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subr_asan.c
1305 lines (1132 loc) · 36.8 KB
/
subr_asan.c
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/* $NetBSD: subr_asan.c,v 1.27 2020/12/18 15:33:34 martin Exp $ */
/*
* Copyright (c) 2018-2020 Maxime Villard, m00nbsd.net
* All rights reserved.
*
* This code is part of the KASAN subsystem of the NetBSD kernel.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
* IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
* BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
* LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED
* AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
* OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*/
#include <sys/cdefs.h>
__KERNEL_RCSID(0, "$NetBSD: subr_asan.c,v 1.27 2020/12/18 15:33:34 martin Exp $");
#include <sys/param.h>
#include <sys/device.h>
#include <sys/kernel.h>
#include <sys/param.h>
#include <sys/conf.h>
#include <sys/systm.h>
#include <sys/types.h>
#include <sys/asan.h>
#include <uvm/uvm_extern.h>
#ifdef DDB
#include <machine/db_machdep.h>
#include <ddb/db_extern.h>
#endif
#ifdef KASAN_PANIC
#define REPORT panic
#else
#define REPORT printf
#endif
/* ASAN constants. Part of the compiler ABI. */
#define KASAN_SHADOW_SCALE_SIZE (1UL << KASAN_SHADOW_SCALE_SHIFT)
#define KASAN_SHADOW_MASK (KASAN_SHADOW_SCALE_SIZE - 1)
#define KASAN_ALLOCA_SCALE_SIZE 32
/* The MD code. */
#include <machine/asan.h>
/* ASAN ABI version. */
#if defined(__clang__) && (__clang_major__ - 0 >= 6)
#define ASAN_ABI_VERSION 8
#elif __GNUC_PREREQ__(7, 1) && !defined(__clang__)
#define ASAN_ABI_VERSION 8
#elif __GNUC_PREREQ__(6, 1) && !defined(__clang__)
#define ASAN_ABI_VERSION 6
#else
#error "Unsupported compiler version"
#endif
#define __RET_ADDR (unsigned long)__builtin_return_address(0)
/* Global variable descriptor. Part of the compiler ABI. */
struct __asan_global_source_location {
const char *filename;
int line_no;
int column_no;
};
struct __asan_global {
const void *beg; /* address of the global variable */
size_t size; /* size of the global variable */
size_t size_with_redzone; /* size with the redzone */
const void *name; /* name of the variable */
const void *module_name; /* name of the module where the var is declared */
unsigned long has_dynamic_init; /* the var has dyn initializer (c++) */
struct __asan_global_source_location *location;
#if ASAN_ABI_VERSION >= 7
uintptr_t odr_indicator; /* the address of the ODR indicator symbol */
#endif
};
static bool kasan_enabled __read_mostly = false;
/* -------------------------------------------------------------------------- */
void
kasan_shadow_map(void *addr, size_t size)
{
size_t sz, npages, i;
vaddr_t sva, eva;
KASSERT((vaddr_t)addr % KASAN_SHADOW_SCALE_SIZE == 0);
sz = roundup(size, KASAN_SHADOW_SCALE_SIZE) / KASAN_SHADOW_SCALE_SIZE;
sva = (vaddr_t)kasan_md_addr_to_shad(addr);
eva = (vaddr_t)kasan_md_addr_to_shad(addr) + sz;
sva = rounddown(sva, PAGE_SIZE);
eva = roundup(eva, PAGE_SIZE);
npages = (eva - sva) / PAGE_SIZE;
KASSERT(sva >= KASAN_MD_SHADOW_START && eva < KASAN_MD_SHADOW_END);
for (i = 0; i < npages; i++) {
kasan_md_shadow_map_page(sva + i * PAGE_SIZE);
}
}
static void
kasan_ctors(void)
{
extern Elf_Addr __CTOR_LIST__, __CTOR_END__;
size_t nentries, i;
Elf_Addr *ptr;
nentries = ((size_t)&__CTOR_END__ - (size_t)&__CTOR_LIST__) /
sizeof(uintptr_t);
ptr = &__CTOR_LIST__;
for (i = 0; i < nentries; i++) {
void (*func)(void);
func = (void *)(*ptr);
(*func)();
ptr++;
}
}
void
kasan_early_init(void *stack)
{
kasan_md_early_init(stack);
}
void
kasan_init(void)
{
/* MD initialization. */
kasan_md_init();
/* Now officially enabled. */
kasan_enabled = true;
/* Call the ASAN constructors. */
kasan_ctors();
}
static inline const char *
kasan_code_name(uint8_t code)
{
switch (code) {
case KASAN_GENERIC_REDZONE:
return "GenericRedZone";
case KASAN_MALLOC_REDZONE:
return "MallocRedZone";
case KASAN_KMEM_REDZONE:
return "KmemRedZone";
case KASAN_POOL_REDZONE:
return "PoolRedZone";
case KASAN_POOL_FREED:
return "PoolUseAfterFree";
case 1 ... 7:
return "RedZonePartial";
case KASAN_STACK_LEFT:
return "StackLeft";
case KASAN_STACK_MID:
return "StackMiddle";
case KASAN_STACK_RIGHT:
return "StackRight";
case KASAN_USE_AFTER_RET:
return "UseAfterRet";
case KASAN_USE_AFTER_SCOPE:
return "UseAfterScope";
default:
return "Unknown";
}
}
static void
kasan_report(unsigned long addr, size_t size, bool write, unsigned long pc,
uint8_t code)
{
REPORT("ASan: Unauthorized Access In %p: Addr %p [%zu byte%s, %s,"
" %s]\n",
(void *)pc, (void *)addr, size, (size > 1 ? "s" : ""),
(write ? "write" : "read"), kasan_code_name(code));
kasan_md_unwind();
}
static __always_inline void
kasan_shadow_1byte_markvalid(unsigned long addr)
{
int8_t *byte = kasan_md_addr_to_shad((void *)addr);
int8_t last = (addr & KASAN_SHADOW_MASK) + 1;
*byte = last;
}
static __always_inline void
kasan_shadow_Nbyte_markvalid(const void *addr, size_t size)
{
size_t i;
for (i = 0; i < size; i++) {
kasan_shadow_1byte_markvalid((unsigned long)addr+i);
}
}
static __always_inline void
kasan_shadow_Nbyte_fill(const void *addr, size_t size, uint8_t code)
{
void *shad;
if (__predict_false(size == 0))
return;
if (__predict_false(kasan_md_unsupported((vaddr_t)addr)))
return;
KASSERT((vaddr_t)addr % KASAN_SHADOW_SCALE_SIZE == 0);
KASSERT(size % KASAN_SHADOW_SCALE_SIZE == 0);
shad = (void *)kasan_md_addr_to_shad(addr);
size = size >> KASAN_SHADOW_SCALE_SHIFT;
__builtin_memset(shad, code, size);
}
void
kasan_add_redzone(size_t *size)
{
*size = roundup(*size, KASAN_SHADOW_SCALE_SIZE);
*size += KASAN_SHADOW_SCALE_SIZE;
}
void
kasan_softint(struct lwp *l)
{
const void *stk = (const void *)uvm_lwp_getuarea(l);
kasan_shadow_Nbyte_fill(stk, USPACE, 0);
}
/*
* In an area of size 'sz_with_redz', mark the 'size' first bytes as valid,
* and the rest as invalid. There are generally two use cases:
*
* o kasan_mark(addr, origsize, size, code), with origsize < size. This marks
* the redzone at the end of the buffer as invalid.
*
* o kasan_mark(addr, size, size, 0). This marks the entire buffer as valid.
*/
void
kasan_mark(const void *addr, size_t size, size_t sz_with_redz, uint8_t code)
{
size_t i, n, redz;
int8_t *shad;
KASSERT((vaddr_t)addr % KASAN_SHADOW_SCALE_SIZE == 0);
redz = sz_with_redz - roundup(size, KASAN_SHADOW_SCALE_SIZE);
KASSERT(redz % KASAN_SHADOW_SCALE_SIZE == 0);
shad = kasan_md_addr_to_shad(addr);
/* Chunks of 8 bytes, valid. */
n = size / KASAN_SHADOW_SCALE_SIZE;
for (i = 0; i < n; i++) {
*shad++ = 0;
}
/* Possibly one chunk, mid. */
if ((size & KASAN_SHADOW_MASK) != 0) {
*shad++ = (size & KASAN_SHADOW_MASK);
}
/* Chunks of 8 bytes, invalid. */
n = redz / KASAN_SHADOW_SCALE_SIZE;
for (i = 0; i < n; i++) {
*shad++ = code;
}
}
/* -------------------------------------------------------------------------- */
#define ADDR_CROSSES_SCALE_BOUNDARY(addr, size) \
(addr >> KASAN_SHADOW_SCALE_SHIFT) != \
((addr + size - 1) >> KASAN_SHADOW_SCALE_SHIFT)
static __always_inline bool
kasan_shadow_1byte_isvalid(unsigned long addr, uint8_t *code)
{
int8_t *byte = kasan_md_addr_to_shad((void *)addr);
int8_t last = (addr & KASAN_SHADOW_MASK) + 1;
if (__predict_true(*byte == 0 || last <= *byte)) {
return true;
}
*code = *byte;
return false;
}
static __always_inline bool
kasan_shadow_2byte_isvalid(unsigned long addr, uint8_t *code)
{
int8_t *byte, last;
if (ADDR_CROSSES_SCALE_BOUNDARY(addr, 2)) {
return (kasan_shadow_1byte_isvalid(addr, code) &&
kasan_shadow_1byte_isvalid(addr+1, code));
}
byte = kasan_md_addr_to_shad((void *)addr);
last = ((addr + 1) & KASAN_SHADOW_MASK) + 1;
if (__predict_true(*byte == 0 || last <= *byte)) {
return true;
}
*code = *byte;
return false;
}
static __always_inline bool
kasan_shadow_4byte_isvalid(unsigned long addr, uint8_t *code)
{
int8_t *byte, last;
if (ADDR_CROSSES_SCALE_BOUNDARY(addr, 4)) {
return (kasan_shadow_2byte_isvalid(addr, code) &&
kasan_shadow_2byte_isvalid(addr+2, code));
}
byte = kasan_md_addr_to_shad((void *)addr);
last = ((addr + 3) & KASAN_SHADOW_MASK) + 1;
if (__predict_true(*byte == 0 || last <= *byte)) {
return true;
}
*code = *byte;
return false;
}
static __always_inline bool
kasan_shadow_8byte_isvalid(unsigned long addr, uint8_t *code)
{
int8_t *byte, last;
if (ADDR_CROSSES_SCALE_BOUNDARY(addr, 8)) {
return (kasan_shadow_4byte_isvalid(addr, code) &&
kasan_shadow_4byte_isvalid(addr+4, code));
}
byte = kasan_md_addr_to_shad((void *)addr);
last = ((addr + 7) & KASAN_SHADOW_MASK) + 1;
if (__predict_true(*byte == 0 || last <= *byte)) {
return true;
}
*code = *byte;
return false;
}
static __always_inline bool
kasan_shadow_Nbyte_isvalid(unsigned long addr, size_t size, uint8_t *code)
{
size_t i;
for (i = 0; i < size; i++) {
if (!kasan_shadow_1byte_isvalid(addr+i, code))
return false;
}
return true;
}
static __always_inline void
kasan_shadow_check(unsigned long addr, size_t size, bool write,
unsigned long retaddr)
{
uint8_t code;
bool valid;
if (__predict_false(!kasan_enabled))
return;
#ifdef DDB
if (__predict_false(db_recover != NULL))
return;
#endif
if (__predict_false(size == 0))
return;
if (__predict_false(kasan_md_unsupported(addr)))
return;
if (__builtin_constant_p(size)) {
switch (size) {
case 1:
valid = kasan_shadow_1byte_isvalid(addr, &code);
break;
case 2:
valid = kasan_shadow_2byte_isvalid(addr, &code);
break;
case 4:
valid = kasan_shadow_4byte_isvalid(addr, &code);
break;
case 8:
valid = kasan_shadow_8byte_isvalid(addr, &code);
break;
default:
valid = kasan_shadow_Nbyte_isvalid(addr, size, &code);
break;
}
} else {
valid = kasan_shadow_Nbyte_isvalid(addr, size, &code);
}
if (__predict_false(!valid)) {
kasan_report(addr, size, write, retaddr, code);
}
}
/* -------------------------------------------------------------------------- */
void *
kasan_memcpy(void *dst, const void *src, size_t len)
{
kasan_shadow_check((unsigned long)src, len, false, __RET_ADDR);
kasan_shadow_check((unsigned long)dst, len, true, __RET_ADDR);
return __builtin_memcpy(dst, src, len);
}
int
kasan_memcmp(const void *b1, const void *b2, size_t len)
{
kasan_shadow_check((unsigned long)b1, len, false, __RET_ADDR);
kasan_shadow_check((unsigned long)b2, len, false, __RET_ADDR);
return __builtin_memcmp(b1, b2, len);
}
void *
kasan_memset(void *b, int c, size_t len)
{
kasan_shadow_check((unsigned long)b, len, true, __RET_ADDR);
return __builtin_memset(b, c, len);
}
void *
kasan_memmove(void *dst, const void *src, size_t len)
{
kasan_shadow_check((unsigned long)src, len, false, __RET_ADDR);
kasan_shadow_check((unsigned long)dst, len, true, __RET_ADDR);
return __builtin_memmove(dst, src, len);
}
char *
kasan_strcpy(char *dst, const char *src)
{
char *save = dst;
while (1) {
kasan_shadow_check((unsigned long)src, 1, false, __RET_ADDR);
kasan_shadow_check((unsigned long)dst, 1, true, __RET_ADDR);
*dst = *src;
if (*src == '\0')
break;
src++, dst++;
}
return save;
}
int
kasan_strcmp(const char *s1, const char *s2)
{
while (1) {
kasan_shadow_check((unsigned long)s1, 1, false, __RET_ADDR);
kasan_shadow_check((unsigned long)s2, 1, false, __RET_ADDR);
if (*s1 != *s2)
break;
if (*s1 == '\0')
return 0;
s1++, s2++;
}
return (*(const unsigned char *)s1 - *(const unsigned char *)s2);
}
size_t
kasan_strlen(const char *str)
{
const char *s;
s = str;
while (1) {
kasan_shadow_check((unsigned long)s, 1, false, __RET_ADDR);
if (*s == '\0')
break;
s++;
}
return (s - str);
}
char *
kasan_strcat(char *dst, const char *src)
{
size_t ldst, lsrc;
ldst = __builtin_strlen(dst);
lsrc = __builtin_strlen(src);
kasan_shadow_check((unsigned long)dst, ldst + lsrc + 1, true,
__RET_ADDR);
kasan_shadow_check((unsigned long)src, lsrc + 1, false,
__RET_ADDR);
return __builtin_strcat(dst, src);
}
char *
kasan_strchr(const char *s, int c)
{
kasan_shadow_check((unsigned long)s, __builtin_strlen(s) + 1, false,
__RET_ADDR);
return __builtin_strchr(s, c);
}
char *
kasan_strrchr(const char *s, int c)
{
kasan_shadow_check((unsigned long)s, __builtin_strlen(s) + 1, false,
__RET_ADDR);
return __builtin_strrchr(s, c);
}
#undef kcopy
#undef copyinstr
#undef copyoutstr
#undef copyin
int kasan_kcopy(const void *, void *, size_t);
int kasan_copyinstr(const void *, void *, size_t, size_t *);
int kasan_copyoutstr(const void *, void *, size_t, size_t *);
int kasan_copyin(const void *, void *, size_t);
int kcopy(const void *, void *, size_t);
int copyinstr(const void *, void *, size_t, size_t *);
int copyoutstr(const void *, void *, size_t, size_t *);
int copyin(const void *, void *, size_t);
int
kasan_kcopy(const void *src, void *dst, size_t len)
{
kasan_shadow_check((unsigned long)src, len, false, __RET_ADDR);
kasan_shadow_check((unsigned long)dst, len, true, __RET_ADDR);
return kcopy(src, dst, len);
}
int
kasan_copyin(const void *uaddr, void *kaddr, size_t len)
{
kasan_shadow_check((unsigned long)kaddr, len, true, __RET_ADDR);
return copyin(uaddr, kaddr, len);
}
int
kasan_copyinstr(const void *uaddr, void *kaddr, size_t len, size_t *done)
{
kasan_shadow_check((unsigned long)kaddr, len, true, __RET_ADDR);
return copyinstr(uaddr, kaddr, len, done);
}
int
kasan_copyoutstr(const void *kaddr, void *uaddr, size_t len, size_t *done)
{
kasan_shadow_check((unsigned long)kaddr, len, false, __RET_ADDR);
return copyoutstr(kaddr, uaddr, len, done);
}
/* -------------------------------------------------------------------------- */
#undef _ucas_32
#undef _ucas_32_mp
#undef _ucas_64
#undef _ucas_64_mp
#undef _ufetch_8
#undef _ufetch_16
#undef _ufetch_32
#undef _ufetch_64
int _ucas_32(volatile uint32_t *, uint32_t, uint32_t, uint32_t *);
int kasan__ucas_32(volatile uint32_t *, uint32_t, uint32_t, uint32_t *);
int
kasan__ucas_32(volatile uint32_t *uaddr, uint32_t old, uint32_t new,
uint32_t *ret)
{
kasan_shadow_check((unsigned long)ret, sizeof(*ret), true,
__RET_ADDR);
return _ucas_32(uaddr, old, new, ret);
}
#ifdef __HAVE_UCAS_MP
int _ucas_32_mp(volatile uint32_t *, uint32_t, uint32_t, uint32_t *);
int kasan__ucas_32_mp(volatile uint32_t *, uint32_t, uint32_t, uint32_t *);
int
kasan__ucas_32_mp(volatile uint32_t *uaddr, uint32_t old, uint32_t new,
uint32_t *ret)
{
kasan_shadow_check((unsigned long)ret, sizeof(*ret), true,
__RET_ADDR);
return _ucas_32_mp(uaddr, old, new, ret);
}
#endif
#ifdef _LP64
int _ucas_64(volatile uint64_t *, uint64_t, uint64_t, uint64_t *);
int kasan__ucas_64(volatile uint64_t *, uint64_t, uint64_t, uint64_t *);
int
kasan__ucas_64(volatile uint64_t *uaddr, uint64_t old, uint64_t new,
uint64_t *ret)
{
kasan_shadow_check((unsigned long)ret, sizeof(*ret), true,
__RET_ADDR);
return _ucas_64(uaddr, old, new, ret);
}
#ifdef __HAVE_UCAS_MP
int _ucas_64_mp(volatile uint64_t *, uint64_t, uint64_t, uint64_t *);
int kasan__ucas_64_mp(volatile uint64_t *, uint64_t, uint64_t, uint64_t *);
int
kasan__ucas_64_mp(volatile uint64_t *uaddr, uint64_t old, uint64_t new,
uint64_t *ret)
{
kasan_shadow_check((unsigned long)ret, sizeof(*ret), true,
__RET_ADDR);
return _ucas_64_mp(uaddr, old, new, ret);
}
#endif
#endif
int _ufetch_8(const uint8_t *, uint8_t *);
int kasan__ufetch_8(const uint8_t *, uint8_t *);
int
kasan__ufetch_8(const uint8_t *uaddr, uint8_t *valp)
{
kasan_shadow_check((unsigned long)valp, sizeof(*valp), true,
__RET_ADDR);
return _ufetch_8(uaddr, valp);
}
int _ufetch_16(const uint16_t *, uint16_t *);
int kasan__ufetch_16(const uint16_t *, uint16_t *);
int
kasan__ufetch_16(const uint16_t *uaddr, uint16_t *valp)
{
kasan_shadow_check((unsigned long)valp, sizeof(*valp), true,
__RET_ADDR);
return _ufetch_16(uaddr, valp);
}
int _ufetch_32(const uint32_t *, uint32_t *);
int kasan__ufetch_32(const uint32_t *, uint32_t *);
int
kasan__ufetch_32(const uint32_t *uaddr, uint32_t *valp)
{
kasan_shadow_check((unsigned long)valp, sizeof(*valp), true,
__RET_ADDR);
return _ufetch_32(uaddr, valp);
}
#ifdef _LP64
int _ufetch_64(const uint64_t *, uint64_t *);
int kasan__ufetch_64(const uint64_t *, uint64_t *);
int
kasan__ufetch_64(const uint64_t *uaddr, uint64_t *valp)
{
kasan_shadow_check((unsigned long)valp, sizeof(*valp), true,
__RET_ADDR);
return _ufetch_64(uaddr, valp);
}
#endif
/* -------------------------------------------------------------------------- */
#undef atomic_add_32
#undef atomic_add_int
#undef atomic_add_long
#undef atomic_add_ptr
#undef atomic_add_64
#undef atomic_add_32_nv
#undef atomic_add_int_nv
#undef atomic_add_long_nv
#undef atomic_add_ptr_nv
#undef atomic_add_64_nv
#undef atomic_and_32
#undef atomic_and_uint
#undef atomic_and_ulong
#undef atomic_and_64
#undef atomic_and_32_nv
#undef atomic_and_uint_nv
#undef atomic_and_ulong_nv
#undef atomic_and_64_nv
#undef atomic_or_32
#undef atomic_or_uint
#undef atomic_or_ulong
#undef atomic_or_64
#undef atomic_or_32_nv
#undef atomic_or_uint_nv
#undef atomic_or_ulong_nv
#undef atomic_or_64_nv
#undef atomic_cas_32
#undef atomic_cas_uint
#undef atomic_cas_ulong
#undef atomic_cas_ptr
#undef atomic_cas_64
#undef atomic_cas_32_ni
#undef atomic_cas_uint_ni
#undef atomic_cas_ulong_ni
#undef atomic_cas_ptr_ni
#undef atomic_cas_64_ni
#undef atomic_swap_32
#undef atomic_swap_uint
#undef atomic_swap_ulong
#undef atomic_swap_ptr
#undef atomic_swap_64
#undef atomic_dec_32
#undef atomic_dec_uint
#undef atomic_dec_ulong
#undef atomic_dec_ptr
#undef atomic_dec_64
#undef atomic_dec_32_nv
#undef atomic_dec_uint_nv
#undef atomic_dec_ulong_nv
#undef atomic_dec_ptr_nv
#undef atomic_dec_64_nv
#undef atomic_inc_32
#undef atomic_inc_uint
#undef atomic_inc_ulong
#undef atomic_inc_ptr
#undef atomic_inc_64
#undef atomic_inc_32_nv
#undef atomic_inc_uint_nv
#undef atomic_inc_ulong_nv
#undef atomic_inc_ptr_nv
#undef atomic_inc_64_nv
#define ASAN_ATOMIC_FUNC_ADD(name, tret, targ1, targ2) \
void atomic_add_##name(volatile targ1 *, targ2); \
void kasan_atomic_add_##name(volatile targ1 *, targ2); \
void kasan_atomic_add_##name(volatile targ1 *ptr, targ2 val) \
{ \
kasan_shadow_check((uintptr_t)ptr, sizeof(tret), true, \
__RET_ADDR); \
atomic_add_##name(ptr, val); \
} \
tret atomic_add_##name##_nv(volatile targ1 *, targ2); \
tret kasan_atomic_add_##name##_nv(volatile targ1 *, targ2); \
tret kasan_atomic_add_##name##_nv(volatile targ1 *ptr, targ2 val) \
{ \
kasan_shadow_check((uintptr_t)ptr, sizeof(tret), true, \
__RET_ADDR); \
return atomic_add_##name##_nv(ptr, val); \
}
#define ASAN_ATOMIC_FUNC_AND(name, tret, targ1, targ2) \
void atomic_and_##name(volatile targ1 *, targ2); \
void kasan_atomic_and_##name(volatile targ1 *, targ2); \
void kasan_atomic_and_##name(volatile targ1 *ptr, targ2 val) \
{ \
kasan_shadow_check((uintptr_t)ptr, sizeof(tret), true, \
__RET_ADDR); \
atomic_and_##name(ptr, val); \
} \
tret atomic_and_##name##_nv(volatile targ1 *, targ2); \
tret kasan_atomic_and_##name##_nv(volatile targ1 *, targ2); \
tret kasan_atomic_and_##name##_nv(volatile targ1 *ptr, targ2 val) \
{ \
kasan_shadow_check((uintptr_t)ptr, sizeof(tret), true, \
__RET_ADDR); \
return atomic_and_##name##_nv(ptr, val); \
}
#define ASAN_ATOMIC_FUNC_OR(name, tret, targ1, targ2) \
void atomic_or_##name(volatile targ1 *, targ2); \
void kasan_atomic_or_##name(volatile targ1 *, targ2); \
void kasan_atomic_or_##name(volatile targ1 *ptr, targ2 val) \
{ \
kasan_shadow_check((uintptr_t)ptr, sizeof(tret), true, \
__RET_ADDR); \
atomic_or_##name(ptr, val); \
} \
tret atomic_or_##name##_nv(volatile targ1 *, targ2); \
tret kasan_atomic_or_##name##_nv(volatile targ1 *, targ2); \
tret kasan_atomic_or_##name##_nv(volatile targ1 *ptr, targ2 val) \
{ \
kasan_shadow_check((uintptr_t)ptr, sizeof(tret), true, \
__RET_ADDR); \
return atomic_or_##name##_nv(ptr, val); \
}
#define ASAN_ATOMIC_FUNC_CAS(name, tret, targ1, targ2) \
tret atomic_cas_##name(volatile targ1 *, targ2, targ2); \
tret kasan_atomic_cas_##name(volatile targ1 *, targ2, targ2); \
tret kasan_atomic_cas_##name(volatile targ1 *ptr, targ2 exp, targ2 new) \
{ \
kasan_shadow_check((uintptr_t)ptr, sizeof(tret), true, \
__RET_ADDR); \
return atomic_cas_##name(ptr, exp, new); \
} \
tret atomic_cas_##name##_ni(volatile targ1 *, targ2, targ2); \
tret kasan_atomic_cas_##name##_ni(volatile targ1 *, targ2, targ2); \
tret kasan_atomic_cas_##name##_ni(volatile targ1 *ptr, targ2 exp, targ2 new) \
{ \
kasan_shadow_check((uintptr_t)ptr, sizeof(tret), true, \
__RET_ADDR); \
return atomic_cas_##name##_ni(ptr, exp, new); \
}
#define ASAN_ATOMIC_FUNC_SWAP(name, tret, targ1, targ2) \
tret atomic_swap_##name(volatile targ1 *, targ2); \
tret kasan_atomic_swap_##name(volatile targ1 *, targ2); \
tret kasan_atomic_swap_##name(volatile targ1 *ptr, targ2 val) \
{ \
kasan_shadow_check((uintptr_t)ptr, sizeof(tret), true, \
__RET_ADDR); \
return atomic_swap_##name(ptr, val); \
}
#define ASAN_ATOMIC_FUNC_DEC(name, tret, targ1) \
void atomic_dec_##name(volatile targ1 *); \
void kasan_atomic_dec_##name(volatile targ1 *); \
void kasan_atomic_dec_##name(volatile targ1 *ptr) \
{ \
kasan_shadow_check((uintptr_t)ptr, sizeof(tret), true, \
__RET_ADDR); \
atomic_dec_##name(ptr); \
} \
tret atomic_dec_##name##_nv(volatile targ1 *); \
tret kasan_atomic_dec_##name##_nv(volatile targ1 *); \
tret kasan_atomic_dec_##name##_nv(volatile targ1 *ptr) \
{ \
kasan_shadow_check((uintptr_t)ptr, sizeof(tret), true, \
__RET_ADDR); \
return atomic_dec_##name##_nv(ptr); \
}
#define ASAN_ATOMIC_FUNC_INC(name, tret, targ1) \
void atomic_inc_##name(volatile targ1 *); \
void kasan_atomic_inc_##name(volatile targ1 *); \
void kasan_atomic_inc_##name(volatile targ1 *ptr) \
{ \
kasan_shadow_check((uintptr_t)ptr, sizeof(tret), true, \
__RET_ADDR); \
atomic_inc_##name(ptr); \
} \
tret atomic_inc_##name##_nv(volatile targ1 *); \
tret kasan_atomic_inc_##name##_nv(volatile targ1 *); \
tret kasan_atomic_inc_##name##_nv(volatile targ1 *ptr) \
{ \
kasan_shadow_check((uintptr_t)ptr, sizeof(tret), true, \
__RET_ADDR); \
return atomic_inc_##name##_nv(ptr); \
}
ASAN_ATOMIC_FUNC_ADD(32, uint32_t, uint32_t, int32_t);
ASAN_ATOMIC_FUNC_ADD(64, uint64_t, uint64_t, int64_t);
ASAN_ATOMIC_FUNC_ADD(int, unsigned int, unsigned int, int);
ASAN_ATOMIC_FUNC_ADD(long, unsigned long, unsigned long, long);
ASAN_ATOMIC_FUNC_ADD(ptr, void *, void, ssize_t);
ASAN_ATOMIC_FUNC_AND(32, uint32_t, uint32_t, uint32_t);
ASAN_ATOMIC_FUNC_AND(64, uint64_t, uint64_t, uint64_t);
ASAN_ATOMIC_FUNC_AND(uint, unsigned int, unsigned int, unsigned int);
ASAN_ATOMIC_FUNC_AND(ulong, unsigned long, unsigned long, unsigned long);
ASAN_ATOMIC_FUNC_OR(32, uint32_t, uint32_t, uint32_t);
ASAN_ATOMIC_FUNC_OR(64, uint64_t, uint64_t, uint64_t);
ASAN_ATOMIC_FUNC_OR(uint, unsigned int, unsigned int, unsigned int);
ASAN_ATOMIC_FUNC_OR(ulong, unsigned long, unsigned long, unsigned long);
ASAN_ATOMIC_FUNC_CAS(32, uint32_t, uint32_t, uint32_t);
ASAN_ATOMIC_FUNC_CAS(64, uint64_t, uint64_t, uint64_t);
ASAN_ATOMIC_FUNC_CAS(uint, unsigned int, unsigned int, unsigned int);
ASAN_ATOMIC_FUNC_CAS(ulong, unsigned long, unsigned long, unsigned long);
ASAN_ATOMIC_FUNC_CAS(ptr, void *, void, void *);
ASAN_ATOMIC_FUNC_SWAP(32, uint32_t, uint32_t, uint32_t);
ASAN_ATOMIC_FUNC_SWAP(64, uint64_t, uint64_t, uint64_t);
ASAN_ATOMIC_FUNC_SWAP(uint, unsigned int, unsigned int, unsigned int);
ASAN_ATOMIC_FUNC_SWAP(ulong, unsigned long, unsigned long, unsigned long);
ASAN_ATOMIC_FUNC_SWAP(ptr, void *, void, void *);
ASAN_ATOMIC_FUNC_DEC(32, uint32_t, uint32_t)
ASAN_ATOMIC_FUNC_DEC(64, uint64_t, uint64_t)
ASAN_ATOMIC_FUNC_DEC(uint, unsigned int, unsigned int);
ASAN_ATOMIC_FUNC_DEC(ulong, unsigned long, unsigned long);
ASAN_ATOMIC_FUNC_DEC(ptr, void *, void);
ASAN_ATOMIC_FUNC_INC(32, uint32_t, uint32_t)
ASAN_ATOMIC_FUNC_INC(64, uint64_t, uint64_t)
ASAN_ATOMIC_FUNC_INC(uint, unsigned int, unsigned int);
ASAN_ATOMIC_FUNC_INC(ulong, unsigned long, unsigned long);
ASAN_ATOMIC_FUNC_INC(ptr, void *, void);
/* -------------------------------------------------------------------------- */
#ifdef __HAVE_KASAN_INSTR_BUS
#include <sys/bus.h>
#undef bus_space_read_multi_1
#undef bus_space_read_multi_2
#undef bus_space_read_multi_4
#undef bus_space_read_multi_8
#undef bus_space_read_multi_stream_1
#undef bus_space_read_multi_stream_2
#undef bus_space_read_multi_stream_4
#undef bus_space_read_multi_stream_8
#undef bus_space_read_region_1
#undef bus_space_read_region_2
#undef bus_space_read_region_4
#undef bus_space_read_region_8
#undef bus_space_read_region_stream_1
#undef bus_space_read_region_stream_2
#undef bus_space_read_region_stream_4
#undef bus_space_read_region_stream_8
#undef bus_space_write_multi_1
#undef bus_space_write_multi_2
#undef bus_space_write_multi_4
#undef bus_space_write_multi_8
#undef bus_space_write_multi_stream_1
#undef bus_space_write_multi_stream_2
#undef bus_space_write_multi_stream_4
#undef bus_space_write_multi_stream_8
#undef bus_space_write_region_1
#undef bus_space_write_region_2
#undef bus_space_write_region_4
#undef bus_space_write_region_8
#undef bus_space_write_region_stream_1
#undef bus_space_write_region_stream_2
#undef bus_space_write_region_stream_4
#undef bus_space_write_region_stream_8
#define ASAN_BUS_READ_FUNC(bytes, bits) \
void bus_space_read_multi_##bytes(bus_space_tag_t, bus_space_handle_t, \
bus_size_t, uint##bits##_t *, bus_size_t); \
void kasan_bus_space_read_multi_##bytes(bus_space_tag_t, \
bus_space_handle_t, bus_size_t, uint##bits##_t *, bus_size_t); \
void kasan_bus_space_read_multi_##bytes(bus_space_tag_t tag, \
bus_space_handle_t hnd, bus_size_t size, uint##bits##_t *buf, \
bus_size_t count) \
{ \
kasan_shadow_check((uintptr_t)buf, \
sizeof(uint##bits##_t) * count, false, __RET_ADDR); \
bus_space_read_multi_##bytes(tag, hnd, size, buf, count); \
} \
void bus_space_read_multi_stream_##bytes(bus_space_tag_t, \
bus_space_handle_t, bus_size_t, uint##bits##_t *, bus_size_t); \
void kasan_bus_space_read_multi_stream_##bytes(bus_space_tag_t, \
bus_space_handle_t, bus_size_t, uint##bits##_t *, bus_size_t); \
void kasan_bus_space_read_multi_stream_##bytes(bus_space_tag_t tag, \
bus_space_handle_t hnd, bus_size_t size, uint##bits##_t *buf, \
bus_size_t count) \
{ \
kasan_shadow_check((uintptr_t)buf, \
sizeof(uint##bits##_t) * count, false, __RET_ADDR); \
bus_space_read_multi_stream_##bytes(tag, hnd, size, buf, count);\
} \
void bus_space_read_region_##bytes(bus_space_tag_t, bus_space_handle_t, \
bus_size_t, uint##bits##_t *, bus_size_t); \
void kasan_bus_space_read_region_##bytes(bus_space_tag_t, \
bus_space_handle_t, bus_size_t, uint##bits##_t *, bus_size_t); \
void kasan_bus_space_read_region_##bytes(bus_space_tag_t tag, \
bus_space_handle_t hnd, bus_size_t size, uint##bits##_t *buf, \
bus_size_t count) \
{ \
kasan_shadow_check((uintptr_t)buf, \
sizeof(uint##bits##_t) * count, false, __RET_ADDR); \
bus_space_read_region_##bytes(tag, hnd, size, buf, count); \
} \
void bus_space_read_region_stream_##bytes(bus_space_tag_t, \
bus_space_handle_t, bus_size_t, uint##bits##_t *, bus_size_t); \
void kasan_bus_space_read_region_stream_##bytes(bus_space_tag_t, \
bus_space_handle_t, bus_size_t, uint##bits##_t *, bus_size_t); \
void kasan_bus_space_read_region_stream_##bytes(bus_space_tag_t tag, \
bus_space_handle_t hnd, bus_size_t size, uint##bits##_t *buf, \
bus_size_t count) \
{ \
kasan_shadow_check((uintptr_t)buf, \