# This file defines the following function: # write_call_to_code( # const void* patch_code, # size_t patch_code_size, # void* call_opcode_address, # ssize_t call_opcode_bytes); # This function allocates memory for patch_code, copies patch_code to that # memory, then writes a call or jmp opcode to call_opcode_address that calls # the code in the allocated memory region. The allocated memory is never freed. # call_opcode_bytes specifies how many bytes at the callsite should be # overwritten. This value must be at least 5; the first 5 bytes are overwritten # with the call/jmp opcode itself; the rest are overwritten with nop opcodes. # If call_opcode_bytes is positive, a call opcode is written; if it's negative, # a jmp opcode is written. # This function pops its arguments off the stack before returning. write_call_to_code: # [esp + 0x04] = code ptr # [esp + 0x08] = code size # [esp + 0x0C] = jump callsite # [esp + 0x10] = callsite size # Allocate memory for the copied code mov ecx, [0x00AAB404] push dword [esp + 0x08] mov eax, 0x007A8A38 call eax # malloc7 test eax, eax je done # Copy the code to the newly-allocated memory # eax = dest pointer (from malloc7 call above) mov edx, [esp + 0x04] # edx = source pointer mov ecx, [esp + 0x08] # ecx = source size push ebx memcpy_again: dec ecx mov bl, [edx + ecx] # Copy one byte from source to dest mov [eax + ecx], bl test ecx, ecx jne memcpy_again pop ebx # Write the call or jmp opcode mov edx, [esp + 0x0C] # edx = jump callsite lea ecx, [eax - 5] sub ecx, edx # ecx = (dest code addr) - (jump callsite) - 5 cmp dword [esp + 0x10], 0 setl al or al, 0xE8 mov [edx], al # Write E8 (call), or E9 (jmp) if size was negative mov [edx + 1], ecx # Write E8 (call) followed by delta # Write as many nops after the call opcode as necessary mov ecx, 5 mov eax, [esp + 0x10] cmp eax, 0 jge write_nop_again neg eax write_nop_again: cmp ecx, eax jge done mov byte [edx + ecx], 0x90 inc ecx jmp write_nop_again done: ret 0x10