def _receive(self):
while True:
data = self._pipe.buffer
pos = data.find(b"=")
if pos >= 0:
data = data[:pos]
data = data.replace(b"\r", b"").replace(b"\n", b"")
data = data.translate(self.TABLE)
# TODO: check data size overflow
self._crc = crc32(data, self._crc)
self._file.write(data)
if pos >= 0: # Escape character (equals sign)
self._pipe.buffer = self._pipe.buffer[pos + 1:]
while True:
byte = yield from self._pipe.read_one()
if byte not in b"\r\n":
break
# TODO: check for size overflow
[byte] = byte
data = bytes(((byte - 64 - 42) & bitmask(8),))
self._crc = crc32(data, self._crc)
self._file.write(data)
else:
try:
self._pipe.buffer = yield
except EOFError:
break
def readReg(reg):
global crcerrorcount,crcerrorcountout
tries = 5
okay = 0
while (okay != 1 and tries > 0):
tries = tries -1
send = [0x02,reg,0,0,0,0]
crcout = (binascii.crc32("".join( chr( val ) for val in send[0:6])) >> 16) & 0xFFFF
resp = SPI.xfer(send+[(crcout>>8)&0xFF,crcout&0xFF,0,0,0,0,0,0,0,0,0])
val = (resp[10] << 24) + (resp[11] << 16) + (resp[12] << 8) + (resp[13])
crcin = (resp[14] << 8) + resp[15]
vals = "".join( chr( val ) for val in resp[0:14] )
crcis = (binascii.crc32(vals) >> 16) & 0xFFFF
okay = 1
if (crcin != crcis):
crcerrorcount = crcerrorcount +1
okay = 0
#print("CRC ERROR ON RECV")
#print("crcrep "+format(crcin,'02x')+" vs "+format(crcis,'02x'))
if (resp[16] != 0xFF):
crcerrorcountout = crcerrorcountout +1
okay = 0
#print("CRC SEND ERROR: "+format(resp[16],'02x'))
#print("reg "+str(reg)+" "+str(val))
if (okay == 0):
print("ERROR READING")
return val
def process_request(self, request):
if not request.META.has_key(self.header):
raise ImproperlyConfigured('Requires SSL on frontend web server'
' to be enabled and properly configured'
' to pass SSL_* headers.')
if request.META.get(self.header, None) == 'SUCCESS':
(pem, serial, dn) = (
request.META.get(self.header_pem, ''),
request.META.get(self.header_serial, ''),
request.META.get(self.header_dn, '')
)
users = map(lambda i: i.certificate.user,
CertificateIndex.objects.filter(
pem_index=crc32(pem)&0xffffffff,
serial_index=crc32(serial)&0xffffffff,
dn_index=crc32(dn)&0xffffffff
)
)
if len(users) > 1:
users = filter(lambda u: any(u.certificates.filter(pem=pem, serial=serial, dn=dn)), users)
if not any(users):
certificate, created = Certificate.objects.get_or_create(pem=pem, serial=serial, dn=dn)
return
if len(users) > 1:
raise Exception('Too many users for certificate')
user = users[0]
if request.user.is_authenticated():
if request.user == user:
return
user = auth.authenticate(user=user)
if user:
request.user = user
auth.login(request, user)
def compute_crc(buf, offset):
before_buffer = (ctypes.c_uint8 * offset).from_buffer(buf)
zero = (ctypes.c_uint8 * 4)()
after_buffer = (ctypes.c_uint8 * (ctypes.sizeof(buf) - offset - 4)).from_buffer(buf, offset + 4)
crc = binascii.crc32(before_buffer)
crc = binascii.crc32(zero, crc)
return binascii.crc32(after_buffer, crc)
def crc32_checksum(filepath, start=0, length=0):
crc = 0
with open(filepath, 'rb') as fp:
if start:
fp.seek(start)
bytes_read = 0
while True:
data = fp.read(8192)
if not data:
break
if length > 0:
bytes_read += len(data)
if bytes_read >= length:
if bytes_read > length:
data = data[:length - bytes_read]
crc = binascii.crc32(data, crc)
break
crc = binascii.crc32(data, crc)
return crc & 0xFFFFFFFF
def unique_id(self, seen=None, account_id=None):
"""
Get an unique ID for the transaction based on date, amount and raw.
:param seen: if given, the method uses this dictionary as a cache to
prevent several transactions with the same values to have the same
unique ID.
:type seen: :class:`dict`
:param account_id: if given, add the account ID in data used to create
the unique ID. Can be useful if you want your ID to be unique across
several accounts.
:type account_id: :class:`str`
:returns: an unique ID encoded in 8 length hexadecimal string (for example ``'a64e1bc9'``)
:rtype: :class:`str`
"""
crc = crc32(str(self.date))
crc = crc32(str(self.amount), crc)
crc = crc32(re.sub('[ ]+', ' ', self.raw.encode("utf-8")), crc)
if account_id is not None:
crc = crc32(str(account_id), crc)
if seen is not None:
while crc in seen:
crc = crc32("*", crc)
seen.add(crc)
return "%08x" % (crc & 0xffffffff)
def _process_chunk(
self,
from_buffer,
to_buffer,
chunk_buffer,
output_file,
id,
chunk_type):
"""
Method called on each chunk
Returns a dict with meta-data on chunk
"""
if chunk_type > CHUNK_TYPE_KEEP:
chunk_len = len(chunk_buffer)
else:
chunk_len = 0
from_crc = binascii.crc32(from_buffer)
to_crc = binascii.crc32(to_buffer)
chunkheader = ChunkHeader(CHUNK_HEADER_MAGIC, CHUNK_HEADER_VERSION,
chunk_type, id, chunk_len, 0, len(from_buffer),
from_crc, len(to_buffer), to_crc)
chunkheader.crc = binascii.crc32(bytearray(chunkheader))
arr = bytearray(chunkheader)
assert len(arr) == CHUNK_HEADER_SIZE
chunkfile = open(output_file, "wb")
chunkfile.write(arr)
if chunk_type > CHUNK_TYPE_KEEP:
chunkfile.write(chunk_buffer)
chunkfile.close()
chunk_len += CHUNK_HEADER_SIZE
return {
"_id": id,
"_type": chunk_type,
"_name": os.path.basename(output_file),
"crc_from": "0x%x" %
(from_crc & 0xffffffff),
"crc_to": "0x%x" %
(to_crc & 0xffffffff),
"crc_header": "0x%x" %
(chunkheader.crc & 0xffffffff),
"chunk_header": "0x%x" %
(binascii.crc32(
open(
output_file,
"rb").read()) & 0xffffffff),
"size_output": chunk_len,
"size_input": len(to_buffer),
"ratio": "%0.5f" %
(1.0 *
chunk_len /
len(to_buffer)),
"delta": chunk_len -
len(to_buffer)}
def save_max_drive(self, f):
if lzari == None:
raise error, ("The lzari module is needed to "
" decompress MAX Drive saves.")
iconsysname = ""
icon_sys = self.get_icon_sys()
if icon_sys != None:
title = icon_sys_title(icon_sys, "ascii")
if len(title[0]) > 0 and title[0][-1] != ' ':
iconsysname = title[0] + " " + title[1].strip()
else:
iconsysname = title[0] + title[1].rstrip()
s = ""
dirent = self.dirent
for i in range(dirent[2]):
(ent, data) = self.get_file(i)
if not mode_is_file(ent[0]):
raise error, "Non-file in save file."
s += struct.pack("<L32s", ent[2], ent[8])
s += data
s += "\0" * (round_up(len(s) + 8, 16) - 8 - len(s))
length = len(s)
progress = "compressing " + dirent[8] + ": "
compressed = lzari.encode(s, progress)
hdr = struct.pack("<12sL32s32sLLL", PS2SAVE_MAX_MAGIC,
0, dirent[8], iconsysname,
len(compressed) + 4, dirent[2], length)
crc = binascii.crc32(hdr)
crc = binascii.crc32(compressed, crc)
f.write(struct.pack("<12sL32s32sLLL", PS2SAVE_MAX_MAGIC,
crc & 0xFFFFFFFF, dirent[8], iconsysname,
len(compressed) + 4, dirent[2], length))
f.write(compressed)
f.flush()
def compute_checksum(path):
r"""Returns the checksum of the file pointed by path
Parameters
----------
path : str
The path to compute the checksum
Returns
-------
int
The file checksum
"""
crc = 0
filepaths = []
if isdir(path):
for name, dirs, files in walk(path):
join_f = partial(join, name)
filepaths.extend(list(map(join_f, files)))
else:
filepaths.append(path)
for fp in filepaths:
with open(fp, "Ub") as f:
# Go line by line so we don't need to load the entire file
for line in f:
if crc is None:
crc = crc32(line)
else:
crc = crc32(line, crc)
# We need the & 0xffffffff in order to get the same numeric value across
# all python versions and platforms
return crc & 0xffffffff
def genkey(name: str, version: Version) -> int:
"""Return the key for `name` according to `version`.
This is a low-level function that rarely needs to be used directly.
"""
n = name.encode(ENCODING, "strict").upper()
if version is Version.TD or version is Version.RA:
l = len(n)
k = 0
i = 0
while i < l:
a = 0
for j in range(4):
a >>= 8
if i < l:
a |= (n[i] << 24)
i += 1
k = (k << 1 | k >> 31) + a & 4294967295
return k
if version is Version.TS:
l = len(n)
a = l & -4
if l & 3:
n += bytes((l - a,))
n += bytes((n[a],)) * (3 - (l & 3))
return binascii.crc32(n)
if version is Version.RG:
return binascii.crc32(n)
raise TypeError("`version` must be a Version enumeration member")
def encode(self, id):
body = self._encode_message_body()
header = struct.pack(_HEADER_SPEC, self.msgtype, id, len(body))
raw_crc = crc32(body, crc32(header)) & 0xffffffff
crc = struct.pack(_FOOTER_SPEC, raw_crc)
logger.debug("header:%s body:%s crc:%s", repr(header), repr(body)[:30], repr(crc))
return b''.join((header, body, crc))
def packet_sender(self, p_type, id_value, value, type_v):
# This is building packets, the explanation can be found in Robert's
# documentation which contains the structure of each packet. But it is
# unlikely you'll have to modify start/adress/length/record/index
# Only s_id (type of ID, can be found in DriveManager), param_ID (the
# actual ID, also found in Drive Manager) and number (value to write in
# ID) will have to be changed if you want to do other simple tasks.
# The 2685547530 'magic' number is given in the documentation
start = pack('<L', 2685547530)
adress = pack('<L', 0)
s_id = pack('<L', p_type)
length = pack('<L', 16)
record = pack('<l', -1)
param_id = pack('<L', id_value)
index = pack('<L', 0)
if type_v == 'int32':
number = pack('<L', value)
elif type_v == 'float':
number = pack('<f', value)
else:
number = pack('<i', value)
# The 3344495068/3344494807 are necessary to obtain a correct checksum
# They have been found by sniffing packets, and bruteforcing numbers
# until both checksum are the same.
checksum = crc32(start + adress + s_id + length, 3344495068)
checksum_start = pack('<L', checksum)
checksum = crc32(record + param_id + index + number, 3344494807)
checksum_data = pack('<L', checksum)
packet = start + adress + s_id + length + checksum_start
packet += checksum_data + record + param_id + index + number
self.s.send(packet)
data = self.s.recv(self.buffer)
return data
def write_data(self, write_finished_cb):
# First generate the header part
header_data = struct.pack("<BIBB", 0xEB, self.pins, self.vid, self.pid)
header_crc = crc32(header_data) & 0x0FF
header_data += struct.pack("B", header_crc)
# Now generate the elements part
elem = ""
logger.info(self.elements.keys())
for element in reversed(self.elements.keys()):
elem_string = self.elements[element]
# logger.info(">>>> {}".format(elem_string))
key_encoding = self._rev_element_mapping[element]
elem += struct.pack("BB", key_encoding, len(elem_string))
elem += elem_string
elem_data = struct.pack("BB", 0x00, len(elem))
elem_data += elem
elem_crc = crc32(elem_data) & 0x0FF
elem_data += struct.pack("B", elem_crc)
data = header_data + elem_data
# Write data
p = ""
for s in data:
p += "0x{:02X} ".format(ord(s))
logger.info(p)
self.mem_handler.write(self, 0x00, struct.unpack("B" * len(data), data))
self._write_finished_cb = write_finished_cb
def __compare_current_version_data_with_data(self, p_version_data, p_data):
"""
Compare a version data with some new data using crc32.
@param p_version_data: version data
@param p_data: new data
"""
return crc32(p_version_data) != crc32(p_data)
def calculate_crc32_checksum(data):
if sys.version_info < (3, 0):
return "%08x" % (binascii.crc32(data) & 0xffffffff)
else:
if isinstance(data, str):
data = str.encode(data)
return "%08x" % (binascii.crc32(data) & 0xffffffff)
def test_save(self):
filelike = open('jieba.cache', 'rb').read()
self.bucket.save('new_jieba.cache', filelike)
contents = self.bucket.get_object_contents('new_jieba.cache')
self.assertEqual(binascii.crc32(filelike) & 0xffffffff,
binascii.crc32(contents) & 0xffffffff)
self.bucket.delete_object('new_jieba.cache')
def write_data(self, write_finished_cb):
# First generate the header part
header_data = struct.pack('<BIBB', 0xEB, self.pins, self.vid, self.pid)
header_crc = crc32(header_data) & 0x0ff
header_data += struct.pack('B', header_crc)
# Now generate the elements part
elem = bytearray()
logger.info(list(self.elements.keys()))
for element in reversed(list(self.elements.keys())):
elem_string = self.elements[element]
# logger.info(">>>> {}".format(elem_string))
key_encoding = self._rev_element_mapping[element]
elem += struct.pack('BB', key_encoding, len(elem_string))
elem += bytearray(elem_string.encode('ISO-8859-1'))
elem_data = struct.pack('BB', 0x00, len(elem))
elem_data += elem
elem_crc = crc32(elem_data) & 0x0ff
elem_data += struct.pack('B', elem_crc)
data = header_data + elem_data
self.mem_handler.write(self, 0x00,
struct.unpack('B' * len(data), data))
self._write_finished_cb = write_finished_cb
def json_search(request):
search_query = Search(indexes=['rt_main'], config=SphinxitConfig)
keyword = request.GET['keyword']
start = request.GET.get('start', 0)
count = request.GET.get('count', 10)
sort = request.GET.get('sort', '')
category = request.GET.get('category', '')
if request.GET.get('base64') == '1':
keyword = keyword.decode('base64').decode('utf8')
mckey = str(binascii.crc32((u'%s%s%s%s%s' % (keyword,start,count,sort,category)).encode('utf8')) & 0xFFFFFFFFL)
cache = mc.get(mckey)
if cache:
print 'bingo', keyword.encode('utf8'), mckey
return HttpResponse(cache)
q = search_query.match(keyword)
if category: q = q.filter(category__eq=binascii.crc32(category)&0xFFFFFFFFL)
if sort == 'create_time': q = q.order_by('create_time', 'desc')
if sort == 'length': q = q.order_by('length', 'desc')
q = q.limit(start, count)
q2 = search_query.match(keyword).select('category', Count()).group_by('category').named('cats')
res = q.ask(subqueries=[q2])
jsp = JsonResponse(res)
mc.set(mckey, jsp.content)
return jsp
def __init__(self, ffi, preamble, tmpdir=None, modulename=None,
ext_package=None, tag='', force_generic_engine=False, **kwds):
self.ffi = ffi
self.preamble = preamble
if not modulename:
flattened_kwds = ffiplatform.flatten(kwds)
vengine_class = _locate_engine_class(ffi, force_generic_engine)
self._vengine = vengine_class(self)
self._vengine.patch_extension_kwds(kwds)
self.kwds = kwds
#
if modulename:
if tag:
raise TypeError("can't specify both 'modulename' and 'tag'")
else:
key = '\x00'.join([sys.version[:3], __version__, preamble,
flattened_kwds] +
ffi._cdefsources)
if sys.version_info >= (3,):
key = key.encode('utf-8')
k1 = hex(binascii.crc32(key[0::2]) & 0xffffffff)
k1 = k1.lstrip('0x').rstrip('L')
k2 = hex(binascii.crc32(key[1::2]) & 0xffffffff)
k2 = k2.lstrip('0').rstrip('L')
modulename = '_cffi_%s_%s%s%s' % (tag, self._vengine._class_key,
k1, k2)
suffix = _get_so_suffixes()[0]
self.tmpdir = tmpdir or _caller_dir_pycache()
self.sourcefilename = os.path.join(self.tmpdir, modulename + '.c')
self.modulefilename = os.path.join(self.tmpdir, modulename + suffix)
self.ext_package = ext_package
self._has_source = False
self._has_module = False
def client_thread(self):
while True:
self.lock.acquire()
if self.mode == "a":
self.event_to_send = len(self.events) - 1
if self.event_to_send != -1:
print "Sending event: %s" % (self.format_event(event))
theevent = self.events[self.event_to_send]
rawdata = theevent["data"].decode("string-escape")
theevent["crc"] = crc32(rawdata)
self.proxy.send_de(self.events[self.event_to_send])
del self.events[self.event_to_send]
self.event_to_send = -1
newevents = self.proxy.getdebugq()
for event in newevents:
d = event["data"].decode("string-escape")
dcrc = crc32(d)
print "CRC: %08x for eventid:%s" % (dcrc, event["eventid"])
self.events.append(event)
self.lock.release()
time.sleep(.1)
def try_to_recover():
if response['offset'] == 0:
# Nothing to recover
return
expected_crc = binascii.crc32(firmware[:response['offset']]) & 0xFFFFFFFF
remainder = response['offset'] % response['max_size']
if expected_crc != response['crc']:
# Invalid CRC. Remove corrupted data.
response['offset'] -= remainder if remainder != 0 else response['max_size']
response['crc'] = \
binascii.crc32(firmware[:response['offset']]) & 0xFFFFFFFF
return
if (remainder != 0) and (response['offset'] != len(firmware)):
# Send rest of the page.
try:
to_send = firmware[response['offset'] : response['offset']
+ response['max_size'] - remainder]
response['crc'] = self.__stream_data(data = to_send,
crc = response['crc'],
offset = response['offset'])
response['offset'] += len(to_send)
except ValidationException:
# Remove corrupted data.
response['offset'] -= remainder
response['crc'] = \
binascii.crc32(firmware[:response['offset']]) & 0xFFFFFFFF
return
self.__execute()
self._send_event(event_type=DfuEvent.PROGRESS_EVENT, progress=response['offset'])
def _sweep(self, sweep_config):
response = self.alh.post("sensing/quickSweepBin",
"dev %d conf %d ch %d:%d:%d" % (
sweep_config.config.device.id,
sweep_config.config.id,
sweep_config.start_ch,
sweep_config.step_ch,
sweep_config.stop_ch))
data = response[:-4]
crc = response[-4:]
their_crc = struct.unpack("i", crc[-4:])[0]
our_crc = binascii.crc32(data)
if their_crc != our_crc:
# Firmware versions 2.29 only calculate CRC on the
# first half of the response due to a bug
our_crc = binascii.crc32(data[:len(data)/2])
if their_crc != our_crc:
raise CRCError
else:
log.warning("working around broken CRC calculation! "
"please upgrade node firmware")
assert sweep_config.num_channels * 2 == len(data)
result = []
for n in xrange(0, len(data), 2):
datum = data[n:n+2]
dbm = struct.unpack("h", datum)[0]*1e-2
result.append(dbm)
return result
def recv_data(self):
# self.log("Waiting for content length..."
self.check_timeout(3)
# s1, s2 = self.sock.recv(8), self.sock.recv(8)
# #print 'recv', s1, s2
# content_length, crc32 = hexstring2int( s1 ), hexstring2int( s2 )
# #print content_length, crc32
content_length, crc32 = tuple([int(s) for s in self.readline().split()])
self.log("Content-Length: %d\n" % content_length)
recvbytes = 0
content = []
# self.log("Receiving data...")
while recvbytes < content_length:
recvstring = self.sock.recv(min(content_length - recvbytes, 2048))
recvbytes += len(recvstring)
self.log("Received: %d bytes (%3.1f%%)\r" % (recvbytes, (100.0 * recvbytes / content_length)))
content.append(recvstring)
self.log("Received: %d bytes. " % (recvbytes) + "\n")
content = "".join(content)
if crc32 != binascii.crc32(content):
str = """\
expected crc %d, calculated crc %d
expected content length %d, content length %d
""" % (
crc32,
binascii.crc32(content),
content_length,
len(content),
)
raise IOError("CRC error while receiving data:\n" + str)
return content
def tryParseHeader(self, buf):
"""
Try to parse a buffer as a GPT header, return None on failure
"""
if len(buf) < self._gpt_size:
raise NoGPT("Failed to locate GPT")
data = dict(zip(
self._gpt_head_fmt.keys(),
self._gpt_struct.unpack(buf[0:self._gpt_size])
))
if data['header'] != self._gpt_header:
return None
tmp = data['crc32']
data['crc32'] = 0
crc = crc32(self._gpt_struct.pack(*[data[k] for k in self._gpt_head_fmt.keys()]))
data['crc32'] = tmp
# just in case future ones are larger
crc = crc32(buf[self._gpt_size:data['headerSize']], crc)
crc &= 0xFFFFFFFF
if crc != data['crc32']:
verbose("Warning: Found GPT candidate with bad CRC")
return None
return data
def read_deflated(self, count = -1):
if count < 1 or count > self.zinfo.file_size - self.byteswritten:
count = self.zinfo.file_size - self.byteswritten
if count < 1:
return ''
count = count
self.fp.seek(self.zinfo.file_offset + self.bytesread)
# First, fill up the buffer.
while len(self.buffer) < count:
bytes = self.fp.read(min(self.zinfo.compress_size - self.bytesread, 4096))
self.bytesread += len(bytes)
result = self.dc.decompress(bytes)
if len(result):
self.buffer += result
self.crc = binascii.crc32(result, self.crc)
if self.bytesread == self.zinfo.compress_size:
bytes = self.dc.decompress('Z') + self.dc.flush()
if len(bytes):
self.buffer += bytes
self.crc = binascii.crc32(bytes, self.crc)
self._finalize()
retval = self.buffer[:count]
self.byteswritten += len(retval)
self.buffer = self.buffer[count:]
return retval
def VerifyPy2Exe():
"""Checks for presense of the modified zipextimporter.py. We no longer want
the modified version, and need the original."""
# CRCs of the correct version, from both 'r', and 'rb' mode
crcGood = [0xA56E66A6, 0x57925DA8]
path = os.path.join(sys.prefix, u'Lib', u'site-packages',
u'zipextimporter.py')
# First we'll test using 'r' mode, this way if the line endings differ,
# but the contents are the same, the crc will still be equal
with open(os.path.join(scripts, u'zipextimporter.py'), 'r') as ins:
crcBad = binascii.crc32(ins.read())
crcBad &= 0xFFFFFFFFL
with open(path, 'r') as ins:
crcTest = binascii.crc32(ins.read())
crcTest &= 0xFFFFFFFFL
if crcTest == crcBad:
# Definitely using the old modified version, need to reinstall
return False
if crcTest in crcGood:
# Definitely using the un-modified version, good to go
return True
# Now check if the current file's crc in 'rb' mode matches a known "good"
# crc.
with open(path, 'rb') as ins:
crcTest = binascii.crc32(ins.read())
crcTest &= 0xFFFFFFFFL
if crcTest in crcGood:
# Definitely using the un-modified version
return True
# Last test: see if the modified lines are present
with open(path, 'r') as ins:
return 'filename = fullname.replace(".","\\")' in ins.read()
def calc_hash(self, widget, file_path):
selection = self.hash_tree_view.get_selection()
model, it = selection.get_selected()
model.clear()
for hash_type in self.type_conf.keys():
if self.type_conf[hash_type] == '1' or self.type_conf[hash_type] == 'True':# If it's True we should calc this hash
f = open(file_path, 'rb')
if hash_type.lower() in ('md5', 'sha1', 'sha512', 'sha224', 'sha256', 'sha384'): # hashlib function
function = "hashlib.{0}()".format(hash_type.lower())
m = eval(function)
data = f.read(10240)
while (len(data) != 0):
m.update(data)
data = f.read(10240)
hash_value = str(m.hexdigest())
elif hash_type.lower() in ('crc32'):
m = binascii.crc32("") & 0xffffffff
data = f.read(10240)
while (len(data) != 0):
m = binascii.crc32(data, m) & 0xffffffff
data = f.read(10240)
hash_value = str(hex(m))[2:]
selection = self.hash_tree_view.get_selection()
model, it = selection.get_selected()
model.append([hash_type, hash_value])
f.close()
self.hash_tree_view.set_cursor(0)
return
def recv_file(self, filename):
# the reason for this function is to store everything into a file and not have
# the whole content in the memory at the same time
# recv_data() actually has to content twice in the memory at the same time!
self.check_timeout(3)
f = open(filename, "wb")
content_length, crc32 = tuple([int(s) for s in self.readline().split()])
self.log("Content-Length: %d\n" % content_length)
recvbytes = 0
content = []
# self.log("Receiving data...")
recvstring = self.sock.recv(min(content_length - recvbytes, 2048))
recvbytes += len(recvstring)
f.write(recvstring)
crc = binascii.crc32(recvstring)
while recvbytes < content_length:
recvstring = self.sock.recv(min(content_length - recvbytes, 2048))
recvbytes += len(recvstring)
f.write(recvstring)
crc = binascii.crc32(recvstring, crc)
f.close()
self.log("Received: %d bytes. " % (recvbytes) + "\n")
if crc32 != crc:
str = """\
expected crc %d, calculated crc %d
expected content length %d, content length %d
""" % (
crc32,
crc,
content_length,
recvbytes,
)
raise IOError("CRC error while receiving data:\n" + str)
def update(self, publisher, **kwargs):
"""
Handle notifications from other classes we are observing. Typically
this is a new event that needs to be placed into the debug queue.
@param publisher: The object that sent the update
"""
#print "[*] Debugger: got update event. Not ignoring it."
event = kwargs["event"]
if event == "debug":
# self.log.debug("Debugger: update: adding event to debug queue")
de = DebugEvent()
de.eventid = kwargs["eventid"]
de.event = kwargs["event"]
de.source = kwargs["src"]
de.destination = kwargs["dest"]
de.data = kwargs["thedata"]
de.direction = kwargs["direction"]
de.crc = binascii.crc32(kwargs["thedata"])
self.log.debug("Debug.update: newevent: %08x [eventid:%s]" %
(binascii.crc32(kwargs["thedata"]),
kwargs["eventid"]))
self.debugq.put(de)
def get_ffi():
import cffi
ffi = cffi.FFI()
# Load C definitions
dir_path = dirname(abspath(inspect.getfile(inspect.currentframe())))
decl_path = os.path.join(dir_path, 'decl.h')
with codecs.open(decl_path, 'r', 'utf-8') as header:
ffi.cdef(header.read())
# The modulename
# Simplified version of what cffi does: remove kwargs and vengine
preamble = "#include <git2.h>"
key = [sys.version[:3], cffi.__version__, preamble] + ffi._cdefsources
key = '\x00'.join(key)
if sys.version_info >= (3,):
key = key.encode('utf-8')
k1 = hex(crc32(key[0::2]) & 0xffffffff).lstrip('0x').rstrip('L')
k2 = hex(crc32(key[1::2]) & 0xffffffff).lstrip('0').rstrip('L')
modulename = 'pygit2_cffi_%s%s' % (k1, k2)
# Load extension module
libgit2_bin, libgit2_include, libgit2_lib = get_libgit2_paths()
C = ffi.verify(preamble, modulename=modulename, libraries=["git2"],
include_dirs=[libgit2_include], library_dirs=[libgit2_lib])
# Ok
return ffi, C
def hexdigest(this):
result = binascii.crc32(this.content) & 0xFFFFFFFF
return "%08X" % result
def crc32(self, data):
return binascii.crc32(data) & 0xFFFFFFFF
def handle(self, *args, **options):
files = options['files']
admin = User.objects.get(username='******')
wells = set()
tz = pytz.timezone('Europe/Amsterdam')
for fname in files:
logger.info('Importing data from {}'.format(fname))
df = pd.read_csv(fname,
sep='\t',
index_col=0,
parse_dates=True,
na_values=['-'])
df.drop('Datum', axis=1, inplace=True)
span = [tz.localize(df.index.min()), tz.localize(df.index.max())]
start, stop = span
screens = set()
for col in df.columns:
serial, _peilbuis, name = map(lambda x: x.strip(),
re.split('[:-]', col))
series = df[col]
logger.info(series.name)
try:
datalogger = Datalogger.objects.get(serial=serial)
datasource = LoggerDatasource.objects.get(
logger=datalogger)
io = StringIO()
io.write('Datum\t{}\n'.format(name))
series.to_csv(io, sep='\t', header=False)
contents = io.getvalue()
crc = abs(binascii.crc32(contents))
filename = 'Export_{}_{}_{:%Y%m%d}_{:%Y%m%d}'.format(
serial, name, start, stop)
sourcefile = SourceFile(name=filename,
datasource=datasource,
user=admin,
crc=crc)
sourcefile.file.save(name=filename, content=io, save=True)
except Exception as ex:
logger.error(
'Cannot create sourcefile for logger {}: {}'.format(
serial, ex))
# find out where logger is
# we could use the name from the header, but this is not equal to the id of the screen in the database
query = LoggerPos.objects.filter(logger=datalogger)
pos = None
if query.count() == 1:
pos = query.first()
else:
# TODO: klopt niet, de if-else hieronder
query1 = query.filter(start_date__range=span)
if query1.count == 1:
pos = query1.first()
else:
query2 = query.filter(end_date__range=span)
if query2.count == 1:
pos = query2.first()
if pos is None:
logger.error(
'Cannot find installation for logger {}'.format(
serial))
continue
screens.add(pos.screen)
logger.info('File import completed')
if len(screens) > 0:
logger.info('Updating time series')
for screen in screens:
series = screen.find_series()
if series:
series.update(start=start, stop=stop)
wells.add(screen.well)
if len(wells) > 0:
logger.info('Updating well charts')
make_wellcharts(None, None, wells)
logger.info('Done.')
def crc32(domain):
return binascii.crc32(domain.encode('utf-8'))
if port.read() != b'\x55':
print('No ACK for ADDR. Exiting.')
sys.exit(4)
elif args.verbose:
print(f'ADDR<- ACK')
if args.verbose:
print(f'DATA-> {binascii.hexlify(memory_view[cur_page:cur_page+pagesize])}')
port.write(bytes(memory_view[cur_page:cur_page+pagesize]))
if port.read() != b'\x55':
print('No ACK for DATA. Exiting.')
sys.exit(4)
elif args.verbose:
print(f'DATA<- ACK')
chksum = binascii.crc32(memory_view[cur_page:cur_page+pagesize]) & 0xFFFFFFFF
if args.verbose:
print(f'CHK -> {chksum:08X}')
port.write(struct.pack('<I', chksum))
if port.read() != b'\x77':
print('No ACK for CHK. Exiting.')
sys.exit(4)
elif args.verbose:
print(f'CHK <- ACK')
if port.read() != b'\x55':
print('Flash failed. Exiting.')
sys.exit(4)
print(f'Page {index}/{no_pages} written.')
elif args.verbose:
print('-'*80)
def get_crc32(s):
return binascii.crc32(binascii.unhexlify(s.lower()))
def add_fib_at_start(arginput):
input_file = arginput + ".bin"
file_name_hex = arginput + "_fib.hex"
file_name_bin = arginput + ".bin"
# Read in hex file
input_hex_file = intelhex.IntelHex()
input_hex_file.padding = 0x00
input_hex_file.loadbin(input_file, offset=FLASH_BASE)
output_hex_file = intelhex.IntelHex()
output_hex_file.padding = 0x00
# Get the starting and ending address
addresses = input_hex_file.addresses()
addresses.sort()
start_end_pairs = list(ranges(addresses))
regions = len(start_end_pairs)
if regions == 1:
start, end = start_end_pairs[0]
else:
start = min(min(start_end_pairs))
end = max(max(start_end_pairs))
assert start >= FLASH_BASE, (
"Error - start 0x%x less than begining of user\
flash area" % start)
# Compute checksum over the range (don't include data at location of crc)
size = end - start + 1
data = input_hex_file.tobinarray(start=start, size=size)
crc32 = binascii.crc32(data) & 0xFFFFFFFF
fw_rev = FW_REV
checksum = (start + size + crc32 + fw_rev) & 0xFFFFFFFF
print("Writing FIB: base 0x%08X, size 0x%08X, crc32 0x%08X, fw rev 0x%08X,\
checksum 0x%08X" % (start, size, crc32, fw_rev, checksum))
#expected initial values used by daplink to validate that it is a valid bin
#file added as dummy values in this file because the fib area preceeds the
#application area the bootloader will ignore these dummy values
# 00 is stack pointer (RAM address)
# 04 is Reset vector (FLASH address)
# 08 NMI_Handler (FLASH address)
# 0C HardFault_Handler(FLASH address)
# 10 dummy
dummy_sp = 0x3FFFFC00
dummy_reset_vector = 0x00003625
dummy_nmi_handler = 0x00003761
dummy_hardfault_handler = 0x00003691
dummy_blank = 0x00000000
#expected fib structure
#typedef struct fib{
#uint32_t base; /**< Base offset of firmware, indicating what flash the
# firmware is in. (will never be 0x11111111) */
#uint32_t size; /**< Size of the firmware */
#uint32_t crc; /**< CRC32 for firmware correctness check */
#uint32_t rev; /**< Revision number */
#uint32_t checksum; /**< Check-sum of information block */
#}fib_t, *fib_pt;
fib_start = FIB_BASE
dummy_fib_size = 20
fib_size = 20
trim_size = 24
user_code_start = FLASH_BASE
trim_area_start = TRIM_BASE
# Write FIB to the file in little endian
output_hex_file[fib_start + 0] = (dummy_sp >> 0) & 0xFF
output_hex_file[fib_start + 1] = (dummy_sp >> 8) & 0xFF
output_hex_file[fib_start + 2] = (dummy_sp >> 16) & 0xFF
output_hex_file[fib_start + 3] = (dummy_sp >> 24) & 0xFF
output_hex_file[fib_start + 4] = (dummy_reset_vector >> 0) & 0xFF
output_hex_file[fib_start + 5] = (dummy_reset_vector >> 8) & 0xFF
output_hex_file[fib_start + 6] = (dummy_reset_vector >> 16) & 0xFF
output_hex_file[fib_start + 7] = (dummy_reset_vector >> 24) & 0xFF
output_hex_file[fib_start + 8] = (dummy_nmi_handler >> 0) & 0xFF
output_hex_file[fib_start + 9] = (dummy_nmi_handler >> 8) & 0xFF
output_hex_file[fib_start + 10] = (dummy_nmi_handler >> 16) & 0xFF
output_hex_file[fib_start + 11] = (dummy_nmi_handler >> 24) & 0xFF
output_hex_file[fib_start + 12] = (dummy_hardfault_handler >> 0) & 0xFF
output_hex_file[fib_start + 13] = (dummy_hardfault_handler >> 8) & 0xFF
output_hex_file[fib_start + 14] = (dummy_hardfault_handler >> 16) & 0xFF
output_hex_file[fib_start + 15] = (dummy_hardfault_handler >> 24) & 0xFF
output_hex_file[fib_start + 16] = (dummy_blank >> 0) & 0xFF
output_hex_file[fib_start + 17] = (dummy_blank >> 8) & 0xFF
output_hex_file[fib_start + 18] = (dummy_blank >> 16) & 0xFF
output_hex_file[fib_start + 19] = (dummy_blank >> 24) & 0xFF
# Write FIB to the file in little endian
output_hex_file[fib_start + 20] = (start >> 0) & 0xFF
output_hex_file[fib_start + 21] = (start >> 8) & 0xFF
output_hex_file[fib_start + 22] = (start >> 16) & 0xFF
output_hex_file[fib_start + 23] = (start >> 24) & 0xFF
output_hex_file[fib_start + 24] = (size >> 0) & 0xFF
output_hex_file[fib_start + 25] = (size >> 8) & 0xFF
output_hex_file[fib_start + 26] = (size >> 16) & 0xFF
output_hex_file[fib_start + 27] = (size >> 24) & 0xFF
output_hex_file[fib_start + 28] = (crc32 >> 0) & 0xFF
output_hex_file[fib_start + 29] = (crc32 >> 8) & 0xFF
output_hex_file[fib_start + 30] = (crc32 >> 16) & 0xFF
output_hex_file[fib_start + 31] = (crc32 >> 24) & 0xFF
output_hex_file[fib_start + 32] = (fw_rev >> 0) & 0xFF
output_hex_file[fib_start + 33] = (fw_rev >> 8) & 0xFF
output_hex_file[fib_start + 34] = (fw_rev >> 16) & 0xFF
output_hex_file[fib_start + 35] = (fw_rev >> 24) & 0xFF
output_hex_file[fib_start + 36] = (checksum >> 0) & 0xFF
output_hex_file[fib_start + 37] = (checksum >> 8) & 0xFF
output_hex_file[fib_start + 38] = (checksum >> 16) & 0xFF
output_hex_file[fib_start + 39] = (checksum >> 24) & 0xFF
#pad the rest of the file
for i in range(fib_start + dummy_fib_size + fib_size, trim_area_start):
output_hex_file[i] = 0xFF
# Read in configuration data from the config parameter in targets.json
configData = Config('NCS36510')
paramData = configData.get_target_config_data()
for v in paramData.values():
if (v.name == "target.mac-addr-high"):
mac_addr_high = int(v.value, 16)
elif (v.name == "target.mac-addr-low"):
mac_addr_low = int(v.value, 16)
elif (v.name == "target.32KHz-clk-trim"):
clk_32k_trim = int(v.value, 16)
elif (v.name == "target.32MHz-clk-trim"):
clk_32m_trim = int(v.value, 16)
elif (v.name == "target.rssi-trim"):
rssi = int(v.value, 16)
elif (v.name == "target.txtune-trim"):
txtune = int(v.value, 16)
else:
print("Not a valid param")
output_hex_file[trim_area_start + 0] = mac_addr_low & 0xFF
output_hex_file[trim_area_start + 1] = (mac_addr_low >> 8) & 0xFF
output_hex_file[trim_area_start + 2] = (mac_addr_low >> 16) & 0xFF
output_hex_file[trim_area_start + 3] = (mac_addr_low >> 24) & 0xFF
output_hex_file[trim_area_start + 4] = mac_addr_high & 0xFF
output_hex_file[trim_area_start + 5] = (mac_addr_high >> 8) & 0xFF
output_hex_file[trim_area_start + 6] = (mac_addr_high >> 16) & 0xFF
output_hex_file[trim_area_start + 7] = (mac_addr_high >> 24) & 0xFF
output_hex_file[trim_area_start + 8] = clk_32k_trim & 0xFF
output_hex_file[trim_area_start + 9] = (clk_32k_trim >> 8) & 0xFF
output_hex_file[trim_area_start + 10] = (clk_32k_trim >> 16) & 0xFF
output_hex_file[trim_area_start + 11] = (clk_32k_trim >> 24) & 0xFF
output_hex_file[trim_area_start + 12] = clk_32m_trim & 0xFF
output_hex_file[trim_area_start + 13] = (clk_32m_trim >> 8) & 0xFF
output_hex_file[trim_area_start + 14] = (clk_32m_trim >> 16) & 0xFF
output_hex_file[trim_area_start + 15] = (clk_32m_trim >> 24) & 0xFF
output_hex_file[trim_area_start + 16] = rssi & 0xFF
output_hex_file[trim_area_start + 17] = (rssi >> 8) & 0xFF
output_hex_file[trim_area_start + 18] = (rssi >> 16) & 0xFF
output_hex_file[trim_area_start + 19] = (rssi >> 24) & 0xFF
output_hex_file[trim_area_start + 20] = txtune & 0xFF
output_hex_file[trim_area_start + 21] = (txtune >> 8) & 0xFF
output_hex_file[trim_area_start + 22] = (txtune >> 16) & 0xFF
output_hex_file[trim_area_start + 23] = (txtune >> 24) & 0xFF
# pad the rest of the area with 0xFF
for i in range(trim_area_start + trim_size, user_code_start):
output_hex_file[i] = 0xFF
#merge two hex files
output_hex_file.merge(input_hex_file, overlap='error')
# Write out file(s)
output_hex_file.tofile(file_name_hex, 'hex')
output_hex_file.tofile(file_name_bin, 'bin')
def checkHash(packet):
h = packet.hash
packet.hash = 0
result = (h == binascii.crc32(packet.__serialize__()) & 0xffffffff)
packet.hash = h
return result
# coding: utf-8
import binascii
print(binascii.crc32("The quick brown fox jumped over the lazy dog.".encode()))
jarFilePath = jarDirPath + "pixiedust.jar"
dir = os.path.dirname(jarDirPath)
if not os.path.exists(dir):
os.makedirs(dir)
def installPixiedustJar():
with pkg_resources.resource_stream(__name__, "resources/pixiedust.jar") as resJar:
with open( jarFilePath, 'wb+' ) as installedJar:
shutil.copyfileobj(resJar, installedJar)
print("Pixiedust runtime updated. Please restart kernel")
copyFile = True
if os.path.isfile(jarFilePath):
with open( jarFilePath, 'rb' ) as installedJar:
installedCRC = binascii.crc32( installedJar.read() )
with pkg_resources.resource_stream(__name__, "resources/pixiedust.jar") as resJar:
copyFile = installedCRC != binascii.crc32( resJar.read() )
if copyFile:
installPixiedustJar()
def checkVersion():
import json
try:
from urllib.request import urlopen
except ImportError:
from urllib2 import urlopen
def printHTML(html):
from IPython.display import display, HTML
typeid = '0x' + typeid
cleanline = nametype.group(1) + nametype.group(
3) + '= ' + nametype.group(4)
cleanline = re.sub(r' [a-zA-Z0-9_]+\:flags\.[0-9]+\?true', '',
cleanline)
cleanline = cleanline.replace('<',
' ').replace('>',
' ').replace(' ', ' ')
cleanline = re.sub(r'^ ', '', cleanline)
cleanline = re.sub(r' $', '', cleanline)
cleanline = cleanline.replace(':bytes ', ':string ')
cleanline = cleanline.replace('?bytes ', '?string ')
cleanline = cleanline.replace('{', '')
cleanline = cleanline.replace('}', '')
countTypeId = binascii.crc32(binascii.a2b_qp(cleanline))
if (countTypeId < 0):
countTypeId += 2**32
countTypeId = '0x' + re.sub(r'^0x|L$', '', hex(countTypeId))
if (typeid != countTypeId):
print('Warning: counted ' + countTypeId +
' mismatch with provided ' + typeid + ' (' + cleanline + ')')
continue
params = nametype.group(3)
restype = nametype.group(4)
if (restype.find('<') >= 0):
templ = re.match(r'^([vV]ector<)([A-Za-z0-9\._]+)>$', restype)
if (templ):
vectemplate = templ.group(2)
if (re.match(r'^[A-Z]', vectemplate)
def hashPacket(packet):
packet.hash = 0
packet.hash = binascii.crc32(packet.__serialize__()) & 0xffffffff
def getCRC32(input, prevRes=0):
from binascii import crc32
return crc32(input, prevRes)
def CRC32(buf):
import binascii
buf = (binascii.crc32(buf) & 0xFFFFFFFF)
return str("%08X" % buf)
c = s[:BS] # our first cipher block
# PNG signature, chunk size, our dummy chunk type
p = PNGSIG + struct.pack(">I", size) + chunktype
#let's generate our IV
c = "".join([chr(ord(c[i]) ^ ord(p[i])) for i in range(BS)])
IV = AES.new(key, AES.MODE_ECB).decrypt(c)
ctr = Counter.new(128, initial_value=int(IV.encode('hex'), 16))
result = AES.new(key, AES.MODE_CTR, counter=ctr).decrypt(result)
result += pad(4 + len(t[8:]))
#not fixing the CRC on the decrypted file - lazy :D
result += struct.pack(">I", binascii.crc32(result[0xc:]) % 0x100000000)
#we append the whole target image
result += t[8:]
result += pad(len(result))
ctr = Counter.new(128, initial_value=int(IV.encode('hex'), 16))
result = AES.new(key, AES.MODE_CTR, counter=ctr).encrypt(result)
#write the CRC of the remaining of s at the end of our dummy block
result += struct.pack(">I", binascii.crc32(result[len(s) - 8:]) % 0x100000000)
result += s[-12:] # our IEND chunk
#we have our result, key and IV
#generate the result file
def thg_encode(self, args):
"""modulo referente a encode de estrings"""
arg_mensage = args.split(" ")
if arg_mensage[0] == "":
print("""suporte encode:
Este módulo fornece funções para codificar dados binários em caracteres ASCII
imprimíveis e decodificar essas codificações de volta para dados binários.
Ele fornece funções de codificação e decodificação para as codificações
especificadas em RFC 3548 ,que define os algoritmos Base16, Base32 e Base64,
e para as codificações Ascii85 e Base85 padrão de fato.
a2b_uu
b2a_uu
a2b_base64
b2a_base64
a2b_qp
b2a_qp
a2b_hqx
rledecode_hqx
rlecode_hqx
b2a_hqx
crc_hqx
crc32
b2a_hex
a2b_hex
hexlify
unhexlify
Charcode
binary
base62
basen
bcd
ur
unicode_normalize
qp_encoding
encode type[2,16,32,64] str
""".format(YELLOW=Fore.YELLOW, BLUE=Fore.BLUE, RED=Fore.RED))
elif arg_mensage[0] == "64":
arg_mensage[1] = arg_mensage[1].encode('ascii')
base64_bytes = base64.b64encode(arg_mensage[1])
by_to_st(base64_bytes)
elif arg_mensage[0] == "32":
arg_mensage[1] = arg_mensage[1].encode('ascii')
b32encode_bytes = base64.b32encode(arg_mensage[1])
by_to_st(b32encode_bytes)
elif arg_mensage[0] == "16":
arg_mensage[1] = arg_mensage[1].encode('ascii')
b16encode_bytes = base64.b16encode(arg_mensage[1])
by_to_st(b16encode_bytes)
elif arg_mensage[0] == "a85encode":
arg_mensage[1] = arg_mensage[1].encode('ascii')
a85encode_bytes = base64.a85encode(arg_mensage[1])
by_to_st(a85encode_bytes)
elif arg_mensage[0] == "b85encode":
arg_mensage[1] = arg_mensage[1].encode('ascii')
b85encode_bytes = base64.b85encode(arg_mensage[1])
by_to_st(b85encode_bytes)
elif arg_mensage[0] == "a2b_uu":
if arg_mensage[1] == "help":
print(
"""{YELLOW}a2b_uu{YELLOW}{BLUE} =>{BLUE}{RED} Converta uma única linha de dados uuencodificados de volta em binários e retorne os dados binários. As linhas normalmente contêm 45 bytes (binários), exceto a última linha. Os dados da linha podem ser seguidos de espaços em branco.""".format(
YELLOW=Fore.YELLOW, BLUE=Fore.BLUE, RED=Fore.RED))
else:
by_to_st((binascii.a2b_uu(arg_mensage[1])))
elif arg_mensage[0] == "a2b_base64":
if arg_mensage[1] == "help":
print(
"""{YELLOW}a2b_uu{YELLOW}{BLUE} =>{BLUE}{RED}Converta dados binários em uma linha de caracteres ASCII na codificação base64. O valor de retorno é a linha convertida, incluindo um caractere de nova linha. O comprimento dos dados deve ser de no máximo 57 para aderir ao padrão base64.""".format(
YELLOW=Fore.YELLOW, BLUE=Fore.BLUE, RED=Fore.RED))
else:
by_to_st(binascii.a2b_base64(arg_mensage[1]))
elif arg_mensage[0] == "b2a_base64":
if arg_mensage[1] == "help":
print(
"""{YELLOW}a2b_uu{YELLOW}{BLUE} =>{BLUE}{RED} Converta dados binários em uma linha de caracteres ASCII na codificação base64. O valor de retorno é a linha convertida, incluindo um caractere de nova linha. O comprimento dos dados deve ser de no máximo 57 para aderir ao padrão base64.""".format(
YELLOW=Fore.YELLOW, BLUE=Fore.BLUE, RED=Fore.RED))
else:
by_to_st(binascii.b2a_base64(b'arg_mensage[1]'))
elif arg_mensage[0] == "a2b_qp":
if arg_mensage[1] == "help":
print(
"""{YELLOW}a2b_uu{YELLOW}{BLUE} =>{BLUE}{RED}Converta um bloco de dados imprimíveis entre aspas de volta em binários e retorne os dados binários. Mais de uma linha pode ser passada por vez. Se o cabeçalho do argumento opcional estiver presente e verdadeiro, os sublinhados serão decodificados como espaços.""".format(
YELLOW=Fore.YELLOW, BLUE=Fore.BLUE, RED=Fore.RED))
else:
by_to_st(binascii.a2b_qp(arg_mensage[1]))
elif arg_mensage[0] == "b2a_qp":
if arg_mensage[1] == "help":
print(
"""{YELLOW}a2b_uu{YELLOW}{BLUE} =>{BLUE}{RED}Converta dados binários em uma (s) linha (s) de caracteres ASCII em codificação imprimível entre aspas. O valor de retorno é a (s) linha (s) convertida (s). Se o argumento opcional quotetabs estiver presente e verdadeiro, todas as tabulações e espaços serão codificados. Se o argumento opcional istext estiver presente e verdadeiro, as novas linhas não serão codificadas, mas os espaços em branco finais serão codificados. Se o cabeçalho do argumento opcional estiver presente e verdadeiro, os espaços serão codificados como sublinhados de acordo com RFC1522. Se o cabeçalho do argumento opcional estiver presente e for falso, os caracteres de nova linha também serão codificados; caso contrário, a conversão de alimentação de linha pode corromper o fluxo de dados binários.""".format(
YELLOW=Fore.YELLOW, BLUE=Fore.BLUE, RED=Fore.RED))
else:
by_to_st(binascii.a2b_qp(arg_mensage[1].encode()))
elif arg_mensage[0] == "a2b_hqx":
if arg_mensage[1] == "help":
print("""{YELLOW}a2b_uu{YELLOW}{BLUE} =>{BLUE}{RED}Converta dados ASCII formatados de binhex4 em binários, sem fazer a descompressão RLE. A string deve conter um número completo de bytes binários ou (no caso da última parte dos dados binhex4) ter os bits restantes zero.
""".format(YELLOW=Fore.YELLOW, BLUE=Fore.BLUE, RED=Fore.RED))
else:
by_to_st(binascii.a2b_hqx(arg_mensage[1]))
elif arg_mensage[0] == "rledecode_hqx":
if arg_mensage[1] == "help":
print(
"""{YELLOW}a2b_uu{YELLOW}{BLUE} =>{BLUE}{RED} Execute a descompressão RLE nos dados, de acordo com o padrão binhex4. O algoritmo usa 0x90 após um byte como um indicador de repetição, seguido por uma contagem. Uma contagem de 0 especifica um valor de byte de 0x90 . A rotina retorna os dados descompactados, a menos que os dados de entrada de dados terminem em um indicador de repetição órfão, caso em que a exceção Incompleta é levantada.""".format(
YELLOW=Fore.YELLOW, BLUE=Fore.BLUE, RED=Fore.RED))
else:
by_to_st((binascii.rledecode_hqx(arg_mensage[1].encode())))
elif arg_mensage[0] == "rlecode_hqx":
if arg_mensage[1] == "help":
print(
"""{YELLOW}a2b_uu{YELLOW}{BLUE} =>{BLUE}{RED} Execute a compactação RLE no estilo binhex4 nos dados e retorne o resultado.""".format(
YELLOW=Fore.YELLOW, BLUE=Fore.BLUE, RED=Fore.RED))
else:
by_to_st((binascii.rlecode_hqx(arg_mensage[1].encode())))
elif arg_mensage[0] == "b2a_hqx":
if arg_mensage[1] == "help":
print("""{YELLOW}a2b_uu{YELLOW}{BLUE} =>{BLUE}{RED} Execute a conversão hexbin4 binário para ASCII e retorne a string resultante. O argumento já deve ser codificado por RLE e ter um comprimento divisível por 3 (exceto possivelmente o último fragmento).
""".format(YELLOW=Fore.YELLOW, BLUE=Fore.BLUE, RED=Fore.RED))
else:
by_to_st((binascii.b2a_hqx(arg_mensage[1].encode())))
elif arg_mensage[0] == "crc_hqx":
if arg_mensage[1] == "help":
print("""{YELLOW}a2b_uu{YELLOW}{BLUE} =>{BLUE}{RED} Calcule o valor binhex4 crc dos dados , começando com um crc inicial e retornando o resultado.
""".format(YELLOW=Fore.YELLOW, BLUE=Fore.BLUE, RED=Fore.RED))
else:
by_to_st(
(binascii.crc_hqx(arg_mensage[1].encode(), int(arg_mensage[2]))))
elif arg_mensage[0] == "crc32":
if arg_mensage[1] == "help":
print("""{YELLOW}a2b_uu{YELLOW}{BLUE} =>{BLUE}{RED} Calcule CRC-32, a soma de verificação de dados de
32 bits, começando com um crc inicial. Isso é consistente com a soma de verificação do arquivo ZIP.
Uma vez que o algoritmo é projetado para uso como um algoritmo de soma de verificação, não é adequado
para uso como um algoritmo de hash geral.
{YELLOW}Nota{YELLOW}{RED} Para gerar o mesmo valor numérico em todas as versões e plataformas Python, {RED}{BLUE}use crc32 (dados) & 0xffffffff{BLUE}{RED}. Se você estiver usando apenas a soma de verificação no formato binário compactado, isso não é necessário, pois o valor de retorno é a representação binária correta de 32 bits, independentemente do sinal.
""".format(YELLOW=Fore.YELLOW, BLUE=Fore.BLUE, RED=Fore.RED))
else:
by_to_st((binascii.crc32(arg_mensage[1].encode())))
elif arg_mensage[0] == "hexlify":
if arg_mensage[1] == "help":
print("""{YELLOW}a2b_uu{YELLOW}{BLUE} =>{BLUE}{RED} Retorna a representação hexadecimal dos dados
binários . Cada byte de dados é convertido na representação hexadecimal de 2 dígitos correspondente.
A string resultante é, portanto, o dobro do comprimento dos dados .
""".format(YELLOW=Fore.YELLOW, BLUE=Fore.BLUE, RED=Fore.RED))
else:
by_to_st(
(binascii.hexlify(arg_mensage[1].encode(), arg_mensage[2].encode())))
elif arg_mensage[0] == "b2a_hex":
if arg_mensage[1] == "help":
print("""{YELLOW}a2b_uu{YELLOW}{BLUE} =>{BLUE}{RED} hex
""".format(YELLOW=Fore.YELLOW, BLUE=Fore.BLUE, RED=Fore.RED))
else:
by_to_st(
(binascii.b2a_hex(arg_mensage[1].encode(), int(arg_mensage[2]))))
elif arg_mensage[0] == "unhexlify":
if arg_mensage[1] == "help":
print("""{YELLOW}a2b_uu{YELLOW}{BLUE} =>{BLUE}{RED} Retorna os dados binários representados pela string hexadecimal hexstr . Esta função é o inverso de b2a_hex () . hexstr deve conter um número par de dígitos hexadecimais (que podem ser maiúsculas ou minúsculas), caso contrário, um TypeError é gerado.
""".format(YELLOW=Fore.YELLOW, BLUE=Fore.BLUE, RED=Fore.RED))
else:
by_to_st((binascii.unhexlify(arg_mensage[1].encode())))
elif arg_mensage[0] == "b2a_uu":
if arg_mensage[1] == "help":
print("""{YELLOW}a2b_uu{YELLOW}{BLUE} =>{BLUE}{RED} Converta dados binários em uma linha de caracteres ASCII, o valor de retorno é a linha convertida, incluindo um caractere de nova linha. O comprimento dos dados deve ser de no máximo 45.
""".format(YELLOW=Fore.YELLOW, BLUE=Fore.BLUE, RED=Fore.RED))
else:
by_to_st(
(binascii.b2a_uu(arg_mensage[1].encode(), int(arg_mensage[2]))))
elif arg_mensage[0] == "charcode":
if arg_mensage[1] == "help":
print("""{YELLOW}charcode{YELLOW}{BLUE} =>{BLUE}{RED}converte string em charcode
""".format(YELLOW=Fore.YELLOW, BLUE=Fore.BLUE, RED=Fore.RED))
else:
print(ord(arg_mensage[1].encode()))
elif arg_mensage[0] == "binary":
if arg_mensage[1] == "help":
print("""{YELLOW}binary{YELLOW}{BLUE} =>{BLUE}{RED}converte string em binary
""".format(YELLOW=Fore.YELLOW, BLUE=Fore.BLUE, RED=Fore.RED))
else:
print(' '.join(format(ord(x), 'b') for x in arg_mensage[1]))
elif arg_mensage[0] == "base62":
if arg_mensage[1] == "help":
print("""{YELLOW}base62{YELLOW}{BLUE} =>{BLUE}{RED}converte string em base62
""".format(YELLOW=Fore.YELLOW, BLUE=Fore.BLUE, RED=Fore.RED))
else:
print(decode62(arg_mensage[1]))
elif arg_mensage[0] == "basen":
if arg_mensage[1] == "help":
print("""{YELLOW}basen{YELLOW}{BLUE} =>{BLUE}{RED}converte decimal em basen
""".format(YELLOW=Fore.YELLOW, BLUE=Fore.BLUE, RED=Fore.RED))
else:
print(numpy.base_repr(int(arg_mensage[1]), base=int(arg_mensage[2])))
elif arg_mensage[0] == "url":
try:
if arg_mensage[1] == "help":
print(
"""{YELLOW}url_encode{YELLOW}{BLUE} =>{BLUE}{RED}encode personalidado para url\nencode url_encode safa[] encoding""".format(
YELLOW=Fore.YELLOW, BLUE=Fore.BLUE, RED=Fore.RED))
else:
print(quote(arg_mensage[1], safe=arg_mensage[2], encoding=arg_mensage[3]))
except IndexError:
print("digite a sintaxe correta\nncode url_encode safa[] encoding\n ou use o comando help")
elif arg_mensage[0] == "unicode_normalize":
try:
if arg_mensage[1] == "help":
print("""{YELLOW}unicode_normalize{YELLOW}{BLUE} =>{BLUE}{RED}Transforme caracteres Unicode em uma das formas de normalização['NFC', 'NFKC', 'NFD','NFKD']\n
{YELLOW}NFD{YELLOW}{BLUE} =>{BLUE}{RED}Normalisation Form Canonical Decomposition
{YELLOW}NFC{YELLOW}{BLUE} =>{BLUE}{RED}Normalisation Form Canonical Composition
{YELLOW}NFKD{YELLOW}{BLUE} =>{BLUE}{RED}Normalisation Form Compatibility Decomposition
{YELLOW}NFKC{YELLOW}{BLUE} =>{BLUE}{RED}Normalisation Form Compatibility Composition
encode unicode_normalize str encoding['NFC', 'NFKC', 'NFD','NFKD']\n""".format(YELLOW=Fore.YELLOW, BLUE=Fore.BLUE,
RED=Fore.RED))
else:
print(unicodedata.normalize(arg_mensage[1], arg_mensage[2]))
except IndexError:
print("digite a sintaxe correta\nncode url_encode safa[] encoding\n ou use o comando help")
elif arg_mensage[0] == "qp_encoding":
try:
if arg_mensage[1] == "help":
print("""{YELLOW}qp_encoding{YELLOW}{BLUE} =>{BLUE}{RED}
Quoted-Printable, ou QP encoding,
é uma codificação que usa caracteres ASCII imprimíveis (alfanuméricos e o sinal de igual '=')
para transmitir dados de 8 bits em um caminho de dados de 7 bits ou, geralmente, em um meio que não é 8- um pouco limpo.
É definido como uma codificação de transferência de conteúdo MIME para uso em e-mail.
QP funciona usando o sinal de igual '=' como um caractere de escape. Ele também limita o comprimento da linha a 76, pois alguns softwares têm limites no comprimento da linha\nencode qp_encoding TXT encode""".format(
YELLOW=Fore.YELLOW, BLUE=Fore.BLUE, RED=Fore.RED))
else:
encoded = quopri.encodestring(arg_mensage[1].encode(arg_mensage[2]))
print(encoded.decode())
except IndexError:
print("digite a sintaxe correta\nencode qp_encoding é utf-16\n ou use o comando help")
elif arg_mensage[0] == "idna":
try:
if arg_mensage[1] == "help":
print(
"""{YELLOW}idna{YELLOW}{BLUE} =>{BLUE}{RED}encode personalidado para url\nencode url_encode safa[] encoding""".format(
YELLOW=Fore.YELLOW, BLUE=Fore.BLUE, RED=Fore.RED))
else:
print(idna.encode(arg_mensage[1]).decode(arg_mensage[2]))
except IndexError:
print("digite a sintaxe correta\nncode idna string encoding\n ou use o comando help")
else:
pass
try:
pass
except IndexError:
print("verificar a saida")
def hash_func(port):
m = 6
size = 2**m
hash_val = binascii.crc32(str(port).encode())
return hash_val % size
def RC4_main(filename, key):
# 获得输入文件
try:
fin = open(filename, 'rb')
except:
print('打开文件失败!')
print(filename)
# 打开输出文件
if filename[-4:] == '.RC4':
eID = 1
key = key.encode()
ofilename = filename[:-4]
else:
eID = 2
# key = input('输入加密密钥: ').encode()
key = key.encode()
ofilename = filename + '.RC4'
key = Coding(CreatKey(key))
key = UpdataKey(key)
fout = open(ofilename, 'wb')
print(ofilename)
# 解密
if eID == 1:
# 读文件长度
filelen = struct.unpack('I', fin.read(4))[0]
print('FlieLen =', filelen, '\n......')
while 1:
ps = fin.read(2)
if not ps:
break
packsize = struct.unpack('H', ps)[0]
# 读数据
dd = fin.read(packsize)
# 解密
dd = Coding(dd)
x = RC4(key, len(key), dd, len(dd))
key = UpdataKey(key)
# crc
crc = struct.unpack('I', fin.read(4))[0]
if binascii.crc32(x) != crc:
print('CRC32校验错误!', crc, binascii.crc32(x))
fout.write(x)
# 裁剪末尾填充位
fout.truncate(filelen)
# 加密
elif eID == 2:
# 获得文件长度
fin.seek(0, 2)
filelen = fin.tell()
print('FlieLen =', filelen, '\n......')
fin.seek(0, 0)
fout.write(struct.pack('I', filelen))
while 1:
# 读数据
dd = fin.read(65534)
if not dd:
# 文件结束
break
# 末尾填充
srl = len(dd)
if srl % 2:
srl += 1
dd += b'\0'
# crc
crc = struct.pack('I', binascii.crc32(dd))
# 加密数据
dd = Coding(dd)
x = RC4(key, len(key), dd, len(dd))
key = UpdataKey(key)
# 写入文件
fout.write(struct.pack('H', srl))
fout.write(x)
fout.write(crc)
fin.close()
fout.close()
print('encode success')
def frame(cls, destination, command, data, index=0):
packet = struct.pack('<IBB', destination, command, index) + data
cs = binascii.crc32(packet) & ((1 << 32) - 1)
cs_bytes = struct.pack('<I', cs)
return cls.cobs_encode(packet + cs_bytes), cs_bytes
def calculate_crc32(response):
return crc32(to_bytes(response.content)) & 0xffffffff
def docker_tagify(cid: str) -> str:
"""modify a challenge id so that it is an acceptable docker tag"""
tag = "r8:" + re.sub(r"[^a-zA-Z0-9_.-]", "_", cid)
if len(tag) > 128:
tag = tag[:118] + hex(binascii.crc32(tag.encode()))
return tag
def unframe(cls, packet):
packet = cls.cobs_decode(packet)
cs = binascii.crc32(packet) & ((1 << 32) - 1)
if cs != 0x2144DF1C:
raise DecodeError("BAD CRC: " + hex(cs), repr(packet))
return struct.unpack('<IBB', packet[0:6]) + (packet[6:-4], packet[-4:])
def crc32(s):
return (~binascii.crc32(s, -1)) & 0xFFFFFFFF
def save_array_as_PNG(img, fname, kwArgCheck=None, ftype_req=-1):
"""
Save an array as a PNG image.
img -- a 3D NumPy array of type uint8 with shape (ny,nx,3)
fname -- output file name
ftype_req -- filter type to be used
The PNG specification defines 5 different possible filters which are
numbered 0 to 4 (inclusively). Filter #0 is "no filtering". If the user
defines "ftype_req" as one of the identifying integers then that filter will
be used for the entire PNG file. If the user defines "ftype_req" as "-1" (or
does not define "ftype_req" at all) then adaptive filtering will be used
whereby an attempt is made to predict which filtering method will yield the
smallest compressed stream.
"""
# Import standard modules ...
import binascii
import zlib
# Import special modules ...
try:
import numpy
except:
raise Exception(
"\"numpy\" is not installed; run \"pip install --user numpy\""
) from None
# Import sub-functions ...
from .paeth_filter import paeth_filter
# Check keyword arguments ...
if kwArgCheck is not None:
print(
f"WARNING: \"{__name__}\" has been called with an extra positional argument"
)
# Find image size ...
ny, nx, nc = img.shape
# Check image ...
if not img.dtype == "uint8":
raise TypeError("\"img\" must be a \"uint8\" array") from None
if nc != 3:
raise Exception("\"img\" must be a 3-channel array") from None
# Try opening the PNG ...
with open(fname, "wb") as fobj:
# **********************************************************************
# * WRITE THE SIGNATURE *
# **********************************************************************
fobj.write(binascii.unhexlify("89504E470D0A1A0A"))
# **********************************************************************
# * CREATE "IHDR" CHUNK AND WRITE IT *
# **********************************************************************
ihdr = bytearray()
ihdr += numpy.uint32(13).byteswap().tobytes() # Length
ihdr += bytearray("IHDR", encoding="ascii") # Chunk type
ihdr += numpy.uint32(nx).byteswap().tobytes() # IHDR : Width
ihdr += numpy.uint32(ny).byteswap().tobytes() # IHDR : Height
ihdr += numpy.uint8(8).byteswap().tobytes() # IHDR : Bit depth
ihdr += numpy.uint8(2).byteswap().tobytes() # IHDR : Colour type
ihdr += numpy.uint8(
0).byteswap().tobytes() # IHDR : Compression method
ihdr += numpy.uint8(0).byteswap().tobytes() # IHDR : Filter method
ihdr += numpy.uint8(0).byteswap().tobytes() # IHDR : Interlace method
ihdr += numpy.uint32(binascii.crc32(
ihdr[4:])).byteswap().tobytes() # CRC-32
fobj.write(ihdr)
del ihdr
# **********************************************************************
# * CREATE "IDAT" CHUNK AND WRITE IT *
# **********************************************************************
idat = bytearray()
idat += numpy.uint32(0).byteswap().tobytes() # Length
idat += bytearray("IDAT", encoding="ascii") # Chunk type
stream = bytearray()
# Loop over rows ...
for iy in range(ny):
row = numpy.zeros((5, nc, nx), dtype=numpy.uint8)
# Calculate stream for "none" filter (if required) ...
if ftype_req in [-1, 0]:
ftype = 0
for ix in range(nx):
row[ftype, :, ix] = img[iy, ix, :]
# Calculate stream for "sub" filter (if required) ...
if ftype_req in [-1, 1]:
ftype = 1
for ix in range(nx):
for ic in range(nc):
if ix == 0:
p1 = numpy.int16(0)
else:
p1 = img[iy, ix - 1, ic].astype(numpy.int16)
diff = img[iy, ix, ic].astype(numpy.int16) - p1
diff = numpy.mod(diff, 256)
row[ftype, ic, ix] = diff.astype(numpy.uint8)
# Calculate stream for "up" filter (if required) ...
if ftype_req in [-1, 2]:
ftype = 2
for ix in range(nx):
for ic in range(nc):
if iy == 0:
p1 = numpy.int16(0)
else:
p1 = img[iy - 1, ix, ic].astype(numpy.int16)
diff = img[iy, ix, ic].astype(numpy.int16) - p1
diff = numpy.mod(diff, 256)
row[ftype, ic, ix] = diff.astype(numpy.uint8)
# Calculate stream for "average" filter (if required) ...
if ftype_req in [-1, 3]:
ftype = 3
for ix in range(nx):
for ic in range(nc):
if ix == 0:
p1 = numpy.int16(0)
else:
p1 = img[iy, ix - 1, ic].astype(numpy.int16)
if iy == 0:
p2 = numpy.int16(0)
else:
p2 = img[iy - 1, ix, ic].astype(numpy.int16)
diff = img[iy, ix, ic].astype(numpy.int16) - (
(p1 + p2) // numpy.int16(2))
diff = numpy.mod(diff, 256)
row[ftype, ic, ix] = diff.astype(numpy.uint8)
# Calculate stream for "Paeth" filter (if required) ...
if ftype_req in [-1, 4]:
ftype = 4
for ix in range(nx):
for ic in range(nc):
if ix == 0:
p1 = numpy.int16(0)
else:
p1 = img[iy, ix - 1, ic].astype(numpy.int16)
if iy == 0:
p2 = numpy.int16(0)
else:
p2 = img[iy - 1, ix, ic].astype(numpy.int16)
if ix == 0 or iy == 0:
p3 = numpy.int16(0)
else:
p3 = img[iy - 1, ix - 1, ic].astype(numpy.int16)
diff = img[iy, ix,
ic].astype(numpy.int16) - paeth_filter(
p1, p2, p3).astype(numpy.int16)
diff = numpy.mod(diff, 256)
row[ftype, ic, ix] = diff.astype(numpy.uint8)
# Figure out which stream to use ...
if ftype_req == -1:
tmp1 = numpy.uint64(255 * nx)
for ftype in range(5):
tmp2 = row[ftype, :, :].astype(numpy.uint64).sum()
if tmp2 < tmp1:
tmp1 = tmp2
ftype_best = ftype
else:
ftype_best = ftype_req
# Use the best/requested stream for this row ...
stream += numpy.uint8(ftype_best).byteswap().tobytes()
for ix in range(nx):
stream += row[ftype_best, :, ix].byteswap().tobytes()
# Clean up ...
del row
idat += zlib.compress(stream, 9) # IDAT : Data
idat[0:4] = numpy.uint32(len(idat[8:])).byteswap().tobytes() # Length
idat += numpy.uint32(binascii.crc32(
idat[4:])).byteswap().tobytes() # CRC-32
fobj.write(idat)
del idat
# **********************************************************************
# * CREATE "IEND" CHUNK AND WRITE IT *
# **********************************************************************
iend = bytearray()
iend += numpy.uint32(0).byteswap().tobytes() # Length
iend += bytearray("IEND", encoding="ascii") # Chunk type
iend += numpy.uint32(binascii.crc32(
iend[4:])).byteswap().tobytes() # CRC-32
fobj.write(iend)
del iend
def processList(self):
import time
# begin loop through of email list
for line in exchangeDigest.itemArray:
# get individual email
xml = self.getItemXML(line[0], line[1])
attr = exchangeDigest.c.service.ResolveNames(__inject={'msg': xml})
data = attr.GetItemResponseMessage.Items.Message
a = str(data.DateTimeSent)
'''
try:
strptime = time.strptime()
except AttributeError:
import time
'''
dt_obj = time.strptime(a, "%Y-%m-%d %H:%M:%S")
exchangeDigest.timeSent = str(int(time.mktime(dt_obj)))
try:
body = self.cleanText(data.Body.value)
body_md5 = str(hashlib.md5(body).hexdigest())
except AttributeError:
body = ''
body_md5 = ''
sql = "select post_id from phpbb_posts where post_time = %s and post_checksum = %s"
cursor.execute(sql, (exchangeDigest.timeSent, body_md5))
rows = cursor.fetchall()
copy = 0
if (len(rows) > 0):
copy = 1
# print data.From.Mailbox.Name
if (copy == 0):
try:
emailAddress = str(data.From.Mailbox.EmailAddress)
except UnicodeEncodeError:
a = data.From.Mailbox.EmailAddress
b = unicode(a)
emailAddress = b.encode("utf-8")
except AttributeError:
emailAddress = '*****@*****.**'
tmp = emailAddress.partition('@')
if (tmp[2] == 'yourdomain.com'):
exchangeDigest.From = tmp[0].lower()
else:
exchangeDigest.From = emailAddress
sql = "select * from phpbb_users where username = '******'"
cursor.execute(sql)
rows = cursor.fetchall()
if (len(rows) > 0):
#User exists
for row in rows:
user_info = row
else:
#User does not exist
try:
test = urllib2.urlopen(
"http://www.yourdomain.com/images/staff/" +
exchangeDigest.From + ".jpg")
user_avatar = "http://www.yourdomain.com/images/staff/" + exchangeDigest.From + ".jpg"
except urllib2.HTTPError:
user_avatar = "images/avatars/gallery/baby_cute_face.jpg"
email_hash = str(binascii.crc32(emailAddress))
salt = str(
hashlib.md5(exchangeDigest.timeSent).hexdigest())
sql = "insert into phpbb_users (user_type, group_id, user_permissions, user_perm_from, user_ip, user_regdate, username, username_clean, user_password, user_passchg, user_pass_convert, user_email, user_email_hash, user_birthday, user_lastvisit, user_lastmark, user_lastpost_time, user_lastpage, user_last_confirm_key, user_last_search, user_warnings, user_last_warning, user_login_attempts, user_inactive_reason, user_inactive_time, user_posts, user_lang, user_timezone, user_dst, user_dateformat, user_style, user_rank, user_colour, user_new_privmsg, user_unread_privmsg, user_last_privmsg, user_message_rules, user_full_folder, user_emailtime, user_topic_show_days, user_topic_sortby_type, user_topic_sortby_dir, user_post_show_days, user_post_sortby_type, user_post_sortby_dir, user_notify, user_notify_pm, user_notify_type, user_allow_pm, user_allow_viewonline, user_allow_viewemail, user_allow_massemail, user_options, user_avatar, user_avatar_type, user_avatar_width, user_avatar_height, user_sig, user_sig_bbcode_uid, user_sig_bbcode_bitfield, user_from, user_icq, user_aim, user_yim, user_msnm, user_jabber, user_website, user_occ, user_interests, user_actkey, user_newpasswd, user_form_salt, user_new, user_reminded, user_reminded_time, user_digest_filter_type, user_digest_format, user_digest_max_display_words, user_digest_max_posts, user_digest_min_words, user_digest_new_posts_only, user_digest_pm_mark_read, user_digest_remove_foes, user_digest_reset_lastvisit, user_digest_send_hour_gmt, user_digest_send_on_no_posts, user_digest_show_mine, user_digest_show_pms, user_digest_sortby, user_digest_type, user_digest_has_ever_unsubscribed, user_digest_no_post_text) values(0, 2, '00000000006xrqeiww\n\n\nzik0zi000000\nzik0zi000000\nzik0zi000000', 0, '10.1.12.70', %s, %s, %s, '', %s, 0, %s, %s, '', %s, %s, 0, '', '', 0, 0, 0, 0, 0, 0, 0, 'en', '-10.00', 0, 'D M d, Y g:i a', 1, 0, '', 0, 0, 0, 0, -3, 0, 0, 't', 'd', 0, 't', 'a', 0, 1, 0, 1, 1, 1, 1, 230271, %s, 2, 90, 90, '', '', '', '', '', '', '', '', '', '', '', '', '', '', %s, 1, 0, 0, 'ALL', 'HTML', 0, 0, 0, 0, 0, 0, 1, 0.00, 0, 1, 1, 'board', 'NONE', 0 ,0)"
cursor.execute(
sql,
(exchangeDigest.timeSent, exchangeDigest.From,
exchangeDigest.From, exchangeDigest.timeSent,
emailAddress, email_hash, exchangeDigest.timeSent,
exchangeDigest.timeSent, user_avatar, salt))
sql = "select * from phpbb_users where username = '******'"
cursor.execute(sql)
rows = cursor.fetchall()
for row in rows:
user_info = row
exchangeDigest.user_id = str(user_info[0])
try:
exchangeDigest.subj = str(data.Subject)
except UnicodeEncodeError:
a = data.Subject
b = unicode(a)
exchangeDigest.subj = b.encode("utf-8")
if (body != ''):
has_attachments = '0'
if (str(data.HasAttachments) == 'True'):
has_attachments = '1'
sql = "insert into phpbb_topics (forum_id, icon_id, topic_attachment, topic_approved, topic_reported, topic_title, topic_poster, topic_time, topic_time_limit, topic_views, topic_replies, topic_replies_real, topic_status, topic_type, topic_first_post_id, topic_first_poster_name, topic_first_poster_colour, topic_last_post_id, topic_last_poster_id, topic_last_poster_name, topic_last_poster_colour, topic_last_post_subject, topic_last_post_time, topic_last_view_time, topic_moved_id, topic_bumped, topic_bumper, poll_title, poll_start, poll_length, poll_max_options, poll_last_vote, poll_vote_change) values(%s, 0, %s, 1, 0, %s, %s, %s, 0, 0, 0, 0, 0, 0, %s, %s, '', %s, %s, %s, '', %s, %s, %s, 0, 0, 0, '', 0, 0, 1, 0, 0)"
cursor.execute(
sql,
(self.forum_id, has_attachments, exchangeDigest.subj,
exchangeDigest.user_id, exchangeDigest.timeSent,
exchangeDigest.post_id, exchangeDigest.From,
exchangeDigest.post_id, exchangeDigest.user_id,
exchangeDigest.From, exchangeDigest.subj,
exchangeDigest.timeSent, exchangeDigest.timeSent))
topic_id = str(cursor.lastrowid)
sql = "insert into phpbb_posts (topic_id, forum_id, poster_id, icon_id, poster_ip, post_time, post_approved, post_reported, enable_bbcode, enable_smilies, enable_magic_url, enable_sig, post_username, post_subject, post_text, post_checksum, post_attachment, bbcode_bitfield, bbcode_uid, post_postcount, post_edit_time, post_edit_reason, post_edit_user, post_edit_count, post_edit_locked) values(%s, %s, %s, 0, '10.1.12.70', %s, 1, 0, 1, 1, 1, 1, '', %s, %s, %s, %s, '', '', 0, 0, '', 0, 0, 0)"
cursor.execute(
sql, (topic_id, self.forum_id, exchangeDigest.user_id,
exchangeDigest.timeSent, exchangeDigest.subj,
body, body_md5, has_attachments))
exchangeDigest.post_id = str(cursor.lastrowid)
sql = "update phpbb_users set user_posts = user_posts+1 where user_id = %s"
cursor.execute(sql, (exchangeDigest.user_id))
if (has_attachments == '1'):
try:
for attachment in data.Attachments.FileAttachment:
try:
id = str(line.AttachmentId._Id)
self.writeFile(id, exchangeDigest.post_id,
topic_id,
exchangeDigest.user_id,
exchangeDigest.timeSent)
except AttributeError:
id = str(
getattr(attachment[1], "_Id", None))
mimetype = str(
getattr(attachment[1], "ContentType",
None))
if (id != "None"):
self.writeFile(id,
exchangeDigest.post_id,
topic_id,
exchangeDigest.user_id,
exchangeDigest.timeSent)
except AttributeError:
error = AttributeError
def test_same_as_binascii_crc32(self):
foo = b'abcdefghijklmnop'
crc = 2486878355
self.assertEqual(binascii.crc32(foo), crc)
self.assertEqual(zlib.crc32(foo), crc)
self.assertEqual(binascii.crc32(b'spam'), zlib.crc32(b'spam'))
def scrapy_comment_user_ifeng(guid, username, adminid, address):
'''
凤凰网个人页面爬取
http://comment.ifeng.com/get? job=7 & format=json & pagesize=20 & _1460705534 & guid=65969467 & p=1
'''
username_decode = unquote(username)
siteid = 2
# 判断用户是否存在
sql = 'select userid,adminid from system_site_user where siteid=%s and username=%s'
r = mysql_cursor.query(sql, siteid, username_decode)
if r:
if int(adminid) != int(r[0]['adminid']):
print '网站帐号存在,且adminid不符'
processlog('auto_scrapyuser', 1, 'scrapy_comment_user_ifeng',
'网站帐号存在,添加人不匹配,现:%s, 原:%s' % (adminid, r[0]['adminid']))
return
print '网站帐号存在'
userid = r[0]['userid']
setAddressStatus(userid, 1)
else:
processlog('auto_scrapyuser', 1, 'scrapy_comment_user_ifeng',
'网站帐号不存在,添加:%s' % username)
crc32_address = crc32(address) & 0xffffffff
sql = 'insert into system_site_user(`siteid`, `username`,`createtime`, `adminid`, `address`, `crc32address`, `status`) values(%s, %s, now(), %s, %s, %s, 1)'
userid = mysql_cursor.execute_lastrowid(sql, siteid, username_decode,
adminid, address,
crc32_address)
headers = {
'Host': 'comment.news.163.com',
'User-Agent':
'Mozilla/5.0 (X11; Ubuntu; Linux x86_64; rv:45.0) Gecko/20100101 Firefox/45.0',
'Accept':
'text/html,application/xhtml+xml,application/xml;q=0.9,*/*;q=0.8',
'Accept-Language': 'en-US,en;q=0.5',
'Accept-Encoding': 'gzip, deflate',
'Connection': 'keep-alive'
}
# 默认爬取6页
for page in xrange(scrapy_page):
url = 'http://comment.ifeng.com/get?job=7&format=json&pagesize=20&guid=%s&p=%s' % (
guid, page)
req = requests.get(url, headers=headers, timeout=timeout)
if req.status_code == 200:
data = json.loads(req.text)
comments = data['comments']
for comment in comments:
_url = comment['doc_url']
# 判断url是否支持
res = r'://(.*?)/'
ret = re.findall(res, _url)
if ret:
shorturl = ret[0]
if shorturl in [
'news.ifeng.com',
]:
title = comment['doc_name'] #帖子标题
content = comment['comment_contents']
createTime = time.strftime(
'%Y-%m-%d %H:%M:%S',
time.localtime(int(comment['create_time'])))
commentId = comment['comment_id']
nickname = comment['uname']
url_post = 'http://gentie.ifeng.com/view.html?docUrl=' + quote(
_url.encode('utf8')) + '&docName=' + quote(
title.encode('utf8'))
#判断帖子是否保存过
sql = 'select postid from system_url_posts where `commentIds`=%s and createTime=%s and `adminid`=%s'
r = mysql_cursor.query(sql, commentId, createTime,
adminid)
if not r:
#判断url是否添加过
crc32_url = crc32(url_post) & 0xffffffff
sql = 'select urlid from system_url_list where `crc32url`=%s and adminid=%s'
ret = mysql_cursor.query(sql, crc32_url, adminid)
if ret: #添加过
urlid = ret[0]['urlid']
else:
sql = 'insert into system_url_list(`siteid`, `title`, `url`, `crc32url`, `addtime`,`status`, `adminid`) values(%s, %s, %s, %s, now(), 1, %s)'
urlid = mysql_cursor.execute_lastrowid(
sql, siteid, title, url_post, crc32_url,
adminid)
processlog('auto_scrapyuser', 1,
'scrapy_comment_user_ifeng',
'url未添加过,添加url,urlid:%s' % urlid)
try:
#保存帖子
sql = 'insert into system_url_posts(`urlid`, `userid`, `commentIds`, `content`, `nickname`'\
', `createTime`, `adminid`) values(%s,%s,%s,%s,%s,%s,%s)'
postid = mysql_cursor.execute_lastrowid(
sql, urlid, userid, commentId, content,
nickname, createTime, adminid)
print '保存帖子: %s; postid :%s ; adminid : %s' % (
nickname, postid, adminid)
processlog(
'auto_scrapyuser', 1,
'scrapy_comment_user_ifeng',
'保存帖子: %s; postid :%s ; adminid : %s' %
(nickname, postid, adminid))
except Exception, e:
if 'Data too long for column' in str(e):
processlog(
'auto_scrapyuser', 1,
'scrapy_comment_user_ifeng',
'帖子内容过长,重新截取写入,urlid:%s' % urlid)
content = content[:255]
#保存帖子
sql = 'insert into system_url_posts(`urlid`, `userid`, `commentIds`, `content`, `nickname`'\
', `createTime`, `adminid`) values(%s,%s,%s,%s,%s,%s,%s)'
postid = mysql_cursor.execute_lastrowid(
sql, urlid, userid, commentId, content,
nickname, createTime, adminid)
print '保存帖子: %s; postid :%s ; adminid : %s' % (
nickname, postid, adminid)
processlog(
'auto_scrapyuser', 1,
'scrapy_comment_user_ifeng',
'保存帖子: %s; postid :%s ; adminid : %s' %
(nickname, postid, adminid))
# 更新site_user状态
setAddressStatus(userid, 0)
else:
print '帖子已经添加过: commentId:%s' % commentId
# processlog('auto_scrapyuser', 1, 'scrapy_comment_user_ifeng', '帖子已经添加过: commentId:%s' % commentId)
#如果到最后一页,退出循环
total = data['count']
if (page + 1) * 20 >= total:
break
else:
print req.text
def test_get_metadata_checksums_correctly(self):
parts = self._get_written_line().decode('ascii').strip().split(' ')
expected_checksum = '{0:08x}'.format(
crc32(' '.join(parts[3:]).encode('utf-8')) & 0xffffffff)
checksum = parts[2]
self.assertEqual(expected_checksum, checksum)
def getpwuuid(self, uuid):
tmp = (self.domain_name or "").encode('utf-8')
(checksum, uid) = parse_uuid2(uuid)
if crc32(tmp) != checksum:
return None
return self._convert_user(self.server.getpwuid(uid))
def scrapy_comment_user_163(username, adminid, address):
'''
网易用户所有跟贴的爬取
'''
username_decode = base64.b64decode(username)
siteid = mysql_cursor.query(
'select siteid from system_site_list where shorturl="comment.news.163.com"'
)[0]['siteid']
# 判断用户是否存在
sql = 'select userid,adminid from system_site_user where siteid=%s and username=%s '
r = mysql_cursor.query(sql, int(siteid), username_decode)
if r:
if int(adminid) != int(r[0]['adminid']):
print '网站帐号存在,添加人不匹配'
processlog('auto_scrapyuser', 1, 'scrapy_comment_user_163',
'网站帐号存在,添加人不匹配,现:%s, 原:%s' % (adminid, r[0]['adminid']))
return
userid = r[0]['userid']
setAddressStatus(userid, 1)
else:
processlog('auto_scrapyuser', 1, 'scrapy_comment_user_163',
'网站帐号不存在,添加:%s,userid:%s' % (username, adminid))
crc32_address = crc32(address) & 0xffffffff
sql = 'insert into system_site_user(`siteid`, `username`,`createtime`, `adminid`, `address`, `crc32address`, `status`) values(%s, %s, now(), %s, %s, %s, 1)'
userid = mysql_cursor.execute_lastrowid(sql, siteid, username_decode,
adminid, address,
crc32_address)
headers = {
'Host': 'comment.news.163.com',
'User-Agent':
'Mozilla/5.0 (X11; Ubuntu; Linux x86_64; rv:45.0) Gecko/20100101 Firefox/45.0',
'Accept':
'text/html,application/xhtml+xml,application/xml;q=0.9,*/*;q=0.8',
'Accept-Language': 'en-US,en;q=0.5',
'Accept-Encoding': 'gzip, deflate',
'Connection': 'keep-alive'
}
#默认爬取6页
for page in xrange(scrapy_page):
url = 'http://comment.api.163.com/api/v1/products/a2869674571f77b5a0867c3d71db5856/users/0/comments?username=%s&offset=%s&limit=30&ibc=newspc' % (
username, page)
req = requests.get(url, headers=headers, timeout=timeout)
if req.status_code == 200:
data = json.loads(req.text)
threads = data['threads']
urllist = []
for k, v in threads.items():
param = {}
_url = v['url']
# 判断url是否支持
res = r'://(.*?)/'
ret = re.findall(res, _url)
if ret:
shorturl = ret[0]
if shorturl in [
'news.163.com',
]:
boardId = v['boardId']
param['docId'] = v['docId']
param['title'] = v['title']
param[
'url'] = 'http://comment.news.163.com/' + boardId + '/' + v[
'docId'] + '.html'
urllist.append(param)
else:
processlog('auto_scrapyuser', 1, 'crapy_comment_user_163',
'url不支持:%s' % _url)
comments = data['comments']
for k, v in comments.items():
url_post = ''
title = ''
for u in urllist:
if u['docId'] == k.split('_')[0]:
url_post = u['url']
title = u['title']
buildLevel = v['buildLevel']
# 判断是否含有nickname, 是否是最外层的评论
if url_post and title and v['user'].has_key(
'nickname') and buildLevel == 1:
nickname = v['user']['nickname']
commentId = v['commentId']
createTime = v['createTime']
content = v['content'].encode('utf8')
#判断帖子是否保存过
sql = 'select postid from system_url_posts where `commentIds`=%s and createTime=%s and `adminid`=%s'
r = mysql_cursor.query(sql, commentId, createTime, adminid)
if not r:
#判断url是否添加过
crc32_url = crc32(url_post) & 0xffffffff
sql = 'select urlid from system_url_list where `crc32url`=%s and `adminid`=%s'
ret = mysql_cursor.query(sql, crc32_url, adminid)
if ret: #添加过
urlid = ret[0]['urlid']
else:
sql = 'insert into system_url_list(`siteid`, `title`, `url`, `crc32url`, `addtime`, `status`, `adminid`) values(%s,%s,%s,%s,now(),1, %s)'
urlid = mysql_cursor.execute_lastrowid(
sql, siteid, title, url_post, crc32_url,
adminid)
processlog('auto_scrapyuser', 1,
'scrapy_comment_user_163',
'url未添加过,添加url,urlid:%s' % urlid)
#保存帖子
try:
sql = 'insert into system_url_posts(`urlid`, `userid`, `commentIds`, `content`, `nickname`'\
', `createTime`, `adminid`) values(%s,%s,%s,%s,%s,%s,%s)'
postid = mysql_cursor.execute_lastrowid(
sql, urlid, userid, commentId, content,
nickname, createTime, adminid)
print '保存帖子: %s; postid :%s ; adminid : %s' % (
nickname, postid, adminid)
processlog(
'auto_scrapyuser', 1,
'scrapy_comment_user_163',
'保存帖子: %s; postid :%s ; adminid : %s' %
(nickname, postid, adminid))
except Exception, e:
# 有的字符集无法保存
if 'Incorrect string value:' in str(e):
print '存在表情,无法保存content, nickname:%s' % nickname
processlog(
'auto_scrapyuser', 0,
'scrapy_comment_user_163',
'存在表情,无法保存content, nickname:%s' % nickname)
elif 'Data too long for column' in str(e):
processlog('auto_scrapyuser', 1,
'scrapy_comment_user_163',
'帖子内容过长,重新截取写入,urlid:%s' % urlid)
content = content[:255]
sql = 'insert into system_url_posts(`urlid`, `userid`, `commentIds`, `content`, `nickname`'\
', `createTime`, `adminid`) values(%s,%s,%s,%s,%s,%s,%s)'
postid = mysql_cursor.execute_lastrowid(
sql, urlid, userid, commentId, content,
nickname, createTime, adminid)
print '保存帖子: %s; postid :%s ; adminid : %s' % (
nickname, postid, adminid)
processlog(
'auto_scrapyuser', 1,
'scrapy_comment_user_163',
'保存帖子: %s; postid :%s ; adminid : %s' %
(nickname, postid, adminid))
else:
print e
processlog('auto_scrapyuser', 0,
'scrapy_comment_user_163', str(e))
# 更新site_user状态
setAddressStatus(userid, 0)
else:
print '帖子保存过:postid:%s' % r[0]['postid']
# processlog('auto_scrapyuser', 1, 'scrapy_comment_user_163', '帖子保存过:postid:%s' % r[0]['postid'])
#如果到最后一页,退出循环
total = data['total']
if (page + 1) * 30 >= total:
break
else:
print req.text
