#===- disassembler.py - Python LLVM Bindings -----------------*- python -*--===# # # The LLVM Compiler Infrastructure # # This file is distributed under the University of Illinois Open Source # License. See LICENSE.TXT for details. # #===------------------------------------------------------------------------===# from ctypes import CFUNCTYPE from ctypes import POINTER from ctypes import addressof from ctypes import byref from ctypes import c_byte from ctypes import c_char_p from ctypes import c_int from ctypes import c_size_t from ctypes import c_ubyte from ctypes import c_uint64 from ctypes import c_void_p from ctypes import cast from .common import LLVMObject from .common import c_object_p from .common import get_library __all__ = [ 'Disassembler', ] lib = get_library() callbacks = {} # Constants for set_options Option_UseMarkup = 1 class Disassembler(LLVMObject): """Represents a disassembler instance. Disassembler instances are tied to specific "triple," which must be defined at creation time. Disassembler instances can disassemble instructions from multiple sources. """ def __init__(self, triple): """Create a new disassembler instance. The triple argument is the triple to create the disassembler for. This is something like 'i386-apple-darwin9'. """ ptr = lib.LLVMCreateDisasm(c_char_p(triple), c_void_p(None), c_int(0), callbacks['op_info'](0), callbacks['symbol_lookup'](0)) if not ptr.contents: raise Exception('Could not obtain disassembler for triple: %s' % triple) LLVMObject.__init__(self, ptr, disposer=lib.LLVMDisasmDispose) def get_instruction(self, source, pc=0): """Obtain the next instruction from an input source. The input source should be a str or bytearray or something that represents a sequence of bytes. This function will start reading bytes from the beginning of the source. The pc argument specifies the address that the first byte is at. This returns a 2-tuple of: long number of bytes read. 0 if no instruction was read. str representation of instruction. This will be the assembly that represents the instruction. """ buf = cast(c_char_p(source), POINTER(c_ubyte)) out_str = cast((c_byte * 255)(), c_char_p) result = lib.LLVMDisasmInstruction(self, buf, c_uint64(len(source)), c_uint64(pc), out_str, 255) return (result, out_str.value) def get_instructions(self, source, pc=0): """Obtain multiple instructions from an input source. This is like get_instruction() except it is a generator for all instructions within the source. It starts at the beginning of the source and reads instructions until no more can be read. This generator returns 3-tuple of: long address of instruction. long size of instruction, in bytes. str representation of instruction. """ source_bytes = c_char_p(source) out_str = cast((c_byte * 255)(), c_char_p) # This could probably be written cleaner. But, it does work. buf = cast(source_bytes, POINTER(c_ubyte * len(source))).contents offset = 0 address = pc end_address = pc + len(source) while address < end_address: b = cast(addressof(buf) + offset, POINTER(c_ubyte)) result = lib.LLVMDisasmInstruction(self, b, c_uint64(len(source) - offset), c_uint64(address), out_str, 255) if result == 0: break yield (address, result, out_str.value) address += result offset += result def set_options(self, options): if not lib.LLVMSetDisasmOptions(self, options): raise Exception('Unable to set all disassembler options in %i' % options) def register_library(library): library.LLVMCreateDisasm.argtypes = [c_char_p, c_void_p, c_int, callbacks['op_info'], callbacks['symbol_lookup']] library.LLVMCreateDisasm.restype = c_object_p library.LLVMDisasmDispose.argtypes = [Disassembler] library.LLVMDisasmInstruction.argtypes = [Disassembler, POINTER(c_ubyte), c_uint64, c_uint64, c_char_p, c_size_t] library.LLVMDisasmInstruction.restype = c_size_t library.LLVMSetDisasmOptions.argtypes = [Disassembler, c_uint64] library.LLVMSetDisasmOptions.restype = c_int callbacks['op_info'] = CFUNCTYPE(c_int, c_void_p, c_uint64, c_uint64, c_uint64, c_int, c_void_p) callbacks['symbol_lookup'] = CFUNCTYPE(c_char_p, c_void_p, c_uint64, POINTER(c_uint64), c_uint64, POINTER(c_char_p)) register_library(lib)