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fix_kaslr_arm64.c
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fix_kaslr_arm64.c
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#include <sys/types.h>
#include <sys/stat.h>
#include <sys/mman.h>
#include <unistd.h>
#include <stdlib.h>
#include <errno.h>
#include <fcntl.h>
#include <stdint.h>
#include <stdio.h>
#include <string.h>
#ifdef __linux__
#include <linux/limits.h>
#else
#include <limits.h>
#endif
#define KERNEL_TEXT (va_kern_text[va_bits])
#define MIN_ADDR (va_min_addr[va_bits])
#define KERN_VA(p) (void *)((unsigned long)(p) - (unsigned long)kern_buf + KERNEL_TEXT)
#define LOCAL_VA(p) (void *)((unsigned long)(p) - KERNEL_TEXT + (unsigned long)kern_buf)
#define IN_RANGE(p, b, l) (((uint8_t *)(p) >= (uint8_t *)(b)) && ((uint8_t *)(p) < ((uint8_t *)(b) + (ssize_t)(l))))
#define R_AARCH64_RELATIVE (0x403)
#define R_AARCH64_ABS (0x101)
#define ARCH_BITS (64)
uint8_t *kern_buf;
size_t kern_size;
size_t kern_mmap_size;
char infile[PATH_MAX];
char outfile[PATH_MAX];
int va_bits = 39;
size_t va_kern_text[ARCH_BITS] = {0};
size_t va_min_addr[ARCH_BITS] = {0};
struct rela_entry_t {
uint64_t offset;
uint64_t info;
uint64_t sym;
};
struct Elf64_Sym {
uint32_t st_name;
uint8_t st_info;
uint8_t st_other;
uint16_t st_shndx;
uint64_t st_value;
uint64_t st_size;
};
struct rela_entry_t *rela_start;
struct rela_entry_t *rela_end;
static inline int32_t
extract_signed_bitfield (uint32_t insn, unsigned width, unsigned offset)
{
unsigned shift_l = sizeof (int32_t) * 8 - (offset + width);
unsigned shift_r = sizeof (int32_t) * 8 - width;
return ((int32_t) insn << shift_l) >> shift_r;
} __attribute__((always_inline))
static inline int
parse_insn_adrp(uint32_t insn, ssize_t *offset)
{
uint32_t immlo = (insn >> 29) & 0x3;
int32_t immhi = extract_signed_bitfield(insn, 19, 5) << 2;
*offset = (immhi | immlo) * 4096;
return 0;
} __attribute__((always_inline))
static inline int
parse_insn_add(uint32_t insn, uint32_t *inc)
{
*inc = (insn >> 10) & 0xfff;
return 0;
} __attribute__((always_inline))
static inline int alloc_kern_buf()
{
struct stat st;
size_t malloc_size;
int fd;
if (stat(infile, &st) == -1) {
perror("stat failed");
return -1;
}
kern_size = (size_t)st.st_size;
kern_mmap_size = (kern_size + 0xfff) & (~0xfff);
kern_buf = (uint8_t *)mmap(NULL, kern_mmap_size,
PROT_READ | PROT_WRITE, MAP_SHARED | MAP_ANONYMOUS, -1, 0);
if (kern_buf == (void *)-1) {
perror("mmap failed");
return -1;
}
printf("kern_buf @ %p, mmap_size = %lu\n", kern_buf, kern_mmap_size);
fd = open(infile, O_RDONLY);
if (fd == -1) {
perror("open failed");
return -1;
}
read(fd, kern_buf, kern_size);
close(fd);
return 0;
} __attribute__((always_inline))
/* Calculates critical locations
* - rela_entry
* - rela_end;
*/
static inline int parse_rela_sect_smart()
{
#define CONT_THRESHOLD 50
#define GAP_THRESHOLD 5
struct rela_entry_t *p;
int cont = 0;
p = (struct rela_entry_t *)kern_buf;
for (;;) {
if ((size_t)p - (size_t)kern_buf >= kern_mmap_size) {
printf("Failed to locate .rela section. Bail out.\n");
exit(-1);
}
if (p->info == R_AARCH64_RELATIVE ||
p->info == R_AARCH64_ABS) {
if (p->offset >= MIN_ADDR &&
p->sym >= MIN_ADDR) {
cont++;
}
}
else if ((p->info & 0xfff) == 0x101) {
cont++;
}
else {
cont = 0;
}
if (cont == CONT_THRESHOLD) {
rela_start = p - (CONT_THRESHOLD - 1);
printf("rela_start = %p\n", KERN_VA(p));
for (;;) {
struct rela_entry_t *p1;
while (p->info == R_AARCH64_RELATIVE ||
p->info == R_AARCH64_ABS ||
(p->info & 0xfff) == 0x101) {
p++;
}
p1 = p;
while ((p1 - p) < GAP_THRESHOLD) {
if (p1->info == R_AARCH64_RELATIVE ||
p1->info == R_AARCH64_ABS ||
(p1->info & 0xfff) == 0x101) {
break;
}
p1++;
}
if ((p1 - p) >= GAP_THRESHOLD) {
break;
}
else {
p = p1;
}
}
printf("p->info = 0x%lx\n", p->info);
rela_end = p;
printf("rela_end = %p\n", KERN_VA(p));
return 0;
}
if (cont) {
p++;
}
else {
p = (struct rela_entry_t*)((size_t)p + sizeof(void *));
}
}
return -1;
}
static inline int relocate_kernel()
{
#define KERNEL_SLIDE (0)
struct rela_entry_t *rela_entry = rela_start;
int64_t sym_offset;
uint64_t sym_info;
size_t sym_addr;
int count = 0;
while (rela_entry < rela_end)
{
sym_offset = rela_entry->offset;
sym_info = rela_entry->info;
sym_addr = rela_entry->sym;
size_t *p = (size_t *)(sym_offset + KERNEL_SLIDE);
if (sym_info == R_AARCH64_RELATIVE) {
size_t new_addr = sym_addr + KERNEL_SLIDE;
// printf("<%p>\n", (void *)new_addr);
*(size_t *)LOCAL_VA(p) = new_addr;
}
else if ((uint32_t)sym_info == R_AARCH64_ABS) {
struct Elf64_Sym *elf64_sym;
elf64_sym = (struct Elf64_Sym *)((size_t)rela_end + 24 * ((sym_info >> 32) & 0xffffffff));
if (elf64_sym->st_shndx) {
size_t real_stext = elf64_sym->st_value;
if ((int64_t)elf64_sym->st_shndx != -15) {
real_stext += KERNEL_SLIDE;
}
// printf("[%p]\n", (void *)(real_stext + sym_addr));
*(size_t *)LOCAL_VA(p) = real_stext + sym_addr;
}
}
rela_entry++;
count++;
}
printf("%d entries processed\n", count);
return 0;
} __attribute__((always_inline))
static inline int write_outfile()
{
int fd;
fd = open(outfile, O_CREAT | O_RDWR, 0666);
if (fd == -1) {
perror("outfile");
return -1;
}
write(fd, kern_buf, kern_size);
close(fd);
return 0;
} __attribute__((always_inline))
int main(int argc, char **argv)
{
/* initialize va */
va_kern_text[39] = 0xffffff8008080000UL;
va_min_addr[39] = 0xffffff8000000000UL;
va_kern_text[48] = 0xFFFF000008080000UL;
va_min_addr[48] = 0xFFFF000000000000UL;
if (argc != 3 && argc != 4) {
printf("Usage: fix_kaslr_arm64 <infile> <outfile> [va_bits]\n");
printf("By default, va_bits = 39\n");
return -1;
}
if (argc == 4) {
va_bits = (int)strtol(argv[3], NULL, 10);
if (va_bits < 0 || va_bits >= ARCH_BITS) {
printf("Invalid va_bits!\n");
return -1;
}
if (va_kern_text[va_bits] == 0 ||
va_min_addr[va_bits] == 0) {
printf("Unsupported va_bits!\n");
return -1;
}
}
strncpy(infile, argv[1], PATH_MAX);
strncpy(outfile, argv[2], PATH_MAX);
printf("Original kernel: %s, output file: %s\n", infile, outfile);
if (alloc_kern_buf()) {
return -1;
}
if (parse_rela_sect_smart()) {
return -1;
}
if (relocate_kernel()) {
return -1;
}
if (write_outfile()) {
return -1;
}
munmap(kern_buf, kern_mmap_size);
return 0;
}