253 lines
9.0 KiB
C++
253 lines
9.0 KiB
C++
//=== Taint.cpp - Taint tracking and basic propagation rules. ------*- C++ -*-//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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//
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// Defines basic, non-domain-specific mechanisms for tracking tainted values.
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//
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//===----------------------------------------------------------------------===//
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#include "Taint.h"
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#include "clang/StaticAnalyzer/Core/BugReporter/BugReporter.h"
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#include "clang/StaticAnalyzer/Core/PathSensitive/ProgramStateTrait.h"
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using namespace clang;
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using namespace ento;
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using namespace taint;
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// Fully tainted symbols.
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REGISTER_MAP_WITH_PROGRAMSTATE(TaintMap, SymbolRef, TaintTagType)
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// Partially tainted symbols.
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REGISTER_MAP_FACTORY_WITH_PROGRAMSTATE(TaintedSubRegions, const SubRegion *,
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TaintTagType)
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REGISTER_MAP_WITH_PROGRAMSTATE(DerivedSymTaint, SymbolRef, TaintedSubRegions)
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void taint::printTaint(ProgramStateRef State, raw_ostream &Out, const char *NL,
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const char *Sep) {
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TaintMapTy TM = State->get<TaintMap>();
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if (!TM.isEmpty())
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Out << "Tainted symbols:" << NL;
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for (const auto &I : TM)
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Out << I.first << " : " << I.second << NL;
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}
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void dumpTaint(ProgramStateRef State) { printTaint(State, llvm::errs()); }
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ProgramStateRef taint::addTaint(ProgramStateRef State, const Stmt *S,
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const LocationContext *LCtx,
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TaintTagType Kind) {
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return addTaint(State, State->getSVal(S, LCtx), Kind);
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}
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ProgramStateRef taint::addTaint(ProgramStateRef State, SVal V,
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TaintTagType Kind) {
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SymbolRef Sym = V.getAsSymbol();
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if (Sym)
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return addTaint(State, Sym, Kind);
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// If the SVal represents a structure, try to mass-taint all values within the
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// structure. For now it only works efficiently on lazy compound values that
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// were conjured during a conservative evaluation of a function - either as
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// return values of functions that return structures or arrays by value, or as
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// values of structures or arrays passed into the function by reference,
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// directly or through pointer aliasing. Such lazy compound values are
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// characterized by having exactly one binding in their captured store within
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// their parent region, which is a conjured symbol default-bound to the base
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// region of the parent region.
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if (auto LCV = V.getAs<nonloc::LazyCompoundVal>()) {
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if (Optional<SVal> binding =
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State->getStateManager().getStoreManager().getDefaultBinding(
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*LCV)) {
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if (SymbolRef Sym = binding->getAsSymbol())
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return addPartialTaint(State, Sym, LCV->getRegion(), Kind);
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}
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}
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const MemRegion *R = V.getAsRegion();
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return addTaint(State, R, Kind);
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}
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ProgramStateRef taint::addTaint(ProgramStateRef State, const MemRegion *R,
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TaintTagType Kind) {
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if (const SymbolicRegion *SR = dyn_cast_or_null<SymbolicRegion>(R))
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return addTaint(State, SR->getSymbol(), Kind);
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return State;
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}
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ProgramStateRef taint::addTaint(ProgramStateRef State, SymbolRef Sym,
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TaintTagType Kind) {
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// If this is a symbol cast, remove the cast before adding the taint. Taint
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// is cast agnostic.
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while (const SymbolCast *SC = dyn_cast<SymbolCast>(Sym))
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Sym = SC->getOperand();
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ProgramStateRef NewState = State->set<TaintMap>(Sym, Kind);
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assert(NewState);
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return NewState;
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}
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ProgramStateRef taint::removeTaint(ProgramStateRef State, SVal V) {
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SymbolRef Sym = V.getAsSymbol();
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if (Sym)
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return removeTaint(State, Sym);
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const MemRegion *R = V.getAsRegion();
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return removeTaint(State, R);
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}
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ProgramStateRef taint::removeTaint(ProgramStateRef State, const MemRegion *R) {
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if (const SymbolicRegion *SR = dyn_cast_or_null<SymbolicRegion>(R))
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return removeTaint(State, SR->getSymbol());
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return State;
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}
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ProgramStateRef taint::removeTaint(ProgramStateRef State, SymbolRef Sym) {
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// If this is a symbol cast, remove the cast before adding the taint. Taint
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// is cast agnostic.
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while (const SymbolCast *SC = dyn_cast<SymbolCast>(Sym))
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Sym = SC->getOperand();
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ProgramStateRef NewState = State->remove<TaintMap>(Sym);
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assert(NewState);
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return NewState;
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}
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ProgramStateRef taint::addPartialTaint(ProgramStateRef State,
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SymbolRef ParentSym,
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const SubRegion *SubRegion,
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TaintTagType Kind) {
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// Ignore partial taint if the entire parent symbol is already tainted.
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if (const TaintTagType *T = State->get<TaintMap>(ParentSym))
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if (*T == Kind)
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return State;
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// Partial taint applies if only a portion of the symbol is tainted.
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if (SubRegion == SubRegion->getBaseRegion())
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return addTaint(State, ParentSym, Kind);
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const TaintedSubRegions *SavedRegs = State->get<DerivedSymTaint>(ParentSym);
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TaintedSubRegions::Factory &F = State->get_context<TaintedSubRegions>();
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TaintedSubRegions Regs = SavedRegs ? *SavedRegs : F.getEmptyMap();
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Regs = F.add(Regs, SubRegion, Kind);
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ProgramStateRef NewState = State->set<DerivedSymTaint>(ParentSym, Regs);
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assert(NewState);
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return NewState;
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}
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bool taint::isTainted(ProgramStateRef State, const Stmt *S,
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const LocationContext *LCtx, TaintTagType Kind) {
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SVal val = State->getSVal(S, LCtx);
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return isTainted(State, val, Kind);
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}
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bool taint::isTainted(ProgramStateRef State, SVal V, TaintTagType Kind) {
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if (SymbolRef Sym = V.getAsSymbol())
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return isTainted(State, Sym, Kind);
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if (const MemRegion *Reg = V.getAsRegion())
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return isTainted(State, Reg, Kind);
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return false;
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}
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bool taint::isTainted(ProgramStateRef State, const MemRegion *Reg,
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TaintTagType K) {
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if (!Reg)
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return false;
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// Element region (array element) is tainted if either the base or the offset
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// are tainted.
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if (const ElementRegion *ER = dyn_cast<ElementRegion>(Reg))
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return isTainted(State, ER->getSuperRegion(), K) ||
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isTainted(State, ER->getIndex(), K);
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if (const SymbolicRegion *SR = dyn_cast<SymbolicRegion>(Reg))
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return isTainted(State, SR->getSymbol(), K);
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if (const SubRegion *ER = dyn_cast<SubRegion>(Reg))
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return isTainted(State, ER->getSuperRegion(), K);
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return false;
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}
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bool taint::isTainted(ProgramStateRef State, SymbolRef Sym, TaintTagType Kind) {
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if (!Sym)
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return false;
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// Traverse all the symbols this symbol depends on to see if any are tainted.
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for (SymExpr::symbol_iterator SI = Sym->symbol_begin(),
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SE = Sym->symbol_end();
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SI != SE; ++SI) {
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if (!isa<SymbolData>(*SI))
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continue;
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if (const TaintTagType *Tag = State->get<TaintMap>(*SI)) {
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if (*Tag == Kind)
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return true;
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}
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if (const auto *SD = dyn_cast<SymbolDerived>(*SI)) {
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// If this is a SymbolDerived with a tainted parent, it's also tainted.
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if (isTainted(State, SD->getParentSymbol(), Kind))
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return true;
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// If this is a SymbolDerived with the same parent symbol as another
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// tainted SymbolDerived and a region that's a sub-region of that tainted
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// symbol, it's also tainted.
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if (const TaintedSubRegions *Regs =
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State->get<DerivedSymTaint>(SD->getParentSymbol())) {
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const TypedValueRegion *R = SD->getRegion();
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for (auto I : *Regs) {
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// FIXME: The logic to identify tainted regions could be more
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// complete. For example, this would not currently identify
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// overlapping fields in a union as tainted. To identify this we can
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// check for overlapping/nested byte offsets.
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if (Kind == I.second && R->isSubRegionOf(I.first))
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return true;
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}
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}
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}
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// If memory region is tainted, data is also tainted.
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if (const auto *SRV = dyn_cast<SymbolRegionValue>(*SI)) {
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if (isTainted(State, SRV->getRegion(), Kind))
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return true;
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}
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// If this is a SymbolCast from a tainted value, it's also tainted.
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if (const auto *SC = dyn_cast<SymbolCast>(*SI)) {
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if (isTainted(State, SC->getOperand(), Kind))
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return true;
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}
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}
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return false;
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}
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PathDiagnosticPieceRef TaintBugVisitor::VisitNode(const ExplodedNode *N,
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BugReporterContext &BRC,
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PathSensitiveBugReport &BR) {
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// Find the ExplodedNode where the taint was first introduced
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if (!isTainted(N->getState(), V) ||
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isTainted(N->getFirstPred()->getState(), V))
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return nullptr;
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const Stmt *S = N->getStmtForDiagnostics();
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if (!S)
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return nullptr;
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const LocationContext *NCtx = N->getLocationContext();
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PathDiagnosticLocation L =
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PathDiagnosticLocation::createBegin(S, BRC.getSourceManager(), NCtx);
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if (!L.isValid() || !L.asLocation().isValid())
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return nullptr;
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return std::make_shared<PathDiagnosticEventPiece>(L, "Taint originated here");
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}
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