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# include <stdio.h>
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# include <stdlib.h>
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# include <string.h>
# include <unistd.h>
# include <sys/mman.h>
# include <stdint.h>
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# include <errno.h>
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# include <libreborn/libreborn.h>
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# ifndef __arm__
# error "Patching Code Is ARM Only"
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# endif
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// BL Instruction Magic Number
# define BL_INSTRUCTION 0xeb
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# define B_INSTRUCTION 0xea
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// Generate A BL Instruction
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static uint32_t generate_bl_instruction ( void * from , void * to , int use_b_instruction ) {
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if ( abs ( ( ( int32_t ) to ) - ( ( int32_t ) from ) ) > 32000000 ) {
IMPOSSIBLE ( ) ;
}
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uint32_t instruction ;
unsigned char * instruction_array = ( unsigned char * ) & instruction ;
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instruction_array [ 3 ] = use_b_instruction ? B_INSTRUCTION : BL_INSTRUCTION ;
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unsigned char * pc = ( ( unsigned char * ) from ) + 8 ;
int32_t offset = ( int32_t ) to - ( int32_t ) pc ;
int32_t target = offset > > 2 ;
unsigned char * target_array = ( unsigned char * ) & target ;
instruction_array [ 0 ] = target_array [ 0 ] ;
instruction_array [ 1 ] = target_array [ 1 ] ;
instruction_array [ 2 ] = target_array [ 2 ] ;
return instruction ;
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}
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// Run For Every .text Section
struct overwrite_data {
const char * file ;
int line ;
void * target ;
void * replacement ;
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int found ;
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} ;
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static void overwrite_calls_callback ( ElfW ( Addr ) section_addr , ElfW ( Word ) size , void * data ) {
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struct overwrite_data * args = ( struct overwrite_data * ) data ;
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void * section = ( void * ) section_addr ;
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for ( uint32_t i = 0 ; i < size ; i = i + 4 ) {
unsigned char * addr = ( ( unsigned char * ) section ) + i ;
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int use_b_instruction = addr [ 3 ] = = B_INSTRUCTION ;
// Check If Instruction is B Or BL
if ( addr [ 3 ] = = BL_INSTRUCTION | | use_b_instruction ) {
uint32_t check_instruction = generate_bl_instruction ( addr , args - > target , use_b_instruction ) ;
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unsigned char * check_instruction_array = ( unsigned char * ) & check_instruction ;
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// Check If Instruction Calls Target
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if ( addr [ 0 ] = = check_instruction_array [ 0 ] & & addr [ 1 ] = = check_instruction_array [ 1 ] & & addr [ 2 ] = = check_instruction_array [ 2 ] ) {
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// Patch Instruction
uint32_t new_instruction = generate_bl_instruction ( addr , args - > replacement , use_b_instruction ) ;
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_patch ( args - > file , args - > line , addr , ( unsigned char * ) & new_instruction ) ;
args - > found + + ;
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}
}
}
}
// Limit To 512 overwrite_calls() Uses
# define CODE_BLOCK_SIZE 4096
static unsigned char * code_block = NULL ;
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# define CODE_SIZE 8
static int code_block_remaining = CODE_BLOCK_SIZE ;
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static void _long_overwrite ( void * start , void * target ) {
unsigned char patch_data [ 4 ] = { 0x04 , 0xf0 , 0x1f , 0xe5 } ; // "ldr pc, [pc, #-0x4]"
_patch ( NULL , - 1 , start , patch_data ) ;
_patch_address ( NULL , - 1 , ( void * ) ( ( ( unsigned char * ) start ) + 4 ) , target ) ;
}
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static void update_code_block ( void * target ) {
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// BL Instructions Can Only Access A Limited Portion of Memory, So This Allocates Memory Closer To The Original Instruction, That When Run, Will Jump Into The Actual Target
if ( code_block = = NULL ) {
code_block = mmap ( ( void * ) 0x200000 , CODE_BLOCK_SIZE , PROT_READ | PROT_WRITE , MAP_PRIVATE | MAP_ANONYMOUS , - 1 , 0 ) ;
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if ( code_block = = MAP_FAILED ) {
ERR ( " Unable To Allocate Code Block: %s " , strerror ( errno ) ) ;
}
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DEBUG ( " Code Block Allocated At: 0x%08x " , ( uint32_t ) code_block ) ;
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}
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if ( code_block_remaining < CODE_SIZE ) {
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ERR ( " Maximum Amount Of overwrite_calls() Uses Reached " ) ;
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}
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_long_overwrite ( code_block , target ) ;
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}
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static void increment_code_block ( ) {
code_block = code_block + CODE_SIZE ;
code_block_remaining = code_block_remaining - CODE_SIZE ;
}
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// Overwrite Specific B(L) Instruction
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static void _overwrite_call_internal ( const char * file , int line , void * start , void * target , int use_b_instruction ) {
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// Add New Target To Code Block
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update_code_block ( target ) ;
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// Patch
uint32_t new_instruction = generate_bl_instruction ( start , code_block , use_b_instruction ) ;
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_patch ( file , line , start , ( unsigned char * ) & new_instruction ) ;
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// Increment Code Block Position
increment_code_block ( ) ;
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}
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void _overwrite_call ( const char * file , int line , void * start , void * target ) {
int use_b_instruction = ( ( unsigned char * ) start ) [ 3 ] = = B_INSTRUCTION ;
_overwrite_call_internal ( file , line , start , target , use_b_instruction ) ;
}
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// Overwrite All B(L) Intrusctions That Target The Specified Address
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void _overwrite_calls ( const char * file , int line , void * start , void * target ) {
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// Add New Target To Code Block
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update_code_block ( target ) ;
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struct overwrite_data data ;
data . file = file ;
data . line = line ;
data . target = start ;
data . replacement = code_block ;
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data . found = 0 ;
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iterate_segments ( overwrite_calls_callback , & data ) ;
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// Increment Code Block Position
increment_code_block ( ) ;
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// Check
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if ( data . found < 1 ) {
ERR ( " (%s:%i) Unable To Find Callsites For 0x%08x " , file , line , ( uint32_t ) start ) ;
}
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}
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// Extract Target Address From B(L) Instruction
void * extract_from_bl_instruction ( unsigned char * from ) {
unsigned char * pc = ( ( unsigned char * ) from ) + 8 ;
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int32_t target = * ( int32_t * ) from ;
target = ( target < < 8 ) > > 8 ;
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int32_t offset = target < < 2 ;
return ( void * ) ( pc + offset ) ;
}
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// Overwrite Function
void _overwrite ( const char * file , int line , void * start , void * target ) {
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_overwrite_call_internal ( file , line , start , target , 1 ) ;
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}
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// Print Patch Debug Data
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# define PATCH_PRINTF(file, line, start, str) if (file != NULL) DEBUG("(%s:%i): Patching (0x%08x) - " str ": 0x%02x 0x%02x 0x%02x 0x%02x", file, line, (uint32_t) start, data[0], data[1], data[2], data[3]);
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// Patch Instruction
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void _patch ( const char * file , int line , void * start , unsigned char patch [ 4 ] ) {
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if ( ( ( uint32_t ) start ) % 4 ! = 0 ) {
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ERR ( " Invalid Address " ) ;
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}
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size_t page_size = sysconf ( _SC_PAGESIZE ) ;
uintptr_t end = ( ( uintptr_t ) start ) + 4 ;
uintptr_t page_start = ( ( uintptr_t ) start ) & - page_size ;
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// Allow Writing To Code Memory
mprotect ( ( void * ) page_start , end - page_start , PROT_READ | PROT_WRITE | PROT_EXEC ) ; // PROT_EXEC Is Needed Because Other Code In The Page May Be Being Executed
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unsigned char * data = ( unsigned char * ) start ;
PATCH_PRINTF ( file , line , start , " original " ) ;
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memcpy ( data , patch , 4 ) ;
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PATCH_PRINTF ( file , line , start , " result " ) ;
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// Reset Code Memory Permissions
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mprotect ( ( void * ) page_start , end - page_start , PROT_READ | PROT_EXEC ) ;
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// Clear ARM Instruction Cache
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__clear_cache ( start , ( void * ) end ) ;
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}
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// Patch Address
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void _patch_address ( const char * file , int line , void * start , void * target ) {
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uint32_t addr = ( uint32_t ) target ;
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unsigned char * patch_data = ( unsigned char * ) & addr ;
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_patch ( file , line , start , patch_data ) ;
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}