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usbexec.py
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usbexec.py
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import struct, sys
import dfu, device_platform
class ExecConfig:
def __init__(self, info, aes_crypto_cmd):
self.info = info
self.aes_crypto_cmd = aes_crypto_cmd
def match(self, info):
return info == self.info[0].ljust(0x40, '\0') + self.info[1].ljust(0x40, '\0') + self.info[2].ljust(0x80, '\0')
configs = [
ExecConfig(('SecureROM for s5l8940xsi, Copyright 2010, Apple Inc.', 'RELEASE', 'iBoot-838.3'), aes_crypto_cmd=0xfeedface),
ExecConfig(('SecureROM for s5l8942xsi, Copyright 2011, Apple Inc.', 'RELEASE', 'rom'), aes_crypto_cmd=0xfeedface),
ExecConfig(('SecureROM for s5l8945xsi, Copyright 2010, Apple Inc.', 'RELEASE', 'iBoot-1062.2'), aes_crypto_cmd=0xfeedface),
ExecConfig(('SecureROM for s5l8947xsi, Copyright 2011, Apple Inc.', 'RELEASE', 'iBoot-1458.2'), aes_crypto_cmd=0x7060+1),
ExecConfig(('SecureROM for s5l8950xsi, Copyright 2011, Apple Inc.', 'RELEASE', 'iBoot-1145.3'), aes_crypto_cmd=0x7300+1),
ExecConfig(('SecureROM for s5l8955xsi, Copyright 2011, Apple Inc.', 'RELEASE', 'iBoot-1145.3.3'), aes_crypto_cmd=0x7340+1),
ExecConfig(('SecureROM for t8002si, Copyright 2007-2014, Apple Inc.', 'ROMRELEASE', 'iBoot-2651.0.0.1.31'), aes_crypto_cmd=0x86DC+1),
ExecConfig(('SecureROM for t8004si, Copyright 2007-2014, Apple Inc.', 'ROMRELEASE', 'iBoot-2651.0.0.3.3'), aes_crypto_cmd=0x786C+1),
ExecConfig(('SecureROM for s5l8960xsi, Copyright 2012, Apple Inc.', 'RELEASE', 'iBoot-1704.10'), aes_crypto_cmd=0x10000B9A8),
ExecConfig(('SecureROM for t8010si, Copyright 2007-2015, Apple Inc.', 'ROMRELEASE', 'iBoot-2696.0.0.1.33'), aes_crypto_cmd=0x10000C8F4),
ExecConfig(('SecureROM for t8011si, Copyright 2007-2015, Apple Inc.', 'ROMRELEASE', 'iBoot-3135.0.0.2.3'), aes_crypto_cmd=0x10000C994),
ExecConfig(('SecureROM for t8015si, Copyright 2007-2016, Apple Inc.', 'ROMRELEASE', 'iBoot-3332.0.0.1.23'), aes_crypto_cmd=0x100009E9C),
]
EXEC_MAGIC = 'execexec'[::-1]
DONE_MAGIC = 'donedone'[::-1]
MEMC_MAGIC = 'memcmemc'[::-1]
MEMS_MAGIC = 'memsmems'[::-1]
USB_READ_LIMIT = 0xFFFF # why does that panic T8015 ROM?
CMD_TIMEOUT = 5000
AES_BLOCK_SIZE = 16
AES_ENCRYPT = 16
AES_DECRYPT = 17
AES_GID_KEY = 0x20000200
AES_UID_KEY = 0x20000201
class PwnedUSBDevice():
def memset(self, address, c, length): self.command(self.cmd_memset(address, c, length), 0)
def memcpy(self, dest, src, length): self.command(self.cmd_memcpy(dest, src, length), 0)
def read_memory_ptr(self, address): return struct.unpack('<%s' % self.cmd_arg_type(), self.read_memory(address, self.cmd_arg_size()))[0]
def read_memory_uint8(self, address): return struct.unpack('<B', self.read_memory(address, 1))[0]
def read_memory_uint16(self, address): return struct.unpack('<H', self.read_memory(address, 2))[0]
def read_memory_uint32(self, address): return struct.unpack('<I', self.read_memory(address, 4))[0]
def read_memory_uint64(self, address): return struct.unpack('<Q', self.read_memory(address, 8))[0]
def write_memory(self, address, data): self.command(self.cmd_memcpy(address, self.cmd_data_address(3), len(data)) + data, 0)
def write_memory_ptr(self, address, value): self.write_memory(address, struct.pack('<%s' % self.cmd_arg_type(), value))
def write_memory_uint8(self, address, value): self.write_memory(address, struct.pack('<B', value))
def write_memory_uint16(self, address, value): self.write_memory(address, struct.pack('<H', value))
def write_memory_uint32(self, address, value): self.write_memory(address, struct.pack('<I', value))
def write_memory_uint64(self, address, value): self.write_memory(address, struct.pack('<Q', value))
def cmd_arg_type(self): return 'Q' if self.platform.arch == 'arm64' else 'I'
def cmd_arg_size(self): return 8 if self.platform.arch == 'arm64' else 4
def cmd_data_offset(self, index): return 16 + index * self.cmd_arg_size()
def cmd_data_address(self, index): return self.load_base() + self.cmd_data_offset(index)
def cmd_memcpy(self, dest, src, length): return struct.pack('<8s8x3%s' % self.cmd_arg_type(), MEMC_MAGIC, dest, src, length)
def cmd_memset(self, address, c, length): return struct.pack('<8s8x3%s' % self.cmd_arg_type(), MEMS_MAGIC, address, c, length)
def load_base(self):
if 'SRTG:' in self.serial_number:
return self.platform.dfu_image_base
else:
return self.platform.dfu_load_base
def image_base(self):
if 'SRTG:' in self.serial_number:
return self.platform.rom_base
else:
return self.platform.dfu_image_base
def usb_serial_number(self, key):
for pair in self.serial_number.split(' '):
if pair.startswith(key + ':'):
k,v = pair.split(':')
if v[0] == '[' and v[-1] == ']':
return v[1:-1]
else:
return int(v, 16)
return None
def aes(self, data, action, key):
assert len(data) % AES_BLOCK_SIZE == 0
(retval, received) = self.execute(len(data), self.config.aes_crypto_cmd, action, self.cmd_data_address(7), self.cmd_data_address(0), len(data), key, 0, 0, data)
assert retval & 0xFFFFFFFF == 0
return received[:len(data)]
def read_memory(self, address, length):
data = str()
while len(data) < length:
part_length = min(length - len(data), USB_READ_LIMIT - self.cmd_data_offset(0))
response = self.command(self.cmd_memcpy(self.cmd_data_address(0), address + len(data), part_length), self.cmd_data_offset(0) + part_length)
assert response[:8] == DONE_MAGIC
data += response[self.cmd_data_offset(0):]
return data
def command(self, request_data, response_length):
assert 0 <= response_length <= USB_READ_LIMIT
device = dfu.acquire_device()
assert self.serial_number == device.serial_number
dfu.send_data(device, '\0' * 16)
device.ctrl_transfer(0x21, 1, 0, 0, 0, 100)
device.ctrl_transfer(0xA1, 3, 0, 0, 6, 100)
device.ctrl_transfer(0xA1, 3, 0, 0, 6, 100)
dfu.send_data(device, request_data)
# HACK
if response_length == 0:
response = device.ctrl_transfer(0xA1, 2, 0xFFFF, 0, response_length + 1, CMD_TIMEOUT).tostring()[1:]
else:
response = device.ctrl_transfer(0xA1, 2, 0xFFFF, 0, response_length, CMD_TIMEOUT).tostring()
dfu.release_device(device)
assert len(response) == response_length
return response
def execute(self, response_length, *args):
cmd = str()
for i in range(len(args)):
if isinstance(args[i], (int, long)):
cmd += struct.pack('<%s' % self.cmd_arg_type(), args[i])
elif isinstance(args[i], basestring) and i == len(args) - 1:
cmd += args[i]
else:
print 'ERROR: usbexec.execute: invalid argument at position %s' % i
sys.exit(1)
if i == 0 and self.platform.arch != 'arm64':
cmd += '\0' * 4
response = self.command(EXEC_MAGIC + cmd, self.cmd_data_offset(0) + response_length)
done, retval = struct.unpack('<8sQ', response[:self.cmd_data_offset(0)])
assert done == DONE_MAGIC
return retval, response[self.cmd_data_offset(0):]
def __init__(self):
self.config = None
self.platform = None
device = dfu.acquire_device()
self.serial_number = device.serial_number
dfu.release_device(device)
for dp in device_platform.all_platforms:
if self.serial_number.startswith('CPID:%04x CPRV:%02x ' % (dp.cpid, dp.cprv)):
self.platform = dp
break
if self.platform is None:
print self.serial_number
print 'ERROR: No matching usbexec.platform found for this device.'
sys.exit(1)
info = self.read_memory(self.image_base() + 0x200, 0x100)
for config in configs:
if config.match(info):
self.config = config
break
if self.config is None:
print info
print 'ERROR: No matching usbexec.config found for this image.'
sys.exit(1)