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|
//===--- SanitizerArgs.cpp - Arguments for sanitizer tools ---------------===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
#include "clang/Driver/SanitizerArgs.h"
#include "Tools.h"
#include "clang/Basic/Sanitizers.h"
#include "clang/Driver/Driver.h"
#include "clang/Driver/DriverDiagnostic.h"
#include "clang/Driver/Options.h"
#include "clang/Driver/ToolChain.h"
#include "llvm/ADT/StringExtras.h"
#include "llvm/ADT/StringSwitch.h"
#include "llvm/Support/FileSystem.h"
#include "llvm/Support/Path.h"
#include "llvm/Support/SpecialCaseList.h"
#include <memory>
using namespace clang;
using namespace clang::SanitizerKind;
using namespace clang::driver;
using namespace llvm::opt;
enum : SanitizerMask {
NeedsUbsanRt = Undefined | Integer | CFI,
NeedsUbsanCxxRt = Vptr | CFI,
NotAllowedWithTrap = Vptr,
RequiresPIE = DataFlow,
NeedsUnwindTables = Address | Thread | Memory | DataFlow,
SupportsCoverage = Address | Memory | Leak | Undefined | Integer | DataFlow,
RecoverableByDefault = Undefined | Integer,
Unrecoverable = Unreachable | Return,
LegacyFsanitizeRecoverMask = Undefined | Integer,
NeedsLTO = CFI,
TrappingSupported =
(Undefined & ~Vptr) | UnsignedIntegerOverflow | LocalBounds | CFI,
TrappingDefault = CFI,
CFIClasses = CFIVCall | CFINVCall | CFIDerivedCast | CFIUnrelatedCast,
};
enum CoverageFeature {
CoverageFunc = 1 << 0,
CoverageBB = 1 << 1,
CoverageEdge = 1 << 2,
CoverageIndirCall = 1 << 3,
CoverageTraceBB = 1 << 4,
CoverageTraceCmp = 1 << 5,
CoverageTraceDiv = 1 << 6,
CoverageTraceGep = 1 << 7,
Coverage8bitCounters = 1 << 8,
CoverageTracePC = 1 << 9,
CoverageTracePCGuard = 1 << 10,
};
/// Parse a -fsanitize= or -fno-sanitize= argument's values, diagnosing any
/// invalid components. Returns a SanitizerMask.
static SanitizerMask parseArgValues(const Driver &D, const llvm::opt::Arg *A,
bool DiagnoseErrors);
/// Parse -f(no-)?sanitize-coverage= flag values, diagnosing any invalid
/// components. Returns OR of members of \c CoverageFeature enumeration.
static int parseCoverageFeatures(const Driver &D, const llvm::opt::Arg *A);
/// Produce an argument string from ArgList \p Args, which shows how it
/// provides some sanitizer kind from \p Mask. For example, the argument list
/// "-fsanitize=thread,vptr -fsanitize=address" with mask \c NeedsUbsanRt
/// would produce "-fsanitize=vptr".
static std::string lastArgumentForMask(const Driver &D,
const llvm::opt::ArgList &Args,
SanitizerMask Mask);
/// Produce an argument string from argument \p A, which shows how it provides
/// a value in \p Mask. For instance, the argument
/// "-fsanitize=address,alignment" with mask \c NeedsUbsanRt would produce
/// "-fsanitize=alignment".
static std::string describeSanitizeArg(const llvm::opt::Arg *A,
SanitizerMask Mask);
/// Produce a string containing comma-separated names of sanitizers in \p
/// Sanitizers set.
static std::string toString(const clang::SanitizerSet &Sanitizers);
static bool getDefaultBlacklist(const Driver &D, SanitizerMask Kinds,
std::string &BLPath) {
const char *BlacklistFile = nullptr;
if (Kinds & Address)
BlacklistFile = "asan_blacklist.txt";
else if (Kinds & Memory)
BlacklistFile = "msan_blacklist.txt";
else if (Kinds & Thread)
BlacklistFile = "tsan_blacklist.txt";
else if (Kinds & DataFlow)
BlacklistFile = "dfsan_abilist.txt";
else if (Kinds & CFI)
BlacklistFile = "cfi_blacklist.txt";
if (BlacklistFile) {
clang::SmallString<64> Path(D.ResourceDir);
llvm::sys::path::append(Path, BlacklistFile);
BLPath = Path.str();
return true;
}
return false;
}
/// Sets group bits for every group that has at least one representative already
/// enabled in \p Kinds.
static SanitizerMask setGroupBits(SanitizerMask Kinds) {
#define SANITIZER(NAME, ID)
#define SANITIZER_GROUP(NAME, ID, ALIAS) \
if (Kinds & SanitizerKind::ID) \
Kinds |= SanitizerKind::ID##Group;
#include "clang/Basic/Sanitizers.def"
return Kinds;
}
static SanitizerMask parseSanitizeTrapArgs(const Driver &D,
const llvm::opt::ArgList &Args) {
SanitizerMask TrapRemove = 0; // During the loop below, the accumulated set of
// sanitizers disabled by the current sanitizer
// argument or any argument after it.
SanitizerMask TrappingKinds = 0;
SanitizerMask TrappingSupportedWithGroups = setGroupBits(TrappingSupported);
for (ArgList::const_reverse_iterator I = Args.rbegin(), E = Args.rend();
I != E; ++I) {
const auto *Arg = *I;
if (Arg->getOption().matches(options::OPT_fsanitize_trap_EQ)) {
Arg->claim();
SanitizerMask Add = parseArgValues(D, Arg, true);
Add &= ~TrapRemove;
if (SanitizerMask InvalidValues = Add & ~TrappingSupportedWithGroups) {
SanitizerSet S;
S.Mask = InvalidValues;
D.Diag(diag::err_drv_unsupported_option_argument) << "-fsanitize-trap"
<< toString(S);
}
TrappingKinds |= expandSanitizerGroups(Add) & ~TrapRemove;
} else if (Arg->getOption().matches(options::OPT_fno_sanitize_trap_EQ)) {
Arg->claim();
TrapRemove |= expandSanitizerGroups(parseArgValues(D, Arg, true));
} else if (Arg->getOption().matches(
options::OPT_fsanitize_undefined_trap_on_error)) {
Arg->claim();
TrappingKinds |=
expandSanitizerGroups(UndefinedGroup & ~TrapRemove) & ~TrapRemove;
} else if (Arg->getOption().matches(
options::OPT_fno_sanitize_undefined_trap_on_error)) {
Arg->claim();
TrapRemove |= expandSanitizerGroups(UndefinedGroup);
}
}
// Apply default trapping behavior.
TrappingKinds |= TrappingDefault & ~TrapRemove;
return TrappingKinds;
}
bool SanitizerArgs::needsUbsanRt() const {
return ((Sanitizers.Mask & NeedsUbsanRt & ~TrapSanitizers.Mask) ||
CoverageFeatures) &&
!Sanitizers.has(Address) && !Sanitizers.has(Memory) &&
!Sanitizers.has(Thread) && !Sanitizers.has(DataFlow) &&
!Sanitizers.has(Leak) && !CfiCrossDso;
}
bool SanitizerArgs::needsCfiRt() const {
return !(Sanitizers.Mask & CFI & ~TrapSanitizers.Mask) && CfiCrossDso;
}
bool SanitizerArgs::needsCfiDiagRt() const {
return (Sanitizers.Mask & CFI & ~TrapSanitizers.Mask) && CfiCrossDso;
}
bool SanitizerArgs::requiresPIE() const {
return NeedPIE || (Sanitizers.Mask & RequiresPIE);
}
bool SanitizerArgs::needsUnwindTables() const {
return Sanitizers.Mask & NeedsUnwindTables;
}
SanitizerArgs::SanitizerArgs(const ToolChain &TC,
const llvm::opt::ArgList &Args) {
SanitizerMask AllRemove = 0; // During the loop below, the accumulated set of
// sanitizers disabled by the current sanitizer
// argument or any argument after it.
SanitizerMask AllAddedKinds = 0; // Mask of all sanitizers ever enabled by
// -fsanitize= flags (directly or via group
// expansion), some of which may be disabled
// later. Used to carefully prune
// unused-argument diagnostics.
SanitizerMask DiagnosedKinds = 0; // All Kinds we have diagnosed up to now.
// Used to deduplicate diagnostics.
SanitizerMask Kinds = 0;
const SanitizerMask Supported = setGroupBits(TC.getSupportedSanitizers());
ToolChain::RTTIMode RTTIMode = TC.getRTTIMode();
const Driver &D = TC.getDriver();
SanitizerMask TrappingKinds = parseSanitizeTrapArgs(D, Args);
SanitizerMask InvalidTrappingKinds = TrappingKinds & NotAllowedWithTrap;
for (ArgList::const_reverse_iterator I = Args.rbegin(), E = Args.rend();
I != E; ++I) {
const auto *Arg = *I;
if (Arg->getOption().matches(options::OPT_fsanitize_EQ)) {
Arg->claim();
SanitizerMask Add = parseArgValues(D, Arg, true);
AllAddedKinds |= expandSanitizerGroups(Add);
// Avoid diagnosing any sanitizer which is disabled later.
Add &= ~AllRemove;
// At this point we have not expanded groups, so any unsupported
// sanitizers in Add are those which have been explicitly enabled.
// Diagnose them.
if (SanitizerMask KindsToDiagnose =
Add & InvalidTrappingKinds & ~DiagnosedKinds) {
std::string Desc = describeSanitizeArg(*I, KindsToDiagnose);
D.Diag(diag::err_drv_argument_not_allowed_with)
<< Desc << "-fsanitize-trap=undefined";
DiagnosedKinds |= KindsToDiagnose;
}
Add &= ~InvalidTrappingKinds;
if (SanitizerMask KindsToDiagnose = Add & ~Supported & ~DiagnosedKinds) {
std::string Desc = describeSanitizeArg(*I, KindsToDiagnose);
D.Diag(diag::err_drv_unsupported_opt_for_target)
<< Desc << TC.getTriple().str();
DiagnosedKinds |= KindsToDiagnose;
}
Add &= Supported;
// Test for -fno-rtti + explicit -fsanitizer=vptr before expanding groups
// so we don't error out if -fno-rtti and -fsanitize=undefined were
// passed.
if (Add & Vptr &&
(RTTIMode == ToolChain::RM_DisabledImplicitly ||
RTTIMode == ToolChain::RM_DisabledExplicitly)) {
if (RTTIMode == ToolChain::RM_DisabledImplicitly)
// Warn about not having rtti enabled if the vptr sanitizer is
// explicitly enabled
D.Diag(diag::warn_drv_disabling_vptr_no_rtti_default);
else {
const llvm::opt::Arg *NoRTTIArg = TC.getRTTIArg();
assert(NoRTTIArg &&
"RTTI disabled explicitly but we have no argument!");
D.Diag(diag::err_drv_argument_not_allowed_with)
<< "-fsanitize=vptr" << NoRTTIArg->getAsString(Args);
}
// Take out the Vptr sanitizer from the enabled sanitizers
AllRemove |= Vptr;
}
Add = expandSanitizerGroups(Add);
// Group expansion may have enabled a sanitizer which is disabled later.
Add &= ~AllRemove;
// Silently discard any unsupported sanitizers implicitly enabled through
// group expansion.
Add &= ~InvalidTrappingKinds;
Add &= Supported;
Kinds |= Add;
} else if (Arg->getOption().matches(options::OPT_fno_sanitize_EQ)) {
Arg->claim();
SanitizerMask Remove = parseArgValues(D, Arg, true);
AllRemove |= expandSanitizerGroups(Remove);
}
}
// Enable toolchain specific default sanitizers if not explicitly disabled.
Kinds |= TC.getDefaultSanitizers() & ~AllRemove;
// We disable the vptr sanitizer if it was enabled by group expansion but RTTI
// is disabled.
if ((Kinds & Vptr) &&
(RTTIMode == ToolChain::RM_DisabledImplicitly ||
RTTIMode == ToolChain::RM_DisabledExplicitly)) {
Kinds &= ~Vptr;
}
// Check that LTO is enabled if we need it.
if ((Kinds & NeedsLTO) && !D.isUsingLTO()) {
D.Diag(diag::err_drv_argument_only_allowed_with)
<< lastArgumentForMask(D, Args, Kinds & NeedsLTO) << "-flto";
}
// Report error if there are non-trapping sanitizers that require
// c++abi-specific parts of UBSan runtime, and they are not provided by the
// toolchain. We don't have a good way to check the latter, so we just
// check if the toolchan supports vptr.
if (~Supported & Vptr) {
SanitizerMask KindsToDiagnose = Kinds & ~TrappingKinds & NeedsUbsanCxxRt;
// The runtime library supports the Microsoft C++ ABI, but only well enough
// for CFI. FIXME: Remove this once we support vptr on Windows.
if (TC.getTriple().isOSWindows())
KindsToDiagnose &= ~CFI;
if (KindsToDiagnose) {
SanitizerSet S;
S.Mask = KindsToDiagnose;
D.Diag(diag::err_drv_unsupported_opt_for_target)
<< ("-fno-sanitize-trap=" + toString(S)) << TC.getTriple().str();
Kinds &= ~KindsToDiagnose;
}
}
// Warn about incompatible groups of sanitizers.
std::pair<SanitizerMask, SanitizerMask> IncompatibleGroups[] = {
std::make_pair(Address, Thread), std::make_pair(Address, Memory),
std::make_pair(Thread, Memory), std::make_pair(Leak, Thread),
std::make_pair(Leak, Memory), std::make_pair(KernelAddress, Address),
std::make_pair(KernelAddress, Leak),
std::make_pair(KernelAddress, Thread),
std::make_pair(KernelAddress, Memory),
std::make_pair(Efficiency, Address),
std::make_pair(Efficiency, Leak),
std::make_pair(Efficiency, Thread),
std::make_pair(Efficiency, Memory),
std::make_pair(Efficiency, KernelAddress)};
for (auto G : IncompatibleGroups) {
SanitizerMask Group = G.first;
if (Kinds & Group) {
if (SanitizerMask Incompatible = Kinds & G.second) {
D.Diag(clang::diag::err_drv_argument_not_allowed_with)
<< lastArgumentForMask(D, Args, Group)
<< lastArgumentForMask(D, Args, Incompatible);
Kinds &= ~Incompatible;
}
}
}
// FIXME: Currently -fsanitize=leak is silently ignored in the presence of
// -fsanitize=address. Perhaps it should print an error, or perhaps
// -f(-no)sanitize=leak should change whether leak detection is enabled by
// default in ASan?
// Parse -f(no-)?sanitize-recover flags.
SanitizerMask RecoverableKinds = RecoverableByDefault;
SanitizerMask DiagnosedUnrecoverableKinds = 0;
for (const auto *Arg : Args) {
const char *DeprecatedReplacement = nullptr;
if (Arg->getOption().matches(options::OPT_fsanitize_recover)) {
DeprecatedReplacement =
"-fsanitize-recover=undefined,integer' or '-fsanitize-recover=all";
RecoverableKinds |= expandSanitizerGroups(LegacyFsanitizeRecoverMask);
Arg->claim();
} else if (Arg->getOption().matches(options::OPT_fno_sanitize_recover)) {
DeprecatedReplacement = "-fno-sanitize-recover=undefined,integer' or "
"'-fno-sanitize-recover=all";
RecoverableKinds &= ~expandSanitizerGroups(LegacyFsanitizeRecoverMask);
Arg->claim();
} else if (Arg->getOption().matches(options::OPT_fsanitize_recover_EQ)) {
SanitizerMask Add = parseArgValues(D, Arg, true);
// Report error if user explicitly tries to recover from unrecoverable
// sanitizer.
if (SanitizerMask KindsToDiagnose =
Add & Unrecoverable & ~DiagnosedUnrecoverableKinds) {
SanitizerSet SetToDiagnose;
SetToDiagnose.Mask |= KindsToDiagnose;
D.Diag(diag::err_drv_unsupported_option_argument)
<< Arg->getOption().getName() << toString(SetToDiagnose);
DiagnosedUnrecoverableKinds |= KindsToDiagnose;
}
RecoverableKinds |= expandSanitizerGroups(Add);
Arg->claim();
} else if (Arg->getOption().matches(options::OPT_fno_sanitize_recover_EQ)) {
RecoverableKinds &= ~expandSanitizerGroups(parseArgValues(D, Arg, true));
Arg->claim();
}
if (DeprecatedReplacement) {
D.Diag(diag::warn_drv_deprecated_arg) << Arg->getAsString(Args)
<< DeprecatedReplacement;
}
}
RecoverableKinds &= Kinds;
RecoverableKinds &= ~Unrecoverable;
TrappingKinds &= Kinds;
// Setup blacklist files.
// Add default blacklist from resource directory.
{
std::string BLPath;
if (getDefaultBlacklist(D, Kinds, BLPath) && llvm::sys::fs::exists(BLPath))
BlacklistFiles.push_back(BLPath);
}
// Parse -f(no-)sanitize-blacklist options.
for (const auto *Arg : Args) {
if (Arg->getOption().matches(options::OPT_fsanitize_blacklist)) {
Arg->claim();
std::string BLPath = Arg->getValue();
if (llvm::sys::fs::exists(BLPath)) {
BlacklistFiles.push_back(BLPath);
ExtraDeps.push_back(BLPath);
} else
D.Diag(clang::diag::err_drv_no_such_file) << BLPath;
} else if (Arg->getOption().matches(options::OPT_fno_sanitize_blacklist)) {
Arg->claim();
BlacklistFiles.clear();
ExtraDeps.clear();
}
}
// Validate blacklists format.
{
std::string BLError;
std::unique_ptr<llvm::SpecialCaseList> SCL(
llvm::SpecialCaseList::create(BlacklistFiles, BLError));
if (!SCL.get())
D.Diag(clang::diag::err_drv_malformed_sanitizer_blacklist) << BLError;
}
// Parse -f[no-]sanitize-memory-track-origins[=level] options.
if (AllAddedKinds & Memory) {
if (Arg *A =
Args.getLastArg(options::OPT_fsanitize_memory_track_origins_EQ,
options::OPT_fsanitize_memory_track_origins,
options::OPT_fno_sanitize_memory_track_origins)) {
if (A->getOption().matches(options::OPT_fsanitize_memory_track_origins)) {
MsanTrackOrigins = 2;
} else if (A->getOption().matches(
options::OPT_fno_sanitize_memory_track_origins)) {
MsanTrackOrigins = 0;
} else {
StringRef S = A->getValue();
if (S.getAsInteger(0, MsanTrackOrigins) || MsanTrackOrigins < 0 ||
MsanTrackOrigins > 2) {
D.Diag(clang::diag::err_drv_invalid_value) << A->getAsString(Args) << S;
}
}
}
MsanUseAfterDtor =
Args.hasArg(options::OPT_fsanitize_memory_use_after_dtor);
NeedPIE |= !(TC.getTriple().isOSLinux() &&
TC.getTriple().getArch() == llvm::Triple::x86_64);
}
if (AllAddedKinds & Thread) {
TsanMemoryAccess = Args.hasFlag(options::OPT_fsanitize_thread_memory_access,
options::OPT_fno_sanitize_thread_memory_access,
TsanMemoryAccess);
TsanFuncEntryExit = Args.hasFlag(options::OPT_fsanitize_thread_func_entry_exit,
options::OPT_fno_sanitize_thread_func_entry_exit,
TsanFuncEntryExit);
TsanAtomics = Args.hasFlag(options::OPT_fsanitize_thread_atomics,
options::OPT_fno_sanitize_thread_atomics,
TsanAtomics);
}
if (AllAddedKinds & CFI) {
CfiCrossDso = Args.hasFlag(options::OPT_fsanitize_cfi_cross_dso,
options::OPT_fno_sanitize_cfi_cross_dso, false);
// Without PIE, external function address may resolve to a PLT record, which
// can not be verified by the target module.
NeedPIE |= CfiCrossDso;
}
Stats = Args.hasFlag(options::OPT_fsanitize_stats,
options::OPT_fno_sanitize_stats, false);
// Parse -f(no-)?sanitize-coverage flags if coverage is supported by the
// enabled sanitizers.
for (const auto *Arg : Args) {
if (Arg->getOption().matches(options::OPT_fsanitize_coverage)) {
int LegacySanitizeCoverage;
if (Arg->getNumValues() == 1 &&
!StringRef(Arg->getValue(0))
.getAsInteger(0, LegacySanitizeCoverage) &&
LegacySanitizeCoverage >= 0 && LegacySanitizeCoverage <= 4) {
switch (LegacySanitizeCoverage) {
case 0:
CoverageFeatures = 0;
Arg->claim();
break;
case 1:
D.Diag(diag::warn_drv_deprecated_arg) << Arg->getAsString(Args)
<< "-fsanitize-coverage=func";
CoverageFeatures = CoverageFunc;
break;
case 2:
D.Diag(diag::warn_drv_deprecated_arg) << Arg->getAsString(Args)
<< "-fsanitize-coverage=bb";
CoverageFeatures = CoverageBB;
break;
case 3:
D.Diag(diag::warn_drv_deprecated_arg) << Arg->getAsString(Args)
<< "-fsanitize-coverage=edge";
CoverageFeatures = CoverageEdge;
break;
case 4:
D.Diag(diag::warn_drv_deprecated_arg)
<< Arg->getAsString(Args)
<< "-fsanitize-coverage=edge,indirect-calls";
CoverageFeatures = CoverageEdge | CoverageIndirCall;
break;
}
continue;
}
CoverageFeatures |= parseCoverageFeatures(D, Arg);
// Disable coverage and not claim the flags if there is at least one
// non-supporting sanitizer.
if (!(AllAddedKinds & ~setGroupBits(SupportsCoverage))) {
Arg->claim();
} else {
CoverageFeatures = 0;
}
} else if (Arg->getOption().matches(options::OPT_fno_sanitize_coverage)) {
Arg->claim();
CoverageFeatures &= ~parseCoverageFeatures(D, Arg);
}
}
// Choose at most one coverage type: function, bb, or edge.
if ((CoverageFeatures & CoverageFunc) && (CoverageFeatures & CoverageBB))
D.Diag(clang::diag::err_drv_argument_not_allowed_with)
<< "-fsanitize-coverage=func"
<< "-fsanitize-coverage=bb";
if ((CoverageFeatures & CoverageFunc) && (CoverageFeatures & CoverageEdge))
D.Diag(clang::diag::err_drv_argument_not_allowed_with)
<< "-fsanitize-coverage=func"
<< "-fsanitize-coverage=edge";
if ((CoverageFeatures & CoverageBB) && (CoverageFeatures & CoverageEdge))
D.Diag(clang::diag::err_drv_argument_not_allowed_with)
<< "-fsanitize-coverage=bb"
<< "-fsanitize-coverage=edge";
// Basic block tracing and 8-bit counters require some type of coverage
// enabled.
int CoverageTypes = CoverageFunc | CoverageBB | CoverageEdge;
if ((CoverageFeatures & CoverageTraceBB) &&
!(CoverageFeatures & CoverageTypes))
D.Diag(clang::diag::err_drv_argument_only_allowed_with)
<< "-fsanitize-coverage=trace-bb"
<< "-fsanitize-coverage=(func|bb|edge)";
if ((CoverageFeatures & Coverage8bitCounters) &&
!(CoverageFeatures & CoverageTypes))
D.Diag(clang::diag::err_drv_argument_only_allowed_with)
<< "-fsanitize-coverage=8bit-counters"
<< "-fsanitize-coverage=(func|bb|edge)";
// trace-pc w/o func/bb/edge implies edge.
if ((CoverageFeatures & (CoverageTracePC | CoverageTracePCGuard)) &&
!(CoverageFeatures & CoverageTypes))
CoverageFeatures |= CoverageEdge;
if (AllAddedKinds & Address) {
AsanSharedRuntime =
Args.hasArg(options::OPT_shared_libasan) || TC.getTriple().isAndroid();
NeedPIE |= TC.getTriple().isAndroid();
if (Arg *A =
Args.getLastArg(options::OPT_fsanitize_address_field_padding)) {
StringRef S = A->getValue();
// Legal values are 0 and 1, 2, but in future we may add more levels.
if (S.getAsInteger(0, AsanFieldPadding) || AsanFieldPadding < 0 ||
AsanFieldPadding > 2) {
D.Diag(clang::diag::err_drv_invalid_value) << A->getAsString(Args) << S;
}
}
if (Arg *WindowsDebugRTArg =
Args.getLastArg(options::OPT__SLASH_MTd, options::OPT__SLASH_MT,
options::OPT__SLASH_MDd, options::OPT__SLASH_MD,
options::OPT__SLASH_LDd, options::OPT__SLASH_LD)) {
switch (WindowsDebugRTArg->getOption().getID()) {
case options::OPT__SLASH_MTd:
case options::OPT__SLASH_MDd:
case options::OPT__SLASH_LDd:
D.Diag(clang::diag::err_drv_argument_not_allowed_with)
<< WindowsDebugRTArg->getAsString(Args)
<< lastArgumentForMask(D, Args, Address);
D.Diag(clang::diag::note_drv_address_sanitizer_debug_runtime);
}
}
if (Arg *A = Args.getLastArg(
options::OPT_fsanitize_address_use_after_scope,
options::OPT_fno_sanitize_address_use_after_scope)) {
AsanUseAfterScope = A->getOption().getID() ==
options::OPT_fsanitize_address_use_after_scope;
}
}
// Parse -link-cxx-sanitizer flag.
LinkCXXRuntimes =
Args.hasArg(options::OPT_fsanitize_link_cxx_runtime) || D.CCCIsCXX();
// Finally, initialize the set of available and recoverable sanitizers.
Sanitizers.Mask |= Kinds;
RecoverableSanitizers.Mask |= RecoverableKinds;
TrapSanitizers.Mask |= TrappingKinds;
}
static std::string toString(const clang::SanitizerSet &Sanitizers) {
std::string Res;
#define SANITIZER(NAME, ID) \
if (Sanitizers.has(ID)) { \
if (!Res.empty()) \
Res += ","; \
Res += NAME; \
}
#include "clang/Basic/Sanitizers.def"
return Res;
}
static void addIncludeLinkerOption(const ToolChain &TC,
const llvm::opt::ArgList &Args,
llvm::opt::ArgStringList &CmdArgs,
StringRef SymbolName) {
SmallString<64> LinkerOptionFlag;
LinkerOptionFlag = "--linker-option=/include:";
if (TC.getTriple().getArch() == llvm::Triple::x86) {
// Win32 mangles C function names with a '_' prefix.
LinkerOptionFlag += '_';
}
LinkerOptionFlag += SymbolName;
CmdArgs.push_back(Args.MakeArgString(LinkerOptionFlag));
}
void SanitizerArgs::addArgs(const ToolChain &TC, const llvm::opt::ArgList &Args,
llvm::opt::ArgStringList &CmdArgs,
types::ID InputType) const {
// NVPTX doesn't currently support sanitizers. Bailing out here means that
// e.g. -fsanitize=address applies only to host code, which is what we want
// for now.
if (TC.getTriple().isNVPTX())
return;
// Translate available CoverageFeatures to corresponding clang-cc1 flags.
// Do it even if Sanitizers.empty() since some forms of coverage don't require
// sanitizers.
std::pair<int, const char *> CoverageFlags[] = {
std::make_pair(CoverageFunc, "-fsanitize-coverage-type=1"),
std::make_pair(CoverageBB, "-fsanitize-coverage-type=2"),
std::make_pair(CoverageEdge, "-fsanitize-coverage-type=3"),
std::make_pair(CoverageIndirCall, "-fsanitize-coverage-indirect-calls"),
std::make_pair(CoverageTraceBB, "-fsanitize-coverage-trace-bb"),
std::make_pair(CoverageTraceCmp, "-fsanitize-coverage-trace-cmp"),
std::make_pair(CoverageTraceDiv, "-fsanitize-coverage-trace-div"),
std::make_pair(CoverageTraceGep, "-fsanitize-coverage-trace-gep"),
std::make_pair(Coverage8bitCounters, "-fsanitize-coverage-8bit-counters"),
std::make_pair(CoverageTracePC, "-fsanitize-coverage-trace-pc"),
std::make_pair(CoverageTracePCGuard, "-fsanitize-coverage-trace-pc-guard")};
for (auto F : CoverageFlags) {
if (CoverageFeatures & F.first)
CmdArgs.push_back(Args.MakeArgString(F.second));
}
if (TC.getTriple().isOSWindows() && needsUbsanRt()) {
// Instruct the code generator to embed linker directives in the object file
// that cause the required runtime libraries to be linked.
CmdArgs.push_back(Args.MakeArgString(
"--dependent-lib=" + TC.getCompilerRT(Args, "ubsan_standalone")));
if (types::isCXX(InputType))
CmdArgs.push_back(Args.MakeArgString(
"--dependent-lib=" + TC.getCompilerRT(Args, "ubsan_standalone_cxx")));
}
if (TC.getTriple().isOSWindows() && needsStatsRt()) {
CmdArgs.push_back(Args.MakeArgString("--dependent-lib=" +
TC.getCompilerRT(Args, "stats_client")));
// The main executable must export the stats runtime.
// FIXME: Only exporting from the main executable (e.g. based on whether the
// translation unit defines main()) would save a little space, but having
// multiple copies of the runtime shouldn't hurt.
CmdArgs.push_back(Args.MakeArgString("--dependent-lib=" +
TC.getCompilerRT(Args, "stats")));
addIncludeLinkerOption(TC, Args, CmdArgs, "__sanitizer_stats_register");
}
if (Sanitizers.empty())
return;
CmdArgs.push_back(Args.MakeArgString("-fsanitize=" + toString(Sanitizers)));
if (!RecoverableSanitizers.empty())
CmdArgs.push_back(Args.MakeArgString("-fsanitize-recover=" +
toString(RecoverableSanitizers)));
if (!TrapSanitizers.empty())
CmdArgs.push_back(
Args.MakeArgString("-fsanitize-trap=" + toString(TrapSanitizers)));
for (const auto &BLPath : BlacklistFiles) {
SmallString<64> BlacklistOpt("-fsanitize-blacklist=");
BlacklistOpt += BLPath;
CmdArgs.push_back(Args.MakeArgString(BlacklistOpt));
}
for (const auto &Dep : ExtraDeps) {
SmallString<64> ExtraDepOpt("-fdepfile-entry=");
ExtraDepOpt += Dep;
CmdArgs.push_back(Args.MakeArgString(ExtraDepOpt));
}
if (MsanTrackOrigins)
CmdArgs.push_back(Args.MakeArgString("-fsanitize-memory-track-origins=" +
llvm::utostr(MsanTrackOrigins)));
if (MsanUseAfterDtor)
CmdArgs.push_back(Args.MakeArgString("-fsanitize-memory-use-after-dtor"));
// FIXME: Pass these parameters as function attributes, not as -llvm flags.
if (!TsanMemoryAccess) {
CmdArgs.push_back("-mllvm");
CmdArgs.push_back("-tsan-instrument-memory-accesses=0");
CmdArgs.push_back("-mllvm");
CmdArgs.push_back("-tsan-instrument-memintrinsics=0");
}
if (!TsanFuncEntryExit) {
CmdArgs.push_back("-mllvm");
CmdArgs.push_back("-tsan-instrument-func-entry-exit=0");
}
if (!TsanAtomics) {
CmdArgs.push_back("-mllvm");
CmdArgs.push_back("-tsan-instrument-atomics=0");
}
if (CfiCrossDso)
CmdArgs.push_back(Args.MakeArgString("-fsanitize-cfi-cross-dso"));
if (Stats)
CmdArgs.push_back(Args.MakeArgString("-fsanitize-stats"));
if (AsanFieldPadding)
CmdArgs.push_back(Args.MakeArgString("-fsanitize-address-field-padding=" +
llvm::utostr(AsanFieldPadding)));
if (AsanUseAfterScope)
CmdArgs.push_back(Args.MakeArgString("-fsanitize-address-use-after-scope"));
// MSan: Workaround for PR16386.
// ASan: This is mainly to help LSan with cases such as
// https://code.google.com/p/address-sanitizer/issues/detail?id=373
// We can't make this conditional on -fsanitize=leak, as that flag shouldn't
// affect compilation.
if (Sanitizers.has(Memory) || Sanitizers.has(Address))
CmdArgs.push_back(Args.MakeArgString("-fno-assume-sane-operator-new"));
// Require -fvisibility= flag on non-Windows when compiling if vptr CFI is
// enabled.
if (Sanitizers.hasOneOf(CFIClasses) && !TC.getTriple().isOSWindows() &&
!Args.hasArg(options::OPT_fvisibility_EQ)) {
TC.getDriver().Diag(clang::diag::err_drv_argument_only_allowed_with)
<< lastArgumentForMask(TC.getDriver(), Args,
Sanitizers.Mask & CFIClasses)
<< "-fvisibility=";
}
}
SanitizerMask parseArgValues(const Driver &D, const llvm::opt::Arg *A,
bool DiagnoseErrors) {
assert((A->getOption().matches(options::OPT_fsanitize_EQ) ||
A->getOption().matches(options::OPT_fno_sanitize_EQ) ||
A->getOption().matches(options::OPT_fsanitize_recover_EQ) ||
A->getOption().matches(options::OPT_fno_sanitize_recover_EQ) ||
A->getOption().matches(options::OPT_fsanitize_trap_EQ) ||
A->getOption().matches(options::OPT_fno_sanitize_trap_EQ)) &&
"Invalid argument in parseArgValues!");
SanitizerMask Kinds = 0;
for (int i = 0, n = A->getNumValues(); i != n; ++i) {
const char *Value = A->getValue(i);
SanitizerMask Kind;
// Special case: don't accept -fsanitize=all.
if (A->getOption().matches(options::OPT_fsanitize_EQ) &&
0 == strcmp("all", Value))
Kind = 0;
// Similarly, don't accept -fsanitize=efficiency-all.
else if (A->getOption().matches(options::OPT_fsanitize_EQ) &&
0 == strcmp("efficiency-all", Value))
Kind = 0;
else
Kind = parseSanitizerValue(Value, /*AllowGroups=*/true);
if (Kind)
Kinds |= Kind;
else if (DiagnoseErrors)
D.Diag(clang::diag::err_drv_unsupported_option_argument)
<< A->getOption().getName() << Value;
}
return Kinds;
}
int parseCoverageFeatures(const Driver &D, const llvm::opt::Arg *A) {
assert(A->getOption().matches(options::OPT_fsanitize_coverage) ||
A->getOption().matches(options::OPT_fno_sanitize_coverage));
int Features = 0;
for (int i = 0, n = A->getNumValues(); i != n; ++i) {
const char *Value = A->getValue(i);
int F = llvm::StringSwitch<int>(Value)
.Case("func", CoverageFunc)
.Case("bb", CoverageBB)
.Case("edge", CoverageEdge)
.Case("indirect-calls", CoverageIndirCall)
.Case("trace-bb", CoverageTraceBB)
.Case("trace-cmp", CoverageTraceCmp)
.Case("trace-div", CoverageTraceDiv)
.Case("trace-gep", CoverageTraceGep)
.Case("8bit-counters", Coverage8bitCounters)
.Case("trace-pc", CoverageTracePC)
.Case("trace-pc-guard", CoverageTracePCGuard)
.Default(0);
if (F == 0)
D.Diag(clang::diag::err_drv_unsupported_option_argument)
<< A->getOption().getName() << Value;
Features |= F;
}
return Features;
}
std::string lastArgumentForMask(const Driver &D, const llvm::opt::ArgList &Args,
SanitizerMask Mask) {
for (llvm::opt::ArgList::const_reverse_iterator I = Args.rbegin(),
E = Args.rend();
I != E; ++I) {
const auto *Arg = *I;
if (Arg->getOption().matches(options::OPT_fsanitize_EQ)) {
SanitizerMask AddKinds =
expandSanitizerGroups(parseArgValues(D, Arg, false));
if (AddKinds & Mask)
return describeSanitizeArg(Arg, Mask);
} else if (Arg->getOption().matches(options::OPT_fno_sanitize_EQ)) {
SanitizerMask RemoveKinds =
expandSanitizerGroups(parseArgValues(D, Arg, false));
Mask &= ~RemoveKinds;
}
}
llvm_unreachable("arg list didn't provide expected value");
}
std::string describeSanitizeArg(const llvm::opt::Arg *A, SanitizerMask Mask) {
assert(A->getOption().matches(options::OPT_fsanitize_EQ)
&& "Invalid argument in describeSanitizerArg!");
std::string Sanitizers;
for (int i = 0, n = A->getNumValues(); i != n; ++i) {
if (expandSanitizerGroups(
parseSanitizerValue(A->getValue(i), /*AllowGroups=*/true)) &
Mask) {
if (!Sanitizers.empty())
Sanitizers += ",";
Sanitizers += A->getValue(i);
}
}
assert(!Sanitizers.empty() && "arg didn't provide expected value");
return "-fsanitize=" + Sanitizers;
}
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