def __sendLS(self, address):
packet = struct.pack("!BIH", 2, utils.ip2int(self.address[0]),
self.address[1])
for addr, cost in self.neighbour.items():
packet += struct.pack("!IHH", utils.ip2int(addr[0]), addr[1], cost)
# for addr, cost in self.neighbour.items():
# print(addr, cost)
self.__sendPacket(packet, address)
def __sendForwardTable(self):
# send forwarding tables to all the neighbours
for client in self.map:
packet = struct.pack('!B', 3)
for item in self.nextHopForRouters[client].items():
packet += struct.pack("!IHIH",
utils.ip2int(item[0][0]), item[0][1],
utils.ip2int(item[1][0]), item[1][1])
self.transport.write(packet, client)
def __sendLSU(self, address, packet=None):
if packet == None:
packet = struct.pack("!BIHIH", 2, utils.ip2int(self.address[0]),
self.address[1], utils.ip2int(
self.address[0]),
self.address[1])
for item in self.neighbour.keys():
packet += struct.pack("!IHH", utils.ip2int(item[0]), item[1],
self.neighbour[item])
else:
packet = packet[0:7] + struct.pack("!IH", utils.ip2int(self.address[0]),
self.address[1]) + packet[13:]
self.__sendPacket(packet, address)
def _load_data():
logging.info('loading database in memory from: %s' % settings.CSV_PATH)
with open(settings.CSV_PATH, 'rb') as csvfile:
ip_reader = csv.reader(csvfile, delimiter=',', quotechar='"')
#"0.0.0.0","0.255.255.255","US","California","Los Angeles"
for row in ip_reader:
if row[0] == '::':
break
start_address = utils.ip2int(row[0])
stop_address = utils.ip2int(row[1])
_ADDRESSES.append(start_address)
_DETAILS[start_address] = (stop_address, row[2], row[3], row[4])
def _load_data():
logging.info('loading database in memory from: %s' % settings.CSV_PATH)
with open(settings.CSV_PATH, 'rb') as csvfile:
ip_reader = csv.reader(csvfile, delimiter=',', quotechar='"')
#"0.0.0.0","0.255.255.255","US","California","Los Angeles"
for row in ip_reader:
if row[0] == '::':
break
start_address = utils.ip2int(row[0])
stop_address = utils.ip2int(row[1])
_ADDRESSES.append(start_address)
_DETAILS[start_address] = (stop_address, row[2], row[3], row[4])
def traceroute(self, address):
self.traceRouteResult[address] = 0
self.path[address] = []
for i in range(1, 32 + 1):
packet = struct.pack("!BIHIHB", 3, utils.ip2int(self.address[0]),
self.address[1], utils.ip2int(address[0]),
address[1], i)
self.__sendPacket(packet, address)
threading.Timer(self.TraceRouteInterval,
self.__traceRouteExceed, args=[address]).start()
while(self.traceRouteResult[address] == 0):
pass
return self.traceRouteResult[address] == 1
def __tracerouteReceived(self, packet):
(ip, port) = struct.unpack("!IH", packet[1:7])
sourceAddress = (utils.int2ip(ip), port)
(ip, port, count) = struct.unpack("!IHB", packet[7:14])
destAddress = (utils.int2ip(ip), port)
count = count - 1
if count > 0 and destAddress != self.address:
packet = packet[0:-1] + struct.pack("!B", count)
self.__sendPacket(packet, destAddress)
elif count == 0: # send Echo packet
EchoPacket = struct.pack("!BIHIHIH", 4, utils.ip2int(sourceAddress[0]),
sourceAddress[1], utils.ip2int(
destAddress[0]),
destAddress[1], utils.ip2int(
self.address[0]),
self.address[1])
self.__sendPacket(EchoPacket, sourceAddress)
def get(self):
ip = self.get_argument('ip_addr', None)
if not ip:
return self.response('error', 'please input an IPv4 address')
try:
ip = utils.ip2int(ip)
except:
return self.response('error', 'please input a valid IPv4 address')
if not (0 <= ip <= 4294967295):
return self.response('error', 'please input a valid IPv4 address')
response = None
resolver = self.get_argument('resolver', 'mem')
start_addr = memback.find_ip(ip)
if not start_addr:
return self.response('error', 'could not find address')
if resolver == 'postgres':
cursor = self.pgconn.cursor()
#cursor.execute('select x, y, country, county, city from addresses where x <= %s and y >= %s', (ip, ip))
cursor.execute('select x, y, country, county, city from addresses where x = %s', (start_addr, ))
records = cursor.fetchall()
if records:
record = records[0]
response = {'range': (utils.int2ip(record[0]), utils.int2ip(record[1])),
'country': record[2],
'county': record[3],
'city': record[4]
}
cursor.close()
elif resolver == 'mongo':
#records = self.mgconn.ipdb.addresses.find({'x': {'$lte': ip}, 'y': {'$gte': ip}})
records = self.mgconn.ipdb.addresses.find({'x': start_addr})
if records:
record = records[0]
response = {'range': (utils.int2ip(record['x']), utils.int2ip(record['y'])),
'country': record['country'],
'county': record['county'],
'city': record['city']
}
records.close()
else:
#details = self.rdconn.get(start_addr)
#response = utils.sh2rec(start_addr, json.loads(details))
response = utils.sh2rec(start_addr, memback.get_address_details(start_addr))
if response:
return self.response(data=response)
self.response('error', 'could not find address')
def __init__(self, name, **data):
ip_range = data['range']
self.ip1, ip2_sz = ip_range.split('-')
self.ip2, self.sz = ip2_sz.split('/')
self.ip1 = self.ip1.strip()
self.ip2 = self.ip2.strip()
self.sz = int(self.sz)
self.url = data.get('url', 'qemu:///system')
self.name = name
self.ip = int2ip(ip2int(self.ip1) + 1)
self.bridge = data['bridge'].strip()
self.netmask = netsz2netmask(self.sz)
def get_by_ip(ip):
try:
query = (Proxy
.select_query()
.where(Proxy.ip == ip2int(ip))
.dicts())
if len(query) > 0:
return query[0]
except OperationalError as e:
log.exception('Failed to get proxy by IP from database: %s', e)
return None
def __init__(self, name, **data):
ip_range = data['range']
self.ip1, ip2_sz = ip_range.split('-')
self.ip2, self.sz = ip2_sz.split('/')
self.ip1 = self.ip1.strip()
self.ip2 = self.ip2.strip()
self.sz = int(self.sz)
self.url = data.get('url', 'qemu:///system')
self.name = name
self.ip = int2ip(ip2int(self.ip1) + 1)
self.bridge = data['bridge'].strip()
self.netmask = netsz2netmask(self.sz)
def db_format(proxy):
return {
'hash': proxy['hash'],
'ip': ip2int(proxy['ip']),
'port': proxy['port'],
'protocol': proxy['protocol'],
'username': proxy['username'],
'password': proxy['password'],
'insert_date': proxy.get('insert_date', datetime.utcnow()),
'scan_date': proxy.get('scan_date', None),
'latency': proxy.get('latency', None),
'fail_count': proxy.get('fail_count', 0),
'anonymous': proxy.get('anonymous', ProxyStatus.UNKNOWN),
'niantic': proxy.get('niantic', ProxyStatus.UNKNOWN),
'ptc_login': proxy.get('ptc_login', ProxyStatus.UNKNOWN),
'ptc_signup': proxy.get('ptc_signup', ProxyStatus.UNKNOWN)}
def get(self):
ip = self.get_argument('ip', '')
if ip == '':
return self.return_error(constants.ERR_IP_NULL)
try:
int_ip = utils.ip2int(ip)
except:
return self.return_error(constants.ERR_IP_TYPE)
ip_info = ipregion.get_info(self._get_id(int_ip))
result = {
"ipstart": ip_info['start'],
"ipend": ip_info['end'],
"country": ip_info['country'],
"province": ip_info['region'],
"area": ip_info['area'],
"city": ip_info['city'],
"county": ip_info['county'],
"isp": ip_info['isp'],
"total": ip_info['total'],
}
self.return_result(result)
def get(self):
ip = self.get_argument("ip", "")
if ip == "":
return self.return_error(constants.ERR_IP_NULL)
try:
int_ip = utils.ip2int(ip)
except:
return self.return_error(constants.ERR_IP_TYPE)
ip_info = ipregion.get_info(self._get_id(int_ip))
result = {
"ipstart": ip_info["start"],
"ipend": ip_info["end"],
"country": ip_info["country"],
"province": ip_info["region"],
"area": ip_info["area"],
"city": ip_info["city"],
"county": ip_info["county"],
"isp": ip_info["isp"],
"total": ip_info["total"],
}
self.return_result(result)
def prepare_guest_debian(disk_path, hostname, passwords, eth_devs, format=None, apt_proxy_ip=None):
logger.info("Prepare image for " + hostname)
if format == 'lxc':
gfs = LocalGuestFS(disk_path)
gfs.rm('/etc/init/udev.conf')
interfaces = []
for dev, (hw, ip, sz, gw) in eth_devs.items():
if ip == 'dhcp':
interfaces.append("dhclient {0}".format(dev))
else:
interfaces.append("ifconfig {0} {1}/{2} up".format(dev, ip, sz))
gfs.write('/etc/init/lxc_lan.conf', ifconfig_script.format("\n".join(interfaces)))
else:
gfs = guestfs.GuestFS()
gfs.add_drive_opts(disk_path, format=format)
logger.debug("Launch libguestfs vm")
gfs.launch()
logger.debug("ok")
os_devs = gfs.inspect_os()
if len(os_devs) > 1:
msg = "Two or more bootable partitions - disk prepare impossible " + disk_path
logger.error(msg)
raise CloudError(msg)
# for dev, fs_type in gfs.list_filesystems():
# logger.debug("Fount partition {0} with fs type {1}".format(dev, fs_type))
# # TODO: add lvm support
# if fs_type in 'ext2 ext3 reiserfs3 reiserfs4 xfs jfs btrfs':
# gfs.mount(dev, '/')
# if gfs.exists('/etc'):
# logger.debug("Fount /etc on partition {0} - will work on it".format(dev))
# break
# gfs.umount(dev)
# logger.debug("No /etc dir found - continue")
if 0 == len(os_devs):
mounts = sorted(gfs.inspect_get_mountpoints(os_devs[0]))
for mpoint, dev in mounts:
gfs.mount(dev, mpoint)
if not gfs.exists('/etc'):
msg = "Can't fount /etc dir in image " + disk_path
logger.error(msg)
raise CloudError(msg)
else:
gfs.mount(os_devs[0], '/')
#gfs.mount('/dev/vda1', '/')
if not gfs.exists('/etc'):
msg = "Can't fount /etc dir in image " + disk_path
logger.error(msg)
raise CloudError(msg)
logger.debug("Launch ok. Set hostname")
#hostname
gfs.write('/etc/hostname', hostname)
#set device names
logger.debug("Set device names and network imterfaces")
templ = 'SUBSYSTEM=="net", DRIVERS=="?*", ATTR{{address}}=="{hw}", NAME="{name}"'
rules_fc = []
interfaces = ["auto lo\niface lo inet loopback"]
for dev, (hw, ip, sz, gw) in eth_devs.items():
rules_fc.append(templ.format(hw=hw, name=dev))
interfaces.append("auto " + dev)
if ip == 'dhcp':
interfaces.append("iface {0} inet dhcp".format(dev))
else:
interfaces.append("iface {0} inet static".format(dev))
interfaces.append(" address " + ip)
network = int2ip(ip2int(ip) & ip2int(netsz2netmask(sz)))
interfaces.append(" network " + network)
interfaces.append(" netmask " + netsz2netmask(sz))
gfs.write('/etc/udev/rules.d/70-persistent-net.rules', "\n".join(rules_fc))
# gfs.write('/etc/network/interfaces', "\n".join(interfaces))
gfs.write('/etc/network/interfaces.d/eth0', "\n".join(interfaces))
# update passwords
logger.debug("Update passwords")
chars = "".join(chr(i) for i in range(ord('a'), ord('z') + 1))
chars += "".join(chr(i) for i in range(ord('A'), ord('Z') + 1))
chars += "".join(chr(i) for i in range(ord('0'), ord('9') + 1))
hashes = {}
for login, passwd in passwords.items():
salt = "".join(random.choice(chars) for _ in range(8))
hashes[login] = crypt.crypt(passwd, "$6$" + salt)
new_shadow = []
need_logins = set(hashes)
for ln in gfs.read_file('/etc/shadow').split('\n'):
ln = ln.strip()
if ln != '' and ln[0] != '#':
login = ln.split(':', 1)[0]
if login in hashes:
sh_templ = "{login}:{hash}:{rest}"
sh_line = sh_templ.format(login=login,
hash=hashes[login],
rest=ln.split(':', 2)[2])
new_shadow.append(sh_line)
need_logins.remove(login)
else:
new_shadow.append(ln)
for login in need_logins:
new_sh_templ = "{login}:{hash}:{rest}"
new_sh_line = new_sh_templ.format(login=login,
hash=hashes[login],
rest="0:0:99999:7:::")
new_shadow.append(new_sh_line)
gfs.write('/etc/shadow', "\n".join(new_shadow))
# add new users to passwd
ids = []
logins = []
passwd = gfs.read_file('/etc/passwd')
for ln in passwd.split('\n'):
ln = ln.strip()
if ln != '' and ln[0] != '#':
logins.append(ln.split(':', 1)[0])
ids.append(ln.split(':')[2])
ids.append(ln.split(':')[3])
add_lines = []
try:
mid = max(i for i in ids if i < 65000)
except ValueError:
mid = 0
mid += 1024
for login in set(hashes) - set(logins):
home = '/home/' + login
add_lines.append(":".join([login, 'x', str(mid), str(mid), "", home, '/bin/bash']))
if not gfs.exists(home):
gfs.mkdir_p(home)
mid += 1
if add_lines != []:
gfs.write('/etc/passwd', passwd.rstrip() + "\n" + "\n".join(add_lines))
# if apt_proxy_ip is not None:
# logger.debug("Set apt-proxy to http://{0}:3142".format(apt_proxy_ip))
# fc = 'Acquire::http {{ Proxy "http://{0}:3142"; }};'.format(apt_proxy_ip)
# gfs.write('/etc/apt/apt.conf.d/02proxy', fc)
logger.debug("Update hosts")
hosts = gfs.read_file('/etc/hosts')
new_hosts = ["127.0.0.1 localhost\n127.0.0.1 " + hostname]
for ln in hosts.split('#'):
if not ln.strip().startswith('127.0.0.1'):
new_hosts.append(ln)
gfs.write('/etc/hosts', "\n".join(new_hosts))
# allow ssh passwd auth
if gfs.is_file('/etc/ssh/ssh_config'):
name = '/etc/ssh/ssh_config'
elif gfs.is_file('/etc/ssh/sshd_config'):
name = '/etc/ssh/sshd_config'
else:
logger.warning("Both '/etc/ssh/sshd_config' and '/etc/ssh/ssh_config' are absent. Skip ssh config patching")
name = None
if name is not None:
sshd_conf = gfs.read_file('/etc/ssh/ssh_config')
sshd_conf_lines = sshd_conf.split("\n")
for pos, ln in enumerate(sshd_conf_lines):
if "PasswordAuthentication" in ln:
sshd_conf_lines[pos] = "PasswordAuthentication yes"
break
else:
sshd_conf_lines.append("PasswordAuthentication yes")
gfs.write('/etc/ssh/ssh_config', "\n".join(sshd_conf_lines))
dbconn.autocommit = True
cursor = dbconn.cursor()
print('creating PostgreSQL table')
cursor.execute(create_query)
print('importing CSV file')
with open(settings.CSV_PATH, 'rb') as csvfile:
ip_reader = csv.reader(csvfile, delimiter=',', quotechar='"')
k = 0
for row in ip_reader:
k += 1
if k % 200000 == 0:
print('loaded %d addresses' % k)
if row[0] == '::':
break
start_address = utils.ip2int(row[0])
stop_address = utils.ip2int(row[1])
data = (
start_address,
stop_address,
row[2],
row[3],
row[4]
)
cursor.execute("INSERT INTO addresses(x, y, country, county, city) VALUES(%s, %s, %s, %s, %s)", data)
print('creating indexes')
cursor.execute(index_query)
print('finished')
def getBytesIP(self):
""" retorna o ip como inteiro nao-negativo de 4 bytes """
if not self.bip:
bip = ip2int(self.ip)
self.bip = bip
return self.bip
def prepare_guest_debian(disk_path,
hostname,
passwords,
eth_devs,
format=None,
apt_proxy_ip=None):
logger.info("Prepare image for " + hostname)
if format == 'lxc':
gfs = LocalGuestFS(disk_path)
gfs.rm('/etc/init/udev.conf')
interfaces = []
for dev, (hw, ip, sz, gw) in eth_devs.items():
if ip == 'dhcp':
interfaces.append("dhclient {0}".format(dev))
else:
interfaces.append("ifconfig {0} {1}/{2} up".format(
dev, ip, sz))
gfs.write('/etc/init/lxc_lan.conf',
ifconfig_script.format("\n".join(interfaces)))
else:
gfs = guestfs.GuestFS()
gfs.add_drive_opts(disk_path, format=format)
logger.debug("Launch libguestfs vm")
gfs.launch()
logger.debug("ok")
os_devs = gfs.inspect_os()
if len(os_devs) > 1:
msg = "Two or more bootable partitions - disk prepare impossible " + disk_path
logger.error(msg)
raise CloudError(msg)
# for dev, fs_type in gfs.list_filesystems():
# logger.debug("Fount partition {0} with fs type {1}".format(dev, fs_type))
# # TODO: add lvm support
# if fs_type in 'ext2 ext3 reiserfs3 reiserfs4 xfs jfs btrfs':
# gfs.mount(dev, '/')
# if gfs.exists('/etc'):
# logger.debug("Fount /etc on partition {0} - will work on it".format(dev))
# break
# gfs.umount(dev)
# logger.debug("No /etc dir found - continue")
if 0 == len(os_devs):
mounts = sorted(gfs.inspect_get_mountpoints(os_devs[0]))
for mpoint, dev in mounts:
gfs.mount(dev, mpoint)
if not gfs.exists('/etc'):
msg = "Can't fount /etc dir in image " + disk_path
logger.error(msg)
raise CloudError(msg)
else:
gfs.mount(os_devs[0], '/')
#gfs.mount('/dev/vda1', '/')
if not gfs.exists('/etc'):
msg = "Can't fount /etc dir in image " + disk_path
logger.error(msg)
raise CloudError(msg)
logger.debug("Launch ok. Set hostname")
#hostname
gfs.write('/etc/hostname', hostname)
#set device names
logger.debug("Set device names and network imterfaces")
templ = 'SUBSYSTEM=="net", DRIVERS=="?*", ATTR{{address}}=="{hw}", NAME="{name}"'
rules_fc = []
interfaces = ["auto lo\niface lo inet loopback"]
for dev, (hw, ip, sz, gw) in eth_devs.items():
rules_fc.append(templ.format(hw=hw, name=dev))
interfaces.append("auto " + dev)
if ip == 'dhcp':
interfaces.append("iface {0} inet dhcp".format(dev))
else:
interfaces.append("iface {0} inet static".format(dev))
interfaces.append(" address " + ip)
network = int2ip(ip2int(ip) & ip2int(netsz2netmask(sz)))
interfaces.append(" network " + network)
interfaces.append(" netmask " + netsz2netmask(sz))
gfs.write('/etc/udev/rules.d/70-persistent-net.rules', "\n".join(rules_fc))
# gfs.write('/etc/network/interfaces', "\n".join(interfaces))
gfs.write('/etc/network/interfaces.d/eth0', "\n".join(interfaces))
# update passwords
logger.debug("Update passwords")
chars = "".join(chr(i) for i in range(ord('a'), ord('z') + 1))
chars += "".join(chr(i) for i in range(ord('A'), ord('Z') + 1))
chars += "".join(chr(i) for i in range(ord('0'), ord('9') + 1))
hashes = {}
for login, passwd in passwords.items():
salt = "".join(random.choice(chars) for _ in range(8))
hashes[login] = crypt.crypt(passwd, "$6$" + salt)
new_shadow = []
need_logins = set(hashes)
for ln in gfs.read_file('/etc/shadow').split('\n'):
ln = ln.strip()
if ln != '' and ln[0] != '#':
login = ln.split(':', 1)[0]
if login in hashes:
sh_templ = "{login}:{hash}:{rest}"
sh_line = sh_templ.format(login=login,
hash=hashes[login],
rest=ln.split(':', 2)[2])
new_shadow.append(sh_line)
need_logins.remove(login)
else:
new_shadow.append(ln)
for login in need_logins:
new_sh_templ = "{login}:{hash}:{rest}"
new_sh_line = new_sh_templ.format(login=login,
hash=hashes[login],
rest="0:0:99999:7:::")
new_shadow.append(new_sh_line)
gfs.write('/etc/shadow', "\n".join(new_shadow))
# add new users to passwd
ids = []
logins = []
passwd = gfs.read_file('/etc/passwd')
for ln in passwd.split('\n'):
ln = ln.strip()
if ln != '' and ln[0] != '#':
logins.append(ln.split(':', 1)[0])
ids.append(ln.split(':')[2])
ids.append(ln.split(':')[3])
add_lines = []
try:
mid = max(i for i in ids if i < 65000)
except ValueError:
mid = 0
mid += 1024
for login in set(hashes) - set(logins):
home = '/home/' + login
add_lines.append(":".join(
[login, 'x', str(mid),
str(mid), "", home, '/bin/bash']))
if not gfs.exists(home):
gfs.mkdir_p(home)
mid += 1
if add_lines != []:
gfs.write('/etc/passwd', passwd.rstrip() + "\n" + "\n".join(add_lines))
# if apt_proxy_ip is not None:
# logger.debug("Set apt-proxy to http://{0}:3142".format(apt_proxy_ip))
# fc = 'Acquire::http {{ Proxy "http://{0}:3142"; }};'.format(apt_proxy_ip)
# gfs.write('/etc/apt/apt.conf.d/02proxy', fc)
logger.debug("Update hosts")
hosts = gfs.read_file('/etc/hosts')
new_hosts = ["127.0.0.1 localhost\n127.0.0.1 " + hostname]
for ln in hosts.split('#'):
if not ln.strip().startswith('127.0.0.1'):
new_hosts.append(ln)
gfs.write('/etc/hosts', "\n".join(new_hosts))
# allow ssh passwd auth
if gfs.is_file('/etc/ssh/ssh_config'):
name = '/etc/ssh/ssh_config'
elif gfs.is_file('/etc/ssh/sshd_config'):
name = '/etc/ssh/sshd_config'
else:
logger.warning(
"Both '/etc/ssh/sshd_config' and '/etc/ssh/ssh_config' are absent. Skip ssh config patching"
)
name = None
if name is not None:
sshd_conf = gfs.read_file('/etc/ssh/ssh_config')
sshd_conf_lines = sshd_conf.split("\n")
for pos, ln in enumerate(sshd_conf_lines):
if "PasswordAuthentication" in ln:
sshd_conf_lines[pos] = "PasswordAuthentication yes"
break
else:
sshd_conf_lines.append("PasswordAuthentication yes")
gfs.write('/etc/ssh/ssh_config', "\n".join(sshd_conf_lines))
def register():
print("request.headers", request.headers)
try:
X_APP_ID = request.headers["X-App-Id"]
except:
error = json.dumps({"error": "Missing X-APP-ID!"})
return json_response(error, 403)
try:
X_DEVICE_ID = request.headers["X-Device-Id"]
except:
error = json.dumps({"error": "Missing X-DEVICE-ID!"})
return json_response(error, 403)
data = request.json
print("data", data)
try:
b = all([
data.get("username"),
data.get("password"),
data.get("phone"),
data.get("email"),
data.get("WeChatID")
])
except Exception as e:
# print(e)
error = json.dumps({"error": "HTTPS request body imcomplete!"})
return json_response(error, 400)
params = {
"username": data["username"],
"password": data["password"],
"phone": data["phone"],
"email": data["email"],
"WeChatID": data["WeChatID"]
}
IP_addr = request.remote_addr
IP_addr_int = ip2int(IP_addr)
try:
HOSTNAME = "rm-uf6ktwa39f10394a7no.mysql.rds.aliyuncs.com"
PORT = "3306"
DATABASE = "pigfarmdb"
USERNAME = "******"
PASSWORD = "******"
DB_URI = "mysql+pymysql://{username}:{password}@{host}:{port}/{db}?charset=utf8".\
format(username=USERNAME,password=PASSWORD,host=HOSTNAME,port=PORT,db=DATABASE)
engine = create_engine(DB_URI)
conn = engine.connect()
conn.execute("insert into user(username, password, email, phone, WeChatID, registered_IP) VALUES(\"{username}\", \"{password}\", \"{email}\", {phone}, \"{WeChatID}\", {registered_IP});"\
.format(username=params["username"], password=params["password"], email=params["email"], phone=params["phone"], WeChatID=params["WeChatID"], registered_IP=IP_addr_int))
# result = conn.execute("select user_id from user where username=\"{var1}\";".format(var1=params["username"]))
# user_id = result.fetchone()[0]
# user_id_hash = get_sha256_hash(str(user_id))
# conn.execute("update user set user_id_hash = \"{var2}\" where username = \"{var3}\";".format(var2=user_id_hash, var3=params["username"]))
day_theme_list = generate_day_theme_list()
query = build_queries_from_dict_username(params["username"],
day_theme_list, "UPDATE")
conn.execute(query)
conn.close()
return json_response()
except Exception as e:
conn.close()
error = json.dumps({"error": e})
return json_response(error, 403)
def __sendHello(self, address):
packet = struct.pack("!BIHH", 1, utils.ip2int(self.address[0]),
self.address[1], self.neighbour[address])
self.__sendPacket(packet, address)
import settings
import utils
client = pymongo.MongoClient(settings.MONGO_CONN)
print('importing CSV file')
with open(settings.CSV_PATH, 'rb') as csvfile:
ip_reader = csv.reader(csvfile, delimiter=',', quotechar='"')
k = 0
for row in ip_reader:
k += 1
if k % 200000 == 0:
print('loaded %d addresses' % k)
if row[0] == '::':
break
start_address = utils.ip2int(row[0])
stop_address = utils.ip2int(row[1])
doc = {
'x': start_address,
'y': stop_address,
'country': row[2],
'county': row[3],
'city': row[4]
}
client.ipdb.addresses.insert_one(doc)
print('creating indexes')
client.ipdb.addresses.ensure_index([('x', 1)])
client.ipdb.addresses.ensure_index([('y', 1)])
print('finished')
def send(self, data, address):
packet = struct.pack("!BIHIH%ds" % len(data), 0,
utils.ip2int(self.address[0]), self.address[1],
utils.ip2int(address[0]), address[1], data)
self.__sendPacket(packet, address)
