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stage2.py
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stage2.py
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#!/usr/bin/env python3
# MTK Stage2 Client (c) B.Kerler 2018-2024.
# Licensed under GPLv3 License
import os
import sys
import logging
import time
import argparse
import hashlib
from binascii import hexlify
from struct import pack, unpack
from mtkclient.Library.Connection.usblib import UsbClass
from mtkclient.Library.utils import LogBase
from mtkclient.Library.utils import Progress
from mtkclient.Library.Hardware.hwcrypto import CryptoSetup, HwCrypto
from mtkclient.config.mtk_config import MtkConfig
from mtkclient.config.usb_ids import default_ids
class Stage2(metaclass=LogBase):
def __init__(self, args, loglevel=logging.INFO):
self.hwcrypto = None
self.config = None
self.__logger = self.__logger
self.args = args
self.loglevel = loglevel
self.info = self.__logger.info
self.error = self.__logger.error
self.warning = self.__logger.warning
self.emmc_inited = False
# Setup HW Crypto chip variables
self.setup = CryptoSetup()
if loglevel == logging.DEBUG:
logfilename = os.path.join("logs", "log.txt")
if os.path.exists(logfilename):
os.remove(logfilename)
fh = logging.FileHandler(logfilename, encoding='utf-8')
self.__logger.addHandler(fh)
self.__logger.setLevel(logging.DEBUG)
else:
self.__logger.setLevel(logging.INFO)
self.cdc = UsbClass(portconfig=default_ids, loglevel=loglevel, devclass=10)
self.usbread = self.cdc.usbread
self.usbwrite = self.cdc.usbwrite
def preinit(self):
try:
hwcode = self.read32(0x8000000)
except:
print("Error reading hwcode...aborting.")
return False
self.config = MtkConfig(self.loglevel)
self.config.init_hwcode(hwcode)
self.setup.blacklist = self.config.chipconfig.blacklist
self.setup.gcpu_base = self.config.chipconfig.gcpu_base
self.setup.dxcc_base = self.config.chipconfig.dxcc_base
self.setup.da_payload_addr = self.config.chipconfig.da_payload_addr
self.setup.sej_base = self.config.chipconfig.sej_base
self.setup.read32 = self.read32
self.setup.write32 = self.write32
self.setup.writemem = self.memwrite
self.setup.meid_addr = self.config.chipconfig.meid_addr
self.setup.socid_addr = self.config.chipconfig.socid_addr
self.hwcrypto = HwCrypto(self.setup, self.loglevel, self.config.gui)
return True
def init_emmc(self):
self.usbwrite(pack(">I", 0xf00dd00d))
self.usbwrite(pack(">I", 0x6001))
if unpack("<I", self.usbread(4))[0] != 0x1:
self.usbwrite(pack(">I", 0xf00dd00d))
self.usbwrite(pack(">I", 0x6000))
time.sleep(2)
if unpack("<I", self.usbread(4))[0] == 0xD1D1D1D1:
return True
self.emmc_inited = True
return False
def jump(self, addr):
self.usbwrite(pack(">I", 0xf00dd00d))
self.usbwrite(pack(">I", 0x4001))
self.usbwrite(pack(">I", addr))
time.sleep(5)
if unpack("<I", self.usbread(4))[0] == 0xD0D0D0D0:
return True
return False
def read32(self, addr, dwords=1):
result = []
for pos in range(dwords):
self.usbwrite(pack(">I", 0xf00dd00d))
self.usbwrite(pack(">I", 0x4002))
self.usbwrite(pack(">I", addr + (pos * 4)))
self.usbwrite(pack(">I", 4))
result.append(unpack("<I", self.usbread(4))[0])
if len(result) == 1:
return result[0]
return result
def cmd_C8(self, val) -> bool:
"""Clear cache func"""
self.usbwrite(pack(">I", 0xf00dd00d))
self.usbwrite(pack(">I", 0x5000))
if self.usbread(4) == b"\xD0\xD0\xD0\xD0":
return True
return False
def write32(self, addr, dwords) -> bool:
if isinstance(dwords, int):
dwords = [dwords]
for pos in range(0, len(dwords)):
self.usbwrite(pack(">I", 0xf00dd00d))
self.usbwrite(pack(">I", 0x4000))
self.usbwrite(pack(">I", addr + (pos * 4)))
self.usbwrite(pack(">I", 4))
self.usbwrite(pack("<I", dwords[pos]))
if self.usbread(4) == b"\xD0\xD0\xD0\xD0":
continue
else:
return False
return True
def connect(self):
self.cdc.connected = self.cdc.connect()
return self.cdc.connected
def close(self):
if self.cdc.connected:
self.cdc.close()
def readflash(self, type_: int, start, length, display=False, filename: str = None):
if not self.emmc_inited:
self.init_emmc()
wf = None
pg = Progress(pagesize=0x200)
buffer = bytearray()
if filename is not None:
wf = open(filename, "wb")
sectors = (length // 0x200)
sectors += (1 if length % 0x200 else 0)
startsector = (start // 0x200)
# emmc_switch(1)
self.usbwrite(pack(">I", 0xf00dd00d))
self.usbwrite(pack(">I", 0x1002))
self.usbwrite(pack(">I", type_))
# kick-wdt
# self.usbwrite(pack(">I", 0xf00dd00d))
# self.usbwrite(pack(">I", 0x3001))
bytestoread = length
bytesread = 0
old = 0
# emmc_read(0)
self.usbwrite(pack(">I", 0xf00dd00d))
self.usbwrite(pack(">I", 0x1000))
self.usbwrite(pack(">I", startsector))
self.usbwrite(pack(">I", sectors))
if display:
pg.show_progress(prefix="Progress:", pos=0, total=sectors)
for sector in range(sectors):
tmp = self.usbread(0x200)
if not tmp or len(tmp) != 0x200:
self.error("Error on getting data")
return
if display:
pg.show_progress(prefix="Progress:", pos=sector, total=sectors)
bytesread += len(tmp)
size = min(bytestoread, len(tmp))
if wf is not None:
wf.write(tmp[:size])
else:
buffer.extend(tmp)
bytestoread -= size
if display:
pg.show_progress(prefix="Progress:", pos=sectors, total=sectors)
if wf is not None:
wf.close()
else:
return buffer[start % 0x200:(start % 0x200) + length]
def userdata(self, start=0, length=32 * 0x200, filename="data.bin"):
sectors = 0
if length != 0:
sectors = (length // 0x200) + (1 if length % 0x200 else 0)
self.info("Reading user data...")
if self.cdc.connected:
self.readflash(type_=0, start=start, length=length, display=True, filename=filename)
def preloader(self, start, length, filename):
sectors = 0
if start != 0:
start = (start // 0x200)
if length != 0:
sectors = (length // 0x200) + (1 if length % 0x200 else 0)
self.info("Reading preloader...")
if self.cdc.connected:
if sectors == 0:
buffer = self.readflash(type_=1, start=0, length=0x4000, display=False)
if len(buffer) != 0x4000:
print("Error on reading boot1 area.")
return
if buffer[:9] == b'EMMC_BOOT':
startbrlyt = unpack("<I", buffer[0x10:0x14])[0]
if buffer[startbrlyt:startbrlyt + 5] == b"BRLYT":
start = unpack("<I", buffer[startbrlyt + 0xC:startbrlyt + 0xC + 4])[0]
st = buffer[start:start + 4]
if st == b"MMM\x01":
length = unpack("<I", buffer[start + 0x20:start + 0x24])[0]
data = self.readflash(type_=1, start=0, length=start + length, display=True)
if len(data) != start + length:
print("Warning, please rerun command, length doesn't match.")
idx = data.find(b"MTK_BLOADER_INFO")
if idx != -1:
filename = data[idx + 0x1B:idx + 0x3D].rstrip(b"\x00").decode('utf-8')
with open(os.path.join("logs", filename), "wb") as wf:
wf.write(data[start:start + length])
print(f"Done writing to {os.path.join('logs', filename)}")
with open(os.path.join("logs", "hdr_" + filename), "wb") as wf:
wf.write(data[:start])
print(f"Done writing to {os.path.join('logs', 'hdr_' + filename)}")
return
else:
length = 0x40000
self.readflash(type_=1, start=0, length=length, display=True, filename=filename)
print("Done")
print("Error on getting preloader info, aborting.")
else:
self.readflash(type_=1, start=start, length=length, display=True, filename=filename)
print("Done")
def boot2(self, start, length, filename):
sectors = 0
if start != 0:
start = (start // 0x200)
if length != 0:
sectors = (length // 0x200) + (1 if length % 0x200 else 0)
self.info("Reading boot2...")
if self.cdc.connected:
if sectors == 0:
self.readflash(type_=2, start=0, length=0x40000, display=True, filename=filename)
print("Done")
else:
self.readflash(type_=1, start=start, length=length, display=True, filename=filename)
print("Done")
def memread(self, start, length, filename=None):
bytestoread = length
addr = start
data = b""
pos = 0
wf = None
if filename is not None:
wf = open(filename, "wb")
while bytestoread > 0:
size = min(bytestoread, 0x100)
self.usbwrite(pack(">I", 0xf00dd00d))
self.usbwrite(pack(">I", 0x4002))
self.usbwrite(pack(">I", addr + pos))
self.usbwrite(pack(">I", size))
if filename is None:
data += self.usbread(size)
else:
wf.write(self.usbread(size))
bytestoread -= size
pos += size
self.info(f"{hex(start)}: {hexlify(data).decode('utf-8')}")
if filename is not None:
wf.close()
return data
def memwrite(self, start, data, filename=None):
rf = None
if filename is not None:
rf = open(filename, "rb")
bytestowrite = os.stat(filename).st_size
else:
if isinstance(data, str):
data = bytes.fromhex(data)
elif isinstance(data, int):
data = pack("<I", data)
bytestowrite = len(data)
addr = start
pos = 0
while bytestowrite > 0:
size = min(bytestowrite, 0x100)
self.usbwrite(pack(">I", 0xf00dd00d))
self.usbwrite(pack(">I", 0x4000))
self.usbwrite(pack(">I", addr + pos))
self.usbwrite(pack(">I", size))
if filename is None:
wdata = data[pos:pos + size]
else:
wdata = rf.read(size)
bytestowrite -= size
pos += size
while len(wdata) % 4 != 0:
wdata += b"\x00"
self.usbwrite(wdata)
if filename is not None:
rf.close()
ack = self.usbread(4)
return ack == b"\xD0\xD0\xD0\xD0"
def rpmb(self, start, length, filename, reverse=False):
pg = Progress(pagesize=0x100)
if not self.emmc_inited:
self.init_emmc()
if start == 0:
start = 0
else:
start = (start // 0x100)
if start > 0xFFFF:
start = 0xFFFF
if length == 0:
sectors = 16 * 1024 * 1024 // 0x100
else:
sectors = (length // 0x100) + (1 if length % 0x100 else 0)
self.info("Reading rpmb...")
self.usbwrite(pack(">I", 0xf00dd00d))
self.usbwrite(pack(">I", 0x1002))
self.usbwrite(pack(">I", 0x1))
# kick-wdt
# self.usbwrite(pack(">I", 0xf00dd00d))
# self.usbwrite(pack(">I", 0x3001))
bytesread = 0
old = 0
bytestoread = sectors * 0x100
count = sectors
pg = Progress(pagesize=0x200)
if sectors > 0xFFFF:
count = 0xFFFF
with open(filename, "wb") as wf:
self.usbwrite(pack(">I", 0xf00dd00d))
self.usbwrite(pack(">I", 0x2000))
self.usbwrite(pack(">H", start))
self.usbwrite(pack(">H", count))
for sector in range(count):
tmp = self.usbread(0x100)
if reverse:
tmp = tmp[::-1]
if len(tmp) != 0x100:
self.error("Error on getting data")
return
pg.show_progress(prefix="Progress:", pos=sector, total=sectors)
bytesread += 0x100
size = min(bytestoread, len(tmp))
wf.write(tmp[:size])
bytestoread -= size
while bytestoread > 0:
self.usbwrite(pack(">I", 0xf00dd00d))
self.usbwrite(pack(">I", 0x2000))
self.usbwrite(pack(">H", sector + 1))
self.usbwrite(pack(">H", 1))
tmp = self.usbread(0x100)
size = min(bytestoread, len(tmp))
wf.write(tmp[:size])
bytestoread -= size
pg.show_progress(prefix="Progress:", pos=sector, total=sectors)
sector += 1
pg.show_progress(prefix="Progress:", pos=sectors, total=sectors)
print("Done")
def keys(self, data=b"", otp=None, mode="dxcc"):
# self.hwcrypto.disable_range_blacklist("cqdma",self.cmd_C8)
keyinfo = ""
retval = {}
meid = self.config.get_meid()
socid = self.config.get_socid()
if meid is not None:
self.info(f"MEID : {hexlify(meid).decode('utf-8')}")
else:
try:
if self.config.chipconfig.meid_addr is not None:
meid = self.memread(self.config.chipconfig.meid_addr, 16)
self.config.set_meid(meid)
self.info(f"MEID : {hexlify(meid).decode('utf-8')}")
retval["meid"] = hexlify(meid).decode('utf-8')
except Exception as err:
pass
if socid is not None:
self.info(f"SOCID : {hexlify(socid).decode('utf-8')}")
retval["socid"] = socid
else:
try:
if self.config.chipconfig.socid_addr is not None:
socid = self.memread(self.config.chipconfig.socid_addr, 32)
self.config.set_socid(socid)
self.info(f"SOCID : {hexlify(socid).decode('utf-8')}")
retval["socid"] = hexlify(socid).decode('utf-8')
except Exception as err:
pass
if self.setup.dxcc_base is not None and mode not in ["sej_aes_decrypt", "sej_aes_encrypt", "sej_sst_decrypt",
"sej_sst_encrypt", "dxcc_sha256"]:
rpmbkey = self.hwcrypto.aes_hwcrypt(btype="dxcc", mode="rpmb")
rpmb2key = self.hwcrypto.aes_hwcrypt(btype="dxcc", mode="rpmb2")
fdekey = self.hwcrypto.aes_hwcrypt(btype="dxcc", mode="fde")
ikey = self.hwcrypto.aes_hwcrypt(btype="dxcc", mode="itrustee")
platkey, provkey = self.hwcrypto.aes_hwcrypt(btype="dxcc", mode="prov")
keyinfo += "\nKeys :\n-----------------------------------------\n"
keyinfo += f"RPMB: {hexlify(rpmbkey).decode('utf-8')}\n"
keyinfo += f"RPMB2: {hexlify(rpmb2key).decode('utf-8')}\n"
keyinfo += f"FDE : {hexlify(fdekey).decode('utf-8')}\n"
keyinfo += f"iTrustee: {hexlify(ikey).decode('utf-8')}\n"
keyinfo += f"Platform: {hexlify(platkey).decode('utf-8')}\n"
keyinfo += f"Provisioning: {hexlify(provkey).decode('utf-8')}\n"
keyinfo += "\n"
if rpmbkey is not None:
self.info(f"RPMB : {hexlify(rpmbkey).decode('utf-8')}")
self.config.hwparam.writesetting("rpmbkey", hexlify(rpmbkey).decode('utf-8'))
retval["rpmbkey"] = hexlify(rpmbkey).decode('utf-8')
if rpmb2key is not None:
self.info(f"RPMB2 : {hexlify(rpmb2key).decode('utf-8')}")
self.config.hwparam.writesetting("rpmb2key", hexlify(rpmb2key).decode('utf-8'))
retval["rpmb2key"] = hexlify(rpmb2key).decode('utf-8')
if fdekey is not None:
self.info(f"FDE : {hexlify(fdekey).decode('utf-8')}")
self.config.hwparam.writesetting("fdekey", hexlify(fdekey).decode('utf-8'))
retval["fdekey"] = hexlify(fdekey).decode('utf-8')
if ikey is not None:
self.info(f"iTrustee : {hexlify(ikey).decode('utf-8')}")
self.config.hwparam.writesetting("kmkey", hexlify(ikey).decode('utf-8'))
retval["kmkey"] = hexlify(ikey).decode('utf-8')
if self.config.chipconfig.prov_addr:
provkey = self.memread(self.config.chipconfig.prov_addr, 16)
self.info(f"PROV : {hexlify(provkey).decode('utf-8')}")
self.config.hwparam.writesetting("provkey", hexlify(provkey).decode('utf-8'))
retval["provkey"] = hexlify(provkey).decode('utf-8')
return retval, keyinfo
elif self.setup.sej_base is not None and mode not in ["sej_aes_decrypt", "sej_aes_encrypt", "sej_sst_decrypt",
"sej_sst_encrypt", "dxcc_sha256"]:
retval = {}
rpmbkey = self.hwcrypto.aes_hwcrypt(mode="rpmb", data=meid, otp=otp, btype="sej")
if rpmbkey:
self.info(f"RPMB : {hexlify(rpmbkey).decode('utf-8')}")
self.config.hwparam.writesetting("rpmbkey", hexlify(rpmbkey).decode('utf-8'))
retval["rpmbkey"] = hexlify(rpmbkey).decode('utf-8')
self.info("Generating sej mtee...")
mtee = self.hwcrypto.aes_hwcrypt(mode="mtee", otp=otp, btype="sej")
if mtee:
self.info(f"MTEE : {hexlify(mtee).decode('utf-8')}")
self.config.hwparam.writesetting("mtee", hexlify(mtee).decode('utf-8'))
retval["mtee"] = hexlify(mtee).decode('utf-8')
mtee3 = self.hwcrypto.aes_hwcrypt(mode="mtee3", otp=otp, btype="sej")
if mtee3:
self.info(f"MTEE3 : {hexlify(mtee3).decode('utf-8')}")
self.config.hwparam.writesetting("mtee3", hexlify(mtee3).decode('utf-8'))
retval["mtee3"] = hexlify(mtee3).decode('utf-8')
keyinfo += "\nKeys :\n-----------------------------------------\n"
keyinfo += f"RPMB: {hexlify(rpmbkey).decode('utf-8')}\n"
keyinfo += f"MTEE: {hexlify(mtee).decode('utf-8')}\n"
retval["rpmbkey"] = hexlify(rpmbkey).decode('utf-8')
return retval, keyinfo
if mode == "sej_aes_decrypt":
dec_data = self.hwcrypto.aes_hwcrypt(mode="cbc", data=data, btype="sej", encrypt=False, otp=otp)
keyinfo += f"\nData: {hexlify(dec_data).decode('utf-8')}\n"
return dec_data, keyinfo
elif mode == "sej_aes_encrypt":
enc_data = self.hwcrypto.aes_hwcrypt(mode="cbc", data=data, btype="sej", encrypt=True, otp=otp)
keyinfo += f"\nData: {hexlify(enc_data).decode('utf-8')}\n"
return enc_data, keyinfo
elif mode == "sej_sst_decrypt":
dec_data = self.hwcrypto.aes_hwcrypt(mode="sst", data=data, btype="sej", encrypt=False, otp=otp)
keyinfo += f"\nData: {hexlify(dec_data).decode('utf-8')}\n"
return dec_data, keyinfo
elif mode == "sej_sst_encrypt":
enc_data = self.hwcrypto.aes_hwcrypt(mode="sst", data=data, btype="sej", encrypt=True, otp=otp)
keyinfo += f"\nData: {hexlify(enc_data).decode('utf-8')}\n"
return enc_data, keyinfo
elif mode == "dxcc_sha256":
sha256val = self.hwcrypto.aes_hwcrypt(mode="sha256", data=data, btype="dxcc")
keyinfo += f"\nSHA256: {hexlify(sha256val).decode('utf-8')}\n"
return sha256val, keyinfo
return None, ""
def reboot(self):
print("Rebooting..")
self.usbwrite(pack(">I", 0xf00dd00d))
self.usbwrite(pack(">I", 0x3000))
def getint(valuestr):
if valuestr == '':
return None
try:
return int(valuestr)
except Exception as err:
err = err
try:
return int(valuestr, 16)
except Exception as err:
err = err
pass
return 0
cmds = {
"rpmb": 'Dump rpmb',
"preloader": 'Dump preloader',
"data": 'Dump mmc data',
"boot2": 'Dump boot2',
"reboot": 'Reboot phone',
"memread": "Read memory [Example: memread 0 0x10]",
"memwrite": "Write memory [Example: memwrite 0x200000 1122334455667788, memwrite 0x0 0x12345678, " +
"memwrite 0x0 data.bin]",
"keys": "Extract rpmb and fde key",
"seccfg": "Generate unlock config"
}
info = "MTK Stage2 client (c) B.Kerler 2021"
def main():
parser = argparse.ArgumentParser(description=info)
subparsers = parser.add_subparsers(dest="cmd",
help='Valid commands are: rpmb, preloader, data, boot2, memread, memwrite, keys')
parser_rpmb = subparsers.add_parser("rpmb", help="Dump the rpmb")
parser_rpmb.add_argument('--start', dest='start', type=str,
help='Start offset to dump')
parser_rpmb.add_argument('--length', dest='length', type=str,
help='Max length to dump')
parser_rpmb.add_argument('--reverse', dest='reverse', action="store_true",
help='Reverse byte order (example: rpmb command)')
parser_rpmb.add_argument('--filename', dest='filename', type=str,
help='Read from / save to filename')
parser_preloader = subparsers.add_parser("preloader", help="Dump the preloader")
parser_preloader.add_argument('--start', dest='start', type=str,
help='Start offset to dump')
parser_preloader.add_argument('--length', dest='length', type=str,
help='Max length to dump')
parser_preloader.add_argument('--filename', dest='filename', type=str,
help='Read from / save to filename')
parser_data = subparsers.add_parser("data", help="Read the mmc")
parser_data.add_argument('--start', dest='start', type=str,
help='Start offset to dump')
parser_data.add_argument('--length', dest='length', type=str,
help='Max length to dump')
parser_data.add_argument('--filename', dest='filename', type=str,
help='Read from / save to filename')
parser_boot2 = subparsers.add_parser("boot2", help="Dump boot2")
parser_boot2.add_argument('--start', dest='start', type=str,
help='Start offset to dump')
parser_boot2.add_argument('--length', dest='length', type=str,
help='Max length to dump')
parser_boot2.add_argument('--filename', dest='filename', type=str,
help='Read from / save to filename')
parser_memread = subparsers.add_parser("memread", help="Read memory")
parser_memread.add_argument(dest='start', type=str,
help='Start offset to dump')
parser_memread.add_argument(dest='length', type=str,
help='Max length to dump')
parser_memread.add_argument('--filename', dest='filename', type=str,
help='Save to filename')
parser_memwrite = subparsers.add_parser("memwrite", help="Write memory")
parser_memwrite.add_argument(dest='start', type=str,
help='Start offset to dump')
parser_memwrite.add_argument('data', type=str,
help='Data to write [hexstring, dword or filename]')
parser_reboot = subparsers.add_parser("reboot", help="Reboot device")
parser_seccfg = subparsers.add_parser("seccfg", help="Generate seccfg")
parser_seccfg.add_argument('flag', type=str,
help='Option for generating: unlock or lock')
parser_seccfg.add_argument('--sw', dest='sw', action="store_true",
help='Option for generating: sw or hw')
parser_keys = subparsers.add_parser("keys", help="Write memory")
parser_keys.add_argument('--otp', dest='otp', type=str,
help='OTP for keys (dxcc,sej,gcpu)')
parser_keys.add_argument('--mode', dest='mode', default=None, type=str,
help='keymode (dxcc,sej,gcpu,sej_aes_decrypt,sej_aes_decrypt,' +
'sej_sst_decrypt,sej_sst_encrypt')
parser_keys.add_argument('--data', dest='data', default=None, type=str,
help='data')
args = parser.parse_args()
cmd = args.cmd
if cmd not in cmds:
parser.print_help()
exit(0)
if not os.path.exists("logs"):
os.mkdir("logs")
st2 = Stage2(args)
if st2.connect():
if not st2.preinit():
exit(1)
if cmd == "rpmb":
if args.filename is None:
filename = os.path.join("logs", "rpmb")
else:
filename = args.filename
start = getint(args.start)
length = getint(args.length)
st2.rpmb(start, length, filename, not args.reverse)
elif cmd == "preloader":
if args.filename is None:
filename = os.path.join("logs", "preloader")
else:
filename = args.filename
start = getint(args.start)
length = getint(args.length)
st2.preloader(start, length, filename=filename)
elif cmd == "data":
if args.filename is None:
filename = os.path.join("logs", "data")
else:
filename = args.filename
start = getint(args.start)
length = getint(args.length)
st2.userdata(start, length, filename=filename)
elif cmd == "boot2":
if args.filename is None:
filename = os.path.join("logs", "boot2")
else:
filename = args.filename
start = getint(args.start)
length = getint(args.length)
st2.boot2(start, length, filename=filename)
elif cmd == "memread":
if args.start is None:
print("Option --start is needed")
exit(0)
if args.length is None:
print("Option --length is needed")
exit(0)
start = getint(args.start)
length = getint(args.length)
st2.memread(start, length, args.filename)
elif cmd == "memwrite":
if args.start is None:
print("Option --start is needed")
exit(0)
if args.data is None:
print("Option --data is needed")
exit(0)
start = getint(args.start)
if os.path.exists(args.data):
filename = args.data
data = None
else:
if "0x" in args.data:
data = getint(args.data)
else:
data = args.data
filename = None
if st2.memwrite(start, data, filename):
print(f"Successfully wrote data to {hex(start)}.")
else:
print(f"Failed to write data to {hex(start)}.")
elif cmd == "keys":
keyinfo = ""
data = b""
if args.mode in ["sej_aes_decrypt", "sej_aes_encrypt", "sej_sst_decrypt", "sej_sst_encrypt"]:
if not args.data:
print("Option --data is needed")
exit(0)
data = bytes.fromhex(args.data)
# otp_hisense=bytes.fromhex("486973656E736500000000000000000000000000000000000000000000000000")
# st2.jump(0x223449)
keys, keyinfo = st2.keys(data=data, mode=args.mode, otp=args.otp)
print(keyinfo)
print("Wrote keys to logs/hwparam.json")
elif cmd == "reboot":
st2.reboot()
elif cmd == "seccfg":
critical_lock_state = 0
if args.flag not in ["unlock", "lock"]:
print("Valid flags are: unlock, lock")
"""
LKS_DEFAULT = 0x01
LKS_MP_DEFAULT = 0x02
LKS_UNLOCK = 0x03
LKS_LOCK = 0x04
LKS_VERIFIED = 0x05
LKS_CUSTOM = 0x06
"""
"""
LKCS_UNLOCK = 0x01
LKCS_LOCK = 0x02
"""
"""
SBOOT_RUNTIME_OFF = 0
SBOOT_RUNTIME_ON = 1
"""
sys.exit(1)
if args.flag == "unlock":
lock_state = 3
critical_lock_state = 1
elif args.flag == "lock":
lock_state = 1
critical_lock_state = 0
with open("seccfg.bin", "wb") as wf:
seccfg_ver = 4
seccfg_size = 0x3C
sboot_runtime = 0
seccfg_data = pack("<IIIIIII", 0x4D4D4D4D, seccfg_ver, seccfg_size, lock_state,
critical_lock_state, sboot_runtime, 0x45454545)
dec_hash = hashlib.sha256(seccfg_data).digest()
if args.sw:
enc_hash = st2.hwcrypto.sej.sej_sec_cfg_sw(dec_hash, True)
else:
enc_hash = st2.hwcrypto.sej.sej_sec_cfg_hw(dec_hash, True)
data = seccfg_data + enc_hash
data += b"\x00" * (0x200 - len(data))
wf.write(data)
print("Successfully wrote seccfg to seccfg.bin. You need to write seccfg.bin to partition seccfg.")
st2.close()
if __name__ == "__main__":
main()