:
return std::make_shared<ExprEngine::FloatRange>(name, std::numeric_limits<long double>::min(), std::numeric_limits<long double>::max());
default:
return ExprEngine::ValuePtr();
};
}
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static void call(const std::vector<ExprEngine::Callback> &callbacks, const Token *tok, ExprEngine::ValuePtr value, Data *dataBase)
{
if (value) {
for (ExprEngine::Callback f : callbacks) {
try {
f(tok, *value, dataBase);
} catch (const VerifyException &e) {
throw VerifyException(tok, e.what);
}
}
}
}
static ExprEngine::ValuePtr executeExpression(const Token *tok, Data &data);
static ExprEngine::ValuePtr executeReturn(const Token *tok, Data &data)
{
ExprEngine::ValuePtr retval = executeExpression(tok->astOperand1(), data);
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call(data.callbacks, tok, retval, &data);
return retval;
}
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static ExprEngine::ValuePtr truncateValue(ExprEngine::ValuePtr val, const ValueType *valueType, Data &data)
{
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if (!valueType)
return val;
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if (valueType->pointer != 0)
return val;
if (!valueType->isIntegral())
return val; // TODO
int bits = getIntBitsFromValueType(valueType, *data.settings);
if (bits == 0)
// TODO
return val;
if (auto range = std::dynamic_pointer_cast<ExprEngine::IntRange>(val)) {
if (range->minValue == range->maxValue) {
int128_t newValue = truncateInt(range->minValue, bits, valueType->sign == ValueType::Sign::SIGNED ? 's' : 'u');
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if (newValue == range->minValue)
return val;
return std::make_shared<ExprEngine::IntRange>(ExprEngine::str(newValue), newValue, newValue);
}
if (auto typeRange = getValueRangeFromValueType("", valueType, *data.settings)) {
auto typeIntRange = std::dynamic_pointer_cast<ExprEngine::IntRange>(typeRange);
if (typeIntRange) {
if (range->minValue >= typeIntRange->minValue && range->maxValue <= typeIntRange->maxValue)
return val;
}
}
return std::make_shared<ExprEngine::IntegerTruncation>(data.getNewSymbolName(), val, bits, valueType->sign == ValueType::Sign::SIGNED ? 's' : 'u');
}
// TODO
return val;
}
static ExprEngine::ValuePtr executeAssign(const Token *tok, Data &data)
{
ExprEngine::ValuePtr rhsValue = executeExpression(tok->astOperand2(), data);
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if (!rhsValue && tok->astOperand2()->valueType() && tok->astOperand2()->valueType()->container && tok->astOperand2()->valueType()->container->stdStringLike) {
auto size = std::make_shared<ExprEngine::IntRange>(data.getNewSymbolName(), 0, ~0ULL);
auto value = std::make_shared<ExprEngine::IntRange>(data.getNewSymbolName(), -128, 127);
rhsValue = std::make_shared<ExprEngine::ArrayValue>(data.getNewSymbolName(), size, value, false, false, false);
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call(data.callbacks, tok->astOperand2(), rhsValue, &data);
}
if (!rhsValue)
throw VerifyException(tok, "Expression '" + tok->expressionString() + "'; Failed to evaluate RHS");
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ExprEngine::ValuePtr assignValue;
if (tok->str() == "=")
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assignValue = rhsValue;
else {
// "+=" => "+"
std::string binop(tok->str());
binop = binop.substr(0, binop.size() - 1);
ExprEngine::ValuePtr lhsValue = executeExpression(tok->astOperand1(), data);
assignValue = simplifyValue(std::make_shared<ExprEngine::BinOpResult>(binop, lhsValue, rhsValue));
}
const Token *lhsToken = tok->astOperand1();
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assignValue = truncateValue(assignValue, lhsToken->valueType(), data);
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call(data.callbacks, tok, assignValue, &data);
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if (lhsToken->varId() > 0) {
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data.assignValue(lhsToken, lhsToken->varId(), assignValue);
} else if (lhsToken->str() == "[") {
auto arrayValue = data.getArrayValue(lhsToken->astOperand1());
if (arrayValue) {
// Is it array initialization?
const Token *arrayInit = lhsToken->astOperand1();
if (arrayInit && arrayInit->variable() && arrayInit->variable()->nameToken() == arrayInit) {
if (assignValue->type == ExprEngine::ValueType::StringLiteralValue)
arrayValue->assign(ExprEngine::ValuePtr(), assignValue);
} else {
auto indexValue = executeExpression(lhsToken->astOperand2(), data);
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arrayValue->assign(indexValue, assignValue);
}
}
} else if (lhsToken->isUnaryOp("*")) {
auto pval = executeExpression(lhsToken->astOperand1(), data);
if (pval && pval->type == ExprEngine::ValueType::AddressOfValue) {
auto val = std::dynamic_pointer_cast<ExprEngine::AddressOfValue>(pval);
if (val)
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data.assignValue(lhsToken, val->varId, assignValue);
} else if (pval && pval->type == ExprEngine::ValueType::BinOpResult) {
auto b = std::dynamic_pointer_cast<ExprEngine::BinOpResult>(pval);
if (b && b->binop == "+") {
std::shared_ptr<ExprEngine::ArrayValue> arr;
ExprEngine::ValuePtr offset;
if (b->op1->type == ExprEngine::ValueType::ArrayValue) {
arr = std::dynamic_pointer_cast<ExprEngine::ArrayValue>(b->op1);
offset = b->op2;
} else {
arr = std::dynamic_pointer_cast<ExprEngine::ArrayValue>(b->op2);
offset = b->op1;
}
if (arr && offset) {
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arr->assign(offset, assignValue);
}
}
}
} else if (Token::Match(lhsToken, ". %name%")) {
auto structVal = executeExpression(lhsToken->astOperand1(), data);
if (structVal && structVal->type == ExprEngine::ValueType::StructValue)
data.assignStructMember(tok, &*std::static_pointer_cast<ExprEngine::StructValue>(structVal), lhsToken->strAt(1), assignValue);
}
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return assignValue;
}
static ExprEngine::ValuePtr executeFunctionCall(const Token *tok, Data &data)
{
std::vector<ExprEngine::ValuePtr> argValues;
for (const Token *argtok : getArguments(tok)) {
auto val = executeExpression(argtok, data);
argValues.push_back(val);
if (!argtok->valueType() || (argtok->valueType()->constness & 1) == 1)
continue;
if (auto arrayValue = std::dynamic_pointer_cast<ExprEngine::ArrayValue>(val)) {
ValueType vt(*argtok->valueType());
vt.pointer = 0;
auto anyVal = getValueRangeFromValueType(data.getNewSymbolName(), &vt, *data.settings);
arrayValue->assign(ExprEngine::ValuePtr(), anyVal);
} else if (auto addressOf = std::dynamic_pointer_cast<ExprEngine::AddressOfValue>(val)) {
ValueType vt(*argtok->valueType());
vt.pointer = 0;
if (vt.isIntegral() && argtok->valueType()->pointer == 1)
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data.assignValue(argtok, addressOf->varId, getValueRangeFromValueType(data.getNewSymbolName(), &vt, *data.settings));
}
}
if (!tok->valueType() && tok->astParent())
throw VerifyException(tok, "Expression '" + tok->expressionString() + "' has unknown type!");
auto val = getValueRangeFromValueType(data.getNewSymbolName(), tok->valueType(), *data.settings);
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call(data.callbacks, tok, val, &data);
return val;
}
static ExprEngine::ValuePtr executeArrayIndex(const Token *tok, Data &data)
{
auto arrayValue = data.getArrayValue(tok->astOperand1());
if (arrayValue) {
auto indexValue = executeExpression(tok->astOperand2(), data);
auto conditionalValues = arrayValue->read(indexValue);
for (auto value: conditionalValues)
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call(data.callbacks, tok, value.second, &data);
if (conditionalValues.size() == 1 && !conditionalValues[0].first)
return conditionalValues[0].second;
return std::make_shared<ExprEngine::ConditionalValue>(data.getNewSymbolName(), conditionalValues);
}
// TODO: Pointer value..
executeExpression(tok->astOperand1(), data);
executeExpression(tok->astOperand2(), data);
return ExprEngine::ValuePtr();
}
static ExprEngine::ValuePtr executeCast(const Token *tok, Data &data)
{
const Token *expr = tok->astOperand2() ? tok->astOperand2() : tok->astOperand1();
auto val = executeExpression(expr, data);
if (expr->valueType() && expr->valueType()->type == ::ValueType::Type::VOID && expr->valueType()->pointer > 0) {
::ValueType vt(*tok->valueType());
vt.pointer = 0;
auto range = getValueRangeFromValueType(data.getNewSymbolName(), &vt, *data.settings);
if (tok->valueType()->pointer == 0)
return range;
bool uninitPointer = false, nullPointer = false;
if (val && val->type == ExprEngine::ValueType::ArrayValue) {
nullPointer = std::static_pointer_cast<ExprEngine::ArrayValue>(val)->nullPointer;
uninitPointer = std::static_pointer_cast<ExprEngine::ArrayValue>(val)->uninitPointer;
}
auto bufferSize = std::make_shared<ExprEngine::IntRange>(data.getNewSymbolName(), 1, ~0UL);
return std::make_shared<ExprEngine::ArrayValue>(data.getNewSymbolName(), bufferSize, range, true, nullPointer, uninitPointer);
}
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if (val) {
// TODO: Cast this..
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call(data.callbacks, tok, val, &data);
return val;
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}
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val = getValueRangeFromValueType(data.getNewSymbolName(), tok->valueType(), *data.settings);
call(data.callbacks, tok, val, &data);
return val;
}
static ExprEngine::ValuePtr executeDot(const Token *tok, Data &data)
{
if (!tok->astOperand1() || !tok->astOperand1()->varId()) {
auto v = getValueRangeFromValueType(data.getNewSymbolName(), tok->valueType(), *data.settings);
call(data.callbacks, tok, v, &data);
return v;
}
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std::shared_ptr<ExprEngine::StructValue> structValue = std::dynamic_pointer_cast<ExprEngine::StructValue>(data.getValue(tok->astOperand1()->varId(), nullptr, nullptr));
if (!structValue) {
if (tok->originalName() == "->") {
std::shared_ptr<ExprEngine::ArrayValue> pointerValue = std::dynamic_pointer_cast<ExprEngine::ArrayValue>(data.getValue(tok->astOperand1()->varId(), nullptr, nullptr));
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if (pointerValue && pointerValue->pointer && !pointerValue->data.empty()) {
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call(data.callbacks, tok->astOperand1(), pointerValue, &data);
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auto indexValue = std::make_shared<ExprEngine::IntRange>("0", 0, 0);
ExprEngine::ValuePtr ret;
for (auto val: pointerValue->read(indexValue)) {
structValue = std::dynamic_pointer_cast<ExprEngine::StructValue>(val.second);
if (structValue) {
auto memberValue = structValue->getValueOfMember(tok->astOperand2()->str());
call(data.callbacks, tok, memberValue, &data);
if (!ret)
ret = memberValue;
}
}
return ret;
} else {
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call(data.callbacks, tok->astOperand1(), data.getValue(tok->astOperand1()->varId(), nullptr, nullptr), &data);
}
}
if (!structValue) {
auto v = getValueRangeFromValueType(data.getNewSymbolName(), tok->valueType(), *data.settings);
call(data.callbacks, tok, v, &data);
return v;
}
}
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call(data.callbacks, tok->astOperand1(), structValue, &data);
return structValue->getValueOfMember(tok->astOperand2()->str());
}
static ExprEngine::ValuePtr executeBinaryOp(const Token *tok, Data &data)
{
ExprEngine::ValuePtr v1 = executeExpression(tok->astOperand1(), data);
ExprEngine::ValuePtr v2;
if (tok->str() == "&&" || tok->str() == "||") {
Data data2(data);
data2.addConstraint(v1, tok->str() == "&&");
v2 = executeExpression(tok->astOperand2(), data2);
} else {
v2 = executeExpression(tok->astOperand2(), data);
}
if (v1 && v2) {
auto result = simplifyValue(std::make_shared<ExprEngine::BinOpResult>(tok->str(), v1, v2));
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call(data.callbacks, tok, result, &data);
return result;
}
return ExprEngine::ValuePtr();
}
static ExprEngine::ValuePtr executeAddressOf(const Token *tok, Data &data)
{
auto addr = std::make_shared<ExprEngine::AddressOfValue>(data.getNewSymbolName(), tok->astOperand1()->varId());
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call(data.callbacks, tok, addr, &data);
return addr;
}
static ExprEngine::ValuePtr executeDeref(const Token *tok, Data &data)
{
ExprEngine::ValuePtr pval = executeExpression(tok->astOperand1(), data);
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if (!pval) {
auto v = getValueRangeFromValueType(data.getNewSymbolName(), tok->valueType(), *data.settings);
if (tok->astOperand1()->varId()) {
pval = std::make_shared<ExprEngine::ArrayValue>(data.getNewSymbolName(), ExprEngine::ValuePtr(), v, true, false, false);
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data.assignValue(tok->astOperand1(), tok->astOperand1()->varId(), pval);
}
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call(data.callbacks, tok, v, &data);
return v;
}
auto addressOf = std::dynamic_pointer_cast<ExprEngine::AddressOfValue>(pval);
if (addressOf) {
auto val = data.getValue(addressOf->varId, tok->valueType(), tok);
call(data.callbacks, tok, val, &data);
return val;
}
auto pointer = std::dynamic_pointer_cast<ExprEngine::ArrayValue>(pval);
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if (pointer) {
auto indexValue = std::make_shared<ExprEngine::IntRange>("0", 0, 0);
auto conditionalValues = pointer->read(indexValue);
for (auto value: conditionalValues)
call(data.callbacks, tok, value.second, &data);
if (conditionalValues.size() == 1 && !conditionalValues[0].first)
return conditionalValues[0].second;
return std::make_shared<ExprEngine::ConditionalValue>(data.getNewSymbolName(), conditionalValues);
}
return ExprEngine::ValuePtr();
}
static ExprEngine::ValuePtr executeVariable(const Token *tok, Data &data)
{
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auto val = data.getValue(tok->varId(), tok->valueType(), tok);
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call(data.callbacks, tok, val, &data);
return val;
}
static ExprEngine::ValuePtr executeKnownMacro(const Token *tok, Data &data)
{
auto val = std::make_shared<ExprEngine::IntRange>(data.getNewSymbolName(), tok->getKnownIntValue(), tok->getKnownIntValue());
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call(data.callbacks, tok, val, &data);
return val;
}
static ExprEngine::ValuePtr executeNumber(const Token *tok, Data &data)
{
if (tok->valueType()->isFloat()) {
long double value = MathLib::toDoubleNumber(tok->str());
auto v = std::make_shared<ExprEngine::FloatRange>(tok->str(), value, value);
call(data.callbacks, tok, v, &data);
return v;
}
int128_t value = MathLib::toLongNumber(tok->str());
auto v = std::make_shared<ExprEngine::IntRange>(tok->str(), value, value);
call(data.callbacks, tok, v, &data);
return v;
}
static ExprEngine::ValuePtr executeStringLiteral(const Token *tok, Data &data)
{
std::string s = tok->str();
return std::make_shared<ExprEngine::StringLiteralValue>(data.getNewSymbolName(), s.substr(1, s.size()-2));
}
static ExprEngine::ValuePtr executeExpression1(const Token *tok, Data &data)
{
if (tok->str() == "return")
return executeReturn(tok, data);
if (tok->isAssignmentOp())
// TODO: Handle more operators
return executeAssign(tok, data);
if (tok->astOperand1() && tok->astOperand2() && tok->str() == "[")
return executeArrayIndex(tok, data);
if (tok->str() == "(") {
if (!tok->isCast())
return executeFunctionCall(tok, data);
return executeCast(tok, data);
}
if (tok->str() == ".")
return executeDot(tok, data);
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if (tok->str() == "::" && tok->hasKnownIntValue()) { // TODO handle :: better
auto v = tok->getKnownIntValue();
return std::make_shared<ExprEngine::IntRange>(std::to_string(v), v, v);
}
if (tok->astOperand1() && tok->astOperand2())
return executeBinaryOp(tok, data);
if (tok->isUnaryOp("&") && Token::Match(tok->astOperand1(), "%var%"))
return executeAddressOf(tok, data);
if (tok->isUnaryOp("*"))
return executeDeref(tok, data);
if (tok->varId())
return executeVariable(tok, data);
if (tok->isName() && tok->hasKnownIntValue())
return executeKnownMacro(tok, data);
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if (tok->isNumber() || tok->tokType() == Token::Type::eChar)
return executeNumber(tok, data);
if (tok->tokType() == Token::Type::eString)
return executeStringLiteral(tok, data);
return ExprEngine::ValuePtr();
}
static ExprEngine::ValuePtr executeExpression(const Token *tok, Data &data)
{
return translateUninitValueToRange(executeExpression1(tok, data), tok->valueType(), data);
}
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static ExprEngine::ValuePtr createVariableValue(const Variable &var, Data &data);
static void execute(const Token *start, const Token *end, Data &data)
{
for (const Token *tok = start; tok != end; tok = tok->next()) {
if (Token::Match(tok, "[;{}]"))
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data.trackProgramState(tok);
if (Token::simpleMatch(tok, "while ( 0 ) ;")) {
tok = tok->tokAt(4);
continue;
}
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if (tok->str() == "break") {
const Scope *scope = tok->scope();
while (scope->type == Scope::eIf || scope->type == Scope::eElse)
scope = scope->nestedIn;
tok = scope->bodyEnd;
}
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if (Token::simpleMatch(tok, "try"))
// TODO this is a bailout
throw VerifyException(tok, "Unhandled:" + tok->str());
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// Variable declaration..
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if (tok->variable() && tok->variable()->nameToken() == tok) {
if (Token::Match(tok, "%varid% ; %varid% =", tok->varId())) {
// if variable is not used in assignment rhs then we do not need to create a "confusing" variable value..
bool foundInRhs = false;
visitAstNodes(tok->tokAt(3)->astOperand2(), [&](const Token *rhs) {
if (rhs->varId()==tok->varId()) {
foundInRhs = true;
return ChildrenToVisit::done;
}
return ChildrenToVisit::op1_and_op2;
});
if (!foundInRhs) {
tok = tok->tokAt(2);
continue;
}
}
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if (tok->variable()->isArray()) {
data.assignValue(tok, tok->varId(), std::make_shared<ExprEngine::ArrayValue>(&data, tok->variable()));
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if (Token::Match(tok, "%name% ["))
tok = tok->linkAt(1);
} else if (Token::Match(tok, "%var% ;"))
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data.assignValue(tok, tok->varId(), createVariableValue(*tok->variable(), data));
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} else if (!tok->astParent() && (tok->astOperand1() || tok->astOperand2())) {
executeExpression(tok, data);
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if (Token::Match(tok, "throw|return"))
return;
}
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else if (Token::simpleMatch(tok, "if (")) {
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const Token *cond = tok->next()->astOperand2(); // TODO: C++17 condition
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const ExprEngine::ValuePtr condValue = executeExpression(cond, data);
Data ifData(data);
Data elseData(data);
ifData.addConstraint(condValue, true);
elseData.addConstraint(condValue, false);
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const Token *thenStart = tok->linkAt(1)->next();
const Token *thenEnd = thenStart->link();
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execute(thenStart->next(), end, ifData);
if (Token::simpleMatch(thenEnd, "} else {")) {
const Token *elseStart = thenEnd->tokAt(2);
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execute(elseStart->next(), end, elseData);
} else {
execute(thenEnd, end, elseData);
}
return;
}
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else if (Token::simpleMatch(tok, "switch (")) {
auto condValue = executeExpression(tok->next()->astOperand2(), data); // TODO: C++17 condition
const Token *bodyStart = tok->linkAt(1)->next();
const Token *bodyEnd = bodyStart->link();
const Token *defaultStart = nullptr;
Data defaultData(data);
for (const Token *tok2 = bodyStart->next(); tok2 != bodyEnd; tok2 = tok2->next()) {
if (tok2->str() == "{")
tok2 = tok2->link();
else if (Token::Match(tok2, "case %num% :")) {
auto caseValue = std::make_shared<ExprEngine::IntRange>(tok2->strAt(1), MathLib::toLongNumber(tok2->strAt(1)), MathLib::toLongNumber(tok2->strAt(1)));
Data caseData(data);
caseData.addConstraint(condValue, caseValue, true);
defaultData.addConstraint(condValue, caseValue, false);
execute(tok2->tokAt(2), end, caseData);
} else if (Token::simpleMatch(tok2, "default :"))
defaultStart = tok2;
}
execute(defaultStart ? defaultStart : bodyEnd, end, defaultData);
return;
}
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if (Token::Match(tok, "for|while (") && Token::simpleMatch(tok->linkAt(1), ") {")) {
const Token *bodyStart = tok->linkAt(1)->next();
const Token *bodyEnd = bodyStart->link();
// TODO this is very rough code
std::set<int> changedVariables;
for (const Token *tok2 = tok; tok2 != bodyEnd; tok2 = tok2->next()) {
if (Token::Match(tok2, "%assign%")) {
if (Token::Match(tok2->astOperand1(), ". %name% =") && tok2->astOperand1()->astOperand1() && tok2->astOperand1()->astOperand1()->valueType()) {
const Token *structToken = tok2->astOperand1()->astOperand1();
if (!structToken || !structToken->valueType() || !structToken->varId())
throw VerifyException(tok2, "Unhandled assignment in loop");
const Scope *structScope = structToken->valueType()->typeScope;
if (!structScope)
throw VerifyException(tok2, "Unhandled assignment in loop");
const std::string &memberName = tok2->previous()->str();
ExprEngine::ValuePtr memberValue;
for (const Variable &member : structScope->varlist) {
if (memberName == member.name() && member.valueType()) {
memberValue = createVariableValue(member, data);
break;
}
}
if (!memberValue)
throw VerifyException(tok2, "Unhandled assignment in loop");
ExprEngine::ValuePtr structVal1 = data.getValue(structToken->varId(), structToken->valueType(), structToken);
if (!structVal1)
structVal1 = createVariableValue(*structToken->variable(), data);
auto structVal = std::dynamic_pointer_cast<ExprEngine::StructValue>(structVal1);
if (!structVal)
throw VerifyException(tok2, "Unhandled assignment in loop");
data.assignStructMember(tok2, &*structVal, memberName, memberValue);
continue;
}
if (!Token::Match(tok2->astOperand1(), "%var%"))
throw VerifyException(tok2, "Unhandled assignment in loop");
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if (!tok2->astOperand1()->variable())
throw VerifyException(tok2, "Unhandled assignment in loop");
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// give variable "any" value
int varid = tok2->astOperand1()->varId();
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if (changedVariables.find(varid) != changedVariables.end())
continue;
changedVariables.insert(varid);
data.assignValue(tok2, varid, createVariableValue(*tok2->astOperand1()->variable(), data));
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} else if (Token::Match(tok2, "++|--") && tok2->astOperand1() && tok2->astOperand1()->variable()) {
// give variable "any" value
const Token *vartok = tok2->astOperand1();
int varid = vartok->varId();
if (changedVariables.find(varid) != changedVariables.end())
continue;
changedVariables.insert(varid);
data.assignValue(tok2, varid, createVariableValue(*vartok->variable(), data));
}
}
}
if (Token::simpleMatch(tok, "} else {"))
tok = tok->linkAt(2);
}
}
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void ExprEngine::executeAllFunctions(const Tokenizer *tokenizer, const Settings *settings, const std::vector<ExprEngine::Callback> &callbacks, std::ostream &report)
{
const SymbolDatabase *symbolDatabase = tokenizer->getSymbolDatabase();
for (const Scope *functionScope : symbolDatabase->functionScopes) {
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try {
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executeFunction(functionScope, tokenizer, settings, callbacks, report);
} catch (const VerifyException &e) {
// FIXME.. there should not be exceptions
std::string functionName = functionScope->function->name();
std::cout << "Verify: Aborted analysis of function '" << functionName << "':" << e.tok->linenr() << ": " << e.what << std::endl;
} catch (const std::exception &e) {
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// FIXME.. there should not be exceptions
std::string functionName = functionScope->function->name();
std::cout << "Verify: Aborted analysis of function '" << functionName << "': " << e.what() << std::endl;
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}
}
}
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static ExprEngine::ValuePtr createStructVal(const Scope *structScope, bool uninitData, Data &data)
{
if (!structScope)
return ExprEngine::ValuePtr();
std::shared_ptr<ExprEngine::StructValue> structValue = std::make_shared<ExprEngine::StructValue>(data.getNewSymbolName());
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auto uninitValue = std::make_shared<ExprEngine::UninitValue>();
for (const Variable &member : structScope->varlist) {
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if (uninitData) {
if (member.isPointer()) {
structValue->member[member.name()] = uninitValue;
continue;
}
if (member.valueType() && member.valueType()->type >= ::ValueType::Type::CHAR) {
structValue->member[member.name()] = uninitValue;
continue;
}
}
if (member.valueType() && member.valueType()->isIntegral()) {
ExprEngine::ValuePtr memberValue = createVariableValue(member, data);
if (memberValue)
structValue->member[member.name()] = memberValue;
}
}
return structValue;
}
static ExprEngine::ValuePtr createVariableValue(const Variable &var, Data &data)
{
if (!var.nameToken())
return ExprEngine::ValuePtr();
const ValueType *valueType = var.valueType();
if (!valueType || valueType->type == ValueType::Type::UNKNOWN_TYPE)
valueType = var.nameToken()->valueType();
if (!valueType || valueType->type == ValueType::Type::UNKNOWN_TYPE) {
// variable with unknown type
if (var.isLocal() && var.isPointer() && !var.isArray())
return std::make_shared<ExprEngine::UninitValue>();
return ExprEngine::ValuePtr();
}
if (valueType->pointer > 0) {
if (var.isLocal())
return std::make_shared<ExprEngine::UninitValue>();
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auto bufferSize = std::make_shared<ExprEngine::IntRange>(data.getNewSymbolName(), 1, ~0UL);
ExprEngine::ValuePtr pointerValue;
if (valueType->type == ValueType::Type::RECORD)
pointerValue = createStructVal(valueType->typeScope, var.isLocal() && !var.isStatic(), data);
else {
ValueType vt(*valueType);
vt.pointer = 0;
pointerValue = getValueRangeFromValueType(data.getNewSymbolName(), &vt, *data.settings);
}
return std::make_shared<ExprEngine::ArrayValue>(data.getNewSymbolName(), bufferSize, pointerValue, true, true, true);
}
if (var.isArray())
return std::make_shared<ExprEngine::ArrayValue>(&data, &var);
if (valueType->isIntegral()) {
auto value = getValueRangeFromValueType(data.getNewSymbolName(), valueType, *data.settings);
data.addConstraints(value, var.nameToken());
return value;
}
if (valueType->type == ValueType::Type::RECORD)
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return createStructVal(valueType->typeScope, var.isLocal() && !var.isStatic(), data);
if (valueType->smartPointerType) {
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auto structValue = createStructVal(valueType->smartPointerType->classScope, var.isLocal() && !var.isStatic(), data);
auto size = std::make_shared<ExprEngine::IntRange>(data.getNewSymbolName(), 1, ~0UL);
return std::make_shared<ExprEngine::ArrayValue>(data.getNewSymbolName(), size, structValue, true, true, false);
}
if (valueType->container) {
ExprEngine::ValuePtr value;
if (valueType->container->stdStringLike)
value = std::make_shared<ExprEngine::IntRange>(data.getNewSymbolName(), -128, 127);
else if (valueType->containerTypeToken) {
ValueType vt = ValueType::parseDecl(valueType->containerTypeToken, data.settings);
value = getValueRangeFromValueType(data.getNewSymbolName(), &vt, *data.settings);
} else
return ExprEngine::ValuePtr();
auto bufferSize = std::make_shared<ExprEngine::IntRange>(data.getNewSymbolName(), 0, ~0U);
return std::make_shared<ExprEngine::ArrayValue>(data.getNewSymbolName(), bufferSize, value, false, false, false);
}
return ExprEngine::ValuePtr();
}
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void ExprEngine::executeFunction(const Scope *functionScope, const Tokenizer *tokenizer, const Settings *settings, const std::vector<ExprEngine::Callback> &callbacks, std::ostream &report)
{
if (!functionScope->bodyStart)
return;
const Function *function = functionScope->function;
if (!function)
return;
if (functionScope->bodyStart->fileIndex() > 0)
// TODO.. what about functions in headers?
return;
int symbolValueIndex = 0;
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TrackExecution trackExecution;
Data data(&symbolValueIndex, tokenizer, settings, callbacks, &trackExecution);
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for (const Variable &arg : function->argumentList)
data.assignValue(functionScope->bodyStart, arg.declarationId(), createVariableValue(arg, data));
try {
execute(functionScope->bodyStart, functionScope->bodyEnd, data);
} catch (VerifyException &e) {
trackExecution.setAbortLine(e.tok->linenr());
auto bailoutValue = std::make_shared<BailoutValue>();
for (const Token *tok = e.tok; tok != functionScope->bodyEnd; tok = tok->next())
call(callbacks, tok, bailoutValue, &data);
}
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if (settings->debugVerification && (callbacks.empty() || !trackExecution.isAllOk())) {
if (!settings->verificationReport.empty())
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report << "[debug]" << std::endl;
trackExecution.print(report);
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if (!callbacks.empty()) {
if (!settings->verificationReport.empty())
report << "[details]" << std::endl;
trackExecution.report(report, functionScope);
}
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}
// Write a verification report
if (!settings->verificationReport.empty()) {
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report << "[function-report] "
<< Path::stripDirectoryPart(tokenizer->list.getFiles().at(functionScope->bodyStart->fileIndex())) << ":"
<< functionScope->bodyStart->linenr() << ":"
<< function->name()
<< (trackExecution.isAllOk() ? " is safe" : " is not safe")
<< std::endl;
}
}
void ExprEngine::runChecks(ErrorLogger *errorLogger, const Tokenizer *tokenizer, const Settings *settings)
{
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std::function<void(const Token *, const ExprEngine::Value &, ExprEngine::DataBase *)> divByZero = [=](const Token *tok, const ExprEngine::Value &value, ExprEngine::DataBase *dataBase) {
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if (!tok->astParent() || !std::strchr("/%", tok->astParent()->str()[0]))
return;
if (tok->hasKnownIntValue() && tok->getKnownIntValue() != 0)
return;
if (tok->astParent()->astOperand2() == tok && value.isEqual(dataBase, 0)) {
dataBase->addError(tok->linenr());
std::list<const Token*> callstack{tok->astParent()};
ErrorLogger::ErrorMessage errmsg(callstack, &tokenizer->list, Severity::SeverityType::error, "verificationDivByZero", "There is division, cannot determine that there can't be a division by zero.", CWE(369), false);
errorLogger->reportErr(errmsg);
}
};
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#ifdef VERIFY_INTEGEROVERFLOW
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std::function<void(const Token *, const ExprEngine::Value &, ExprEngine::DataBase *)> integerOverflow = [&](const Token *tok, const ExprEngine::Value &value, ExprEngine::DataBase *dataBase) {
if (!tok->isArithmeticalOp() || !tok->valueType() || !tok->valueType()->isIntegral() || tok->valueType()->pointer > 0)
return;
const ExprEngine::BinOpResult *b = dynamic_cast<const ExprEngine::BinOpResult *>(&value);
if (!b)
return;
int bits = getIntBitsFromValueType(tok->valueType(), *settings);
if (bits == 0 || bits >= 60)
return;
std::string errorMessage;
if (tok->valueType()->sign == ::ValueType::Sign::SIGNED) {
MathLib::bigint v = 1LL << (bits - 1);
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if (b->isGreaterThan(dataBase, v-1))
errorMessage = "greater than " + std::to_string(v - 1);
if (b->isLessThan(dataBase, -v)) {
if (!errorMessage.empty())
errorMessage += " or ";
errorMessage += "less than " + std::to_string(-v);
}
} else {
MathLib::bigint maxValue = (1LL << bits) - 1;
if (b->isGreaterThan(dataBase, maxValue))
errorMessage = "greater than " + std::to_string(maxValue);
if (b->isLessThan(dataBase, 0)) {
if (!errorMessage.empty())
errorMessage += " or ";
errorMessage += "less than 0";
}
}
if (errorMessage.empty())
return;
errorMessage = "There is integer arithmetic, cannot determine that there can't be overflow (if result is " + errorMessage + ").";
if (tok->valueType()->sign == ::ValueType::Sign::UNSIGNED)
errorMessage += " Note that unsigned integer overflow is defined and will wrap around.";
std::list<const Token*> callstack{tok};
ErrorLogger::ErrorMessage errmsg(callstack, &tokenizer->list, Severity::SeverityType::error, "verificationIntegerOverflow", errorMessage, false);
errorLogger->reportErr(errmsg);
};
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#endif
std::function<void(const Token *, const ExprEngine::Value &, ExprEngine::DataBase *)> checkFunctionCall = [=](const Token *tok, const ExprEngine::Value &value, ExprEngine::DataBase *dataBase) {
if (!Token::Match(tok->astParent(), "[(,]"))
return;
const Token *parent = tok->astParent();
while (Token::simpleMatch(parent, ","))
parent = parent->astParent();
if (!parent || parent->str() != "(")
return;
int num = 0;
for (const Token *argTok: getArguments(parent->astOperand1())) {
--num;
if (argTok == tok) {
num = -num;
break;
}
}
if (num <= 0)
return;
if (parent->astOperand1()->function()) {
const Variable *arg = parent->astOperand1()->function()->getArgumentVar(num - 1);
if (arg->nameToken()) {
std::string bad;
MathLib::bigint low;
if (arg->nameToken()->getCppcheckAttribute(TokenImpl::CppcheckAttributes::Type::LOW, &low)) {
if (value.isLessThan(dataBase, low)) {
bad = "__cppcheck_low_(" + std::to_string(low) + ")";
}
}
MathLib::bigint high;
if (arg->nameToken()->getCppcheckAttribute(TokenImpl::CppcheckAttributes::Type::HIGH, &high)) {
if (value.isLessThan(dataBase, low)) {
bad = "__cppcheck_low_(" + std::to_string(low) + ")";
}
}
if (!bad.empty()) {
dataBase->addError(tok->linenr());
std::list<const Token*> callstack{tok};
ErrorLogger::ErrorMessage errmsg(callstack,
&tokenizer->list,
Severity::SeverityType::error,
"verificationInvalidArgValue",
"There is function call, cannot determine that " + std::to_string(num) + getOrdinalText(num) + " argument value meets the attribute " + bad, CWE(0), false);
errorLogger->reportErr(errmsg);
return;
}
}
}
// Check invalid function argument values..
for (const Library::InvalidArgValue &invalidArgValue : Library::getInvalidArgValues(settings->library.validarg(parent->astOperand1(), num))) {
bool err = false;
std::string bad;
switch (invalidArgValue.type) {
case Library::InvalidArgValue::eq:
err = value.isEqual(dataBase, MathLib::toLongNumber(invalidArgValue.op1));
bad = "equals " + invalidArgValue.op1;
break;
case Library::InvalidArgValue::le:
err = value.isLessThan(dataBase, MathLib::toLongNumber(invalidArgValue.op1) + 1);
bad = "less equal " + invalidArgValue.op1;
break;
case Library::InvalidArgValue::lt:
err = value.isLessThan(dataBase, MathLib::toLongNumber(invalidArgValue.op1));
bad = "less than " + invalidArgValue.op1;
break;
case Library::InvalidArgValue::ge:
err = value.isGreaterThan(dataBase, MathLib::toLongNumber(invalidArgValue.op1) - 1);
bad = "greater equal " + invalidArgValue.op1;
break;
case Library::InvalidArgValue::gt:
err = value.isGreaterThan(dataBase, MathLib::toLongNumber(invalidArgValue.op1));
bad = "greater than " + invalidArgValue.op1;
break;
case Library::InvalidArgValue::range:
// TODO
err = value.isEqual(dataBase, MathLib::toLongNumber(invalidArgValue.op1));
err |= value.isEqual(dataBase, MathLib::toLongNumber(invalidArgValue.op2));
bad = "range " + invalidArgValue.op1 + "-" + invalidArgValue.op2;
break;
};
if (err) {
dataBase->addError(tok->linenr());
std::list<const Token*> callstack{tok};
ErrorLogger::ErrorMessage errmsg(callstack, &tokenizer->list, Severity::SeverityType::error, "verificationInvalidArgValue", "There is function call, cannot determine that " + std::to_string(num) + getOrdinalText(num) + " argument value is valid. Bad value: " + bad, CWE(0), false);
errorLogger->reportErr(errmsg);
break;
}
}
};
std::vector<ExprEngine::Callback> callbacks;
callbacks.push_back(divByZero);
callbacks.push_back(checkFunctionCall);
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#ifdef VERIFY_INTEGEROVERFLOW
callbacks.push_back(integerOverflow);
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#endif
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std::ostringstream report;
ExprEngine::executeAllFunctions(tokenizer, settings, callbacks, report);
if (errorLogger && !settings->verificationReport.empty() && !report.str().empty())
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errorLogger->reportVerification(report.str());
}