2013-01-27 15:03:00 -08:00
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# -*- coding: utf-8 -*-
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2012-06-21 01:37:13 -07:00
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import networkx as nx
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2013-01-27 15:03:51 -08:00
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from romstr import (
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RomStr,
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relative_jumps,
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call_commands,
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relative_unconditional_jumps,
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)
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2012-06-21 01:37:13 -07:00
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class RomGraph(nx.DiGraph):
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"""
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Graphs various functions pointing to each other.
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2012-06-21 01:37:13 -07:00
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TODO: Bank switches are nasty. They should be detected. Otherwise,
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functions will point to non-functions within the same bank. Another way
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to detect bankswitches is retroactively. By disassembling one function
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after another within the function banks, it can be roughly assumed that
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anything pointing to something else (within the same bank) is really
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actually a bankswitch. An even better method to handle bankswitches
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would be to just detect those situations in the asm (but I presently
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forget how bankswitches are performed in pokecrystal).
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"""
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# some areas shouldn't be parsed as asm
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exclusions = []
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# where is the first function located?
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start_address = 0x150
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# and where is a good place to stop?
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2012-07-01 06:41:38 -07:00
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end_address = 0x4000 * 0x03 # only do the first bank? sure..
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2012-06-21 01:37:13 -07:00
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# where is the rom stored?
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rompath = "../baserom.gbc"
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def __init__(self, rom=None, **kwargs):
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"""
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Loads and parses the ROM into a function graph.
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2012-06-21 01:37:13 -07:00
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"""
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# continue the initialization
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nx.DiGraph.__init__(self, **kwargs)
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# load the graph
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if rom == None:
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self.load_rom()
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else:
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self.rom = rom
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# start parsing the ROM
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self.parse()
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def load_rom(self):
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"""
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Creates a RomStr from rompath.
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"""
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file_handler = open(self.rompath, "r")
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self.rom = RomStr(file_handler.read())
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file_handler.close()
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def parse(self):
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"""
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Parses the ROM starting with the first function address. Each
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2012-06-21 01:37:13 -07:00
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function is disassembled and parsed to find where else it leads to.
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"""
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functions = {}
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address = self.start_address
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other_addresses = set()
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count = 0
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while True:
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if count > 3000:
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break
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if address < self.end_address and (address not in functions.keys()) and address >= 0x150:
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# address is okay to parse at, keep going
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pass
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elif len(other_addresses) > 0:
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# parse some other address possibly in a remote bank
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address = other_addresses.pop()
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else:
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# no more addresses detected- exit loop
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break
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# parse the asm
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func = self.rom.to_asm(address)
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2012-07-01 06:41:38 -07:00
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# check if there are any nops (probably not a function)
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nops = 0
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for (id, command) in func.asm_commands.items():
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if command.has_key("id") and command["id"] == 0x0:
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nops += 1
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# skip this function
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if nops > 1:
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address = 0
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continue
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2012-06-21 01:37:13 -07:00
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# store this parsed function
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functions[address] = func
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# where does this function jump to?
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used_addresses = set(func.used_addresses())
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# add this information to the graph
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for used_address in used_addresses:
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# only add this remote address if it's not yet parsed
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if used_address not in functions.keys():
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other_addresses.update([used_address])
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# add this other address to the graph
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if used_address > 100:
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self.add_node(used_address)
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# add this as an edge between the two nodes
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self.add_edge(address, used_address)
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# setup the next function to be parsed
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address = func.last_address
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count += 1
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self.functions = functions
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def pretty_printer(self):
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"""
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Shows some text output describing which nodes point to which other
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nodes.
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"""
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print self.edges()
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def to_d3(self):
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"""
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Exports to d3.js because we're gangster like that.
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2012-06-21 01:37:13 -07:00
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"""
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import networkx.readwrite.json_graph as json_graph
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content = json_graph.dumps(self)
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fh = open("crystal/crystal.json", "w")
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fh.write(content)
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fh.close()
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2012-07-01 06:41:38 -07:00
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def to_gephi(self):
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"""
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Generates a gexf file.
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"""
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nx.write_gexf(self, "graph.gexf")
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class RedGraph(RomGraph):
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"""
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Not implemented. Go away.
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2012-06-21 01:37:13 -07:00
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"""
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rompath = "../pokered-baserom.gbc"
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class CryGraph(RomGraph):
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exclusions = [
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[0x000, 0x149],
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]
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rompath = "../baserom.gbc"
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if __name__ == "__main__":
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crygraph = CryGraph()
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crygraph.pretty_printer()
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crygraph.to_gephi()
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