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sortix--sortix/libc/ubsan/ubsan.c

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/*
* Copyright (c) 2014, 2015 Jonas 'Sortie' Termansen.
*
* Permission to use, copy, modify, and distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice appear in all copies.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
* ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
* OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*
* ubsan/ubsan.c
* Undefined behavior sanitizer runtime support.
*/
#include <errno.h>
#include <fcntl.h>
#include <scram.h>
#include <stdint.h>
#include <stdio.h>
#include <stdlib.h>
#include <unistd.h>
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#ifdef __is_sortix_libk
#include <libk.h>
#endif
struct ubsan_source_location
{
const char* filename;
uint32_t line;
uint32_t column;
};
struct ubsan_type_descriptor
{
uint16_t type_kind;
uint16_t type_info;
char type_name[];
};
typedef uintptr_t ubsan_value_handle_t;
static const struct ubsan_source_location unknown_location =
{
"<unknown file>",
0,
0,
};
__attribute__((noreturn))
static void ubsan_abort(const struct ubsan_source_location* location,
const char* violation)
{
if ( !location || !location->filename )
location = &unknown_location;
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#ifdef __is_sortix_libk
libk_ubsan_abort(violation, location->filename, location->line,
location->column);
#else
struct scram_undefined_behavior info;
info.filename = location->filename;
info.line = location->line;
info.column = location->column;
info.violation = violation;
scram(SCRAM_UNDEFINED_BEHAVIOR, &info);
#endif
}
#define ABORT_VARIANT(name, params, call) \
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__attribute__((noreturn)) \
void __ubsan_handle_##name##_abort params \
{ \
__ubsan_handle_##name call; \
__builtin_unreachable(); \
}
#define ABORT_VARIANT_VP(name) \
ABORT_VARIANT(name, (void* a), (a))
#define ABORT_VARIANT_VP_VP(name) \
ABORT_VARIANT(name, (void* a, void* b), (a, b))
#define ABORT_VARIANT_VP_IP(name) \
ABORT_VARIANT(name, (void* a, intptr_t b), (a, b))
#define ABORT_VARIANT_VP_VP_VP(name) \
ABORT_VARIANT(name, (void* a, void* b, void* c), (a, b, c))
struct ubsan_type_mismatch_data
{
struct ubsan_source_location location;
struct ubsan_type_descriptor* type;
uintptr_t alignment;
unsigned char type_check_kind;
};
void __ubsan_handle_type_mismatch(void* data_raw,
void* pointer_raw)
{
struct ubsan_type_mismatch_data* data =
(struct ubsan_type_mismatch_data*) data_raw;
ubsan_value_handle_t pointer = (ubsan_value_handle_t) pointer_raw;
const char* violation = "type mismatch";
if ( !pointer )
violation = "null pointer access";
else if ( data->alignment && (pointer & (data->alignment - 1)) )
violation = "unaligned access";
ubsan_abort(&data->location, violation);
}
ABORT_VARIANT_VP_VP(type_mismatch);
struct ubsan_overflow_data
{
struct ubsan_source_location location;
struct ubsan_type_descriptor* type;
};
void __ubsan_handle_add_overflow(void* data_raw,
void* lhs_raw,
void* rhs_raw)
{
struct ubsan_overflow_data* data = (struct ubsan_overflow_data*) data_raw;
ubsan_value_handle_t lhs = (ubsan_value_handle_t) lhs_raw;
ubsan_value_handle_t rhs = (ubsan_value_handle_t) rhs_raw;
(void) lhs;
(void) rhs;
ubsan_abort(&data->location, "addition overflow");
}
ABORT_VARIANT_VP_VP_VP(add_overflow);
void __ubsan_handle_sub_overflow(void* data_raw,
void* lhs_raw,
void* rhs_raw)
{
struct ubsan_overflow_data* data = (struct ubsan_overflow_data*) data_raw;
ubsan_value_handle_t lhs = (ubsan_value_handle_t) lhs_raw;
ubsan_value_handle_t rhs = (ubsan_value_handle_t) rhs_raw;
(void) lhs;
(void) rhs;
ubsan_abort(&data->location, "subtraction overflow");
}
ABORT_VARIANT_VP_VP_VP(sub_overflow);
void __ubsan_handle_mul_overflow(void* data_raw,
void* lhs_raw,
void* rhs_raw)
{
struct ubsan_overflow_data* data = (struct ubsan_overflow_data*) data_raw;
ubsan_value_handle_t lhs = (ubsan_value_handle_t) lhs_raw;
ubsan_value_handle_t rhs = (ubsan_value_handle_t) rhs_raw;
(void) lhs;
(void) rhs;
ubsan_abort(&data->location, "multiplication overflow");
}
ABORT_VARIANT_VP_VP_VP(mul_overflow);
void __ubsan_handle_negate_overflow(void* data_raw,
void* old_value_raw)
{
struct ubsan_overflow_data* data = (struct ubsan_overflow_data*) data_raw;
ubsan_value_handle_t old_value = (ubsan_value_handle_t) old_value_raw;
(void) old_value;
ubsan_abort(&data->location, "negation overflow");
}
ABORT_VARIANT_VP_VP(negate_overflow);
void __ubsan_handle_divrem_overflow(void* data_raw,
void* lhs_raw,
void* rhs_raw)
{
struct ubsan_overflow_data* data = (struct ubsan_overflow_data*) data_raw;
ubsan_value_handle_t lhs = (ubsan_value_handle_t) lhs_raw;
ubsan_value_handle_t rhs = (ubsan_value_handle_t) rhs_raw;
(void) lhs;
(void) rhs;
ubsan_abort(&data->location, "division remainder overflow");
}
ABORT_VARIANT_VP_VP_VP(divrem_overflow);
struct ubsan_shift_out_of_bounds_data
{
struct ubsan_source_location location;
struct ubsan_type_descriptor* lhs_type;
struct ubsan_type_descriptor* rhs_type;
};
void __ubsan_handle_shift_out_of_bounds(void* data_raw,
void* lhs_raw,
void* rhs_raw)
{
struct ubsan_shift_out_of_bounds_data* data =
(struct ubsan_shift_out_of_bounds_data*) data_raw;
ubsan_value_handle_t lhs = (ubsan_value_handle_t) lhs_raw;
ubsan_value_handle_t rhs = (ubsan_value_handle_t) rhs_raw;
(void) lhs;
(void) rhs;
ubsan_abort(&data->location, "shift out of bounds");
}
ABORT_VARIANT_VP_VP_VP(shift_out_of_bounds);
struct ubsan_out_of_bounds_data
{
struct ubsan_source_location location;
struct ubsan_type_descriptor* array_type;
struct ubsan_type_descriptor* index_type;
};
void __ubsan_handle_out_of_bounds(void* data_raw,
void* index_raw)
{
struct ubsan_out_of_bounds_data* data =
(struct ubsan_out_of_bounds_data*) data_raw;
ubsan_value_handle_t index = (ubsan_value_handle_t) index_raw;
(void) index;
ubsan_abort(&data->location, "out of bounds");
}
ABORT_VARIANT_VP_VP(out_of_bounds);
struct ubsan_unreachable_data
{
struct ubsan_source_location location;
};
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__attribute__((noreturn))
void __ubsan_handle_builtin_unreachable(void* data_raw)
{
struct ubsan_unreachable_data* data =
(struct ubsan_unreachable_data*) data_raw;
ubsan_abort(&data->location, "reached unreachable");
}
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__attribute__((noreturn))
void __ubsan_handle_missing_return(void* data_raw)
{
struct ubsan_unreachable_data* data =
(struct ubsan_unreachable_data*) data_raw;
ubsan_abort(&data->location, "missing return");
}
struct ubsan_vla_bound_data
{
struct ubsan_source_location location;
struct ubsan_type_descriptor* type;
};
void __ubsan_handle_vla_bound_not_positive(void* data_raw,
void* bound_raw)
{
struct ubsan_vla_bound_data* data = (struct ubsan_vla_bound_data*) data_raw;
ubsan_value_handle_t bound = (ubsan_value_handle_t) bound_raw;
(void) bound;
ubsan_abort(&data->location, "negative variable array length");
}
ABORT_VARIANT_VP_VP(vla_bound_not_positive);
struct ubsan_float_cast_overflow_data
{
// TODO: Remove this GCC 5.x compatibility after switching to GCC 6.x. The
// GCC developers accidentally forgot the source location. Their
// libubsan probes to see if it looks like a path, but we don't need
// to maintain compatibility with multiple gcc releases. See below.
#if !(defined(__GNUC__) && __GNUC__< 6)
struct ubsan_source_location location;
#endif
struct ubsan_type_descriptor* from_type;
struct ubsan_type_descriptor* to_type;
};
void __ubsan_handle_float_cast_overflow(void* data_raw,
void* from_raw)
{
struct ubsan_float_cast_overflow_data* data =
(struct ubsan_float_cast_overflow_data*) data_raw;
ubsan_value_handle_t from = (ubsan_value_handle_t) from_raw;
(void) from;
#if !(defined(__GNUC__) && __GNUC__< 6)
ubsan_abort(&data->location, "float cast overflow");
#else
ubsan_abort(((void) data, &unknown_location), "float cast overflow");
#endif
}
ABORT_VARIANT_VP_VP(float_cast_overflow);
struct ubsan_invalid_value_data
{
struct ubsan_source_location location;
struct ubsan_type_descriptor* type;
};
void __ubsan_handle_load_invalid_value(void* data_raw,
void* value_raw)
{
struct ubsan_invalid_value_data* data =
(struct ubsan_invalid_value_data*) data_raw;
ubsan_value_handle_t value = (ubsan_value_handle_t) value_raw;
(void) value;
ubsan_abort(&data->location, "invalid value load");
}
ABORT_VARIANT_VP_VP(load_invalid_value);
struct ubsan_function_type_mismatch_data
{
struct ubsan_source_location location;
struct ubsan_type_descriptor* type;
};
void __ubsan_handle_function_type_mismatch(void* data_raw,
void* value_raw)
{
struct ubsan_function_type_mismatch_data* data =
(struct ubsan_function_type_mismatch_data*) data_raw;
ubsan_value_handle_t value = (ubsan_value_handle_t) value_raw;
(void) value;
ubsan_abort(&data->location, "function type mismatch");
}
ABORT_VARIANT_VP_VP(function_type_mismatch);
struct ubsan_nonnull_return_data
{
struct ubsan_source_location location;
struct ubsan_source_location attr_location;
};
void __ubsan_handle_nonnull_return(void* data_raw)
{
struct ubsan_nonnull_return_data* data =
(struct ubsan_nonnull_return_data*) data_raw;
ubsan_abort(&data->location, "null return");
}
ABORT_VARIANT_VP(nonnull_return);
struct ubsan_nonnull_arg_data
{
struct ubsan_source_location location;
struct ubsan_source_location attr_location;
};
// TODO: GCC's libubsan does not have the second parameter, but its builtin
// somehow has it and conflict if we don't match it.
void __ubsan_handle_nonnull_arg(void* data_raw,
intptr_t index_raw)
{
struct ubsan_nonnull_arg_data* data =
(struct ubsan_nonnull_arg_data*) data_raw;
ubsan_value_handle_t index = (ubsan_value_handle_t) index_raw;
(void) index;
ubsan_abort(&data->location, "null argument");
}
ABORT_VARIANT_VP_IP(nonnull_arg);
struct ubsan_cfi_bad_icall_data
{
struct ubsan_source_location location;
struct ubsan_type_descriptor* type;
};
void __ubsan_handle_cfi_bad_icall(void* data_raw,
void* value_raw)
{
struct ubsan_cfi_bad_icall_data* data =
(struct ubsan_cfi_bad_icall_data*) data_raw;
ubsan_value_handle_t value = (ubsan_value_handle_t) value_raw;
(void) value;
ubsan_abort(&data->location,
"control flow integrity check failure during indirect call");
}
ABORT_VARIANT_VP_VP(cfi_bad_icall);