Example #1
0
 def __init__(self):
     BaseBackend.__init__(self, models.IP)
     self.netdata = NetData()
     self.ipcalc = IPCalc()
     self.subnet = Subnet()
Example #2
0
	def __init__(self):
		BaseBackend.__init__(self, models.IP)
		self.netdata = NetData()
		self.ipcalc = IPCalc()
		self.subnet = Subnet()
Example #3
0
class IP(BaseBackend):
    name = "IP"

    def __init__(self):
        BaseBackend.__init__(self, models.IP)
        self.netdata = NetData()
        self.ipcalc = IPCalc()
        self.subnet = Subnet()

    def has(self, *args, **kwargs):
        (dq, mask) = self.ipcalc.parse_addr(kwargs['ip'])
        ip = self.ipcalc.dqtoi(dq)
        return BaseBackend.has(self, ip=ip, mask=mask)

    def get(self, *args, **kwargs):
        (dq, mask) = self.ipcalc.parse_addr(kwargs['ip'])
        ip = self.ipcalc.dqtoi(dq)
        return BaseBackend.get(self, *args, ip=ip)

    def add(self, *args, **kwargs):
        af = self.ipcalc.af(kwargs['ip'])
        if not af in [4, 6]:
            return (False, "No AF found for %s" % (ip))

        if "/" in kwargs['ip']:
            (ip, mask) = kwargs['ip'].split('/')
            first = self.ipcalc.dqtoi(ip)
            last = first + self.ipcalc.size(kwargs['ip'])
        else:
            ip = kwargs['ip']
            if af == 4:
                mask = 32
            elif af == 6:
                mask = 128
            first = self.ipcalc.dqtoi(ip)
            last = first

        if self.has(ip=ip, mask=mask):
            return (True, self.get(ip=ip, mask=mask))

        try:
            (asn, asn_name, whois_data, net,
             cc) = self.netdata.get_whois_data(kwargs["ip"])
        except ValueError:
            return (False, "Cannot fetch whois data")

        if net == "0.0.0.0/0":
            net = None
        else:
            if not self.subnet.has(subnet=net):
                (result, net) = self.subnet.add(subnet=net,
                                                asn=asn,
                                                asn_name=asn_name,
                                                whois_data=whois_data,
                                                cc=cc)
                if not result:
                    return (False, net)
            else:
                (result, net) = self.subnet.get(subnet=net)
                if not result:
                    return (False, net)

        ip = models.IP(ip=first, mask=mask, last=last, subnet=net, af=af)
        ip.save()
        return (True, ip)
Example #4
0
class IP(BaseBackend):
	name = "IP"
	def __init__(self):
		BaseBackend.__init__(self, models.IP)
		self.netdata = NetData()
		self.ipcalc = IPCalc()
		self.subnet = Subnet()

	def has(self, *args, **kwargs):
		(dq, mask) = self.ipcalc.parse_addr(kwargs['ip'])
		ip = self.ipcalc.dqtoi(dq)
		return BaseBackend.has(self, ip=ip, mask=mask)

	def get(self, *args, **kwargs):
		(dq , mask) = self.ipcalc.parse_addr(kwargs['ip'])
		ip = self.ipcalc.dqtoi(dq)
		return BaseBackend.get(self, *args, ip=ip)

	def add(self, *args, **kwargs):
		af = self.ipcalc.af(kwargs['ip'])
		if not af in [4,6]:
			return (False, "No AF found for %s" % (ip))

		if "/" in kwargs['ip']:
			(ip, mask) = kwargs['ip'].split('/')
			first = self.ipcalc.dqtoi(ip)
			last=first + self.ipcalc.size(kwargs['ip'])
		else:
			ip = kwargs['ip']
			if af == 4:
				mask = 32
			elif af == 6:
				mask = 128
			first = self.ipcalc.dqtoi(ip)
			last = first

		if self.has(ip=ip, mask=mask):
			return (True, self.get(ip=ip, mask=mask))

		try:
			(asn, asn_name, whois_data, net, cc) = self.netdata.get_whois_data(kwargs["ip"])
		except ValueError:
			return (False, "Cannot fetch whois data")

		if net == "0.0.0.0/0":
			net = None
		else:
			if not self.subnet.has(subnet=net):
				(result, net) = self.subnet.add(subnet=net, asn=asn, asn_name=asn_name, whois_data=whois_data, cc=cc)
				if not result:
					return (False, net)
			else:
				(result, net) = self.subnet.get(subnet=net)
				if not result:
					return (False, net)

		ip = models.IP(
			ip=first,
			mask=mask,
			last=last,
			subnet=net,
			af=af
		)
		ip.save()
		return (True, ip)