ref: 5b7d887f9db07bb510ada5abd2ce5224346cae3b
dir: /extras/romstr.py/
# -*- coding: utf-8 -*-
import sys
import os
import time
import datetime
from ctypes import c_int8
from copy import copy
import json
# New versions of json don't have read anymore.
if not hasattr(json, "read"):
json.read = json.loads
from labels import (
get_label_from_line,
get_address_from_line_comment,
)
relative_jumps = [0x38, 0x30, 0x20, 0x28, 0x18, 0xc3, 0xda, 0xc2, 0x32]
relative_unconditional_jumps = [0xc3, 0x18]
call_commands = [0xdc, 0xd4, 0xc4, 0xcc, 0xcd]
end_08_scripts_with = [
0xe9, # jp hl
0xc9, # ret
] # possibly also:
# 0xc3, # jp
# 0xc18, # jr
# 0xda, 0xe9, 0xd2, 0xc2, 0xca, 0x38, 0x30, 0x20, 0x28, 0x18, 0xd8,
# 0xd0, 0xc0, 0xc8, 0xc9
spacing = "\t"
class RomStr(str):
"""
Simple wrapper to prevent a giant rom from being shown on screen.
"""
def __init__(self, *args, **kwargs):
if "labels" in kwargs.keys() and kwargs["labels"] == True:
self.load_labels()
str.__init__(self)
def __repr__(self):
"""
Simplifies this object so that the output doesn't overflow stdout.
"""
return "RomStr(too long)"
@classmethod
def load(cls, filename=None, crystal=True, red=False):
"""
Load a ROM into a RomStr.
"""
if crystal and not red and not filename:
file_handler = open("../baserom.gbc", "r")
elif red and not crystal and not filename:
file_handler = open("../pokered-baserom.gbc", "r")
elif filename not in ["", None]:
file_handler = open(filename, "rb")
else:
raise Exception("not sure which rom to load?")
bytes = file_handler.read()
file_handler.close()
return RomStr(bytes)
def load_labels(self, filename="labels.json"):
"""
Loads labels from labels.json.
(Or parses the source code file and
generates new labels.)
"""
filename = os.path.join(os.path.dirname(__file__), filename)
# blank out the hash
self.labels = {}
# check if the labels file exists
file_existence = os.path.exists(filename)
generate_labels = False
# determine if the labels file needs to be regenerated
if file_existence:
modified = os.path.getmtime(filename)
modified = datetime.datetime.fromtimestamp(modified)
current = datetime.datetime.fromtimestamp(time.time())
is_old = (current - modified) > datetime.timedelta(days=3)
if is_old:
generate_labels = True
else:
generate_labels = True
# scan the asm source code for labels
if generate_labels:
asm = open(os.path.join(os.path.dirname(__file__), "../main.asm"), "r").read().split("\n")
for line in asm:
label = get_label_from_line(line)
if label:
address = get_address_from_line_comment(line)
self.labels[address] = label
content = json.dumps(self.labels)
file_handler = open(filename, "w")
file_handler.write(content)
file_handler.close()
# load the labels from the file
self.labels = json.read(open(filename, "r").read())
def get_address_for(self, label):
"""
Return the address of a label.
This is slow and could be improved dramatically.
"""
label = str(label)
for address in self.labels.keys():
if self.labels[address] == label:
return address
return None
def length(self):
"""
len(self)
"""
return len(self)
def len(self):
"""
len(self)
"""
return self.length()
def interval(self, offset, length, strings=True, debug=True):
"""
Return hex values for the rom starting at offset until offset+length.
"""
returnable = []
for byte in self[offset:offset+length]:
if strings:
returnable.append(hex(ord(byte)))
else:
returnable.append(ord(byte))
return returnable
def until(self, offset, byte, strings=True, debug=False):
"""
Return hex values from rom starting at offset until the given byte.
"""
return self.interval(offset, self.find(chr(byte), offset) - offset, strings=strings)
def to_asm(self, address, end_address=None, size=None, max_size=0x4000, debug=None):
"""
Disassemble ASM at some address.
This will stop disassembling when either the end_address or size is
met. Also, there's a maximum size that will be parsed, so that large
patches of data aren't parsed as code.
"""
if type(address) in [str, unicode] and "0x" in address:
address = int(address, 16)
start_address = address
if start_address == None:
raise Exception, "address must be given"
if debug == None:
if not hasattr(self, "debug"):
debug = False
else:
debug = self.debug
# this is probably a terrible idea.. why am i doing this?
if size != None and max_size < size:
raise Exception, "max_size must be greater than or equal to size"
elif end_address != None and (end_address - start_address) > max_size:
raise Exception, "end_address is out of bounds"
elif end_address != None and size != None:
if (end_address - start_address) >= size:
size = end_address - start_address
else:
end_address = start_address + size
elif end_address == None and size != None:
end_address = start_address + size
elif end_address != None and size == None:
size = end_address - start_address
raise NotImplementedError("DisAsm was removed and never worked; hook up another disassembler please.")
#return DisAsm(start_address=start_address, end_address=end_address, size=size, max_size=max_size, debug=debug, rom=self)
class AsmList(list):
"""
Simple wrapper to prevent all asm lines from being shown on screen.
"""
def length(self):
"""
len(self)
"""
return len(self)
def __repr__(self):
"""
Simplifies this object so that the output doesn't overflow stdout.
"""
return "AsmList(too long)"
if __name__ == "__main__":
cryrom = RomStr(open("../pokecrystal.gbc", "r").read());
asm = cryrom.to_asm(sys.argv[1])
print asm