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bootloader.py
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bootloader.py
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import cmd
import crc_bruteforce
import can
from can import Message
import lz4.block
import math
from tqdm import tqdm
import struct
import time
import pigpio
import subprocess
from udsoncan.connections import IsoTPSocketConnection
import socket
TWISTER_PATH = (
"../Simos18_SBOOT/twister"
) # This is the path to the "twister" binary from https://github.com/bri3d/Simos18_SBOOT
# Configurable parameters:
# For a Pi 3B+, 0.0005 seems right. For a Pi 4, 0.0008 has been observed to work correctly (presumably latency between sleep and GPIO is lower).
CRC_DELAY = (
0.0005
) # This is the amount of time a single iteration of the CRC process takes. This will need to be adjusted through observation, checking the output of the boot password read process until 0x100 bytes are being checked.
SEED_START = (
"1D00000"
) # This is the starting value for the expected timer value range for the Seed/Key calculation. This seems to work for both Pi 3B+ and Pi 4.
sector_map_tc1791 = { # Sector lengths for PMEM routines
0: 0x4000,
1: 0x4000,
2: 0x4000,
3: 0x4000,
4: 0x4000,
5: 0x4000,
6: 0x4000,
7: 0x4000,
8: 0x20000,
9: 0x40000,
10: 0x40000,
11: 0x40000,
12: 0x40000,
13: 0x40000,
14: 0x40000,
15: 0x40000,
}
def bits(byte):
bit_arr = [
(byte >> 7) & 1,
(byte >> 6) & 1,
(byte >> 5) & 1,
(byte >> 4) & 1,
(byte >> 3) & 1,
(byte >> 2) & 1,
(byte >> 1) & 1,
(byte) & 1,
]
bit_arr.reverse()
return bit_arr
def print_success_failure(data):
if data[0] is 0xA0:
print("Success")
else:
print("Failure! " + data.hex())
def get_key_from_seed(seed_data):
p = subprocess.run(
[TWISTER_PATH, SEED_START, seed_data, "1"],
stdout=subprocess.PIPE,
stderr=subprocess.PIPE,
)
output_data = p.stdout.decode("us-ascii")
return output_data
can_interface = "can0"
bus = can.interface.Bus(can_interface, bustype="socketcan")
pi = pigpio.pi()
pi.set_mode(23, pigpio.OUTPUT)
pi.set_pull_up_down(23, pigpio.PUD_UP)
def get_isotp_conn():
conn = IsoTPSocketConnection(
"can0", rxid=0x7E8, txid=0x7E0, params={"tx_padding": 0x55}
)
conn.tpsock.set_opts(txpad=0x55)
conn.open()
return conn
def sboot_pwm():
import time
import wavePWM
GPIO = [12, 13]
if not pi.connected:
exit(0)
pwm = wavePWM.PWM(pi) # Use default frequency
pwm.set_frequency(3210)
cl = pwm.get_cycle_length()
pwm.set_pulse_start_in_micros(13, cl / 1)
pwm.set_pulse_length_in_micros(13, cl / 2)
pwm.set_pulse_start_in_micros(12, 3 * cl / 4)
pwm.set_pulse_length_in_micros(12, cl / 4)
pwm.update()
return pwm
def reset_ecu():
pi.write(23, 0)
time.sleep(0.01)
pi.write(23, 1)
def sboot_getseed():
conn = get_isotp_conn()
print("Sending 0x30 to elevate SBOOT shell status...")
conn.send(bytes([0x30, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0]))
print_success_failure(conn.wait_frame())
time.sleep(1)
print("Sending 0x54 Generate Seed...")
conn.send(bytes([0x54]))
data = conn.wait_frame()
print_success_failure(data)
data = data[9:]
conn.close()
return data
def sboot_sendkey(key_data):
conn = get_isotp_conn()
send_data = bytearray([0x65])
send_data.extend(key_data)
print("Sending 0x65 Security Access with Key...")
conn.send(send_data)
print_success_failure(conn.wait_frame())
conn.close()
def sboot_crc_reset(crc_start_address):
prepare_upload_bsl()
conn = get_isotp_conn()
print("Setting initial CRC to 0x0...")
send_data = bytes([0x78, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00])
conn.send(send_data)
print_success_failure(conn.wait_frame())
print("Setting expected CRC to 0x0...")
send_data = bytes([0x78, 0x00, 0x00, 0x00, 0x04, 0x00, 0x00, 0x00, 0x00])
conn.send(send_data)
print_success_failure(conn.wait_frame())
print("Setting start CRC range count to 1...")
send_data = bytes([0x78, 0x00, 0x00, 0x00, 0x08, 0x01, 0x00, 0x00, 0x00])
conn.send(send_data)
print_success_failure(conn.wait_frame())
print(
"Setting start CRC start address to boot passwords at "
+ crc_start_address.hex()
+ "..."
)
send_data = bytearray([0x78, 0x00, 0x00, 0x00, 0x0C])
send_data.extend(int.from_bytes(crc_start_address, "big").to_bytes(4, "little"))
conn.send(send_data)
print_success_failure(conn.wait_frame())
print("Setting start CRC end address to a valid area at 0xb0010130...")
send_data = bytes([0x78, 0x00, 0x00, 0x00, 0x10, 0x30, 0x01, 0x01, 0xB0])
conn.send(send_data)
print_success_failure(conn.wait_frame())
print("Uploading valid part number for part correlation validator...")
send_data = bytes(
[
0x78,
0x00,
0x00,
0x00,
0x14,
0x4E,
0x42,
0x30,
0xD1,
0x00,
0x00,
0x53,
0x43,
0x38,
0x34,
0x30,
0x2D,
0x31,
0x30,
0x32,
0x36,
0x31,
0x39,
0x39,
0x31,
0x41,
0x41,
0x2D,
0x2D,
0x2D,
0x2D,
0x2D,
0x2D,
]
)
conn.send(send_data)
print_success_failure(conn.wait_frame())
print("Starting Validator and rebooting into BSL...")
conn.send(bytes([0x79]))
time.sleep(CRC_DELAY)
upload_bsl(True)
crc_address = int.from_bytes(read_byte(0xD0010770 .to_bytes(4, "big")), "little")
print("CRC Address Reached: ")
print(hex(crc_address))
crc_data = int.from_bytes(read_byte(0xD0010778 .to_bytes(4, "big")), "little")
print("CRC32 Current Value: ")
print(hex(crc_data))
conn.close()
return (crc_address, crc_data)
def sboot_shell():
print("Setting up PWM waveforms...")
pwm = sboot_pwm()
time.sleep(1)
print("Resetting ECU into Supplier Bootloader...")
reset_ecu()
bus.send(Message(data=[0x59, 0x45], arbitration_id=0x7E0, is_extended_id=False))
print("Sending 59 45...")
bus.send(Message(data=[0x6B], arbitration_id=0x7E0, is_extended_id=False))
stage2 = False
while True:
if stage2 is True:
bus.send(Message(data=[0x6B], arbitration_id=0x7E0, is_extended_id=False))
print("Sending 6B...")
message = bus.recv(0.01)
print(message)
if (
message is not None
and message.arbitration_id == 0x7E8
and message.data[0] == 0xA0
):
print("Got A0 message")
if stage2:
print("Switching to IsoTP Socket...")
pwm.cancel()
return sboot_getseed()
print("Sending 6B...")
stage2 = True
if message is not None and message.arbitration_id == 0x0A7:
print("FAILURE")
pwm.cancel()
return False
def sboot_login():
sboot_seed = sboot_shell()
print("Calculating key for seed: ")
print(sboot_seed.hex())
key = get_key_from_seed(sboot_seed.hex()[0:8])
print("Key calculated : ")
print(key)
sboot_sendkey(bytearray.fromhex(key))
def extract_boot_passwords():
addresses = map(
lambda x: bytearray.fromhex(x), ["8001420C", "80014210", "80014214", "80014218"]
)
crcs = []
for address in addresses:
sboot_login()
end_address, crc = sboot_crc_reset(address)
print(address.hex() + " - " + hex(end_address) + " -> " + hex(crc))
crcs.append(hex(crc))
boot_passwords = crc_bruteforce.calculate_passwords(crcs)
print(boot_passwords.hex())
# Enter REPL
def prepare_upload_bsl():
# Pin 24 -> BOOT_CFG pin, pulled to GND to enable BSL mode.
print("Resetting ECU into HWCFG BSL Mode...")
pi.set_mode(24, pigpio.OUTPUT)
pi.set_pull_up_down(24, pigpio.PUD_DOWN)
pi.write(24, 0)
def upload_bsl(skip_prep=False):
if skip_prep == False:
prepare_upload_bsl()
reset_ecu()
time.sleep(0.1)
pi.set_mode(24, pigpio.INPUT)
pi.set_pull_up_down(24, pigpio.PUD_OFF)
print("Sending BSL initialization message...")
# send bootloader.bin to CAN BSL in Tricore
bootloader_data = open("bootloader.bin", "rb").read()
data = [
0x55,
0x55,
0x00,
0x01,
] # 0x55 0x55 bit sync, 0x100 CAN ID for ACK (copied directly to MOAR register, so lower 2 bits are discarded, this will yield actual 0x40 CAN ID)
data += struct.pack("<H", math.ceil(len(bootloader_data) / 8))
data += [0x0, 0x3] # 0x300 CAN ID for Data -> 0xC0 after right shift
init_message = Message(
is_extended_id=False, dlc=8, arbitration_id=0x100, data=data
) # 0x55 0x55 = magic for init, 0x00 0x1 = 0x100 CAN ID, 0x1 0x0 = 1 packet data, 0x00, 0x3 = 0x300 transfer data can id
success = False
bus.send(init_message)
while success == False:
message = bus.recv(0.5)
if message is not None and not message.is_error_frame:
if message.arbitration_id == 0x40:
success = True
print("Sending BSL data...")
for block_base_address in tqdm(
range(0, len(bootloader_data), 8), unit_scale=True, unit="blocks"
):
block_end = min(len(bootloader_data), block_base_address + 8)
message = Message(
is_extended_id=False,
dlc=8,
arbitration_id=0xC0,
data=bootloader_data[block_base_address:block_end],
)
bus.send(message, timeout=5)
time.sleep(0.001)
print("Device jumping into BSL... Draining receive queue...")
while bus.recv(0.01) is not None:
pass
def read_device_id():
message = Message(
is_extended_id=False,
dlc=8,
arbitration_id=0x300,
data=[0x01, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00],
)
bus.send(message)
device_id = bytearray()
message = bus.recv()
if message.data[0] == 0x1:
device_id += message.data[2:8]
message = bus.recv()
if message.data[0] == 0x1 and message.data[1] == 0x1:
device_id += message.data[2:8]
return device_id
def read_byte(byte_specifier):
data = bytearray([0x02])
data += byte_specifier
data += bytearray([0x0, 0x0, 0x0])
message = Message(is_extended_id=False, dlc=8, arbitration_id=0x300, data=data)
bus.send(message)
byte_data = bytearray()
message = bus.recv()
if message.data[0] == 0x2:
byte_data += message.data[1:5]
return byte_data
def write_byte(addr, value):
data = bytearray([0x03])
data += addr
data += bytearray([0x0, 0x0, 0x0])
message = Message(is_extended_id=False, dlc=8, arbitration_id=0x300, data=data)
bus.send(message)
byte_data = bytearray()
message = bus.recv()
if message.data[0] != 0x3:
return False
data = bytearray([0x03])
data += value
data += bytearray([0x0, 0x0, 0x0])
message = Message(is_extended_id=False, dlc=8, arbitration_id=0x300, data=data)
bus.send(message)
message = bus.recv()
if message.data[0] != 0x3:
return False
else:
return True
def send_passwords(pw1, pw2, ucb=0, read_write=0x8):
data = bytearray([0x04])
data += pw1
data += bytearray([read_write, ucb, 0x0])
message = Message(is_extended_id=False, dlc=8, arbitration_id=0x300, data=data)
bus.send(message)
byte_data = bytearray()
message = bus.recv()
print(message)
data = bytearray([0x04])
data += pw2
data += bytearray([0x0, 0x0, 0x0])
message = Message(is_extended_id=False, dlc=8, arbitration_id=0x300, data=data)
bus.send(message)
message = bus.recv()
print(message)
data = bytearray([0x04])
data += pw1
data += bytearray([read_write, ucb, 0x1])
message = Message(is_extended_id=False, dlc=8, arbitration_id=0x300, data=data)
bus.send(message)
byte_data = bytearray()
message = bus.recv()
print(message)
data = bytearray([0x04])
data += pw2
data += bytearray([0x0, 0x0, 0x0])
message = Message(is_extended_id=False, dlc=8, arbitration_id=0x300, data=data)
bus.send(message)
message = bus.recv()
print(message)
def erase_sector(address):
data = bytearray([0x05])
data += address
data += bytearray([0, 0, 0])
message = Message(is_extended_id=False, dlc=8, arbitration_id=0x300, data=data)
bus.send(message)
message = bus.recv()
def print_enabled_disabled(string, value):
enabled_or_disabled = "ENABLED" if value > 0 else "DISABLED"
print(string + " " + enabled_or_disabled)
def print_sector_status(string, procon_sector_status):
current_address = 0
for sector_number in sector_map_tc1791:
protection_status = procon_sector_status[sector_number]
if sector_number > 9:
protection_status = procon_sector_status[
math.ceil(
sector_number - (sector_number % 2) - (sector_number - 10) / 2
)
]
if protection_status > 0:
print(
string
+ "Sector "
+ str(sector_number)
+ " "
+ hex(current_address)
+ ":"
+ hex((current_address + sector_map_tc1791[sector_number]))
+ " : "
+ "ENABLED"
)
current_address += sector_map_tc1791[sector_number]
def read_flash_properties(flash_num, pmu_base_addr):
FSR = 0x1010
FCON = 0x1014
PROCON0 = 0x1020
PROCON1 = 0x1024
PROCON2 = 0x1028
fsr_value = read_byte(struct.pack(">I", pmu_base_addr + FSR))
fcon_value = read_byte(struct.pack(">I", pmu_base_addr + FCON))
procon0_value = read_byte(struct.pack(">I", pmu_base_addr + PROCON0))
procon1_value = read_byte(struct.pack(">I", pmu_base_addr + PROCON1))
procon2_value = read_byte(struct.pack(">I", pmu_base_addr + PROCON2))
pmem_string = "PMEM" + str(flash_num)
flash_status = bits(fsr_value[2])
print_enabled_disabled(pmem_string + " Protection Installation: ", flash_status[0])
print_enabled_disabled(
pmem_string + " Read Protection Installation: ", flash_status[2]
)
print_enabled_disabled(pmem_string + " Read Protection Inhibit: ", flash_status[3])
print_enabled_disabled(pmem_string + " Write Protection User 0: ", flash_status[5])
print_enabled_disabled(pmem_string + " Write Protection User 1: ", flash_status[6])
print_enabled_disabled(pmem_string + " OTP Installation: ", flash_status[7])
flash_status_write = bits(fsr_value[3])
print_enabled_disabled(
pmem_string + " Write Protection User 0 Inhibit: ", flash_status_write[1]
)
print_enabled_disabled(
pmem_string + " Write Protection User 1 Inhibit: ", flash_status_write[2]
)
flash_status_overall = bits(fsr_value[0])
print_enabled_disabled(pmem_string + " Page Mode Enabled: ", flash_status_overall[6])
flash_status_errors = bits(fsr_value[1])
print_enabled_disabled(pmem_string + " Flash Operation Error: ", flash_status_errors[0])
print_enabled_disabled(pmem_string + " Flash Command Sequence Error: ", flash_status_errors[2])
print_enabled_disabled(pmem_string + " Flash Locked Error: ", flash_status_errors[3])
print_enabled_disabled(pmem_string + " Flash ECC Error: ", flash_status_errors[4])
protection_status = bits(fcon_value[2])
print_enabled_disabled(pmem_string + " Read Protection: ", protection_status[0])
print_enabled_disabled(
pmem_string + " Disable Code Fetch from Flash Memory: ", protection_status[1]
)
print_enabled_disabled(
pmem_string + " Disable Any Data Fetch from Flash: ", protection_status[2]
)
print_enabled_disabled(
pmem_string + " Disable Data Fetch from DMA Controller: ", protection_status[4]
)
print_enabled_disabled(
pmem_string + " Disable Data Fetch from PCP Controller: ", protection_status[5]
)
print_enabled_disabled(
pmem_string + " Disable Data Fetch from SHE Controller: ", protection_status[6]
)
procon0_sector_status = bits(procon0_value[0]) + bits(procon0_value[1])
print_sector_status(pmem_string + " USR0 Read Protection ", procon0_sector_status)
procon1_sector_status = bits(procon1_value[0]) + bits(procon1_value[1])
print_sector_status(pmem_string + " USR1 Write Protection ", procon1_sector_status)
procon2_sector_status = bits(procon2_value[0]) + bits(procon2_value[1])
print_sector_status(pmem_string + " USR2 OTP Protection ", procon2_sector_status)
def read_bytes_file(base_addr, size, filename):
output_file = open(filename, "wb")
for current_address in tqdm(
range(base_addr, base_addr + size, 4), unit_scale=True, unit="block"
):
bytes = read_byte(struct.pack(">I", current_address))
output_file.write(bytes)
output_file.close()
def read_compressed(address, size, filename):
output_file = open(filename, "wb")
data = bytearray([0x07])
data += address
data += size
message = Message(is_extended_id=False, dlc=8, arbitration_id=0x300, data=data)
bus.send(message)
total_size_remaining = int.from_bytes(size, "big")
t = tqdm(total=total_size_remaining, unit="B")
while total_size_remaining > 0:
message = bus.recv()
compressed_size = size_remaining = int.from_bytes(message.data[5:8], "big")
#print("Waiting for compressed data of size: " + hex(size_remaining))
data = bytearray()
sequence = 1
while size_remaining > 0:
message = bus.recv()
new_sequence = message.data[1]
if sequence != new_sequence:
print("Sequencing error! " + hex(new_sequence) + hex(sequence))
t.close()
output_file.close()
return
sequence += 1
sequence = sequence & 0xFF
data += message.data[2:8]
size_remaining -= 6
decompressed_data = lz4.block.decompress(data[:compressed_size], 4096)
decompressed_size = len(decompressed_data)
t.update(decompressed_size)
total_size_remaining -= decompressed_size
output_file.write(decompressed_data)
data = bytearray([0x07, 0xAC]) # send an ACk packet
message = Message(is_extended_id=False, dlc=8, arbitration_id=0x300, data=data)
bus.send(message)
output_file.close()
t.close()
def write_file(address, size, filename):
input_file = open(filename, "rb")
total_size_remaining = int.from_bytes(size, "big")
t = tqdm(total=total_size_remaining, unit="B")
address_int = int.from_bytes(address, "big")
block_counter = 0
while total_size_remaining > 0:
if block_counter <= 0:
block_counter = 256
data = bytearray([0x06])
address_bytes = address_int.to_bytes(4, "big")
data += address_bytes
message = Message(is_extended_id=False, dlc=8, arbitration_id=0x300, data=data)
bus.send(message)
bus.recv()
if block_counter < 7:
data_len = block_counter
else:
data_len = 7
file_data = input_file.read(data_len)
file_data += bytearray([0xAA] * (7 - data_len))
data = bytearray([0x06])
data += bytearray([file_data[0], file_data[1], file_data[2], file_data[3], file_data[4], file_data[5], file_data[6]])
message = Message(is_extended_id=False, dlc=8, arbitration_id=0x300, data=data)
bus.send(message)
time.sleep(0.005)
block_counter -= data_len
total_size_remaining -= data_len
if block_counter <= 0:
bus.recv()
t.update(total_size_remaining)
address_int += 256
input_file.close()
t.close()
class BootloaderRepl(cmd.Cmd):
intro = "Welcome to Tricore BSL. Type help or ? to list commands, you are likely looking for upload to start.\n"
prompt = "(BSL) "
file = None
def do_upload(self, arg):
"upload: Upload BSL to device"
upload_bsl()
def do_deviceid(self, arg):
"deviceid: Read the Tricore Device ID from 0xD0000000 to 0xD000000C"
device_id = read_device_id()
if len(device_id) > 1:
print(device_id.hex())
else:
print("Failed to retrieve Device ID")
def do_readaddr(self, arg):
"readaddr <addr> : Read 32 bits from an arbitrary address"
byte_specifier = bytearray.fromhex(arg)
byte = read_byte(byte_specifier)
print(byte.hex())
def do_writeaddr(self, arg):
"writeaddr <addr> <data> : Write 32 bits to an arbitrary address"
args = arg.split()
byte_specifier = bytearray.fromhex(args[0])
data_specifier = bytearray.fromhex(args[1])
is_success = write_byte(byte_specifier, data_specifier)
if is_success:
print("Wrote " + args[1] + " to " + args[0])
else:
print("Failed to write value.")
def do_flashinfo(self, arg):
"flashinfo: Read flash information including PMEM protection status"
PMU_BASE_ADDRS = {0: 0xF8001000, 1: 0xF8003000}
for pmu_num in PMU_BASE_ADDRS:
read_flash_properties(pmu_num, PMU_BASE_ADDRS[pmu_num])
def do_dumpmaskrom(self, arg):
"dumpmaskrom: Dump the Tricore Mask ROM to maskrom.bin"
read_bytes_file(0xAFFFC000, 0x4000, "maskrom.bin")
def do_dumpmem(self, arg):
"dumpmem <addr> <size> <filename>: Dump <addr> to <filename> with <size> bytes"
args = arg.split()
read_bytes_file(int(args[0], 16), int(args[1], 16), args[2])
def do_sboot(self, arg):
"sboot: Reset into SBOOT Command Shell, execute Seed/Key process"
sboot_login()
def do_sboot_sendkey(self, arg):
"sboot_sendkey <keydata>: Send Key Data to SBOOT Command Shell"
args = arg.split()
key_data = bytearray.fromhex(args[0])
sboot_sendkey(key_data)
def do_sboot_crc_reset(self, arg):
"sboot_crc_reset <address>: Configure SBOOT with CRC header pointed to <address>, reboot"
args = arg.split()
password_address = bytearray.fromhex(args[0])
sboot_crc_reset(password_address)
def do_send_read_passwords(self, arg):
"send_read_passwords <pw1> <pw2>: unlock Flash using passwords"
args = arg.split()
pw1 = int.from_bytes(bytearray.fromhex(args[0]), "big").to_bytes(4, "little")
pw2 = int.from_bytes(bytearray.fromhex(args[1]), "big").to_bytes(4, "little")
send_passwords(pw1, pw2)
def do_send_write_passwords(self, arg):
"send_write_passwords <pw1> <pw2>: unlock Flash using passwords"
args = arg.split()
pw1 = int.from_bytes(bytearray.fromhex(args[0]), "big").to_bytes(4, "little")
pw2 = int.from_bytes(bytearray.fromhex(args[1]), "big").to_bytes(4, "little")
send_passwords(pw1, pw2, read_write=0x05, ucb=1)
def do_erase_sector(self, arg):
"erase_sector <addr> : Erase sector beginning with address"
byte_specifier = bytearray.fromhex(arg)
erase_sector(byte_specifier)
def do_extract_boot_passwords(self, arg):
"extract_boot_passwords : Extract Simos18 boot passwords using SBoot exploit chain. Requires 'crchack' in ../crchack and 'twister' in ../Simos18_SBOOT"
extract_boot_passwords()
def do_compressed_read(self, arg):
"compressed_read <addr> <length> <filename>: read data using LZ4 compression (fast, hopefully)"
args = arg.split()
byte_specifier = bytearray.fromhex(args[0])
length_specifier = bytearray.fromhex(args[1])
filename = args[2]
is_success = read_compressed(byte_specifier, length_specifier, filename)
def do_write_file(self, arg):
"write_file <addr> <length> <filename>: write data"
args = arg.split()
byte_specifier = bytearray.fromhex(args[0])
length_specifier = bytearray.fromhex(args[1])
filename = args[2]
is_success = write_file(byte_specifier, length_specifier, filename)
def do_reset(self, arg):
"reset: reset ECU"
reset_ecu()
def do_bye(self, arg):
"Exit"
return True
def parse(arg):
"Convert a series of zero or more numbers to an argument tuple"
return tuple(map(int, arg.split()))
BootloaderRepl().cmdloop()