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dfuexec.py
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dfuexec.py
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import binascii, datetime, hashlib, struct, sys, time
import usb # pyusb: use 'pip install pyusb' to install this module
import dfu, recovery, image3, image3_24Kpwn, utilities
EXEC_MAGIC = 'exec'[::-1]
AES_BLOCK_SIZE = 16
AES_GID_KEY = 0x20000200
AES_UID_KEY = 0x20000201
AES_ENCRYPT = 16
AES_DECRYPT = 17
class PwnedDeviceConfig:
def __init__(self, version, cpid, aes_crypto_cmd, memmove, get_block_device, load_address, rom_address, rom_size, rom_sha256):
self.version = version
self.cpid = cpid
self.aes_crypto_cmd = aes_crypto_cmd
self.memmove = memmove
self.get_block_device = get_block_device
self.load_address = load_address
self.rom_address = rom_address
self.rom_size = rom_size
self.rom_sha256 = rom_sha256
configs = [
#PwnedDeviceConfig(
# # S5L8720 (old bootrom)
# version='240.4',
# cpid='8720',
# aes_crypto_cmd=0x899,
# memmove=0x795c,
# get_block_device=0x1091,
# load_address=0x22000000,
# rom_address=0x20000000,
# rom_size=0x10000,
# rom_sha256='55f4d8ea2791ba51dd89934168f38f0fb21ce8762ff614c1e742407c0d3ca054'
#),
#PwnedDeviceConfig(
# # S5L8720 (new bootrom)
# version='240.5.1',
# cpid='8720',
# aes_crypto_cmd=0x899,
# memmove=0x7964,
# get_block_device=0x1091,
# load_address=0x22000000,
# rom_address=0x20000000,
# rom_size=0x10000,
# rom_sha256='f15ae522dc9e645fcf997f6cec978ed3ce1811915e84938c68203fb95d80d300'
#),
PwnedDeviceConfig(
# S5L8920 (old bootrom)
version='359.3',
cpid='8920',
aes_crypto_cmd=0x925,
memmove=0x83d4,
get_block_device=0x1351,
load_address=0x84000000,
rom_address=0xbf000000,
rom_size=0x10000,
rom_sha256='99fd16f919a506c7f0701620e132e18c0e6f4025a57a85807960ca092e5e3587'
),
PwnedDeviceConfig(
# S5L8920 (new bootrom)
version='359.3.2',
cpid='8920',
aes_crypto_cmd=0x925,
memmove=0x83dc,
get_block_device=0x1351,
load_address=0x84000000,
rom_address=0xbf000000,
rom_size=0x10000,
rom_sha256='0e6feb1144c95b1ee088ecd6c45bfdc2ed17191167555b6ca513d6572e463c86'),
PwnedDeviceConfig(
# S5L8922
version='359.5',
cpid='8922',
aes_crypto_cmd=0x919,
memmove=0x8564,
get_block_device=0x1851,
load_address=0x84000000,
rom_address=0xbf000000,
rom_size=0x10000,
rom_sha256='07b8a615f00961c5802451b5717c344db287b68c5f6d2331ac6ba7a6acdbac9d'
),
PwnedDeviceConfig(
# S5L8930
version='574.4',
cpid='8930',
aes_crypto_cmd=0x686d,
memmove=0x84dc,
get_block_device=0x81d5,
load_address=0x84000000,
rom_address=0xbf000000,
rom_size=0x10000,
rom_sha256='4f34652a238a57ae0018b6e66c20a240cdbee8b4cca59a99407d09f83ea8082d'
),
]
class PwnedDFUDevice():
def __init__(self):
device = dfu.acquire_device()
self.identifier = device.serial_number
dfu.release_device(device)
if 'PWND:[' not in self.identifier:
print 'ERROR: Device is not in pwned DFU Mode. Use -p flag to exploit device and then try again.'
sys.exit(1)
if 'CPID:8720' in self.identifier:
print 'ERROR: This feature is not supported on iPod Touch (2nd generation).'
sys.exit(1)
self.config = None
for config in configs:
if 'SRTG:[iBoot-%s]' % config.version in self.identifier:
self.config = config
break
if self.config is None:
print 'ERROR: Device seems to be in pwned DFU Mode, but a matching configuration was not found.'
sys.exit(1)
def ecid_string(self):
tokens = self.identifier.split()
for token in tokens:
if token.startswith('ECID:'):
return token[5:]
print 'ERROR: ECID is missing from USB serial number string.'
sys.exit(1)
def execute(self, cmd, receiveLength):
device = dfu.acquire_device()
assert self.identifier == device.serial_number
dfu.reset_counters(device)
dfu.send_data(device, EXEC_MAGIC + cmd)
dfu.request_image_validation(device)
dfu.release_device(device)
time.sleep(0.5)
device = dfu.acquire_device()
assert self.identifier == device.serial_number
requiredLength = 0x8 + receiveLength
requiredLength = requiredLength if requiredLength % 0x800 == 0 else requiredLength / 0x800 * 0x800 + 0x800
received = dfu.get_data(device, requiredLength)
dfu.release_device(device)
(exec_cleared, retval) = struct.unpack('<2I', received[:8])
assert exec_cleared == 0
return (retval, received[8:8 + receiveLength])
def securerom_dump(self):
securerom = self.read_memory(self.config.rom_address, self.config.rom_size)
if hashlib.sha256(securerom).hexdigest() != self.config.rom_sha256:
print 'ERROR: SecureROM was dumped, but the SHA256 hash does not match. Exiting.'
sys.exit(1)
return securerom
def aes(self, data, action, key):
if len(data) % AES_BLOCK_SIZE != 0:
print 'ERROR: Length of data for AES encryption/decryption must be a multiple of %s.' % AES_BLOCK_SIZE
sys.exit(1)
cmd = struct.pack('<8I', self.config.aes_crypto_cmd, action, self.config.load_address + 36, self.config.load_address + 0x8, len(data), key, 0, 0)
(retval, received) = self.execute(cmd + data, len(data))
return received[:len(data)]
def aes_hex(self, hexdata, action, key):
if len(hexdata) % 32 != 0:
print 'ERROR: Length of hex data for AES encryption/decryption must be a multiple of %s.' % (2 * AES_BLOCK_SIZE)
sys.exit(1)
return binascii.hexlify(self.aes(binascii.unhexlify(hexdata), action, key))
def read_memory(self, address, length):
(retval, data) = self.execute(struct.pack('<4I', self.config.memmove, self.config.load_address + 8, address, length), length)
return data
def write_memory(self, address, data):
(retval, data) = self.execute(struct.pack('<4I%ss' % len(data), self.config.memmove, address, self.config.load_address + 20, len(data), data), 0)
return data
def nor_dump(self, saveBackup):
(bdev, empty) = self.execute(struct.pack('<2I5s', self.config.get_block_device, self.config.load_address + 12, 'nor0\x00'), 0)
if bdev == 0:
print 'ERROR: Unable to dump NOR. Pointer to nor0 block device was NULL.'
sys.exit(1)
data = self.read_memory(bdev + 28, 4)
(read,) = struct.unpack('<I', data)
if read == 0:
print 'ERROR: Unable to dump NOR. Function pointer for reading was NULL.'
sys.exit(1)
NOR_PART_SIZE = 0x20000
NOR_PARTS = 8
nor = str()
for i in range(NOR_PARTS):
print 'Dumping NOR, part %s/%s.' % (i+1, NOR_PARTS)
(retval, received) = self.execute(struct.pack('<6I', read, bdev, self.config.load_address + 8, i * NOR_PART_SIZE, 0, NOR_PART_SIZE), NOR_PART_SIZE)
nor += received
if saveBackup:
date = datetime.datetime.now().strftime('%Y%m%d-%H%M%S')
filename = 'nor-backups/nor-%s-%s.dump' % (self.ecid_string(), date)
f = open(filename, 'wb')
f.write(nor)
f.close()
print 'NOR backed up to file: %s' % filename
return nor
def boot_ibss(self):
print 'Sending iBSS.'
if self.config.cpid != '8920':
print 'ERROR: Boot iBSS is currently only supported on iPhone 3GS.'
sys.exit(1)
help1 = 'Download iPhone2,1_4.3.5_8L1_Restore.ipsw and use the following command to extract iBSS:'
help2 = 'unzip -p iPhone2,1_4.3.5_8L1_Restore.ipsw Firmware/dfu/iBSS.n88ap.RELEASE.dfu > n88ap-iBSS-4.3.5.img3'
try:
f = open('n88ap-iBSS-4.3.5.img3', 'rb')
data = f.read()
f.close()
except:
print 'ERROR: n88ap-iBSS-4.3.5.img3 is missing.'
print help1
print help2
sys.exit(1)
if len(data) == 0:
print 'ERROR: n88ap-iBSS-4.3.5.img3 exists, but is empty (size: 0 bytes).'
print help1
print help2
sys.exit(1)
if hashlib.sha256(data).hexdigest() != 'b47816105ce97ef02637ec113acdefcdee32336a11e04eda0a6f4fc5e6617e61':
print 'ERROR: n88ap-iBSS-4.3.5.img3 exists, but is from the wrong IPSW or corrupted.'
print help1
print help2
sys.exit(1)
iBSS = image3.Image3(data)
decryptediBSS = iBSS.newImage3(decrypted=True)
n88ap_iBSS_435_patches = [
(0x14954, 'run\x00'), # patch 'reset' command string to 'run'
(0x17654, struct.pack('<I', 0x41000001)), # patch 'reset' command handler to LOAD_ADDRESS + 1
]
patchediBSS = decryptediBSS[:64] + utilities.apply_patches(decryptediBSS[64:], n88ap_iBSS_435_patches)
device = dfu.acquire_device()
assert self.identifier == device.serial_number
dfu.reset_counters(device)
dfu.request_image_validation(device)
dfu.release_device(device)
time.sleep(0.5)
device = dfu.acquire_device()
assert self.identifier == device.serial_number
data = dfu.send_data(device, patchediBSS)
dfu.request_image_validation(device)
dfu.release_device(device)
time.sleep(0.5)
print 'Waiting for iBSS to enter Recovery Mode.'
device = recovery.acquire_device()
recovery.release_device(device)
def flash_nor(self, nor):
self.boot_ibss()
print 'Sending iBSS payload to flash NOR.'
MAX_SHELLCODE_LENGTH = 128
payload = open('bin/ibss-flash-nor-shellcode.bin', 'rb').read()
assert len(payload) <= MAX_SHELLCODE_LENGTH
payload += '\x00' * (MAX_SHELLCODE_LENGTH - len(payload)) + nor
device = recovery.acquire_device()
assert 'CPID:8920' in device.serial_number
recovery.send_data(device, payload)
try:
print 'Sending run command.'
recovery.send_command(device, 'run')
except usb.core.USBError:
# OK
pass
#print 'Caught USBError; should still work.'
recovery.release_device(device)
print 'If screen is not red, NOR was flashed successfully and device will reboot.'
def decrypt_keybag(self, keybag):
KEYBAG_LENGTH = 48
assert len(keybag) == KEYBAG_LENGTH
KEYBAG_FILENAME = 'aes-keys/S5L%s-firmware' % self.config.cpid
try:
f = open(KEYBAG_FILENAME, 'rb')
data = f.read()
f.close()
except IOError:
data = str()
assert len(data) % 2 * KEYBAG_LENGTH == 0
for i in range(0, len(data), 2 * KEYBAG_LENGTH):
if keybag == data[i:i+KEYBAG_LENGTH]:
return data[i+KEYBAG_LENGTH:i+2*KEYBAG_LENGTH]
device = PwnedDFUDevice()
decrypted_keybag = device.aes(keybag, AES_DECRYPT, AES_GID_KEY)
f = open(KEYBAG_FILENAME, 'a')
f.write(keybag + decrypted_keybag)
f.close()
return decrypted_keybag