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f982ef0ef0
The separate backtrace that the PANIC emits isn't useful and just adds more data to visually filter from the output when debugging an issue. Instead of calling PANIC, just emit the message with dbgln() and manually halt the system.
221 lines
8.9 KiB
C++
221 lines
8.9 KiB
C++
/*
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* Copyright (c) 2021, Andreas Kling <kling@serenityos.org>
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*
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* SPDX-License-Identifier: BSD-2-Clause
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*/
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#include <AK/Format.h>
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#include <Kernel/Arch/x86/CPU.h>
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#include <Kernel/KSyms.h>
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#include <Kernel/UBSanitizer.h>
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using namespace Kernel;
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using namespace Kernel::UBSanitizer;
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bool Kernel::UBSanitizer::g_ubsan_is_deadly { true };
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extern "C" {
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static void print_location(const SourceLocation& location)
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{
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if (!location.filename()) {
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dbgln("KUBSAN: in unknown file");
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} else {
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dbgln("KUBSAN: at {}, line {}, column: {}", location.filename(), location.line(), location.column());
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}
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dump_backtrace();
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if (g_ubsan_is_deadly) {
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dbgln("UB is configured to be deadly, halting the system.");
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Processor::halt();
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}
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}
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void __ubsan_handle_load_invalid_value(const InvalidValueData&, ValueHandle) __attribute__((used));
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void __ubsan_handle_load_invalid_value(const InvalidValueData& data, ValueHandle)
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{
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dbgln("KUBSAN: load-invalid-value: {} ({}-bit)", data.type.name(), data.type.bit_width());
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print_location(data.location);
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}
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void __ubsan_handle_nonnull_arg(const NonnullArgData&) __attribute__((used));
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void __ubsan_handle_nonnull_arg(const NonnullArgData& data)
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{
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dbgln("KUBSAN: null pointer passed as argument {}, which is declared to never be null", data.argument_index);
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print_location(data.location);
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}
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void __ubsan_handle_nullability_arg(const NonnullArgData&) __attribute__((used));
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void __ubsan_handle_nullability_arg(const NonnullArgData& data)
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{
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dbgln("KUBSAN: null pointer passed as argument {}, which is declared to never be null", data.argument_index);
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print_location(data.location);
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}
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void __ubsan_handle_nonnull_return_v1(const NonnullReturnData&, const SourceLocation&) __attribute__((used));
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void __ubsan_handle_nonnull_return_v1(const NonnullReturnData&, const SourceLocation& location)
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{
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dbgln("KUBSAN: null pointer return from function declared to never return null");
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print_location(location);
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}
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void __ubsan_handle_nullability_return_v1(const NonnullReturnData& data, const SourceLocation& location) __attribute__((used));
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void __ubsan_handle_nullability_return_v1(const NonnullReturnData&, const SourceLocation& location)
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{
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dbgln("KUBSAN: null pointer return from function declared to never return null");
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print_location(location);
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}
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void __ubsan_handle_vla_bound_not_positive(const VLABoundData&, ValueHandle) __attribute__((used));
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void __ubsan_handle_vla_bound_not_positive(const VLABoundData& data, ValueHandle)
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{
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dbgln("KUBSAN: VLA bound not positive {} ({}-bit)", data.type.name(), data.type.bit_width());
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print_location(data.location);
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}
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void __ubsan_handle_add_overflow(const OverflowData&, ValueHandle lhs, ValueHandle rhs) __attribute__((used));
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void __ubsan_handle_add_overflow(const OverflowData& data, ValueHandle, ValueHandle)
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{
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dbgln("KUBSAN: addition overflow, {} ({}-bit)", data.type.name(), data.type.bit_width());
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print_location(data.location);
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}
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void __ubsan_handle_sub_overflow(const OverflowData&, ValueHandle lhs, ValueHandle rhs) __attribute__((used));
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void __ubsan_handle_sub_overflow(const OverflowData& data, ValueHandle, ValueHandle)
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{
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dbgln("KUBSAN: subtraction overflow, {} ({}-bit)", data.type.name(), data.type.bit_width());
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print_location(data.location);
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}
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void __ubsan_handle_negate_overflow(const OverflowData&, ValueHandle) __attribute__((used));
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void __ubsan_handle_negate_overflow(const OverflowData& data, ValueHandle)
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{
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dbgln("KUBSAN: negation overflow, {} ({}-bit)", data.type.name(), data.type.bit_width());
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print_location(data.location);
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}
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void __ubsan_handle_mul_overflow(const OverflowData&, ValueHandle lhs, ValueHandle rhs) __attribute__((used));
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void __ubsan_handle_mul_overflow(const OverflowData& data, ValueHandle, ValueHandle)
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{
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dbgln("KUBSAN: multiplication overflow, {} ({}-bit)", data.type.name(), data.type.bit_width());
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print_location(data.location);
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}
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void __ubsan_handle_shift_out_of_bounds(const ShiftOutOfBoundsData&, ValueHandle lhs, ValueHandle rhs) __attribute__((used));
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void __ubsan_handle_shift_out_of_bounds(const ShiftOutOfBoundsData& data, ValueHandle, ValueHandle)
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{
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dbgln("KUBSAN: shift out of bounds, {} ({}-bit) shifted by {} ({}-bit)", data.lhs_type.name(), data.lhs_type.bit_width(), data.rhs_type.name(), data.rhs_type.bit_width());
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print_location(data.location);
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}
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void __ubsan_handle_divrem_overflow(const OverflowData&, ValueHandle lhs, ValueHandle rhs) __attribute__((used));
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void __ubsan_handle_divrem_overflow(const OverflowData& data, ValueHandle, ValueHandle)
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{
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dbgln("KUBSAN: divrem overflow, {} ({}-bit)", data.type.name(), data.type.bit_width());
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print_location(data.location);
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}
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void __ubsan_handle_out_of_bounds(const OutOfBoundsData&, ValueHandle) __attribute__((used));
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void __ubsan_handle_out_of_bounds(const OutOfBoundsData& data, ValueHandle)
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{
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dbgln("KUBSAN: out of bounds access into array of {} ({}-bit), index type {} ({}-bit)", data.array_type.name(), data.array_type.bit_width(), data.index_type.name(), data.index_type.bit_width());
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print_location(data.location);
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}
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void __ubsan_handle_type_mismatch_v1(const TypeMismatchData&, ValueHandle) __attribute__((used));
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void __ubsan_handle_type_mismatch_v1(const TypeMismatchData& data, ValueHandle ptr)
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{
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static const char* kinds[] = {
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"load of",
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"store to",
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"reference binding to",
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"member access within",
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"member call on",
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"constructor call on",
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"downcast of",
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"downcast of",
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"upcast of",
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"cast to virtual base of",
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"_Nonnull binding to",
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"dynamic operation on"
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};
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FlatPtr alignment = (FlatPtr)1 << data.log_alignment;
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auto* kind = kinds[data.type_check_kind];
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if (!ptr) {
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dbgln("KUBSAN: {} null pointer of type {}", kind, data.type.name());
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} else if ((FlatPtr)ptr & (alignment - 1)) {
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dbgln("KUBSAN: {} misaligned address {:p} of type {}", kind, ptr, data.type.name());
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} else {
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dbgln("KUBSAN: {} address {:p} with insufficient space for type {}", kind, ptr, data.type.name());
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}
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print_location(data.location);
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}
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void __ubsan_handle_alignment_assumption(const AlignmentAssumptionData&, ValueHandle, ValueHandle, ValueHandle) __attribute__((used));
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void __ubsan_handle_alignment_assumption(const AlignmentAssumptionData& data, ValueHandle pointer, ValueHandle alignment, ValueHandle offset)
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{
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if (offset) {
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dbgln(
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"KUBSAN: assumption of {:p} byte alignment (with offset of {:p} byte) for pointer {:p}"
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"of type {} failed",
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alignment, offset, pointer, data.type.name());
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} else {
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dbgln("KUBSAN: assumption of {:p} byte alignment for pointer {:p}"
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"of type {} failed",
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alignment, pointer, data.type.name());
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}
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print_location(data.location);
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}
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void __ubsan_handle_builtin_unreachable(const UnreachableData&) __attribute__((used));
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void __ubsan_handle_builtin_unreachable(const UnreachableData& data)
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{
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dbgln("KUBSAN: execution reached an unreachable program point");
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print_location(data.location);
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}
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void __ubsan_handle_missing_return(const UnreachableData&) __attribute__((used));
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void __ubsan_handle_missing_return(const UnreachableData& data)
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{
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dbgln("KUBSAN: execution reached the end of a value-returning function without returning a value");
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print_location(data.location);
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}
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void __ubsan_handle_implicit_conversion(const ImplicitConversionData&, ValueHandle, ValueHandle) __attribute__((used));
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void __ubsan_handle_implicit_conversion(const ImplicitConversionData& data, ValueHandle, ValueHandle)
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{
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const char* src_signed = data.from_type.is_signed() ? "" : "un";
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const char* dst_signed = data.to_type.is_signed() ? "" : "un";
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dbgln("KUBSAN: implicit conversion from type {} ({}-bit, {}signed) to type {} ({}-bit, {}signed)",
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data.from_type.name(), data.from_type.bit_width(), src_signed, data.to_type.name(), data.to_type.bit_width(), dst_signed);
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print_location(data.location);
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}
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void __ubsan_handle_invalid_builtin(const InvalidBuiltinData) __attribute__((used));
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void __ubsan_handle_invalid_builtin(const InvalidBuiltinData data)
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{
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dbgln("KUBSAN: passing invalid argument");
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print_location(data.location);
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}
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void __ubsan_handle_pointer_overflow(const PointerOverflowData&, ValueHandle, ValueHandle) __attribute__((used));
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void __ubsan_handle_pointer_overflow(const PointerOverflowData& data, ValueHandle base, ValueHandle result)
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{
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if (base == 0 && result == 0) {
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dbgln("KUBSAN: applied zero offset to nullptr");
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} else if (base == 0 && result != 0) {
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dbgln("KUBSAN: applied non-zero offset {:p} to nullptr", result);
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} else if (base != 0 && result == 0) {
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dbgln("KUBSAN: applying non-zero offset to non-null pointer {:p} produced null pointer", base);
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} else {
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dbgln("KUBSAN: addition of unsigned offset to {:p} overflowed to {:p}", base, result);
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}
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print_location(data.location);
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}
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}
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