Retro68/gcc/libsanitizer/ubsan/ubsan_handlers.cc

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//===-- ubsan_handlers.cc -------------------------------------------------===//
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// Error logging entry points for the UBSan runtime.
//
//===----------------------------------------------------------------------===//
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#include "ubsan_platform.h"
#if CAN_SANITIZE_UB
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#include "ubsan_handlers.h"
#include "ubsan_diag.h"
#include "sanitizer_common/sanitizer_common.h"
using namespace __sanitizer;
using namespace __ubsan;
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static bool ignoreReport(SourceLocation SLoc, ReportOptions Opts) {
// If source location is already acquired, we don't need to print an error
// report for the second time. However, if we're in an unrecoverable handler,
// it's possible that location was required by concurrently running thread.
// In this case, we should continue the execution to ensure that any of
// threads will grab the report mutex and print the report before
// crashing the program.
return SLoc.isDisabled() && !Opts.DieAfterReport;
}
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namespace __ubsan {
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const char *TypeCheckKinds[] = {
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"load of", "store to", "reference binding to", "member access within",
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"member call on", "constructor call on", "downcast of", "downcast of",
"upcast of", "cast to virtual base of"};
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}
static void handleTypeMismatchImpl(TypeMismatchData *Data, ValueHandle Pointer,
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ReportOptions Opts) {
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Location Loc = Data->Loc.acquire();
// Use the SourceLocation from Data to track deduplication, even if 'invalid'
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if (ignoreReport(Loc.getSourceLocation(), Opts))
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return;
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SymbolizedStackHolder FallbackLoc;
if (Data->Loc.isInvalid()) {
FallbackLoc.reset(getCallerLocation(Opts.pc));
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Loc = FallbackLoc;
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}
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ScopedReport R(Opts, Loc);
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if (!Pointer) {
R.setErrorType(ErrorType::NullPointerUse);
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Diag(Loc, DL_Error, "%0 null pointer of type %1")
<< TypeCheckKinds[Data->TypeCheckKind] << Data->Type;
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} else if (Data->Alignment && (Pointer & (Data->Alignment - 1))) {
R.setErrorType(ErrorType::MisalignedPointerUse);
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Diag(Loc, DL_Error, "%0 misaligned address %1 for type %3, "
"which requires %2 byte alignment")
<< TypeCheckKinds[Data->TypeCheckKind] << (void*)Pointer
<< Data->Alignment << Data->Type;
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} else {
R.setErrorType(ErrorType::InsufficientObjectSize);
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Diag(Loc, DL_Error, "%0 address %1 with insufficient space "
"for an object of type %2")
<< TypeCheckKinds[Data->TypeCheckKind] << (void*)Pointer << Data->Type;
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}
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if (Pointer)
Diag(Pointer, DL_Note, "pointer points here");
}
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void __ubsan::__ubsan_handle_type_mismatch(TypeMismatchData *Data,
ValueHandle Pointer) {
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GET_REPORT_OPTIONS(false);
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handleTypeMismatchImpl(Data, Pointer, Opts);
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}
void __ubsan::__ubsan_handle_type_mismatch_abort(TypeMismatchData *Data,
ValueHandle Pointer) {
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GET_REPORT_OPTIONS(true);
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handleTypeMismatchImpl(Data, Pointer, Opts);
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Die();
}
/// \brief Common diagnostic emission for various forms of integer overflow.
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template <typename T>
static void handleIntegerOverflowImpl(OverflowData *Data, ValueHandle LHS,
const char *Operator, T RHS,
ReportOptions Opts) {
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SourceLocation Loc = Data->Loc.acquire();
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if (ignoreReport(Loc, Opts))
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return;
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bool IsSigned = Data->Type.isSignedIntegerTy();
ScopedReport R(Opts, Loc, IsSigned ? ErrorType::SignedIntegerOverflow
: ErrorType::UnsignedIntegerOverflow);
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Diag(Loc, DL_Error, "%0 integer overflow: "
"%1 %2 %3 cannot be represented in type %4")
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<< (IsSigned ? "signed" : "unsigned")
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<< Value(Data->Type, LHS) << Operator << RHS << Data->Type;
}
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#define UBSAN_OVERFLOW_HANDLER(handler_name, op, abort) \
void __ubsan::handler_name(OverflowData *Data, ValueHandle LHS, \
ValueHandle RHS) { \
GET_REPORT_OPTIONS(abort); \
handleIntegerOverflowImpl(Data, LHS, op, Value(Data->Type, RHS), Opts); \
if (abort) Die(); \
}
UBSAN_OVERFLOW_HANDLER(__ubsan_handle_add_overflow, "+", false)
UBSAN_OVERFLOW_HANDLER(__ubsan_handle_add_overflow_abort, "+", true)
UBSAN_OVERFLOW_HANDLER(__ubsan_handle_sub_overflow, "-", false)
UBSAN_OVERFLOW_HANDLER(__ubsan_handle_sub_overflow_abort, "-", true)
UBSAN_OVERFLOW_HANDLER(__ubsan_handle_mul_overflow, "*", false)
UBSAN_OVERFLOW_HANDLER(__ubsan_handle_mul_overflow_abort, "*", true)
static void handleNegateOverflowImpl(OverflowData *Data, ValueHandle OldVal,
ReportOptions Opts) {
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SourceLocation Loc = Data->Loc.acquire();
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if (ignoreReport(Loc, Opts))
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return;
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bool IsSigned = Data->Type.isSignedIntegerTy();
ScopedReport R(Opts, Loc, IsSigned ? ErrorType::SignedIntegerOverflow
: ErrorType::UnsignedIntegerOverflow);
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if (IsSigned)
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Diag(Loc, DL_Error,
"negation of %0 cannot be represented in type %1; "
"cast to an unsigned type to negate this value to itself")
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<< Value(Data->Type, OldVal) << Data->Type;
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else
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Diag(Loc, DL_Error, "negation of %0 cannot be represented in type %1")
<< Value(Data->Type, OldVal) << Data->Type;
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}
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void __ubsan::__ubsan_handle_negate_overflow(OverflowData *Data,
ValueHandle OldVal) {
GET_REPORT_OPTIONS(false);
handleNegateOverflowImpl(Data, OldVal, Opts);
}
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void __ubsan::__ubsan_handle_negate_overflow_abort(OverflowData *Data,
ValueHandle OldVal) {
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GET_REPORT_OPTIONS(true);
handleNegateOverflowImpl(Data, OldVal, Opts);
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Die();
}
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static void handleDivremOverflowImpl(OverflowData *Data, ValueHandle LHS,
ValueHandle RHS, ReportOptions Opts) {
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SourceLocation Loc = Data->Loc.acquire();
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if (ignoreReport(Loc, Opts))
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return;
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ScopedReport R(Opts, Loc);
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Value LHSVal(Data->Type, LHS);
Value RHSVal(Data->Type, RHS);
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if (RHSVal.isMinusOne()) {
R.setErrorType(ErrorType::SignedIntegerOverflow);
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Diag(Loc, DL_Error,
"division of %0 by -1 cannot be represented in type %1")
<< LHSVal << Data->Type;
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} else {
R.setErrorType(Data->Type.isIntegerTy() ? ErrorType::IntegerDivideByZero
: ErrorType::FloatDivideByZero);
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Diag(Loc, DL_Error, "division by zero");
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}
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}
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void __ubsan::__ubsan_handle_divrem_overflow(OverflowData *Data,
ValueHandle LHS, ValueHandle RHS) {
GET_REPORT_OPTIONS(false);
handleDivremOverflowImpl(Data, LHS, RHS, Opts);
}
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void __ubsan::__ubsan_handle_divrem_overflow_abort(OverflowData *Data,
ValueHandle LHS,
ValueHandle RHS) {
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GET_REPORT_OPTIONS(true);
handleDivremOverflowImpl(Data, LHS, RHS, Opts);
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Die();
}
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static void handleShiftOutOfBoundsImpl(ShiftOutOfBoundsData *Data,
ValueHandle LHS, ValueHandle RHS,
ReportOptions Opts) {
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SourceLocation Loc = Data->Loc.acquire();
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if (ignoreReport(Loc, Opts))
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return;
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ScopedReport R(Opts, Loc);
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Value LHSVal(Data->LHSType, LHS);
Value RHSVal(Data->RHSType, RHS);
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if (RHSVal.isNegative()) {
R.setErrorType(ErrorType::InvalidShiftExponent);
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Diag(Loc, DL_Error, "shift exponent %0 is negative") << RHSVal;
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} else if (RHSVal.getPositiveIntValue() >=
Data->LHSType.getIntegerBitWidth()) {
R.setErrorType(ErrorType::InvalidShiftExponent);
Diag(Loc, DL_Error, "shift exponent %0 is too large for %1-bit type %2")
<< RHSVal << Data->LHSType.getIntegerBitWidth() << Data->LHSType;
} else if (LHSVal.isNegative()) {
R.setErrorType(ErrorType::InvalidShiftBase);
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Diag(Loc, DL_Error, "left shift of negative value %0") << LHSVal;
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} else {
R.setErrorType(ErrorType::InvalidShiftBase);
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Diag(Loc, DL_Error,
"left shift of %0 by %1 places cannot be represented in type %2")
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<< LHSVal << RHSVal << Data->LHSType;
}
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}
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void __ubsan::__ubsan_handle_shift_out_of_bounds(ShiftOutOfBoundsData *Data,
ValueHandle LHS,
ValueHandle RHS) {
GET_REPORT_OPTIONS(false);
handleShiftOutOfBoundsImpl(Data, LHS, RHS, Opts);
}
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void __ubsan::__ubsan_handle_shift_out_of_bounds_abort(
ShiftOutOfBoundsData *Data,
ValueHandle LHS,
ValueHandle RHS) {
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GET_REPORT_OPTIONS(true);
handleShiftOutOfBoundsImpl(Data, LHS, RHS, Opts);
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Die();
}
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static void handleOutOfBoundsImpl(OutOfBoundsData *Data, ValueHandle Index,
ReportOptions Opts) {
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SourceLocation Loc = Data->Loc.acquire();
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if (ignoreReport(Loc, Opts))
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return;
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ScopedReport R(Opts, Loc, ErrorType::OutOfBoundsIndex);
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Value IndexVal(Data->IndexType, Index);
Diag(Loc, DL_Error, "index %0 out of bounds for type %1")
<< IndexVal << Data->ArrayType;
}
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void __ubsan::__ubsan_handle_out_of_bounds(OutOfBoundsData *Data,
ValueHandle Index) {
GET_REPORT_OPTIONS(false);
handleOutOfBoundsImpl(Data, Index, Opts);
}
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void __ubsan::__ubsan_handle_out_of_bounds_abort(OutOfBoundsData *Data,
ValueHandle Index) {
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GET_REPORT_OPTIONS(true);
handleOutOfBoundsImpl(Data, Index, Opts);
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Die();
}
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static void handleBuiltinUnreachableImpl(UnreachableData *Data,
ReportOptions Opts) {
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ScopedReport R(Opts, Data->Loc, ErrorType::UnreachableCall);
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Diag(Data->Loc, DL_Error, "execution reached a __builtin_unreachable() call");
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}
void __ubsan::__ubsan_handle_builtin_unreachable(UnreachableData *Data) {
GET_REPORT_OPTIONS(true);
handleBuiltinUnreachableImpl(Data, Opts);
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Die();
}
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static void handleMissingReturnImpl(UnreachableData *Data, ReportOptions Opts) {
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ScopedReport R(Opts, Data->Loc, ErrorType::MissingReturn);
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Diag(Data->Loc, DL_Error,
"execution reached the end of a value-returning function "
"without returning a value");
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}
void __ubsan::__ubsan_handle_missing_return(UnreachableData *Data) {
GET_REPORT_OPTIONS(true);
handleMissingReturnImpl(Data, Opts);
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Die();
}
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static void handleVLABoundNotPositive(VLABoundData *Data, ValueHandle Bound,
ReportOptions Opts) {
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SourceLocation Loc = Data->Loc.acquire();
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if (ignoreReport(Loc, Opts))
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return;
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ScopedReport R(Opts, Loc, ErrorType::NonPositiveVLAIndex);
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Diag(Loc, DL_Error, "variable length array bound evaluates to "
"non-positive value %0")
<< Value(Data->Type, Bound);
}
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void __ubsan::__ubsan_handle_vla_bound_not_positive(VLABoundData *Data,
ValueHandle Bound) {
GET_REPORT_OPTIONS(false);
handleVLABoundNotPositive(Data, Bound, Opts);
}
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void __ubsan::__ubsan_handle_vla_bound_not_positive_abort(VLABoundData *Data,
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ValueHandle Bound) {
GET_REPORT_OPTIONS(true);
handleVLABoundNotPositive(Data, Bound, Opts);
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Die();
}
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static bool looksLikeFloatCastOverflowDataV1(void *Data) {
// First field is either a pointer to filename or a pointer to a
// TypeDescriptor.
u8 *FilenameOrTypeDescriptor;
internal_memcpy(&FilenameOrTypeDescriptor, Data,
sizeof(FilenameOrTypeDescriptor));
// Heuristic: For float_cast_overflow, the TypeKind will be either TK_Integer
// (0x0), TK_Float (0x1) or TK_Unknown (0xff). If both types are known,
// adding both bytes will be 0 or 1 (for BE or LE). If it were a filename,
// adding two printable characters will not yield such a value. Otherwise,
// if one of them is 0xff, this is most likely TK_Unknown type descriptor.
u16 MaybeFromTypeKind =
FilenameOrTypeDescriptor[0] + FilenameOrTypeDescriptor[1];
return MaybeFromTypeKind < 2 || FilenameOrTypeDescriptor[0] == 0xff ||
FilenameOrTypeDescriptor[1] == 0xff;
}
static void handleFloatCastOverflow(void *DataPtr, ValueHandle From,
ReportOptions Opts) {
SymbolizedStackHolder CallerLoc;
Location Loc;
const TypeDescriptor *FromType, *ToType;
if (looksLikeFloatCastOverflowDataV1(DataPtr)) {
auto Data = reinterpret_cast<FloatCastOverflowData *>(DataPtr);
CallerLoc.reset(getCallerLocation(Opts.pc));
Loc = CallerLoc;
FromType = &Data->FromType;
ToType = &Data->ToType;
} else {
auto Data = reinterpret_cast<FloatCastOverflowDataV2 *>(DataPtr);
SourceLocation SLoc = Data->Loc.acquire();
if (ignoreReport(SLoc, Opts))
return;
Loc = SLoc;
FromType = &Data->FromType;
ToType = &Data->ToType;
}
ScopedReport R(Opts, Loc, ErrorType::FloatCastOverflow);
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Diag(Loc, DL_Error,
"value %0 is outside the range of representable values of type %2")
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<< Value(*FromType, From) << *FromType << *ToType;
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}
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void __ubsan::__ubsan_handle_float_cast_overflow(void *Data, ValueHandle From) {
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GET_REPORT_OPTIONS(false);
handleFloatCastOverflow(Data, From, Opts);
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}
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void __ubsan::__ubsan_handle_float_cast_overflow_abort(void *Data,
ValueHandle From) {
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GET_REPORT_OPTIONS(true);
handleFloatCastOverflow(Data, From, Opts);
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Die();
}
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static void handleLoadInvalidValue(InvalidValueData *Data, ValueHandle Val,
ReportOptions Opts) {
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SourceLocation Loc = Data->Loc.acquire();
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if (ignoreReport(Loc, Opts))
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return;
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// This check could be more precise if we used different handlers for
// -fsanitize=bool and -fsanitize=enum.
bool IsBool = (0 == internal_strcmp(Data->Type.getTypeName(), "'bool'"));
ScopedReport R(Opts, Loc, IsBool ? ErrorType::InvalidBoolLoad
: ErrorType::InvalidEnumLoad);
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Diag(Loc, DL_Error,
"load of value %0, which is not a valid value for type %1")
<< Value(Data->Type, Val) << Data->Type;
}
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void __ubsan::__ubsan_handle_load_invalid_value(InvalidValueData *Data,
ValueHandle Val) {
GET_REPORT_OPTIONS(false);
handleLoadInvalidValue(Data, Val, Opts);
}
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void __ubsan::__ubsan_handle_load_invalid_value_abort(InvalidValueData *Data,
ValueHandle Val) {
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GET_REPORT_OPTIONS(true);
handleLoadInvalidValue(Data, Val, Opts);
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Die();
}
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static void handleFunctionTypeMismatch(FunctionTypeMismatchData *Data,
ValueHandle Function,
ReportOptions Opts) {
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SourceLocation CallLoc = Data->Loc.acquire();
if (ignoreReport(CallLoc, Opts))
return;
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ScopedReport R(Opts, CallLoc, ErrorType::FunctionTypeMismatch);
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SymbolizedStackHolder FLoc(getSymbolizedLocation(Function));
const char *FName = FLoc.get()->info.function;
if (!FName)
FName = "(unknown)";
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Diag(CallLoc, DL_Error,
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"call to function %0 through pointer to incorrect function type %1")
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<< FName << Data->Type;
Diag(FLoc, DL_Note, "%0 defined here") << FName;
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}
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void
__ubsan::__ubsan_handle_function_type_mismatch(FunctionTypeMismatchData *Data,
ValueHandle Function) {
GET_REPORT_OPTIONS(false);
handleFunctionTypeMismatch(Data, Function, Opts);
}
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void __ubsan::__ubsan_handle_function_type_mismatch_abort(
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FunctionTypeMismatchData *Data, ValueHandle Function) {
GET_REPORT_OPTIONS(true);
handleFunctionTypeMismatch(Data, Function, Opts);
Die();
}
static void handleNonNullReturn(NonNullReturnData *Data, ReportOptions Opts) {
SourceLocation Loc = Data->Loc.acquire();
if (ignoreReport(Loc, Opts))
return;
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ScopedReport R(Opts, Loc, ErrorType::InvalidNullReturn);
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Diag(Loc, DL_Error, "null pointer returned from function declared to never "
"return null");
if (!Data->AttrLoc.isInvalid())
Diag(Data->AttrLoc, DL_Note, "returns_nonnull attribute specified here");
}
void __ubsan::__ubsan_handle_nonnull_return(NonNullReturnData *Data) {
GET_REPORT_OPTIONS(false);
handleNonNullReturn(Data, Opts);
}
void __ubsan::__ubsan_handle_nonnull_return_abort(NonNullReturnData *Data) {
GET_REPORT_OPTIONS(true);
handleNonNullReturn(Data, Opts);
Die();
}
static void handleNonNullArg(NonNullArgData *Data, ReportOptions Opts) {
SourceLocation Loc = Data->Loc.acquire();
if (ignoreReport(Loc, Opts))
return;
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ScopedReport R(Opts, Loc, ErrorType::InvalidNullArgument);
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Diag(Loc, DL_Error, "null pointer passed as argument %0, which is declared to "
"never be null") << Data->ArgIndex;
if (!Data->AttrLoc.isInvalid())
Diag(Data->AttrLoc, DL_Note, "nonnull attribute specified here");
}
void __ubsan::__ubsan_handle_nonnull_arg(NonNullArgData *Data) {
GET_REPORT_OPTIONS(false);
handleNonNullArg(Data, Opts);
}
void __ubsan::__ubsan_handle_nonnull_arg_abort(NonNullArgData *Data) {
GET_REPORT_OPTIONS(true);
handleNonNullArg(Data, Opts);
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Die();
}
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static void handleCFIBadIcall(CFIBadIcallData *Data, ValueHandle Function,
ReportOptions Opts) {
SourceLocation Loc = Data->Loc.acquire();
if (ignoreReport(Loc, Opts))
return;
ScopedReport R(Opts, Loc);
Diag(Loc, DL_Error, "control flow integrity check for type %0 failed during "
"indirect function call")
<< Data->Type;
SymbolizedStackHolder FLoc(getSymbolizedLocation(Function));
const char *FName = FLoc.get()->info.function;
if (!FName)
FName = "(unknown)";
Diag(FLoc, DL_Note, "%0 defined here") << FName;
}
void __ubsan::__ubsan_handle_cfi_bad_icall(CFIBadIcallData *Data,
ValueHandle Function) {
GET_REPORT_OPTIONS(false);
handleCFIBadIcall(Data, Function, Opts);
}
void __ubsan::__ubsan_handle_cfi_bad_icall_abort(CFIBadIcallData *Data,
ValueHandle Function) {
GET_REPORT_OPTIONS(true);
handleCFIBadIcall(Data, Function, Opts);
Die();
}
#endif // CAN_SANITIZE_UB