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# -*- coding: utf-8 -*- vim:encoding=utf-8:
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# vim: tabstop=4:shiftwidth=4:softtabstop=4:expandtab
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from django.db import models
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from django.conf import settings
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from django.contrib.auth.models import User
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from utils import proxy as PR
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from ipaddr import *
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import datetime
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import logging
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from flowspec.tasks import *
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from time import sleep
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from flowspy.utils import beanstalkc
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from flowspy.utils.randomizer import id_generator as id_gen
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FORMAT = '%(asctime)s %(levelname)s: %(message)s'
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logging.basicConfig(format=FORMAT)
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logger = logging.getLogger(__name__)
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logger.setLevel(logging.DEBUG)
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FRAGMENT_CODES = (
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    ("dont-fragment", "Don't fragment"),
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    ("first-fragment", "First fragment"),
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    ("is-fragment", "Is fragment"),
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    ("last-fragment", "Last fragment"),
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    ("not-a-fragment", "Not a fragment")
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)
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THEN_CHOICES = (
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    ("accept", "Accept"),
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    ("discard", "Discard"),
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    ("community", "Community"),
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    ("next-term", "Next term"),
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    ("routing-instance", "Routing Instance"),
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    ("rate-limit", "Rate limit"),
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    ("sample", "Sample")                
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)
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ROUTE_STATES = (
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    ("ACTIVE", "ACTIVE"),
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    ("ERROR", "ERROR"),
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    ("EXPIRED", "EXPIRED"),
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    ("PENDING", "PENDING"),
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    ("OUTOFSYNC", "OUTOFSYNC"),
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    ("INACTIVE", "INACTIVE"),            
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)
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def days_offset(): return datetime.date.today() + datetime.timedelta(days = settings.EXPIRATION_DAYS_OFFSET)
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class MatchPort(models.Model):
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    port = models.CharField(max_length=24, unique=True)
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    def __unicode__(self):
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        return self.port
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    class Meta:
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        db_table = u'match_port'    
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class MatchDscp(models.Model):
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    dscp = models.CharField(max_length=24)
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    def __unicode__(self):
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        return self.dscp
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    class Meta:
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        db_table = u'match_dscp'
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class ThenAction(models.Model):
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    action = models.CharField(max_length=60, choices=THEN_CHOICES, verbose_name="Action")
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    action_value = models.CharField(max_length=255, blank=True, null=True, verbose_name="Action Value")
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    def __unicode__(self):
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        ret = "%s:%s" %(self.action, self.action_value)
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        return ret.rstrip(":")
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    class Meta:
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        db_table = u'then_action'
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class Route(models.Model):
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    name = models.SlugField(max_length=128)
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    applier = models.ForeignKey(User, blank=True, null=True)
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    source = models.CharField(max_length=32, blank=True, null=True, help_text=u"Network address. Use address/CIDR notation", verbose_name="Source Address")
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    sourceport = models.ManyToManyField(MatchPort, blank=True, null=True, related_name="matchSourcePort", verbose_name="Source Port")
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    destination = models.CharField(max_length=32, help_text=u"Network address. Use address/CIDR notation", verbose_name="Destination Address")
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    destinationport = models.ManyToManyField(MatchPort, blank=True, null=True, related_name="matchDestinationPort", verbose_name="Destination Port")
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    port = models.ManyToManyField(MatchPort, blank=True, null=True, related_name="matchPort", verbose_name="Port" )
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    dscp = models.ManyToManyField(MatchDscp, blank=True, null=True, verbose_name="DSCP")
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    fragmenttype = models.CharField(max_length=20, choices=FRAGMENT_CODES, blank=True, null=True, verbose_name="Fragment Type")
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    icmpcode = models.CharField(max_length=32, blank=True, null=True, verbose_name="ICMP Code")
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    icmptype = models.CharField(max_length=32, blank=True, null=True, verbose_name="ICMP Type")
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    packetlength = models.IntegerField(blank=True, null=True, verbose_name="Packet Length")
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    protocol = models.CharField(max_length=32, blank=True, null=True, verbose_name="Protocol")
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    tcpflag = models.CharField(max_length=128, blank=True, null=True, verbose_name="TCP flag")
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    then = models.ManyToManyField(ThenAction, verbose_name="Then")
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    filed = models.DateTimeField(auto_now_add=True)
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    last_updated = models.DateTimeField(auto_now=True)
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    status = models.CharField(max_length=20, choices=ROUTE_STATES, blank=True, null=True, verbose_name="Status", default="PENDING")
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#    is_online = models.BooleanField(default=False)
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#    is_active = models.BooleanField(default=False)
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    expires = models.DateField(default=days_offset, blank=True, null=True,)
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    response = models.CharField(max_length=512, blank=True, null=True)
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    comments = models.TextField(null=True, blank=True, verbose_name="Comments")
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    def __unicode__(self):
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        return self.name
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    class Meta:
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        db_table = u'route'
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    def save(self, *args, **kwargs):
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        if not self.pk:
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            hash = id_gen()
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            self.name = "%s_%s" %(self.name, hash)
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        super(Route, self).save(*args, **kwargs) # Call the "real" save() method.
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    def clean(self, *args, **kwargs):
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        from django.core.exceptions import ValidationError
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        if self.destination:
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            try:
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                address = IPNetwork(self.destination)
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                self.destination = address.exploded
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            except Exception:
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                raise ValidationError('Invalid network address format at Destination Field')
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        if self.source:
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            try:
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                address = IPNetwork(self.source)
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                self.source = address.exploded
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            except Exception:
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                raise ValidationError('Invalid network address format at Source Field')
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    def commit_add(self, *args, **kwargs):
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        peer = self.applier.get_profile().peer.domain_name
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        send_message("[%s] Adding route %s. Please wait..." %(self.applier.username, self.name), peer)
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        response = add.delay(self)
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        logger.info("Got add job id: %s" %response)
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    def commit_edit(self, *args, **kwargs):
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        peer = self.applier.get_profile().peer.domain_name
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        send_message("[%s] Editing route %s. Please wait..." %(self.applier.username, self.name), peer)
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        response = edit.delay(self)
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        logger.info("Got edit job id: %s" %response)
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    def commit_delete(self, *args, **kwargs):
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        reason_text = ''
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        reason = ''
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        if "reason" in kwargs:
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            reason = kwargs['reason']
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            reason_text = "Reason: %s. " %reason
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        peer = self.applier.get_profile().peer.domain_name
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        send_message("[%s] Removing route %s. %sPlease wait..." %(self.applier.username, self.name, reason_text), peer)
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        response = delete.delay(self, reason=reason)
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        logger.info("Got delete job id: %s" %response)
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    def has_expired(self):
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        today = datetime.date.today()
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        if today > self.expires:
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            return True
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        return False
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    def check_sync(self):
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        if not self.is_synced():
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            self.status = "OUTOFSYNC"
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            self.save()
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    def is_synced(self):
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        found = False
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        get_device = PR.Retriever()
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        device = get_device.fetch_device()
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        try:
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            routes = device.routing_options[0].routes
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        except Exception as e:
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            self.status = "EXPIRED"
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            self.save()
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            logger.error("No routing options on device. Exception: %s" %e)
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            return True
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        for route in routes:
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            if route.name == self.name:
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                found = True
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                logger.info('Found a matching route name')
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                devicematch = route.match
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                try:
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                    assert(self.destination)
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                    assert(devicematch['destination'][0])
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                    if self.destination == devicematch['destination'][0]:
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                        found = found and True
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                        logger.info('Found a matching destination')
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                    else:
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                        found = False
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                        logger.info('Destination fields do not match')
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                except:
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                    pass
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                try:
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                    assert(self.source)
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                    assert(devicematch['source'][0])
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                    if self.source == devicematch['source'][0]:
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                        found = found and True
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                        logger.info('Found a matching source')
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                    else:
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                        found = False
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                        logger.info('Source fields do not match')
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                except:
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                    pass
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                try:
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                    assert(self.fragmenttype)
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                    assert(devicematch['fragment'][0])
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                    if self.fragmenttype == devicematch['fragment'][0]:
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                        found = found and True
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                        logger.info('Found a matching fragment type')
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                    else:
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                        found = False
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                        logger.info('Fragment type fields do not match')
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                except:
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                    pass
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                try:
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                    assert(self.icmpcode)
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                    assert(devicematch['icmp-code'][0])
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                    if self.icmpcode == devicematch['icmp-code'][0]:
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                        found = found and True
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                        logger.info('Found a matching icmp code')
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                    else:
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                        found = False
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                        logger.info('Icmp code fields do not match')
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                except:
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                    pass
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                try:
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                    assert(self.icmptype)
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                    assert(devicematch['icmp-type'][0])
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                    if self.icmptype == devicematch['icmp-type'][0]:
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                        found = found and True
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                        logger.info('Found a matching icmp type')
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                    else:
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                        found = False
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                        logger.info('Icmp type fields do not match')
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                except:
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                    pass
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                try:
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                    assert(self.protocol)
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                    assert(devicematch['protocol'][0])
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                    if self.protocol == devicematch['protocol'][0]:
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                        found = found and True
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                        logger.info('Found a matching protocol')
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                    else:
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                        found = False
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                        logger.info('Protocol fields do not match')
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                except:
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                    pass
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                if found and self.status != "ACTIVE":
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                     logger.error('Rule is applied on device but appears as offline')
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                     self.status = "ACTIVE"
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                     self.save()
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                     found = True
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        return found
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    def get_then(self):
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        ret = ''
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        then_statements = self.then.all()
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        for statement in then_statements:
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            if statement.action_value:
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                ret = "%s %s:<strong>%s</strong><br/>" %(ret, statement.action, statement.action_value)
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            else: 
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                ret = "%s %s<br>" %(ret, statement.action)
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        return ret.rstrip(',')
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    get_then.short_description = 'Then statement'
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    get_then.allow_tags = True
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#
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    def get_match(self):
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        ret = ''
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        if self.destination:
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            ret = '%s Dst Addr:<strong>%s</strong><br/>' %(ret, self.destination)
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        if self.fragmenttype:
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            ret = "%s Fragment Type:<strong>%s</strong><br/>" %(ret, self.fragmenttype)
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        if self.icmpcode:
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            ret = "%s ICMP code:<strong>%s</strong><br/>" %(ret, self.icmpcode)
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        if self.icmptype:
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            ret = "%s ICMP Type:<strong>%s</strong><br/>" %(ret, self.icmptype)
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        if self.packetlength:
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            ret = "%s Packet Length:<strong>%s</strong><br/>" %(ret, self.packetlength)
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        if self.protocol:
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            ret = "%s Protocol:<strong>%s</strong><br/>" %(ret, self.protocol)
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        if self.source:
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            ret = "%s Src Addr:<strong>%s</strong><br/>" %(ret, self.source)
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        if self.tcpflag:
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            ret = "%s TCP flag:<strong>%s</strong><br/>" %(ret, self.tcpflag)
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        if self.port:
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            for port in self.port.all():
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                    ret = ret + "Port:<strong>%s</strong><br/>" %(port)
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        if self.destinationport:
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            for port in self.destinationport.all():
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                    ret = ret + "Dst Port:<strong>%s</strong><br/>" %(port)
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        if self.sourceport:
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            for port in self.sourceport.all():
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                    ret = ret +"Src Port:<strong>%s</strong><br/>" %(port)
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        if self.dscp:
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            for dscp in self.dscp.all():
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                    ret = ret + "%s Port:<strong>%s</strong><br/>" %(ret, dscp)
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        return ret.rstrip('<br/>')
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    get_match.short_description = 'Match statement'
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    get_match.allow_tags = True
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def send_message(msg, user):
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#    username = user.username
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    peer = user
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    b = beanstalkc.Connection()
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    b.use(settings.POLLS_TUBE)
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    tube_message = json.dumps({'message': str(msg), 'username':peer})
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    b.put(tube_message)
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    b.close()