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read_info.py
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read_info.py
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#!/usr/bin/env python3
# -*- coding: utf-8 -*-
import os
import sys
import re
import types
import binascii
import random
import tarfile
import io
import requests
import xmir_base
import gateway
from gateway import die
from envbuffer import EnvBuffer
class RootFS():
num = None # 0 / 1
mtd_num = None # 10 / 11
mtd_dev = None # "/dev/mtd10"
partition = None # "rootfs0" / "rootfs1" / "rootfs_1"
class Bootloader():
type = None # 'uboot' / 'breed' / 'pandora'
img = None
img_size = None
addr = None
spi_rom = False
class BaseInfo():
linux_ver = None
cpu_arch = None
cpu_name = None
spi_rom = False
class Version():
openwrt = None # '12.09.1'
fw = None
channel = None # 'release' / 'stable'
buildtime = None
hardware = None # 'R3G'
uboot1 = None # '4.2.S.1'
uboot2 = None
class DevInfo():
gw = None # Gateway()
verbose = 0
syslog = [] # list of FileObject()
dmesg = None # text
info = BaseInfo()
partlist = [] # list of {addr, size, name}
allpartnum = -1 # "ALL" partition number
kcmdline_s = "" # original kernel command line
kcmdline = {} # key=value
nvram = {} # key=value
rootfs = RootFS()
board_name = None
model = None
ver = Version()
bl = Bootloader() # first bootloader
bl_list = [] # list of Bootloaders
env_list = [] # list of EnvBuffer
env = types.SimpleNamespace()
env.fw = EnvBuffer()
env.breed = EnvBuffer()
env.bdata = EnvBuffer()
def __init__(self, gw = None, verbose = 0, infolevel = 1):
self.gw = gateway.Gateway() if gw is None else gw
self.verbose = verbose
os.makedirs('outdir', exist_ok = True)
os.makedirs('tmp', exist_ok = True)
if infolevel > 0:
self.update(infolevel)
def update(self, infolevel):
if infolevel >= 1:
self.get_dmesg()
self.get_part_table()
if not self.partlist or len(self.partlist) <= 1:
die("Partition list is empty! (solution: disable all WiFi modules and reboot device)")
self.get_kernel_cmdline()
self.get_rootfs()
self.get_baseinfo()
if not self.info.cpu_arch:
die("Can't detect CPU arch! Try to reboot device.")
if infolevel >= 2:
self.get_ver()
if infolevel >= 3:
self.get_nvram()
if infolevel >= 4:
self.get_bootloader()
if infolevel >= 5:
self.get_env_list()
def run_command(self, cmd, fn = None, encoding = "latin_1", binary = False, verbose = 1):
if not fn:
fn = hex(random.getrandbits(64)) + '.txt'
fn = fn[1:]
fn_local = f'outdir/{fn}'
fn_remote = f'/tmp/{fn}'
if os.path.exists(fn_local):
os.remove(fn_local)
if '>' not in cmd:
cmd += " > " + fn_remote
try:
self.gw.run_cmd(cmd)
self.gw.download(fn_remote, fn_local, verbose = verbose)
self.gw.run_cmd("rm -f " + fn_remote)
except Exception:
return None
if not os.path.exists(fn_local):
return None
if os.path.getsize(fn_local) <= 0:
return None
openmode = 'rb' if binary else 'r'
with open(fn_local, openmode, encoding = encoding) as file:
output = file.read()
return output
def get_dmesg(self, verbose = None):
verbose = verbose if verbose is not None else self.verbose
self.dmesg = self.run_command('dmesg', 'dmesg.log')
if self.dmesg is None:
print(f'ERROR on downloading "/tmp/dmesg.log"')
return self.dmesg
def get_part_addr_dmesg(self, partlist):
if not self.dmesg:
return -1
x = self.dmesg.find(" MTD partitions on ")
if x <= 0:
return -2
parttbl = re.findall(r'0x0000(.*?)-0x0000(.*?) : "(.*?)"', self.dmesg)
if len(parttbl) <= 0:
return -3
k = 0
for i, part in enumerate(parttbl):
addr = int(part[0], 16)
size = int(part[1], 16) - addr
name = part[2]
for p, data in enumerate(partlist):
if data['name'] == name:
#print(f"{name:12S}: {addr:08X} {size:08X}")
if size != data['size']:
x = self.dmesg.find(f'mtd: partition "{name}" extends beyond the end of device "')
if x <= 0:
raise ValueError(f"Incorrect size into partition table ({name})")
if addr != data['addr'] and data['addr'] >= 0:
raise ValueError(f"Incorrect addr for partition ({name})")
if data['addr'] < 0:
data['addr'] = addr
k += 1
return k
def get_part_table(self, verbose = None):
verbose = verbose if verbose is not None else self.verbose
self.partlist = [ ]
self.allpartnum = -1
mtd_list = self.run_command('cat /proc/mtd', 'mtd_list.txt')
if not mtd_list or len(mtd_list) <= 1:
return [ ]
mtdtbl = re.findall(r'mtd([0-9]+): ([0-9a-fA-F]+) ([0-9a-fA-F]+) "(.*?)"', mtd_list)
if len(mtdtbl) <= 1:
return [ ]
mtd_max_num = max( [ int(mtd[0]) for i, mtd in enumerate(mtdtbl) ] )
partlist = [ { 'addr': -1, 'size': -1, 'name': None } for i in range(mtd_max_num + 1) ]
mtd_info = self.get_part_info(mtd_max_num, verbose)
for i, mtd in enumerate(mtdtbl):
mtdid = int(mtd[0])
addr = -1
size = int(mtd[1], 16)
name = mtd[3]
if mtd_info and mtdid < len(mtd_info):
if mtd_info[mtdid]["addr"] is not None:
addr = mtd_info[mtdid]["addr"]
partlist[mtdid]['addr'] = addr
partlist[mtdid]['size'] = size
partlist[mtdid]['name'] = name
pass
self.get_part_addr_dmesg(partlist)
if partlist[0]['addr'] < 0:
if partlist[0]['name']:
if partlist[0]['size'] > 0x00800000: # 8MiB
partlist[0]['addr'] = 0 # detect "ALL" part
if partlist[0]['addr'] == 0:
if partlist[0]['size'] > 0x00800000: # 8MiB:
self.allpartnum = 0 # detect "ALL" part
fdt_info = self.get_part_from_fdt(partlist, verbose)
if self.verbose:
print("MTD partitions:")
err_addr = -1
for i, part in enumerate(partlist):
size = part['size']
name = part['name']
if part['addr'] < 0:
if name in fdt_info:
if size == fdt_info[name]['size']:
part['addr'] = fdt_info[name]['addr']
if part['addr'] < 0:
if name == "m25p80":
part['addr'] = 0xFFFFFFFF
else:
if self.dmesg and re.search(f'mounted UBI device ., volume ., name "{name}"', self.dmesg):
part['addr'] = 0xFFFFFFFF
if part['addr'] < 0 and fdt_info:
part['addr'] = 0xFFFFFFFF
addr = part['addr']
if mtd_info and i < len(mtd_info):
if mtd_info[i]["ro"] is not None:
part['ro'] = False if mtd_info[i]["ro"] == 0 else True
if verbose:
xaddr = ("0x%08X" % addr) if addr >= 0 else "??????????"
ro = '?'
if 'ro' in part:
ro = '0' if part['ro'] == False else '1'
print(' %2d > addr: %s size: 0x%08X ro:%s name: "%s"' % (i, xaddr, size, ro, name))
if addr < 0:
err_addr = mtdid
if verbose:
print(" ")
if err_addr >= 0:
return [ ]
self.partlist = partlist
return self.partlist
def get_part_info(self, mtd_max_num, verbose = None):
verbose = verbose if verbose is not None else self.verbose
fn = 'mtd_info.txt'
mtd_dev = '/sys/class/mtd/mtd$i'
dn = '2>/dev/null'
trim = r"tr -d '\n'"
a2f = f"tee -ia /tmp/{fn}" # append to file
delim = f"echo -n '|' >> /tmp/{fn}"
cmd = f'rm -f /tmp/{fn} ;'
cmd += f'for i in $(seq 0 {mtd_max_num}) ; do'
cmd += f' echo "" >> /tmp/{fn} ;'
cmd += f' echo -n $i= >> /tmp/{fn} ;'
cmd += f" cat {mtd_dev}/offset {dn} | {trim} | {a2f} ; {delim} ;"
cmd += f" cat {mtd_dev}/type {dn} | {trim} | {a2f} ; {delim} ;"
cmd += f" cat {mtd_dev}/flags {dn} | {trim} | {a2f} ; {delim} ;"
cmd += f" cat {mtd_dev}/mtdblock$i/ro {dn} | {trim} | {a2f} ; {delim} ;"
cmd += f" cat {mtd_dev}/dev {dn} | {trim} | {a2f} ; {delim} ;"
cmd += f" readlink -f {mtd_dev}/device {dn} | {trim} | {a2f} ; {delim} ;"
cmd += f'done'
out_text = self.run_command(cmd, fn)
if not out_text:
return [ ]
info = [ { "addr": None, "ro": None } for i in range(mtd_max_num + 1) ]
for line in out_text.split('\n'):
line = line.strip()
if '=' in line:
data = line.split('=')
mtd_num = int(data[0])
mtd_info = data[1].split('|')
info[mtd_num]["addr"] = int(mtd_info[0], 0) if len(mtd_info[0]) > 0 else None
info[mtd_num]["type"] = mtd_info[1].strip()
info[mtd_num]["flags"] = int(mtd_info[2], 0) if len(mtd_info[2]) > 0 else None
info[mtd_num]["ro"] = int(mtd_info[3], 0) if len(mtd_info[3]) > 0 else None
info[mtd_num]["dev"] = mtd_info[4].strip()
info[mtd_num]["device"] = mtd_info[5].strip()
return info
def get_part_from_fdt(self, partlist, verbose = None):
verbose = verbose if verbose is not None else self.verbose
fn = 'mtd_fdt.txt'
fdtpath = '/sys/firmware/devicetree/base/**/'
execgrep = '-exec grep -l "^fixed-partitions" {} +'
hexfmt = "'1/1 \"%02x\"'"
trim = r"tr -d '\n'"
cmd = f'fn=/tmp/{fn};'
cmd += f'rm -f $fn;'
cmd += f'dlist=$( find {fdtpath} -type f -name compatible {execgrep} );'
cmd += f'[ -z "$dlist" ] && dlist=$( find {fdtpath} -type f -name nand-bus-width );'
cmd += f'for trgfile in $dlist ; do'
cmd += f' bdir=$( dirname $trgfile );'
cmd += f' echo "" >>$fn;'
cmd += f' echo "PARTLIST:$bdir" >>$fn;'
cmd += f' plist=$( find $bdir/**/ -mindepth 1 -maxdepth 1 -type f -name label );'
cmd += f' for label in $plist ; do'
cmd += f' pdir=$( dirname $label );'
cmd += f' preg=$( cat $pdir/reg | hexdump -v -n8 -e {hexfmt} );' # bigendian
cmd += ' echo "0x${preg:0:8}|0x${preg:8:8}|$(cat $label | tr -d ''\\n'')" >>$fn;'
cmd += f' done;'
cmd += f'done'
fdt_text = self.run_command(cmd, fn)
if not fdt_text:
return { }
fdt_dev = [ ]
mtd_list = None
for line in fdt_text.split('\n'):
line = line.strip()
if line.startswith('PARTLIST:'):
if mtd_list:
fdt_dev.append(mtd_list)
mtd_list = { }
if line.startswith('0x'):
data = line.split('|')
name = data[2].strip()
if name:
mtd_list[name] = { 'addr': int(data[0], 0), 'size': int(data[1], 0) }
if mtd_list:
fdt_dev.append(mtd_list)
if not fdt_dev:
return { }
if len(fdt_dev) == 1:
return fdt_dev[0]
scores = [ 0 ] * len(fdt_dev)
for i, mtd_list in enumerate(fdt_dev):
for _, (name, mtd) in enumerate(mtd_list.items()):
for part in partlist:
if part['name'] == name and part['size'] == mtd['size']:
if part['addr'] == mtd['addr']:
scores[i] += 1
elif part['addr'] < 0:
pass #nothing
else:
scores[i] -= 1
max_scores = max(scores)
if max_scores <= 0:
return { }
devnum = scores.index(max_scores)
return fdt_dev[devnum]
def get_part_num(self, name_or_addr, comptype = None):
if not self.partlist:
return -2
if isinstance(name_or_addr, int):
addr = name_or_addr
for i, part in enumerate(self.partlist):
if self.allpartnum >= 0 and i == self.allpartnum:
continue # skip "ALL" part
if comptype and comptype == '#': # range
if addr >= part['addr'] and addr < part['addr'] + part['size']:
return i
else:
if addr == part['addr']:
return i
if isinstance(name_or_addr, str):
name = name_or_addr.lower()
for i, part in enumerate(self.partlist):
partname = part['name'].lower()
if len(partname) > 2 and partname[1:2] == ':':
partname = partname[2:]
if comptype and comptype[0] == 'e': # endswith
if partname.endswith(name):
return i
elif partname == name:
return i
return -1
def get_part_list(self, name_or_addr_list, comptype = None):
if not self.partlist:
return None
lst = []
for i, val in enumerate(name_or_addr_list):
p = self.get_part_num(val, comptype)
if p >= 0:
lst.append(p)
return lst
def get_part(self, name_or_addr, comptype = None):
i = self.get_part_num(name_or_addr, comptype)
if i < 0:
return None
return self.partlist[i]
def get_part_by_addr(self, addr):
return self.get_part(addr, None)
def get_rootfs(self, verbose = None):
verbose = verbose if verbose is not None else self.verbose
self.rootfs = RootFS()
if not self.kcmdline_s and not self.dmesg:
return self.rootfs
kcmdline = f'Kernel command line: {self.kcmdline_s} \n'
if self.dmesg:
# flag_boot_rootfs=0 mounting /dev/mtd10
x = re.search(r'flag_boot_rootfs=([0-9]) mounting (\S+)', self.dmesg)
if x:
self.rootfs.num = int(x.group(1))
self.rootfs.mtd_dev = x.group(2)
# UBI: attached mtd10 (name "rootfs0", size 32 MiB) to ubi0
x = re.search(r'attached mtd([0-9]+) \(name "(.*?)", size', self.dmesg)
if x and x.group(2).lower().startswith('rootfs'):
self.rootfs.mtd_num = int(x.group(1))
self.rootfs.partition = x.group(2).strip()
# mtd: device 11 (rootfs) set to be root filesystem
x = re.search(r'mtd: device ([0-9]+) \(rootfs\) set to be root filesystem', self.dmesg)
if x:
self.rootfs.mtd_num = int(x.group(1))
if self.rootfs.num is None:
k = re.search(r'Kernel command line:(.*?) ubi\.mtd=(\S+)', kcmdline) # ([^\s]+)
if k:
self.rootfs.partition = k.group(2)
if self.rootfs.num is None:
k = re.search(r'Kernel command line:(.*?) firmware=([0-9])', kcmdline)
if k:
self.rootfs.num = int(k.group(2))
if self.rootfs.num is None and self.rootfs.mtd_num is None:
x = re.search(r'Kernel command line:(.*?) root=(\S+)', kcmdline)
if x and x.group(2).startswith('/dev/mtdblock'):
self.rootfs.mtd_dev = x.group(2)
self.rootfs.mtd_num = int(self.rootfs.mtd_dev.replace('/dev/mtdblock', ''))
if self.rootfs.num is None and self.rootfs.partition:
pname = self.rootfs.partition.lower()
if pname.startswith('rootfs') or pname.startswith('firmware') or pname.startswith('ubi'):
self.rootfs.num = 0
if pname.endswith('1'):
self.rootfs.num = 1
if verbose:
print('RootFS info:')
print(' num = {}'.format(self.rootfs.num))
print(' mtd_num = {}'.format(self.rootfs.mtd_num))
print(' mtd_dev = "{}"'.format(self.rootfs.mtd_dev))
print(' partition = "{}"'.format(self.rootfs.partition))
print(" ")
return self.rootfs
def get_baseinfo(self, verbose = None):
verbose = verbose if verbose is not None else self.verbose
self.info = BaseInfo()
ret = self.info
if verbose:
print('Base info:')
if self.dmesg:
# Linux version 3.10.14 (jenkins@cefa8cf504dc) (gcc version 4.8.5 (crosstool-NG crosstool-ng-1.22.0) )
x = re.search(r'Linux version (.*?) ', self.dmesg)
if x:
ret.linux_ver = x.group(1).strip()
if verbose:
print(' Linux version: {}'.format(ret.linux_ver))
fn_local = 'outdir/openwrt_release.txt'
fn_remote = '/etc/openwrt_release'
if os.path.exists(fn_local):
os.remove(fn_local)
try:
self.gw.download(fn_remote, fn_local, verbose=0)
except Exception:
if verbose:
print(' File "{}" cannot download!'.format(fn_remote))
return ret
if not os.path.exists(fn_local):
return ret
if os.path.getsize(fn_local) <= 1:
return ret
with open(fn_local, "r", encoding="latin_1") as file:
txt = file.read()
x = re.search("DISTRIB_TARGET=['\"](.*?)['\"]", txt)
if not x:
return ret
if verbose:
print(" DISTRIB_TARGET =", x.group(1))
target = x.group(1).strip().lower()
board = target.split(r'/')[0]
subtarget = target.split(r'/')[1]
cpu_arch = None
cpu_name = ''
if board == 'ramips':
cpu_arch = 'mips'
cpu_name = subtarget
if board == 'mediatek':
cpu_arch = 'arm64'
cpu_name = subtarget[:6]
if board.startswith('ar71'): # Atheros
cpu_arch = 'mips'
cpu_name = board[:6]
if board == 'ipq' and subtarget.startswith('ipq'):
cpu_name = subtarget[:7]
elif board.startswith('ipq') and len(board) >= 7:
cpu_name = board[:7]
if cpu_name.startswith('ipq401'):
cpu_arch = 'armv7'
if cpu_name.startswith('ipq806'):
cpu_arch = 'armv7'
if cpu_name.startswith('ipq807'):
cpu_arch = 'arm64'
if cpu_name.startswith('ipq50'):
cpu_arch = 'arm64'
if cpu_name.startswith('ipq60'):
cpu_arch = 'arm64'
if cpu_name.startswith('ipq95'):
cpu_arch = 'arm64'
x = re.search("DISTRIB_ARCH=['\"](.*?)['\"]", txt)
if x:
if verbose:
print(" DISTRIB_ARCH =", x.group(1))
arch = x.group(1)
if arch.startswith("mips_") or arch.startswith("mipsel_") or arch.startswith("ramips_"):
cpu_arch = 'mips'
if arch.startswith("arm_"):
cpu_arch = 'armv7'
if arch.startswith("aarch64_"):
cpu_arch = 'arm64'
ret.cpu_arch = cpu_arch if cpu_arch else None
ret.cpu_name = cpu_name if cpu_name else None
if verbose:
print(' CPU arch: {}'.format(ret.cpu_arch))
print(' CPU name: {}'.format(ret.cpu_name))
if board == 'ramips' and self.dmesg:
# spi-mt7621 1e000b00.spi: sys_freq: 50000000
x = re.search(r'spi-mt(.*?) (.*?).spi: sys_freq: ', self.dmesg)
if x:
ret.spi_rom = True
if verbose:
print(' SPI rom: {}'.format(ret.spi_rom))
if verbose:
print(" ")
return ret
def get_kernel_cmdline(self, verbose = None, retdict = True):
verbose = verbose if verbose is not None else self.verbose
self.kcmdline_s = ""
self.kcmdline = {} if retdict else None
fn_local = 'outdir/kcmdline.log'
fn_remote = '/tmp/kcmdline.log'
try:
self.gw.run_cmd("cat /proc/cmdline > " + fn_remote)
self.gw.download(fn_remote, fn_local)
self.gw.run_cmd("rm -f " + fn_remote)
except Exception:
return self.kcmdline
if not os.path.exists(fn_local):
return self.kcmdline
if os.path.getsize(fn_local) <= 1:
return self.kcmdline
with open(fn_local, "rb") as file:
data = file.read()
data = data.replace(b"\n", b' ')
data = data.replace(b"\x00", b' ')
data = data.decode('latin_1')
data = data.strip()
self.kcmdline_s = data
if verbose:
print("Kernel command line:")
print(" ", data)
if not retdict:
return data
env = EnvBuffer(data, ' ', crc_prefix = False, encoding = 'latin_1')
self.kcmdline = env.var
#self.kcmdline = type("Names", [object], self.kcmdline)
return self.kcmdline
def get_nvram(self, verbose = None, retdict = True):
verbose = verbose if verbose is not None else self.verbose
self.nvram = {} if retdict else None
fn_local = 'outdir/nvram.txt'
fn_remote = '/tmp/nvram.txt'
try:
self.gw.run_cmd("nvram show > " + fn_remote)
self.gw.download(fn_remote, fn_local)
self.gw.run_cmd("rm -f " + fn_remote)
except Exception:
return self.nvram
if not os.path.exists(fn_local):
return self.nvram
if os.path.getsize(fn_local) <= 1:
return self.nvram
with open(fn_local, "r", encoding="latin_1") as file:
data = file.read()
if not retdict:
return data
if verbose:
print("NVRam params:")
env = EnvBuffer(data, '\n', crc_prefix = False, encoding = 'latin_1')
self.nvram = env.var
if verbose and self.nvram:
for i, (k, v) in enumerate(self.nvram.items()):
if verbose == 1 and not k.startswith('flag_') and k != 'ipaddr' and k != 'serverip':
continue
print(" {key}{value}".format(key=k, value=('=' + v if v is not None else '')))
if verbose:
print(" ")
#self.nvram = type("Names", [object], self.nvram)
return self.nvram
def get_board_name(self, verbose = None):
verbose = verbose if verbose is not None else self.verbose
self.board_name = None
fn_local = 'outdir/board_name.txt'
fn_remote = '/tmp/sysinfo/board_name'
self.gw.download(fn_remote, fn_local)
if os.path.getsize(fn_local) <= 0:
return None
with open(fn_local, "r") as file:
self.board_name = file.read()
self.board_name = self.board_name.strip()
if verbose:
print("Board name: {}".format(self.board_name))
print("")
return self.board_name
def get_model(self, verbose = None):
verbose = verbose if verbose is not None else self.verbose
self.model = None
fn_local = 'outdir/model.txt'
fn_remote = '/tmp/sysinfo/model'
self.gw.download(fn_remote, fn_local)
if os.path.getsize(fn_local) <= 0:
return None
with open(fn_local, "r") as file:
self.model = file.read()
self.model = self.model.strip()
if verbose:
print("Model: {}".format(self.model))
print("")
return self.model
def get_ver(self, verbose = None):
verbose = verbose if verbose is not None else self.verbose
self.ver = Version()
if verbose:
print("Version info:")
fn_local = 'outdir/uboot_version.txt'
fn_remote = '/etc/uboot_version'
try:
self.gw.download(fn_remote, fn_local, verbose = 0)
with open(fn_local, "r") as file:
self.ver.uboot1 = file.read().strip()
except Exception:
pass
if verbose:
print(" UBoot: {}".format(self.ver.uboot1))
fn_local = 'outdir/openwrt_version.txt'
fn_remote = '/etc/openwrt_version'
try:
self.gw.download(fn_remote, fn_local, verbose = 0)
with open(fn_local, "r") as file:
self.ver.openwrt = file.read().strip()
except Exception:
pass
if verbose:
print(" OpenWrt: {}".format(self.ver.openwrt))
fn_local = 'outdir/fw_ver.txt'
fn_remote = '/etc/xiaoqiang_version'
try:
self.gw.download(fn_remote, fn_local, verbose = 0)
except Exception:
fn_remote = None
if not fn_remote:
fn_remote = '/usr/share/xiaoqiang/xiaoqiang_version'
try:
self.gw.download(fn_remote, fn_local, verbose = 0)
except Exception:
fn_remote = None
if fn_remote and os.path.getsize(fn_local) > 0:
with open(fn_local, "r") as file:
s = file.read()
x = re.search(r"option ROM '(.*?)'", s)
self.ver.fw = x.group(1) if x else None
x = re.search(r"option CHANNEL '(.*?)'", s)
self.ver.channel = x.group(1) if x else None
x = re.search(r"option HARDWARE '(.*?)'", s)
self.ver.hardware = x.group(1) if x else None
x = re.search(r"option UBOOT '(.*?)'", s)
self.ver.uboot2 = x.group(1) if x else None
x = re.search(r"option BUILDTIME '(.*?)'", s)
self.ver.buildtime = x.group(1) if x else None
if verbose:
print(" Firmware: {}".format(self.ver.fw))
print(" Channel: {}".format(self.ver.channel))
print(" BuildTime: {}".format(self.ver.buildtime))
print(" Hardware: {}".format(self.ver.hardware))
print(" UBoot(2): {}".format(self.ver.uboot2))
print("")
return self.ver
def get_md5_for_mtd_data(self, partname, offset = 0, size = None):
if not self.partlist:
return -10
mtd_num = self.get_part_num(partname)
if mtd_num < 0:
return -9
mtd_part = self.partlist[mtd_num]
bs = 4096
if not size:
size = mtd_part['size']
if size > mtd_part['size']:
return -8
if size % bs != 0:
return -7
if offset % bs != 0:
return -6
skip = f'skip={offset // bs}' if offset else ''
num = str(random.randint(10000, 1000000))
md5_local_fn = f"tmp/mtd{mtd_num}_{offset}_{size}_{num}.md5"
md5_remote_fn = f"/tmp/mtd{mtd_num}_{offset}_{size}_{num}.md5"
count = size // bs
cmd = f'dd if=/dev/mtd{mtd_num} bs={bs} count={count} {skip} | md5sum > "{md5_remote_fn}" '
try:
self.gw.run_cmd(cmd)
self.gw.download(md5_remote_fn, md5_local_fn)
except Exception:
return -5
if not os.path.exists(md5_local_fn):
return -4
with open(md5_local_fn, 'r', encoding = 'latin1') as file:
md5 = file.read()
os.remove(md5_local_fn)
if not md5:
return -3
if md5.startswith('md5sum:'):
return -2
md5 = md5.split(' ')[0]
md5 = md5.strip()
if len(md5) != 32:
return -1
return md5.lower()
def get_bootloader(self, verbose = None):
verbose = verbose if verbose is not None else self.verbose
self.bl = Bootloader()
self.bl_list = []
ret = self.bl
if verbose:
print("Bootloader info:")
blist = ['bootloader', 'uboot', 'SBL1', 'APPSBL', 'SBL2', 'SBL3', 'BL2', 'FIP']
plst = self.get_part_list(blist)
if not plst:
return ret
for i, p in enumerate(plst):
bl = Bootloader()
bl.addr = self.partlist[p]['addr']
size = self.partlist[p]['size']
name = self.partlist[p]['name']
name = ''.join(e for e in name if e.isalnum())
fn_local = 'outdir/mtd{id}_{name}.bin'.format(id=p, name=name)
fn_remote = '/tmp/bl_{name}.bin'.format(name=name)
bs = 128*1024
cnt = size // bs
try:
self.gw.run_cmd("dd if=/dev/mtd{i} of={o} bs={bs} count={cnt}".format(i=p, o=fn_remote, bs=bs, cnt=cnt))
self.gw.download(fn_remote, fn_local)
self.gw.run_cmd("rm -f " + fn_remote)
except Exception:
continue
if verbose:
print(" addr: 0x%08X (size: 0x%08X)" % (bl.addr, self.partlist[p]['size']))
if not os.path.exists(fn_local):
continue
if os.path.getsize(fn_local) <= 1:
continue
with open(fn_local, "rb") as file:
data = file.read()
bl.img = data
self.bl_list.append(bl)
if data[0:4] == b'\x27\x05\x19\x56':
bl.img_size = 0x40 + int.from_bytes(data[0x0C:0x0C+4], byteorder='big')
else:
if self.info.cpu_arch == 'mips':
bl.spi_rom = True
if bl.img_size is None:
x = data.find(b'\x00' * 0x240)
if x > 0:
bl.img_size = x
x = data.find(b'\xFF' * 0x240)
if x > 0 and x < (bl.img_size if bl.img_size is not None else len(data)):
bl.img_size = x
max_size = bl.img_size if bl.img_size is not None else len(data)
if verbose:
print(" image size: {} bytes".format(bl.img_size))
#if not bl.type:
# x = data.find(b"Breed ")
# if (x > 0 and x < 0x40):
# bl.type = 'breed'
if not bl.type:
x = data.find(b'hackpascal@gmail.com')
if x > 0 and x < max_size:
bl.type = 'breed'
if not bl.type:
x = data.find(b"PandoraBox-Boot")
if x > 0 and x < max_size:
bl.type = 'pandora'
if not bl.type:
x = data.find(b"UBoot Version")
if x > 0 and x < max_size:
bl.type = 'uboot'
if verbose:
print(" type: {}".format(bl.type))
if self.bl_list:
self.bl = self.bl_list[0]
if verbose:
print("")
return self.bl
def get_env_list(self, verbose = None):
verbose = verbose if verbose is not None else self.verbose
self.env.fw = EnvBuffer()
self.env.breed = EnvBuffer()
self.env.bdata = EnvBuffer()
self.env_list = []
ret = self.env.fw
if verbose:
print("ENV info:")
envlist = ['config', 'nvram', 'APPSBLENV', 'bdata']
plst = self.get_part_list(envlist)
if not plst:
return ret
env_breed_addr = 0x60000 # breed env addr for r3g
env_breed_size = 0x20000
pb = self.get_part_num(env_breed_addr, '#')
if pb >= 0:
plst.append(1000 + pb)
for i, p in enumerate(plst):
env = EnvBuffer()
type = ''
if p >= 1000 and p < 2000:
type = 'breed'
p = p - 1000
part = self.partlist[p]
name = part['name']
name = ''.join(e for e in name if e.isalnum())
if type == 'breed':
env.addr = env_breed_addr
data_size = part['size'] - (env.addr - part['addr'])
if data_size < env_breed_size:
continue
else:
env.addr = part['addr']
data_size = part['size']
env.max_size = data_size
fn_local = 'outdir/mtd{id}_{name}.bin'.format(id=p, name=name)
fn_remote = '/tmp/env_{name}.bin'.format(name=name)
if part['size'] < 128*1024:
bs = 1024
cnt = part['size'] // bs
else:
bs = 128*1024
cnt = part['size'] // bs
try:
self.gw.run_cmd("dd if=/dev/mtd{i} of={o} bs={bs} count={cnt}".format(i=p, o=fn_remote, bs=bs, cnt=cnt))
self.gw.download(fn_remote, fn_local)
self.gw.run_cmd("rm -f " + fn_remote)
except Exception:
continue
if verbose:
print(" addr: 0x%08X (size: 0x%08X) " % (env.addr, env.max_size), type)
if not os.path.exists(fn_local):
continue
if os.path.getsize(fn_local) <= 1:
continue
with open(fn_local, "rb") as file:
data = file.read()
if env.addr is None:
continue
prefix = data[0:4]
if prefix == b"\x00\x00\x00\x00" or prefix == b"\xFF\xFF\xFF\xFF":
if type != 'breed':
continue
env.data = data
env.offset = 0
self.env_list.append(env)
if self.env.fw.addr is None:
self.env.fw = env
if self.env.bdata.addr is None and name.lower().endswith('bdata'):
self.env.bdata = env
if self.env.breed.addr is None and type == 'breed':
self.env.breed = env
if type == 'breed':
env.offset = env.addr - part['addr']
data = data[env.offset:]
if data[0:4] != b'ENV\x00':
continue
max_size = env_breed_size
end = data.find(b"\x00\x00", 4)
if end > max_size:
continue
else:
max_size = data.find(b"\xFF\xFF\xFF\xFF", 4)
if max_size <= 0:
max_size = env.max_size
env.max_size = max_size
if type != 'breed':
env_crc32 = int.from_bytes(prefix, byteorder='little')
for i in range(1, 256):
size = 1024 * i
if size < len(data):
buf = data[4:size]
crc = binascii.crc32(buf)
else:
buf = data[4:] + (b'\x00' * (size - len(data) - 4))
crc = binascii.crc32(buf)
if crc == env_crc32:
if verbose:
print(" CRC32: 0x%08X" % crc)
if size <= data_size:
env.max_size = size
break
if verbose:
print(" max size: 0x%X" % env.max_size)
#if verbose:
# env.buf = EnvBuffer(data, '\x00')
# buf, crc = env.buf.pack(env.max_size)
# print(" XXX CRC: 0x%X (len = %X)" % (crc, len(buf)))
end = data.find(b"\x00\x00", 4)
if (end <= 4):
continue
data = data[4:end+1]
env.delim = '\x00'
env.crc_prefix = False
try:
env.encoding = 'UTF-8'
env.var = env.parse_env_b(data, env.delim, encoding = env.encoding)
except Exception:
env.encoding = 'latin_1'
env.var = env.parse_env_b(data, env.delim, encoding = env.encoding)
env.crc_prefix = True
if verbose >= 2 and env.var:
for i, (k, v) in enumerate(env.var.items()):
if (v is not None):
v = '=' + v
print(" " + k + v)
if self.env_list:
self.env.fw = self.env_list[0]
if verbose:
print("")
return self.env.fw
class SysLog():
gw = None # Gateway()
verbose = 1
timeout = 10
files = []
skiplogs = True
mtdlist = []
bdata = None # EnvBuffer()
def __init__(self, gw, timeout = 17, verbose = 1, infolevel = 1):
self.gw = gateway.Gateway(detect_ssh = False) if gw is None else gw
self.verbose = verbose
self.timeout = timeout
os.makedirs('outdir', exist_ok = True)
os.makedirs('tmp', exist_ok = True)
if infolevel > 0:
self.update(infolevel)
def update(self, infolevel):
if infolevel >= 1:
self.download_syslog()
if infolevel >= 2:
self.parse_baseinfo(fatal_error = True)
self.parse_mtdlist()
if infolevel >= 3:
self.parse_bdata(fatal_error = True)
def download_syslog(self, timeout = None):
timeout = timeout if timeout is not None else self.timeout
self.files = []
if not self.gw:
gw = gateway.Gateway(detect_ssh = False)
gw.web_login()
else:
gw = self.gw
if gw.status < 1:
gw.detect_device()
if not gw.stok:
gw.web_login()
if gw.status < 1:
die("Xiaomi Mi Wi-Fi device not found (IP: {})".format(gw.ip_addr))
if self.verbose > 0:
print("Start generating syslog...")
r2 = requests.get(gw.apiurl + "misystem/sys_log", timeout = timeout)
if r2.text.find('"code":0') < 0:
die("SysLog not generated!")
try:
path = re.search(r'"path":"(.*?)"', r2.text)
path = path.group(1).strip()
except Exception:
die("SysLog not generated! (2)")
url = "http://" + path
if self.verbose > 0:
print('Downloading SysLog from file "{}" ...'.format(url))
zip = b''
with requests.get(url, stream=True, timeout = timeout) as r3:
r3.raise_for_status()
for chunk in r3.iter_content(chunk_size=8192):
zip += chunk
fn_local = 'outdir/syslog.tar.gz'
with open(fn_local, "wb") as file:
file.write(zip)
#if os.path.exists("syslog_test.tar.gz"): # TEST
# fn_local = "syslog_test.tar.gz"
tar = tarfile.open(fn_local, mode='r:gz')
for member in tar.getmembers():
if not member.isfile() or not member.name:
continue
if self.skiplogs and member.name.find('usr/log/') >= 0: # skip raw syslog files
continue
item = types.SimpleNamespace()
item.name = member.name
item.size = member.size
item.data = tar.extractfile(member).read()
self.files.append(item)
if self.verbose >= 3:
print('name = "{}", size = {} ({})'.format(item.name, item.size, len(item.data)))
if len(item.data) < 200: