mirror of
https://github.com/Maschell/DiiBuggerWUPS.git
synced 2024-11-21 20:29:21 +01:00
579 lines
21 KiB
Python
579 lines
21 KiB
Python
import sys, struct, socket, time, os, binascii, time
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import disassemble
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import threading
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try:
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import tabulate
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except ModuleNotFoundError:
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import pip
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print('Installing tabulate')
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pip.main(['install','tabulate'])
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import tabulate
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class Message:
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DSI = 0
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ISI = 1
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Program = 2
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GetStat = 3
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OpenFile = 4
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ReadFile = 5
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CloseFile = 6
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SetPosFile = 7
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GetStatFile = 8
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Continue = 0
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Step = 1
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StepOver = 2
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def __init__(self, type, data, arg):
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self.type = type
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self.data = data
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self.arg = arg
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class ExceptionState:
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exceptionNames = [" DSI ", " ISI ", "Program"]
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def __init__(self):
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self.filled = False
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def load(self, context, type):
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#Convert tuple to list to make it mutable
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self.filled = True
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self.gpr = list(struct.unpack_from(">32I", context, 8))
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self.cr, self.lr, self.ctr, self.xer = struct.unpack_from(">4I", context, 0x88)
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self.srr0, self.srr1, self.ex0, self.ex1 = struct.unpack_from(">4I", context, 0x98)
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self.fpr = list(struct.unpack_from(">32d", context, 0xB8))
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self.gqr = list(struct.unpack_from(">8I", context, 0x1BC))
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self.psf = list(struct.unpack_from(">32d", context, 0x1E0))
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self.exceptionName = self.exceptionNames[type]
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def isBreakPoint(self):
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return self.exceptionName == "Program" and self.srr1 & 0x20000
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class Thread:
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cores = {
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1: "Core 0",
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2: "Core 1",
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4: "Core 2"
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}
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def __init__(self, data, offs=0):
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self.core = self.cores[struct.unpack_from(">I", data, offs)[0]]
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self.priority = struct.unpack_from(">I", data, offs + 4)[0]
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self.stackBase = struct.unpack_from(">I", data, offs + 8)[0]
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self.stackEnd = struct.unpack_from(">I", data, offs + 12)[0]
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self.entryPoint = struct.unpack_from(">I", data, offs + 16)[0]
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namelen = struct.unpack_from(">I", data, offs + 20)[0]
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self.name = data[offs + 24 : offs + 24 + namelen].decode("ascii")
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class PyBugger:
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def __init__(self):
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super().__init__()
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self.connected = False
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self.breakPoints = []
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self.basePath = b""
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self.currentHandle = 0x12345678
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self.files = {}
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self.messageHandlers = {
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Message.DSI: self.handleException,
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Message.ISI: self.handleException,
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Message.Program: self.handleException,
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Message.GetStat: self.handleGetStat,
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Message.OpenFile: self.handleOpenFile,
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Message.ReadFile: self.handleReadFile,
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Message.CloseFile: self.handleCloseFile,
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Message.SetPosFile: self.handleSetPosFile,
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Message.GetStatFile: self.handleGetStatFile
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}
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self.silent = False
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def handleException(self, msg):
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exceptionState.load(msg.data, msg.type)
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if not self.silent:
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print('+----------------------------------+')
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print('|Exception type %s has occured|'%exceptionState.exceptionName)
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print('+----------------------------------+')
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def handleGetStat(self, msg):
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gamePath = msg.data.decode("ascii")
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path = os.path.join(self.basePath, gamePath.strip("/vol"))
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print("GetStat: %s" %gamePath)
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self.sendFileMessage(os.path.getsize(path))
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def handleOpenFile(self, msg):
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mode = struct.pack(">I", msg.arg).decode("ascii").strip("\x00") + "b"
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path = msg.data.decode("ascii")
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print("Open: %s" %path)
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f = open(os.path.join(self.basePath, path.strip("/vol")), mode)
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self.files[self.currentHandle] = f
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self.sendFileMessage(self.currentHandle)
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self.currentHandle += 1
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def handleReadFile(self, msg):
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print("Read")
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task = Task(blocking=False, cancelable=False)
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bufferAddr, size, count, handle = struct.unpack(">IIII", msg.data)
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data = self.files[handle].read(size * count)
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task.setInfo("Sending file", len(data))
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bytesSent = 0
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while bytesSent < len(data):
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length = min(len(data) - bytesSent, 0x8000)
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self.sendall(b"\x03")
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self.sendall(struct.pack(">II", bufferAddr, length))
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self.sendall(data[bytesSent : bytesSent + length])
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bufferAddr += length
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bytesSent += length
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task.update(bytesSent)
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self.sendFileMessage(bytesSent // size)
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task.end()
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def handleCloseFile(self, msg):
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print("Close")
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self.files.pop(msg.arg).close()
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self.sendFileMessage()
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def handleSetPosFile(self, msg):
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print("SetPos")
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handle, pos = struct.unpack(">II", msg.data)
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self.files[handle].seek(pos)
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self.sendFileMessage()
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def handleGetStatFile(self, msg):
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print("GetStatFile")
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f = self.files[msg.arg]
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pos = f.tell()
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f.seek(0, 2)
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size = f.tell()
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f.seek(pos)
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self.sendFileMessage(size)
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def connect(self, host):
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self.s = socket.socket()
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self.s.connect((host, 1559))
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self.connected = True
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self.breakPoints = []
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self.closeRequest = False
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def close(self):
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self.sendall(b"\x01")
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self.s.close()
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self.connected = False
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def updateMessages(self):
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self.sendall(b"\x07")
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count = struct.unpack(">I", self.recvall(4))[0]
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for i in range(count):
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type, ptr, length, arg = struct.unpack(">IIII", self.recvall(16))
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data = None
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if length:
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data = self.recvall(length)
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self.messageHandlers[type](Message(type, data, arg))
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def read(self, addr, num):
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self.sendall(b"\x02")
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self.sendall(struct.pack(">II", addr, num))
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data = self.recvall(num)
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return data
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def write(self, addr, data):
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self.sendall(b"\x03")
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self.sendall(struct.pack(">II", addr, len(data)))
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self.sendall(data)
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def writeCode(self, addr, instr):
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self.sendall(b"\x04")
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self.sendall(struct.pack(">II", addr, instr))
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def getThreadList(self):
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self.sendall(b"\x05")
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length = struct.unpack(">I", self.recvall(4))[0]
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data = self.recvall(length)
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offset = 0
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threads = []
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while offset < length:
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thread = Thread(data, offset)
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threads.append(thread)
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offset += 24 + len(thread.name)
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return threads
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def toggleBreakPoint(self, addr):
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if addr in self.breakPoints:
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self.breakPoints.remove(addr)
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print('Removed %08X'%addr)
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else:
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if len(self.breakPoints) >= 10:
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return
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self.breakPoints.append(addr)
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print('Added %08X'%addr)
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self.sendall(b"\x0A")
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self.sendall(struct.pack(">I", addr))
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def continueBreak(self): self.sendCrashMessage(Message.Continue)
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def stepBreak(self): self.sendCrashMessage(Message.Step)
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def stepOver(self): self.sendCrashMessage(Message.StepOver)
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def sendCrashMessage(self, message):
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self.sendMessage(message)
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def sendMessage(self, message, data0=0, data1=0, data2=0):
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self.sendall(b"\x06")
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self.sendall(struct.pack(">IIII", message, data0, data1, data2))
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def sendFileMessage(self, data0=0, data1=0, data2=0):
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self.sendall(b"\x0F")
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self.sendall(struct.pack(">IIII", 0, data0, data1, data2))
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def getStackTrace(self):
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self.sendall(b"\x08")
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count = struct.unpack(">I", self.recvall(4))[0]
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trace = struct.unpack(">%iI" %count, self.recvall(4 * count))
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return trace
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def pokeExceptionRegisters(self):
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self.sendall(b"\x09")
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data = struct.pack(">32I32d", *exceptionState.gpr, *exceptionState.fpr)
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self.sendall(data)
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def readDirectory(self, path):
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self.sendall(b"\x0B")
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self.sendall(struct.pack(">I", len(path)))
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self.sendall(path.encode("ascii"))
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entries = []
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namelen = struct.unpack(">I", self.recvall(4))[0]
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while namelen != 0:
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flags = struct.unpack(">I", self.recvall(4))[0]
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size = -1
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if not flags & 0x80000000:
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size = struct.unpack(">I", self.recvall(4))[0]
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name = self.recvall(namelen).decode("ascii")
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entries.append(DirEntry(flags, size, name))
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namelen = struct.unpack(">I", self.recvall(4))[0]
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return entries
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def dumpFile(self, gamePath, outPath, task):
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if task.canceled:
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return
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self.sendall(b"\x0C")
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self.sendall(struct.pack(">I", len(gamePath)))
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self.sendall(gamePath.encode("ascii"))
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length = struct.unpack(">I", self.recvall(4))[0]
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task.setInfo("Dumping %s" %gamePath, length)
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with open(outPath, "wb") as f:
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bytesDumped = 0
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while bytesDumped < length:
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data = self.s.recv(length - bytesDumped)
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f.write(data)
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bytesDumped += len(data)
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task.update(bytesDumped)
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def search(self, startAddress, endAddress, value):
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length = int((endAddress - startAddress) / 4)
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self.sendall(b"\x11")
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self.sendall(struct.pack(">L", startAddress))
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self.sendall(struct.pack(">L", length))
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self.sendall(struct.pack(">L", value))
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location = struct.unpack(">L", self.recvall(4))
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return location
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def loadMods(self, fileBytes):
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self.sendall(b"\x12")
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self.sendall(struct.pack(">L", len(fileBytes)))
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self.sendall(fileBytes)
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def getModuleName(self):
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self.sendall(b"\x0D")
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length = struct.unpack(">I", self.recvall(4))[0]
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return self.recvall(length).decode("ascii") + ".rpx"
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def setPatchFiles(self, fileList, basePath):
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self.basePath = basePath
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self.sendall(b"\x0E")
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fileBuffer = struct.pack(">I", len(fileList))
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for path in fileList:
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fileBuffer += struct.pack(">H", len(path))
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fileBuffer += path.encode("ascii")
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self.sendall(struct.pack(">I", len(fileBuffer)))
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self.sendall(fileBuffer)
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def clearPatchFiles(self):
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self.sendall(b"\x10")
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def sendall(self, data):
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try:
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self.s.sendall(data)
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except socket.error:
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self.connected = False
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def recvall(self, num):
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try:
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data = b""
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while len(data) < num:
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data += self.s.recv(num - len(data))
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except socket.error:
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self.connected = False
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return b"\x00" * num
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return data
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exceptionState = ExceptionState()
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bugger = PyBugger()
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while True:
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try:
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userInput = input("> ").strip()
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splitCmd = userInput.split(" ")
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cmd = splitCmd[0].lower()
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except KeyboardInterrupt:
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print("") #Just to prevent issues with early disconnects
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except Exception as e:
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print(e)
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try:
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if cmd == "help":
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print(" Command list:")
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print("-----------------------------------------------------------------")
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print("exit")
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print(" Closes connection and exits")
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print("connect [ip]")
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print(" Connects to diibugger at a specified ip address if no ip is")
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print(" given, it will use one from ip.txt in the active directory")
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print("close")
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print(" Closes connection and waits")
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print("eval [statement]")
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print(" Evalutes a python statement")
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print("cmd [command]")
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print(" Evaluates a system command")
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print("read [address] [length]")
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print(" Prints out certain bytes in hex and ascii to the console")
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print(" aliases: preview, r")
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print("dump [address] [length] [filename]")
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print(" Dumps a certain area of memory to file")
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print("search [startAddress] [endAddress] [value]")
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print(" Search a range of memory for a uin32 value")
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print("word [address] [value]")
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print(" Writes a uint32 to an address")
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print(" aliases: ww, writeword, int")
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print("float [address] [value]")
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print(" Writes a float to an address")
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print("hex [address] [hex]")
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print(" Writes bytes to a specified address")
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print(" aliases: bytes, w, writebytes")
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print("ppc [address] [length]")
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print(" Print disassembled code from the specified region")
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print("threads")
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print(" List thread info")
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print("stack")
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print(" Prints a stack trace")
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print(" aliases: stacktrace, trace")
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print("stackdump [stackNum] [filename]")
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print(" Dumps entire thread's stack to file (Note: get stacknum from \"threads\")")
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print(" aliases: sd")
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print("registers (or reg)")
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print(" Print registers")
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print("update (or u)")
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print(" Checks for exceptions")
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print(" this is run after every other command as well")
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print("breakpoints (or bps)")
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print(" List breakpoints")
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print("breapoint [address] (or bp)")
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print(" Toggle breakpoint")
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print("continue (or c)")
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print(" Continue past breakpoint")
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print("step (or s)")
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print(" Step from breakpoint to next line")
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elif cmd == "exit":
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try:
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if bugger.connected:
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for i in bugger.breakPoints:
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bugger.toggleBreakPoint(i)
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bugger.close()
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finally:
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break
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elif cmd == "connect":
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bugger.connect(splitCmd[1])
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if bugger.connected:
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print("Successfully connected\nCurrent title: "+bugger.getModuleName())
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else:
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print("Failed to connect")
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elif cmd == "cmd":
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os.system(userInput[userInput.find(" ")+1:])
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elif cmd == "eval":
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print(eval(userInput[userInput.find(" ")+1:]))
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elif not bugger.connected:
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print("Diibugger server not connected, use 'connect [ip]' to connect")
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elif cmd == "close":
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if bugger.connected:
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for i in bugger.breakPoints:
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bugger.toggleBreakPoint(i)
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bugger.close()
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elif cmd == "read" or cmd == "preview" or cmd == "r":
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addressStr = splitCmd[1]
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if addressStr[0] == 'r':
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address = exceptionState.gpr[int(addressStr[1:])]
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else:
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address = int(addressStr, 16)
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length = 0x30
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if len(splitCmd) >= 3:
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length = int(splitCmd[2], 16)
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start = address - (address % 0x10)
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end = address + length
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if end % 0x10 != 0:
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end += (0x10 - ((address + length) % 0x10))
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readBytes = bugger.read(start, end - start)
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print(" | 00 01 02 03 04 05 06 07 08 09 0A 0B 0C 0D 0E 0F | 012345678ABCDEF");
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print(" |-------------------------------------------------|----------------")
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for i in range(int(len(readBytes) / 0x10)):
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thisString = readBytes[i*0x10:(i+1)*0x10].decode('latin1')
|
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for char in ['\n', '\t', '\r', chr(0)]:
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thisString = thisString.replace(char, '.')
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print("%08X | %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X | %s " % tuple([i*0x10 + start] + list(readBytes[i*0x10:(i+1)*0x10]) + [thisString]))
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elif cmd == "dump":
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if len(splitCmd) <= 3:
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print("Not enough arguments\n\tdump [address] [length] [file]")
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else:
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addressStr = splitCmd[1]
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if addressStr[0] == 'r':
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address = exceptionState.gpr[int(addressStr[1:])]
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else:
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address = int(addressStr, 16)
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length = int(splitCmd[2], 16)
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filename = ""
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for i in splitCmd[3:]:
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filename += i + " "
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filename = filename.strip().strip('"').strip("'")
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with open(filename, 'wb') as f:
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f.write(bugger.read(address, length))
|
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elif cmd == "search":
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startAddress = int(splitCmd[1],16)
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endAddress = int(splitCmd[2], 16)
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value = int(splitCmd[3], 16)
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address = bugger.search(startAddress, endAddress, value)
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if address == 0:
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print("Not found in range")
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else:
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print("Located at %08X" % address)
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elif cmd == "word" or cmd == "ww" or cmd == "writeword" or cmd == "int":
|
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addressStr = splitCmd[1]
|
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if addressStr[0] == 'r':
|
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address = exceptionState.gpr[int(addressStr[1:])]
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else:
|
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address = int(addressStr, 16)
|
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value = int(splitCmd[2], 16)
|
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bugger.write(address, struct.pack(">L", value))
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elif cmd == "float":
|
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addressStr = splitCmd[1]
|
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if addressStr[0] == 'r':
|
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address = exceptionState.gpr[int(addressStr[1:])]
|
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else:
|
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address = int(addressStr, 16)
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value = float(splitCmd[2])
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bugger.write(address, struct.pack(">f", value))
|
|
elif cmd == "hex" or cmd == "bytes" or cmd == "w" or cmd == "writebytes":
|
|
addressStr = splitCmd[1]
|
|
if addressStr[0] == 'r':
|
|
address = exceptionState.gpr[int(addressStr[1:])]
|
|
else:
|
|
address = int(addressStr, 16)
|
|
bugger.write(address, binascii.unhexlify(splitCmd[2]))
|
|
elif cmd == "ppc":
|
|
addressStr = splitCmd[1]
|
|
if addressStr[0] == 'r':
|
|
address = exceptionState.gpr[int(addressStr[1:])]
|
|
else:
|
|
address = int(addressStr, 16)
|
|
length = 4
|
|
if len(splitCmd) > 2:
|
|
length = int(splitCmd[2], 16)
|
|
ppcBytes = bugger.read(address, length)
|
|
for i in range(int(len(ppcBytes) / 4)):
|
|
value = struct.unpack('>L',ppcBytes[i*4:i*4 + 4])[0]
|
|
addr = address + (i*4)
|
|
instr = disassemble.disassemble(value, addr)
|
|
print("%08X: %08X %s" %(addr, value, instr))
|
|
elif cmd == "stack" or cmd == "stacktrace" or cmd == "trace":
|
|
stackTrace = bugger.getStackTrace()
|
|
print('')
|
|
for address in stackTrace:
|
|
print("%X" % address)
|
|
elif cmd == "registers" or cmd == "regs":
|
|
if exceptionState.filled:
|
|
for i in range(4):
|
|
for j in range(8):
|
|
print("r%2i: %08X" % (i*8 + j, exceptionState.gpr[i*8 + j]), end=' ')
|
|
print('')
|
|
print('CR:%08X LR:%08X CTR:%08X XER:%08X EX0:%08X EX1:%08X SRR0:%08X SRR1:%08X' % (exceptionState.cr, exceptionState.lr, exceptionState.ctr, exceptionState.xer, exceptionState.ex0, exceptionState.ex1, exceptionState.srr0, exceptionState.srr1))
|
|
else:
|
|
print("No exception state")
|
|
elif cmd == "update" or cmd == "u":
|
|
pass
|
|
elif cmd == "threads":
|
|
threads = bugger.getThreadList()
|
|
table = []
|
|
for i,thread in enumerate(threads):
|
|
table.append([i,thread.name,thread.core,'%08X' % thread.stackBase,'%08X' % thread.stackEnd,'%08X' % thread.entryPoint,thread.priority])
|
|
print(tabulate.tabulate(table,["Thread","Name","Core","Stack Start","Stack End","Entrypoint","Priority"]))
|
|
elif cmd == "stackdump" or cmd == "sd":
|
|
stackNum = int(splitCmd[1],0)
|
|
filename = ""
|
|
for i in splitCmd[2:]:
|
|
filename += i + " "
|
|
filename = filename.strip().strip('"').strip("'")
|
|
thread = bugger.getThreadList()[stackNum]
|
|
with open(filename, 'wb') as f:
|
|
f.write(bugger.read(thread.stackEnd, thread.stackBase - thread.stackEnd))
|
|
elif cmd == "breakpoints" or cmd == "bps":
|
|
for bp in bugger.breakPoints:
|
|
print('%08X'%bp)
|
|
elif cmd == "breakpoint" or cmd == "bp":
|
|
addressStr = splitCmd[1]
|
|
if addressStr[0] == 'r':
|
|
address = exceptionState.gpr[int(addressStr[1:])]
|
|
else:
|
|
address = int(addressStr, 16)
|
|
bugger.toggleBreakPoint(address)
|
|
elif cmd == "continue" or cmd == "c":
|
|
bugger.continueBreak()
|
|
elif cmd == "step" or cmd == "s":
|
|
bugger.stepBreak()
|
|
time.sleep(0.2)
|
|
bugger.silent = True
|
|
bugger.updateMessages()
|
|
bugger.silent = False
|
|
print('Stepped to %08X' % exceptionState.srr0)
|
|
elif cmd == "stepover" or cmd == "so":
|
|
bugger.stepOver()
|
|
elif cmd == "load":
|
|
filename = userInput[5:]
|
|
with open(filename, 'rb') as f:
|
|
fileBytes = f.read()
|
|
if fileBytes[:4] == b'MODS':
|
|
bugger.loadMods(fileBytes)
|
|
else:
|
|
print("Not a valid mods file")
|
|
else:
|
|
print("Invalid command")
|
|
if bugger.connected:
|
|
bugger.updateMessages()
|
|
except Exception as e:
|
|
print(e)
|