mirror of
https://github.com/wiiu-env/wiiu-nanddumper-payload.git
synced 2024-11-25 04:36:55 +01:00
757 lines
25 KiB
Python
757 lines
25 KiB
Python
# may or may not be inspired by plutoo's ctrrpc
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import errno
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import socket
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import os
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import sys
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import struct
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from time import sleep
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def buffer(size):
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return bytearray([0x00] * size)
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def copy_string(buffer, s, offset):
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s += "\0"
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buffer[offset : (offset + len(s))] = bytearray(s, "ascii")
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def copy_word(buffer, w, offset):
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buffer[offset : (offset + 4)] = struct.pack(">I", w)
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def get_string(buffer, offset):
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s = buffer[offset:]
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if b'\x00' in s:
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return s[:s.index(b'\x00')].decode("utf-8")
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else:
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return s.decode("utf-8")
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class wupclient:
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s=None
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def __init__(self, ip='192.168.178.23', port=1337):
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self.s=socket.socket()
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self.s.connect((ip, port))
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self.fsa_handle = None
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self.cwd = "/vol/storage_mlc01"
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def __del__(self):
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if self.fsa_handle != None:
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self.close(self.fsa_handle)
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self.fsa_handle = None
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# fundamental comms
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def send(self, command, data):
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request = struct.pack('>I', command) + data
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self.s.send(request)
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response = self.s.recv(0x600)
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ret = struct.unpack(">I", response[:4])[0]
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return (ret, response[4:])
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# core commands
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def read(self, addr, len):
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data = struct.pack(">II", addr, len)
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ret, data = self.send(1, data)
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if ret == 0:
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return data
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else:
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print("read error : %08X" % ret)
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return None
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def write(self, addr, data):
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data = struct.pack(">I", addr) + data
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ret, data = self.send(0, data)
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if ret == 0:
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return ret
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else:
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print("write error : %08X" % ret)
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return None
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def svc(self, svc_id, arguments):
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data = struct.pack(">I", svc_id)
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for a in arguments:
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data += struct.pack(">I", a)
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ret, data = self.send(2, data)
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if ret == 0:
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return struct.unpack(">I", data)[0]
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else:
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print("svc error : %08X" % ret)
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return None
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def kill(self):
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ret, _ = self.send(3, bytearray())
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return ret
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def memcpy(self, dst, src, len):
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data = struct.pack(">III", dst, src, len)
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ret, data = self.send(4, data)
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if ret == 0:
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return ret
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else:
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print("memcpy error : %08X" % ret)
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return None
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def repeatwrite(self, dst, val, n):
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data = struct.pack(">III", dst, val, n)
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ret, data = self.send(5, data)
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if ret == 0:
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return ret
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else:
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print("repeatwrite error : %08X" % ret)
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return None
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# derivatives
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def alloc(self, size, align = None):
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if size == 0:
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return 0
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if align == None:
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return self.svc(0x27, [0xCAFF, size])
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else:
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return self.svc(0x28, [0xCAFF, size, align])
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def free(self, address):
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if address == 0:
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return 0
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return self.svc(0x29, [0xCAFF, address])
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def load_buffer(self, b, align = None):
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if len(b) == 0:
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return 0
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address = self.alloc(len(b), align)
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self.write(address, b)
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return address
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def load_string(self, s, align = None):
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return self.load_buffer(bytearray(s + "\0", "ascii"), align)
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def open(self, device, mode):
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address = self.load_string(device)
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handle = self.svc(0x33, [address, mode])
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self.free(address)
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return handle
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def close(self, handle):
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return self.svc(0x34, [handle])
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def ioctl(self, handle, cmd, inbuf, outbuf_size):
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in_address = self.load_buffer(inbuf)
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out_data = None
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if outbuf_size > 0:
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out_address = self.alloc(outbuf_size)
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ret = self.svc(0x38, [handle, cmd, in_address, len(inbuf), out_address, outbuf_size])
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out_data = self.read(out_address, outbuf_size)
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self.free(out_address)
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else:
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ret = self.svc(0x38, [handle, cmd, in_address, len(inbuf), 0, 0])
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self.free(in_address)
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return (ret, out_data)
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def iovec(self, vecs):
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data = bytearray()
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for (a, s) in vecs:
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data += struct.pack(">III", a, s, 0)
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return self.load_buffer(data)
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def ioctlv(self, handle, cmd, inbufs, outbuf_sizes, inbufs_ptr = [], outbufs_ptr = []):
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inbufs = [(self.load_buffer(b, 0x40), len(b)) for b in inbufs]
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outbufs = [(self.alloc(s, 0x40), s) for s in outbuf_sizes]
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iovecs = self.iovec(inbufs + inbufs_ptr + outbufs_ptr + outbufs)
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out_data = []
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ret = self.svc(0x39, [handle, cmd, len(inbufs + inbufs_ptr), len(outbufs + outbufs_ptr), iovecs])
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for (a, s) in outbufs:
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out_data += [self.read(a, s)]
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for (a, _) in (inbufs + outbufs):
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self.free(a)
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self.free(iovecs)
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return (ret, out_data)
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# fsa
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def FSA_Mount(self, handle, device_path, volume_path, flags):
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inbuffer = buffer(0x520)
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copy_string(inbuffer, device_path, 0x0004)
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copy_string(inbuffer, volume_path, 0x0284)
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copy_word(inbuffer, flags, 0x0504)
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(ret, _) = self.ioctlv(handle, 0x01, [inbuffer, bytearray()], [0x293])
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return ret
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def FSA_Unmount(self, handle, path, flags):
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inbuffer = buffer(0x520)
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copy_string(inbuffer, path, 0x4)
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copy_word(inbuffer, flags, 0x284)
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(ret, _) = self.ioctl(handle, 0x02, inbuffer, 0x293)
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return ret
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def FSA_RawOpen(self, handle, device):
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inbuffer = buffer(0x520)
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copy_string(inbuffer, device, 0x4)
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(ret, data) = self.ioctl(handle, 0x6A, inbuffer, 0x293)
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return (ret, struct.unpack(">I", data[4:8])[0])
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def FSA_OpenDir(self, handle, path):
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inbuffer = buffer(0x520)
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copy_string(inbuffer, path, 0x4)
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(ret, data) = self.ioctl(handle, 0x0A, inbuffer, 0x293)
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return (ret, struct.unpack(">I", data[4:8])[0])
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def FSA_ReadDir(self, handle, dir_handle):
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inbuffer = buffer(0x520)
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copy_word(inbuffer, dir_handle, 0x4)
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(ret, data) = self.ioctl(handle, 0x0B, inbuffer, 0x293)
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data = bytearray(data[4:])
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unk = data[:0x64]
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if ret == 0:
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return (ret, {"name" : get_string(data, 0x64), "is_file" : (unk[0] & 128) != 128, "unk" : unk})
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else:
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return (ret, None)
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def FSA_CloseDir(self, handle, dir_handle):
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inbuffer = buffer(0x520)
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copy_word(inbuffer, dir_handle, 0x4)
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(ret, data) = self.ioctl(handle, 0x0D, inbuffer, 0x293)
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return ret
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def FSA_OpenFile(self, handle, path, mode):
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inbuffer = buffer(0x520)
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copy_string(inbuffer, path, 0x4)
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copy_string(inbuffer, mode, 0x284)
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(ret, data) = self.ioctl(handle, 0x0E, inbuffer, 0x293)
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return (ret, struct.unpack(">I", data[4:8])[0])
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def FSA_MakeDir(self, handle, path, flags):
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inbuffer = buffer(0x520)
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copy_string(inbuffer, path, 0x4)
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copy_word(inbuffer, flags, 0x284)
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(ret, _) = self.ioctl(handle, 0x07, inbuffer, 0x293)
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return ret
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def FSA_ReadFile(self, handle, file_handle, size, cnt):
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inbuffer = buffer(0x520)
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copy_word(inbuffer, size, 0x08)
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copy_word(inbuffer, cnt, 0x0C)
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copy_word(inbuffer, file_handle, 0x14)
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(ret, data) = self.ioctlv(handle, 0x0F, [inbuffer], [size * cnt, 0x293])
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return (ret, data[0])
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def FSA_WriteFile(self, handle, file_handle, data):
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inbuffer = buffer(0x520)
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copy_word(inbuffer, 1, 0x08) # size
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copy_word(inbuffer, len(data), 0x0C) # cnt
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copy_word(inbuffer, file_handle, 0x14)
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(ret, data) = self.ioctlv(handle, 0x10, [inbuffer, data], [0x293])
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return (ret)
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def FSA_ReadFilePtr(self, handle, file_handle, size, cnt, ptr):
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inbuffer = buffer(0x520)
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copy_word(inbuffer, size, 0x08)
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copy_word(inbuffer, cnt, 0x0C)
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copy_word(inbuffer, file_handle, 0x14)
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(ret, data) = self.ioctlv(handle, 0x0F, [inbuffer], [0x293], [], [(ptr, size*cnt)])
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return (ret, data[0])
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def FSA_WriteFilePtr(self, handle, file_handle, size, cnt, ptr):
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inbuffer = buffer(0x520)
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copy_word(inbuffer, size, 0x08)
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copy_word(inbuffer, cnt, 0x0C)
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copy_word(inbuffer, file_handle, 0x14)
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(ret, data) = self.ioctlv(handle, 0x10, [inbuffer], [0x293], [(ptr, size*cnt)], [])
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return (ret)
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def FSA_GetStatFile(self, handle, file_handle):
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inbuffer = buffer(0x520)
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copy_word(inbuffer, file_handle, 0x4)
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(ret, data) = self.ioctl(handle, 0x14, inbuffer, 0x64)
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return (ret, struct.unpack(">IIIIIIIIIIIIIIIIIIIIIIIII", data))
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def FSA_CloseFile(self, handle, file_handle):
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inbuffer = buffer(0x520)
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copy_word(inbuffer, file_handle, 0x4)
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(ret, data) = self.ioctl(handle, 0x15, inbuffer, 0x293)
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return ret
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def FSA_ChangeMode(self, handle, path, mode):
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mask = 0x777
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inbuffer = buffer(0x520)
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copy_string(inbuffer, path, 0x0004)
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copy_word(inbuffer, mode, 0x0284)
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copy_word(inbuffer, mask, 0x0288)
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(ret, _) = self.ioctl(handle, 0x20, inbuffer, 0x293)
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return ret
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# mcp
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def MCP_InstallGetInfo(self, handle, path):
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inbuffer = buffer(0x27F)
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copy_string(inbuffer, path, 0x0)
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(ret, data) = self.ioctlv(handle, 0x80, [inbuffer], [0x16])
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return (ret, struct.unpack(">IIIIIH", data[0]))
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def MCP_Install(self, handle, path):
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inbuffer = buffer(0x27F)
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copy_string(inbuffer, path, 0x0)
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(ret, _) = self.ioctlv(handle, 0x81, [inbuffer], [])
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return ret
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def MCP_InstallGetProgress(self, handle):
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(ret, data) = self.ioctl(handle, 0x82, [], 0x24)
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return (ret, struct.unpack(">IIIIIIIII", data))
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def MCP_CopyTitle(self, handle, path, dst_device_id, flush):
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inbuffer = buffer(0x27F)
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copy_string(inbuffer, path, 0x0)
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inbuffer2 = buffer(0x4)
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copy_word(inbuffer2, dst_device_id, 0x0)
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inbuffer3 = buffer(0x4)
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copy_word(inbuffer3, flush, 0x0)
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(ret, _) = self.ioctlv(handle, 0x85, [inbuffer, inbuffer2, inbuffer3], [])
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return ret
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def MCP_InstallSetTargetDevice(self, handle, device):
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inbuffer = buffer(0x4)
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copy_word(inbuffer, device, 0x0)
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(ret, _) = self.ioctl(handle, 0x8D, inbuffer, 0)
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return ret
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def MCP_InstallSetTargetUsb(self, handle, device):
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inbuffer = buffer(0x4)
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copy_word(inbuffer, device, 0x0)
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(ret, _) = self.ioctl(handle, 0xF1, inbuffer, 0)
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return ret
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# syslog (tmp)
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def dump_syslog(self):
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syslog_address = struct.unpack(">I", self.read(0x05095ECC, 4))[0] + 0x10
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block_size = 0x400
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for i in range(0, 0x40000, block_size):
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data = self.read(syslog_address + i, 0x400)
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# if 0 in data:
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# print(data[:data.index(0)].decode("ascii"))
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# break
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# else:
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print(data.decode("ascii"))
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# file management
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def get_fsa_handle(self):
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if self.fsa_handle == None:
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self.fsa_handle = self.open("/dev/fsa", 0)
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return self.fsa_handle
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def mkdir(self, path, flags):
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fsa_handle = self.get_fsa_handle()
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if path[0] != "/":
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path = self.cwd + "/" + path
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ret = w.FSA_MakeDir(fsa_handle, path, flags)
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if ret == 0:
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return 0
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else:
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print("mkdir error (%s, %08X)" % (path, ret))
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return ret
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def chmod(self, filename, flags):
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fsa_handle = self.get_fsa_handle()
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if filename[0] != "/":
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filename = self.cwd + "/" + filename
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ret = w.FSA_ChangeMode(fsa_handle, filename, flags)
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print("chmod returned : " + hex(ret))
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def cd(self, path):
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if path[0] != "/" and self.cwd[0] == "/":
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return self.cd(self.cwd + "/" + path)
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fsa_handle = self.get_fsa_handle()
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ret, dir_handle = self.FSA_OpenDir(fsa_handle, path if path != None else self.cwd)
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if ret == 0:
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self.cwd = path
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self.FSA_CloseDir(fsa_handle, dir_handle)
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return 0
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else:
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print("cd error : path does not exist (%s)" % (path))
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return -1
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def ls(self, path = None, return_data = False):
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fsa_handle = self.get_fsa_handle()
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if path != None and path[0] != "/":
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path = self.cwd + "/" + path
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ret, dir_handle = self.FSA_OpenDir(fsa_handle, path if path != None else self.cwd)
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if ret != 0x0:
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print("opendir error : " + hex(ret))
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return [] if return_data else None
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entries = []
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while True:
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ret, data = self.FSA_ReadDir(fsa_handle, dir_handle)
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if ret != 0:
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break
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if not(return_data):
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if data["is_file"]:
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print(" %s" % data["name"])
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else:
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print(" %s/" % data["name"])
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else:
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entries += [data]
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ret = self.FSA_CloseDir(fsa_handle, dir_handle)
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return entries if return_data else None
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def dldir(self, path):
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if path[0] != "/":
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path = self.cwd + "/" + path
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entries = self.ls(path, True)
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for e in entries:
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if e["is_file"]:
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print(e["name"])
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self.dl(path + "/" + e["name"],path[1:])
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else:
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print(e["name"] + "/")
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self.dldir(path + "/" + e["name"])
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def cpdir(self, srcpath, dstpath):
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entries = self.ls(srcpath, True)
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q = [(srcpath, dstpath, e) for e in entries]
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while len(q) > 0:
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_srcpath, _dstpath, e = q.pop()
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_srcpath += "/" + e["name"]
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_dstpath += "/" + e["name"]
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if e["is_file"]:
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print(e["name"])
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self.cp(_srcpath, _dstpath)
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else:
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self.mkdir(_dstpath, 0x600)
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entries = self.ls(_srcpath, True)
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q += [(_srcpath, _dstpath, e) for e in entries]
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def pwd(self):
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return self.cwd
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def cp(self, filename_in, filename_out):
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fsa_handle = self.get_fsa_handle()
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ret, in_file_handle = self.FSA_OpenFile(fsa_handle, filename_in, "r")
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if ret != 0x0:
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print("cp error : could not open " + filename_in)
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return
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ret, out_file_handle = self.FSA_OpenFile(fsa_handle, filename_out, "w")
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if ret != 0x0:
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print("cp error : could not open " + filename_out)
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return
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block_size = 0x10000
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buffer = self.alloc(block_size, 0x40)
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k = 0
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while True:
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ret, _ = self.FSA_ReadFilePtr(fsa_handle, in_file_handle, 0x1, block_size, buffer)
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k += ret
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ret = self.FSA_WriteFilePtr(fsa_handle, out_file_handle, 0x1, ret, buffer)
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sys.stdout.write(hex(k) + "\r"); sys.stdout.flush();
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if ret < block_size:
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break
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self.free(buffer)
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ret = self.FSA_CloseFile(fsa_handle, out_file_handle)
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ret = self.FSA_CloseFile(fsa_handle, in_file_handle)
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def df(self, filename_out, src, size):
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fsa_handle = self.get_fsa_handle()
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ret, out_file_handle = self.FSA_OpenFile(fsa_handle, filename_out, "w")
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if ret != 0x0:
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print("df error : could not open " + filename_out)
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return
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block_size = 0x10000
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buffer = self.alloc(block_size, 0x40)
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k = 0
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while k < size:
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cur_size = min(size - k, block_size)
|
|
self.memcpy(buffer, src + k, cur_size)
|
|
k += cur_size
|
|
ret = self.FSA_WriteFilePtr(fsa_handle, out_file_handle, 0x1, cur_size, buffer)
|
|
sys.stdout.write(hex(k) + " (%f) " % (float(k * 100) / size) + "\r"); sys.stdout.flush();
|
|
self.free(buffer)
|
|
ret = self.FSA_CloseFile(fsa_handle, out_file_handle)
|
|
|
|
def dl(self, filename, directorypath = None, local_filename = None):
|
|
fsa_handle = self.get_fsa_handle()
|
|
if filename[0] != "/":
|
|
filename = self.cwd + "/" + filename
|
|
if local_filename == None:
|
|
if "/" in filename:
|
|
local_filename = filename[[i for i, x in enumerate(filename) if x == "/"][-1]+1:]
|
|
else:
|
|
local_filename = filename
|
|
ret, file_handle = self.FSA_OpenFile(fsa_handle, filename, "r")
|
|
if ret != 0x0:
|
|
print("dl error : could not open " + filename)
|
|
return
|
|
buffer = bytearray()
|
|
block_size = 0x400
|
|
while True:
|
|
ret, data = self.FSA_ReadFile(fsa_handle, file_handle, 0x1, block_size)
|
|
# print(hex(ret), data)
|
|
buffer += data[:ret]
|
|
sys.stdout.write(hex(len(buffer)) + "\r"); sys.stdout.flush();
|
|
if ret < block_size:
|
|
break
|
|
ret = self.FSA_CloseFile(fsa_handle, file_handle)
|
|
if directorypath == None:
|
|
open(local_filename, "wb").write(buffer)
|
|
else:
|
|
dir_path = os.path.dirname(os.path.abspath(sys.argv[0])).replace('\\','/')
|
|
fullpath = dir_path + "/" + directorypath + "/"
|
|
fullpath = fullpath.replace("//","/")
|
|
mkdir_p(fullpath)
|
|
open(fullpath + local_filename, "wb").write(buffer)
|
|
|
|
def mkdir_p(path):
|
|
try:
|
|
os.makedirs(path)
|
|
except OSError as exc: # Python >2.5
|
|
if exc.errno == errno.EEXIST and os.path.isdir(path):
|
|
pass
|
|
else:
|
|
raise
|
|
|
|
def fr(self, filename, offset, size):
|
|
fsa_handle = self.get_fsa_handle()
|
|
if filename[0] != "/":
|
|
filename = self.cwd + "/" + filename
|
|
ret, file_handle = self.FSA_OpenFile(fsa_handle, filename, "r")
|
|
if ret != 0x0:
|
|
print("fr error : could not open " + filename)
|
|
return
|
|
buffer = bytearray()
|
|
block_size = 0x400
|
|
while True:
|
|
ret, data = self.FSA_ReadFile(fsa_handle, file_handle, 0x1, block_size if (block_size < size) else size)
|
|
buffer += data[:ret]
|
|
sys.stdout.write(hex(len(buffer)) + "\r"); sys.stdout.flush();
|
|
if len(buffer) >= size:
|
|
break
|
|
ret = self.FSA_CloseFile(fsa_handle, file_handle)
|
|
return buffer
|
|
|
|
def fw(self, filename, offset, buffer):
|
|
fsa_handle = self.get_fsa_handle()
|
|
if filename[0] != "/":
|
|
filename = self.cwd + "/" + filename
|
|
ret, file_handle = self.FSA_OpenFile(fsa_handle, filename, "r+")
|
|
if ret != 0x0:
|
|
print("fw error : could not open " + filename)
|
|
return
|
|
block_size = 0x400
|
|
k = 0
|
|
while True:
|
|
cur_size = min(len(buffer) - k, block_size)
|
|
if cur_size <= 0:
|
|
break
|
|
sys.stdout.write(hex(k) + "\r"); sys.stdout.flush();
|
|
ret = self.FSA_WriteFile(fsa_handle, file_handle, buffer[k:(k+cur_size)])
|
|
k += cur_size
|
|
ret = self.FSA_CloseFile(fsa_handle, file_handle)
|
|
|
|
def stat(self, filename):
|
|
fsa_handle = self.get_fsa_handle()
|
|
if filename[0] != "/":
|
|
filename = self.cwd + "/" + filename
|
|
ret, file_handle = self.FSA_OpenFile(fsa_handle, filename, "r")
|
|
if ret != 0x0:
|
|
print("stat error : could not open " + filename)
|
|
return
|
|
(ret, stats) = self.FSA_GetStatFile(fsa_handle, file_handle)
|
|
if ret != 0x0:
|
|
print("stat error : " + hex(ret))
|
|
else:
|
|
print("flags: " + hex(stats[1]))
|
|
print("mode: " + hex(stats[2]))
|
|
print("owner: " + hex(stats[3]))
|
|
print("group: " + hex(stats[4]))
|
|
print("size: " + hex(stats[5]))
|
|
ret = self.FSA_CloseFile(fsa_handle, file_handle)
|
|
|
|
def up(self, local_filename, filename = None):
|
|
fsa_handle = self.get_fsa_handle()
|
|
if filename == None:
|
|
if "/" in local_filename:
|
|
filename = local_filename[[i for i, x in enumerate(local_filename) if x == "/"][-1]+1:]
|
|
else:
|
|
filename = local_filename
|
|
if filename[0] != "/":
|
|
filename = self.cwd + "/" + filename
|
|
f = open(local_filename, "rb")
|
|
ret, file_handle = self.FSA_OpenFile(fsa_handle, filename, "w")
|
|
if ret != 0x0:
|
|
print("up error : could not open " + filename)
|
|
return
|
|
progress = 0
|
|
block_size = 0x400
|
|
while True:
|
|
data = f.read(block_size)
|
|
ret = self.FSA_WriteFile(fsa_handle, file_handle, data)
|
|
progress += len(data)
|
|
sys.stdout.write(hex(progress) + "\r"); sys.stdout.flush();
|
|
if len(data) < block_size:
|
|
break
|
|
ret = self.FSA_CloseFile(fsa_handle, file_handle)
|
|
|
|
def mkdir_p(path):
|
|
try:
|
|
os.makedirs(path)
|
|
except OSError as exc:
|
|
if exc.errno == errno.EEXIST and os.path.isdir(path):
|
|
pass
|
|
else:
|
|
raise
|
|
|
|
def mount_sd():
|
|
handle = w.open("/dev/fsa", 0)
|
|
print(hex(handle))
|
|
|
|
ret = w.FSA_Mount(handle, "/dev/sdcard01", "/vol/storage_sdcard", 2)
|
|
print(hex(ret))
|
|
|
|
ret = w.close(handle)
|
|
print(hex(ret))
|
|
|
|
def unmount_sd():
|
|
handle = w.open("/dev/fsa", 0)
|
|
print(hex(handle))
|
|
|
|
ret = w.FSA_Unmount(handle, "/vol/storage_sdcard", 2)
|
|
print(hex(ret))
|
|
|
|
ret = w.close(handle)
|
|
print(hex(ret))
|
|
|
|
def mount_slccmpt01():
|
|
handle = w.open("/dev/fsa", 0)
|
|
print(hex(handle))
|
|
|
|
ret = w.FSA_Mount(handle, "/dev/slccmpt01", "/vol/storage_slccmpt01", 2)
|
|
print(hex(ret))
|
|
|
|
ret = w.close(handle)
|
|
print(hex(ret))
|
|
|
|
def unmount_slccmpt01():
|
|
handle = w.open("/dev/fsa", 0)
|
|
print(hex(handle))
|
|
|
|
ret = w.FSA_Unmount(handle, "/vol/storage_slccmpt01", 2)
|
|
print(hex(ret))
|
|
|
|
ret = w.close(handle)
|
|
print(hex(ret))
|
|
|
|
def mount_odd_content():
|
|
handle = w.open("/dev/fsa", 0)
|
|
print(hex(handle))
|
|
|
|
ret = w.FSA_Mount(handle, "/dev/odd03", "/vol/storage_odd_content", 2)
|
|
print(hex(ret))
|
|
|
|
ret = w.close(handle)
|
|
print(hex(ret))
|
|
|
|
def unmount_odd_content():
|
|
handle = w.open("/dev/fsa", 0)
|
|
print(hex(handle))
|
|
|
|
ret = w.FSA_Unmount(handle, "/vol/storage_odd_content", 2)
|
|
print(hex(ret))
|
|
|
|
ret = w.close(handle)
|
|
print(hex(ret))
|
|
|
|
def mount_odd_update():
|
|
handle = w.open("/dev/fsa", 0)
|
|
print(hex(handle))
|
|
|
|
ret = w.FSA_Mount(handle, "/dev/odd02", "/vol/storage_odd_update", 2)
|
|
print(hex(ret))
|
|
|
|
ret = w.close(handle)
|
|
print(hex(ret))
|
|
|
|
def unmount_odd_update():
|
|
handle = w.open("/dev/fsa", 0)
|
|
print(hex(handle))
|
|
|
|
ret = w.FSA_Unmount(handle, "/vol/storage_odd_update", 2)
|
|
print(hex(ret))
|
|
|
|
ret = w.close(handle)
|
|
print(hex(ret))
|
|
|
|
def mount_odd_tickets():
|
|
handle = w.open("/dev/fsa", 0)
|
|
print(hex(handle))
|
|
|
|
ret = w.FSA_Mount(handle, "/dev/odd01", "/vol/storage_odd_tickets", 2)
|
|
print(hex(ret))
|
|
|
|
ret = w.close(handle)
|
|
print(hex(ret))
|
|
|
|
def unmount_odd_tickets():
|
|
handle = w.open("/dev/fsa", 0)
|
|
print(hex(handle))
|
|
|
|
ret = w.FSA_Unmount(handle, "/vol/storage_odd_tickets", 2)
|
|
print(hex(ret))
|
|
|
|
ret = w.close(handle)
|
|
print(hex(ret))
|
|
|
|
def install_title(path, installToUsb = 0):
|
|
mcp_handle = w.open("/dev/mcp", 0)
|
|
print(hex(mcp_handle))
|
|
|
|
ret, data = w.MCP_InstallGetInfo(mcp_handle, "/vol/storage_sdcard/"+path)
|
|
print("install info : " + hex(ret), [hex(v) for v in data])
|
|
if ret != 0:
|
|
ret = w.close(mcp_handle)
|
|
print(hex(ret))
|
|
return
|
|
|
|
ret = w.MCP_InstallSetTargetDevice(mcp_handle, installToUsb)
|
|
print("install set target device : " + hex(ret))
|
|
if ret != 0:
|
|
ret = w.close(mcp_handle)
|
|
print(hex(ret))
|
|
return
|
|
|
|
ret = w.MCP_InstallSetTargetUsb(mcp_handle, installToUsb)
|
|
print("install set target usb : " + hex(ret))
|
|
if ret != 0:
|
|
ret = w.close(mcp_handle)
|
|
print(hex(ret))
|
|
return
|
|
|
|
ret = w.MCP_Install(mcp_handle, "/vol/storage_sdcard/"+path)
|
|
print("install : " + hex(ret))
|
|
|
|
ret = w.close(mcp_handle)
|
|
print(hex(ret))
|
|
|
|
def get_nim_status():
|
|
nim_handle = w.open("/dev/nim", 0)
|
|
print(hex(nim_handle))
|
|
|
|
inbuffer = buffer(0x80)
|
|
(ret, data) = w.ioctlv(nim_handle, 0x00, [inbuffer], [0x80])
|
|
|
|
print(hex(ret), "".join("%02X" % v for v in data[0]))
|
|
|
|
ret = w.close(nim_handle)
|
|
print(hex(ret))
|
|
|
|
def read_and_print(adr, size):
|
|
data = w.read(adr, size)
|
|
data = struct.unpack(">%dI" % (len(data) // 4), data)
|
|
for i in range(0, len(data), 4):
|
|
print(" ".join("%08X"%v for v in data[i:i+4]))
|
|
|
|
if __name__ == '__main__':
|
|
w = wupclient()
|
|
# mount_sd()
|
|
# mount_odd_content()
|
|
|
|
# w.up("/media/harddisk1/loadiine_code/homebrew_launcher_rpx/homebrew_launcher.rpx", "homebrew_launcher_rpx.rpx")
|
|
# w.up("/media/harddisk1/gx2sploit/gx2sploit.rpx", "homebrew_launcher_rpx.rpx")
|
|
# print(w.pwd())
|
|
# w.ls()
|
|
w.dump_syslog()
|
|
# w.mkdir("/vol/storage_sdcard/usr", 0x600)
|
|
# install_title("install", 1)
|
|
# get_nim_status()
|
|
# w.kill()
|