コード例 #1
0
def make_packet(pkt_size, outer_vlan=0, inner_vlan=0, vni=0,
                eth_src=None, eth_dst=None, udp_src_port=None,
                udp_dst_port=None, eth_type=None,
                ip_src=None, ip_dst=None, ip_proto=None):

    ip_src = IP_SRC if ip_src is None else ip_src
    ip_dst = IP_DST if ip_dst is None else ip_dst
    ip_proto = IP_PROTO if ip_proto is None else ip_proto
    eth_src = DL_SRC if eth_src is None else eth_src
    eth_dst = DL_SRC if eth_dst is None else eth_dst
    eth_type = ether.ETH_TYPE_IP if eth_type is None else eth_type
    udp_src_port = UDP_SRC_PORT if udp_src_port is None else udp_src_port
    udp_dst_port = UDP_DST_PORT if udp_dst_port is None else udp_dst_port

    if outer_vlan or inner_vlan:
        eth_type = ether.ETH_TYPE_8021Q
    e = ethernet.ethernet(eth_dst, eth_src, eth_type)
    i = ipv4.ipv4(total_length=0, src=ip_src, dst=ip_dst, proto=ip_proto,
                  ttl=1)
    if vni:
        udp_dst_port = 4789
    u = udp.udp(src_port=udp_src_port, dst_port=udp_dst_port)

    outer_len = 0
    outer_tag = None
    if outer_vlan:
        outer_tag = vlan.vlan(vid=outer_vlan, ethertype=ether.ETH_TYPE_8021Q,
                              cfi=1)
        outer_len = len(outer_tag)

    inner_len = 0
    inner_tag = None
    if inner_vlan:
        inner_tag = vlan.vlan(vid=inner_vlan, ethertype=ether.ETH_TYPE_8021Q,
                              cfi=1)
        inner_len = len(inner_tag)
    vxlan_len = 0
    vxlan_tag = None
    if vni:
        vxlan_tag = vxlan.vxlan(vni)
        vxlan_len = len(vxlan_tag)

    payload_size = pkt_size - (len(e) + len(i) + len(u)
                               + inner_len + outer_len + vxlan_len)
    payload = bytearray(payload_size if payload_size > 0 else 0)

    p = packet.Packet()
    p.add_protocol(e)
    if outer_tag:
        p.add_protocol(outer_tag)
    if inner_tag:
        p.add_protocol(inner_tag)
    p.add_protocol(i)
    p.add_protocol(u)
    if vxlan_tag:
        p.add_protocol(vxlan_tag)
    p.add_protocol(payload)

    return p
コード例 #2
0
 def breakdown_trunk_ports(self,src,dpid,pkt,eth,dst):
 	if src in self.mac_to_port[dpid]:
     	vlan_tag = 0
             pkt.add_protocol(vlan.vlan(vid=vlan_tag,
                      ethertype=ether.ETH_TYPE_8021Q))
             eth = pkt.get_protocols(ethernet.ethernet)[0]
             dst = eth.dst
             src = eth.src
     elif src in self.src_vid:
             vlan_tag = self.src_vid[src]
             print 'src_vid:',vlan_tag
             pkt.add_protocol(vlan.vlan(vid=vlan_tag,                                                                 ethertype=ether.ETH_TYPE_8021Q))
             eth = pkt.get_protocols(ethernet.ethernet)[0]
             dst = eth.dst
             src = eth.src
コード例 #3
0
 def createPacket(self, src, dst, srcip, dstip):
     # create send packet
     #   ether - vlan - ipv6 - icmpv6 ( - mldv2 )
     sendpkt = packet.Packet()
     sendpkt.add_protocol(ethernet.ethernet(
         ethertype=ether.ETH_TYPE_8021Q, dst=dst, src=src))
     sendpkt.add_protocol(vlan.vlan(
         pcp=0, cfi=0, vid=100, ethertype=ether.ETH_TYPE_IPV6))
     sendpkt.add_protocol(ipv6.ipv6(
         src=srcip, dst=dstip, nxt=inet.IPPROTO_ICMPV6))
     
     sendpkt.add_protocol(icmpv6.icmpv6(
         type_=icmpv6.ICMPV6_MEMBERSHIP_QUERY,
         data=icmpv6.mldv2_query(address='::')))
     '''
     sendpkt.add_protocol(icmpv6.icmpv6(
         type_=icmpv6.MLDV2_LISTENER_REPORT,
         data=icmpv6.mldv2_report(
             record_num=2, records=[
                 icmpv6.mldv2_report_group(type_=1, address='::'),
                 icmpv6.mldv2_report_group(type_=2, address='::')])))
     '''
     sendpkt.serialize()
     
     return sendpkt
コード例 #4
0
ファイル: arp_lib.py プロジェクト: asadoughi/neutron
 def _respond_arp(self, datapath, port, arptbl,
                  pkt_ethernet, pkt_vlan, pkt_arp):
     if pkt_arp.opcode != arp.ARP_REQUEST:
         LOG.debug("unknown arp op %s", pkt_arp.opcode)
         return False
     ip_addr = pkt_arp.dst_ip
     hw_addr = arptbl.get(ip_addr)
     if hw_addr is None:
         LOG.debug("unknown arp request %s", ip_addr)
         return False
     LOG.debug("responding arp request %(ip_addr)s -> %(hw_addr)s",
               {'ip_addr': ip_addr, 'hw_addr': hw_addr})
     pkt = packet.Packet()
     pkt.add_protocol(ethernet.ethernet(ethertype=pkt_ethernet.ethertype,
                                        dst=pkt_ethernet.src,
                                        src=hw_addr))
     if pkt_vlan:
         pkt.add_protocol(vlan.vlan(cfi=pkt_vlan.cfi,
                                    ethertype=pkt_vlan.ethertype,
                                    pcp=pkt_vlan.pcp,
                                    vid=pkt_vlan.vid))
     pkt.add_protocol(arp.arp(opcode=arp.ARP_REPLY,
                              src_mac=hw_addr,
                              src_ip=ip_addr,
                              dst_mac=pkt_arp.src_mac,
                              dst_ip=pkt_arp.src_ip))
     self._send_arp_reply(datapath, port, pkt)
     return True
コード例 #5
0
 def _respond_arp(self, datapath, port, arptbl, pkt_ethernet, pkt_vlan,
                  pkt_arp):
     if pkt_arp.opcode != arp.ARP_REQUEST:
         LOG.debug("unknown arp op %s", pkt_arp.opcode)
         return False
     ip_addr = pkt_arp.dst_ip
     hw_addr = arptbl.get(ip_addr)
     if hw_addr is None:
         LOG.debug("unknown arp request %s", ip_addr)
         return False
     LOG.debug("responding arp request %(ip_addr)s -> %(hw_addr)s", {
         'ip_addr': ip_addr,
         'hw_addr': hw_addr
     })
     pkt = packet.Packet()
     pkt.add_protocol(
         ethernet.ethernet(ethertype=pkt_ethernet.ethertype,
                           dst=pkt_ethernet.src,
                           src=hw_addr))
     pkt.add_protocol(
         vlan.vlan(cfi=pkt_vlan.cfi,
                   ethertype=pkt_vlan.ethertype,
                   pcp=pkt_vlan.pcp,
                   vid=pkt_vlan.vid))
     pkt.add_protocol(
         arp.arp(opcode=arp.ARP_REPLY,
                 src_mac=hw_addr,
                 src_ip=ip_addr,
                 dst_mac=pkt_arp.src_mac,
                 dst_ip=pkt_arp.src_ip))
     self._send_arp_reply(datapath, port, pkt)
     return True
コード例 #6
0
ファイル: test_valve.py プロジェクト: Baloc/faucet
def build_pkt(pkt):
    layers = []
    if 'arp_target_ip' in pkt:
        ethertype = 0x806
        layers.append(arp.arp(dst_ip=pkt['arp_target_ip']))
    elif 'ipv6_src' in pkt:
        ethertype = 0x86DD
        layers.append(ipv6.ipv6(src=pkt['ipv6_src'], dst=pkt['ipv6_src']))
    else:
        ethertype = 0x800
        if 'ipv4_src' in pkt:
            net = ipv4.ipv4(src=pkt['ipv4_src'], dst=pkt['ipv4_dst'])
        else:
            net = ipv4.ipv4()
        layers.append(net)
    if 'vid' in pkt:
        tpid = 0x8100
        layers.append(vlan.vlan(vid=pkt['vid'], ethertype=ethertype))
    else:
        tpid = ethertype
    eth = ethernet.ethernet(
        dst=pkt['eth_dst'],
        src=pkt['eth_src'],
        ethertype=tpid)
    layers.append(eth)
    result = packet.Packet()
    for layer in layers:
        result.add_protocol(layer)
    return result
コード例 #7
0
 def add_vlan_tag_to_vlan_port(self,dpid,in_port,pkt,src):
 	vlan_tag=vlanid[dpid-1][in_port-1]
     pkt.add_protocol(vlan.vlan(vid=vlan_tag,
               ethertype=ether.ETH_TYPE_8021Q))
     print" added vlan id"
     self.vlan_to_port[dpid][vlan_tag][src] = in_port
     print 'vlan_to_port:',self.vlan_to_port
コード例 #8
0
def build_pkt(pkt):
    layers = []
    if 'arp_target_ip' in pkt:
        ethertype = 0x806
        layers.append(arp.arp(dst_ip=pkt['arp_target_ip']))
    elif 'ipv6_src' in pkt:
        ethertype = 0x86DD
        layers.append(ipv6.ipv6(src=pkt['ipv6_src'], dst=pkt['ipv6_src']))
    else:
        ethertype = 0x800
        if 'ipv4_src' in pkt:
            net = ipv4.ipv4(src=pkt['ipv4_src'], dst=pkt['ipv4_dst'])
        else:
            net = ipv4.ipv4()
        layers.append(net)
    if 'vid' in pkt:
        tpid = 0x8100
        layers.append(vlan.vlan(vid=pkt['vid'], ethertype=ethertype))
    else:
        tpid = ethertype
    eth = ethernet.ethernet(dst=pkt['eth_dst'],
                            src=pkt['eth_src'],
                            ethertype=tpid)
    layers.append(eth)
    result = packet.Packet()
    for layer in layers:
        result.add_protocol(layer)
    return result
コード例 #9
0
    def assemble_tcp(self, content, vlanid, dst_ip, dst_mac, src_ip, src_mac, dport, sport=61300):
        offset = ethernet.ethernet._MIN_LEN
        if vlanid != 0:
            ether_proto = ether.ETH_TYPE_8021Q
            vlan_ether = ether.ETH_TYPE_IP
            v = vlan.vlan(0, 0, vlanid, vlan_ether)
            offset += vlan.vlan._MIN_LEN
        else:
            ether_proto = ether.ETH_TYPE_IP
        pkt = packet.Packet()
        if vlanid != 0:
            pkt.add_protocol(v)
        # Add ethernet protocol with ether type IP protocol and mac addresses
        pkt.add_protocol(ethernet.ethernet(ethertype=ether_proto,
                                           dst=dst_mac,
                                           src=src_mac))

        # Add ipv4 protocol with IP addresses and TCP protocol which is 6
        pkt.add_protocol(ipv4.ipv4(dst=dst_ip,
                                   src=src_ip,
                                   proto=6))

        # Add tcp protocol with port numbers and sequence number
        pkt.add_protocol(tcp.tcp(src_port=sport,
                                 dst_port=dport))
        pkt.add_protocol(bytearray(content))
        return pkt
コード例 #10
0
    def send_arp(self, arp_opcode, vlan_id, src_mac, dst_mac, src_ip, dst_ip,
                 arp_target_mac, in_port, output):
        # Generate ARP packet
        if vlan_id != VLANID_NONE:
            ether_proto = ether.ETH_TYPE_8021Q
            pcp = 0
            cfi = 0
            vlan_ether = ether.ETH_TYPE_ARP
            v = vlan.vlan(pcp, cfi, vlan_id, vlan_ether)
        else:
            ether_proto = ether.ETH_TYPE_ARP
        hwtype = 1
        arp_proto = ether.ETH_TYPE_IP
        hlen = 6
        plen = 4

        pkt = packet.Packet()
        e = ethernet.ethernet(dst_mac, src_mac, ether_proto)
        a = arp.arp(hwtype, arp_proto, hlen, plen, arp_opcode, src_mac, src_ip,
                    arp_target_mac, dst_ip)
        pkt.add_protocol(e)
        if vlan_id != VLANID_NONE:
            pkt.add_protocol(v)
        pkt.add_protocol(a)
        pkt.serialize()

        # Send packet out
        self.send_packet_out(in_port, output, pkt.data, data_str=str(pkt))
コード例 #11
0
def generate_trace_pkt(entries, color, r_id):
    '''
        Receives the REST/PUT to generate a PacketOut
        data needs to be serialized
        template_trace.json is an example
    '''
    trace = {}
    switch = {}
    eth = {}
    ip = {}
    tp = {}

    # TODO Validate for dl_vlan. If empty, return error.

    dpid, in_port = 0, 65532
    dl_src, dl_dst = "ca:fe:ca:fe:00:00", "ca:fe:ca:fe:ca:fe"
    dl_vlan, dl_type = 100, 2048
    nw_src, nw_dst, nw_tos = '127.0.0.1', '127.0.0.1', 0
    tp_src, tp_dst = 1, 1

    try:
        trace = entries['trace']
        switch = trace['switch']
        eth = trace['eth']
        ip = trace['ip']
        tp = trace['tp']
    except:
        pass


    if len(switch) > 0:
        dpid, in_port = prepare_switch(switch, dpid, in_port)

    if len(eth) > 0:
        dl_src, dl_dst, dl_vlan, dl_type = prepare_ethernet(eth, dl_src, dl_dst,
                                                            dl_vlan, dl_type)
    if len(ip) > 0:
        nw_src, nw_dst, nw_tos = prepare_ip(ip, nw_src, nw_dst, nw_tos)

    if len(tp) > 0:
        tp_src, tp_dst = prepare_tp(tp, tp_src, tp_dst)

    pkt = packet.Packet()

    eth_pkt = ethernet.ethernet(dst=dl_dst, src=dl_src, ethertype=33024)
    vlan_pkt = vlan.vlan(vid=dl_vlan, ethertype=dl_type, pcp=int(color, 2))
    pkt.add_protocol(eth_pkt)
    pkt.add_protocol(vlan_pkt)

    if dl_type == 2048:
        ip_pkt = ipv4.ipv4(dst=str(nw_dst), src=str(nw_src), tos=nw_tos,
                           proto=6)
        pkt.add_protocol(ip_pkt)
        tp_pkt = tcp.tcp(dst_port=tp_dst, src_port=tp_src)
        pkt.add_protocol(tp_pkt)
        data = str(r_id)   # this will be the ID
        pkt.add_protocol(data)

    pkt.serialize()
    return in_port, pkt
コード例 #12
0
ファイル: exam.py プロジェクト: KitL/ofexam
    def match_to_packet(self, match):
        pkt = packet.Packet()
        l2 = ethernet.ethernet(
            dst=match.setdefault('eth_dst', "00:00:00:00:00:02"),
            src=match.setdefault('eth_src', "00:00:00:00:00:01"),
            ethertype=match.setdefault('eth_type', 0x800)
            )
        pkt.add_protocol(l2)
        if 'vlan_vid' in match:
            pkt.get_protocol(ethernet.ethernet).ethertype=0x8100
            vl = vlan.vlan(
                pcp=0,
                cfi=0,
                vid=match['vlan_vid'],
                ethertype=match['eth_type']
                )
            pkt.add_protocol(vl)
        l3 = ipv4.ipv4(
            src=match.setdefault('ipv4_src', "192.168.1.1"),
            dst=match.setdefault('ipv4_dst', "192.168.1.2")
            )
        pkt.add_protocol(l3)
        l4 = tcp.tcp(
            src_port=match.setdefault('tcp_src', 12345),
            dst_port=match.setdefault('tcp_dst', 80)
            )
        pkt.add_protocol(l4)

        pkt.serialize()
        return pkt
コード例 #13
0
    def _build_itag(self):
        b_src_mac = '00:07:0d:af:f4:54'
        b_dst_mac = '00:00:00:00:00:00'
        b_ethertype = ether.ETH_TYPE_8021AD
        e1 = ethernet.ethernet(b_dst_mac, b_src_mac, b_ethertype)

        b_pcp = 0
        b_cfi = 0
        b_vid = 32
        b_ethertype = ether.ETH_TYPE_8021Q
        bt = vlan.svlan(b_pcp, b_cfi, b_vid, b_ethertype)

        c_src_mac = '11:11:11:11:11:11'
        c_dst_mac = 'aa:aa:aa:aa:aa:aa'
        c_ethertype = ether.ETH_TYPE_8021AD
        e2 = ethernet.ethernet(c_dst_mac, c_src_mac, c_ethertype)

        s_pcp = 0
        s_cfi = 0
        s_vid = 32
        s_ethertype = ether.ETH_TYPE_8021Q
        st = vlan.svlan(s_pcp, s_cfi, s_vid, s_ethertype)

        c_pcp = 0
        c_cfi = 0
        c_vid = 32
        c_ethertype = ether.ETH_TYPE_IP
        ct = vlan.vlan(c_pcp, c_cfi, c_vid, c_ethertype)

        version = 4
        header_length = 20
        tos = 0
        total_length = 24
        identification = 0x8a5d
        flags = 0
        offset = 1480
        ttl = 64
        proto = inet.IPPROTO_ICMP
        csum = 0xa7f2
        src = '131.151.32.21'
        dst = '131.151.32.129'
        option = 'TEST'
        ip = ipv4.ipv4(version, header_length, tos, total_length,
                       identification, flags, offset, ttl, proto, csum, src,
                       dst, option)

        p = packet.Packet()

        p.add_protocol(e1)
        p.add_protocol(bt)
        p.add_protocol(self.it)
        p.add_protocol(e2)
        p.add_protocol(st)
        p.add_protocol(ct)
        p.add_protocol(ip)
        p.serialize()

        return p
コード例 #14
0
ファイル: mld_process.py プロジェクト: ntts-clo/mld-ryu
    def create_packet(self, vid, mld):
        self.logger.debug("")

        # VLAN
        vln = vlan.vlan(vid=vid, ethertype=ether.ETH_TYPE_IPV6)

        # Hop-By-Hop
        ext_headers = [ipv6.hop_opts(nxt=inet.IPPROTO_ICMPV6, data=[
            ipv6.option(type_=5, len_=2, data="\x00\x00"),
            ipv6.option(type_=1, len_=0)])]

        # MLDV2_Query
        if type(mld) == icmpv6.mldv2_query:
            eth_dst = self.QUERY_DST
            ip_dst = self.QUERY_DST_IP
            if mld.address != "::":
                ip_str = netaddr.ip.IPAddress(mld.address).\
                    format(netaddr.ipv6_verbose())
                eth_dst = "33:33:" + ip_str[30:32] + ":" + \
                    ip_str[32:34] + ":" + ip_str[35:37] + ":" + ip_str[37:39]
                ip_dst = mld.address

            # ETHER
            eth = ethernet.ethernet(
                ethertype=ether.ETH_TYPE_8021Q,
                src=self.ifinfo[self.IF_KEY_MAC], dst=eth_dst)

            # IPV6 with ExtensionHeader
            ip6 = ipv6.ipv6(
                src=self.ifinfo[self.IF_KEY_IP6], dst=ip_dst,
                hop_limit=1, nxt=inet.IPPROTO_HOPOPTS, ext_hdrs=ext_headers)

            # MLD Query
            icmp6 = icmpv6_extend(
                type_=icmpv6.MLD_LISTENER_QUERY, data=mld)

        # MLDV2_Report
        elif type(mld) == icmpv6.mldv2_report:
            # ETHER
            eth = ethernet.ethernet(
                ethertype=ether.ETH_TYPE_8021Q,
                src=self.ifinfo[self.IF_KEY_MAC], dst=self.REPORT_DST)

            # IPV6 with ExtensionHeader
            ip6 = ipv6.ipv6(
                src=self.ifinfo[self.IF_KEY_IP6], dst=self.REPORT_DST_IP,
                hop_limit=1, nxt=inet.IPPROTO_HOPOPTS, ext_hdrs=ext_headers)

            # MLD Report
            icmp6 = icmpv6_extend(
                type_=icmpv6.MLDV2_LISTENER_REPORT, data=mld)

        # ether - vlan - ipv6 - icmpv6 ( - mldv2 )
        sendpkt = eth / vln / ip6 / icmp6
        sendpkt.serialize()
        self.logger.debug("created packet(ryu) : %s", str(sendpkt))

        return sendpkt
コード例 #15
0
ファイル: test_pbb.py プロジェクト: AkiraSuu/ryu
    def _build_itag(self):
        b_src_mac = '00:07:0d:af:f4:54'
        b_dst_mac = '00:00:00:00:00:00'
        b_ethertype = ether.ETH_TYPE_8021AD
        e1 = ethernet.ethernet(b_dst_mac, b_src_mac, b_ethertype)

        b_pcp = 0
        b_cfi = 0
        b_vid = 32
        b_ethertype = ether.ETH_TYPE_8021Q
        bt = vlan.svlan(b_pcp, b_cfi, b_vid, b_ethertype)

        c_src_mac = '11:11:11:11:11:11'
        c_dst_mac = 'aa:aa:aa:aa:aa:aa'
        c_ethertype = ether.ETH_TYPE_8021AD
        e2 = ethernet.ethernet(c_dst_mac, c_src_mac, c_ethertype)

        s_pcp = 0
        s_cfi = 0
        s_vid = 32
        s_ethertype = ether.ETH_TYPE_8021Q
        st = vlan.svlan(s_pcp, s_cfi, s_vid, s_ethertype)

        c_pcp = 0
        c_cfi = 0
        c_vid = 32
        c_ethertype = ether.ETH_TYPE_IP
        ct = vlan.vlan(c_pcp, c_cfi, c_vid, c_ethertype)

        version = 4
        header_length = 20
        tos = 0
        total_length = 24
        identification = 0x8a5d
        flags = 0
        offset = 1480
        ttl = 64
        proto = inet.IPPROTO_ICMP
        csum = 0xa7f2
        src = '131.151.32.21'
        dst = '131.151.32.129'
        option = 'TEST'
        ip = ipv4.ipv4(version, header_length, tos, total_length,
                       identification, flags, offset, ttl, proto, csum,
                       src, dst, option)

        p = packet.Packet()

        p.add_protocol(e1)
        p.add_protocol(bt)
        p.add_protocol(self.it)
        p.add_protocol(e2)
        p.add_protocol(st)
        p.add_protocol(ct)
        p.add_protocol(ip)
        p.serialize()

        return p
コード例 #16
0
 def SetVlanTag(self, ev, datapath, in_port):
     dpid = datapath.id
     vlan_tag = port_vlan[dpid - 1][in_port - 1]
     msg = ev.msg
     pkt = packet.Packet(msg.data)
     pkt.add_protocol(
         vlan.vlan(vid=vlan_tag, ethertype=ether.ETH_TYPE_8021Q))
     print "add vlan tag"
     return pkt
コード例 #17
0
 def createPacket(self, src, dst, srcip, dstip):
     # create send packet
     sendpkt = packet.Packet()
     sendpkt.add_protocol(ethernet.ethernet(ethertype=ether.ETH_TYPE_8021Q, dst=dst, src=src))
     sendpkt.add_protocol(vlan.vlan(pcp=0, cfi=0, vid=100, ethertype=ether.ETH_TYPE_IPV6))
     sendpkt.add_protocol(ipv6.ipv6(src=srcip, dst=dstip, nxt=inet.IPPROTO_ICMPV6))
     sendpkt.add_protocol(icmpv6.icmpv6(type_=icmpv6.ICMPV6_MEMBERSHIP_QUERY,
                             data=icmpv6.mldv2_query(address='ff38::1')))
     sendpkt.serialize()
     return sendpkt
コード例 #18
0
ファイル: ctr_ext_v02.py プロジェクト: hadik3r/Pishahang
    def _handle_arp(self, datapath, in_port, vlan_id, eth_pkt, vlan_pkt,
                    arp_pkt):

        # check if it is an arp request
        if arp_pkt.opcode != arp.ARP_REQUEST:
            return

        # variable population
        arp_dst_ip = arp_pkt.dst_ip
        arp_src_mac = arp_pkt.src_mac
        arp_src_ip = arp_pkt.src_ip
        vlan_exist = False
        print(in_port, vlan_id, arp_src_ip, arp_dst_ip, arp_src_mac)

        # save SRC IP and MAC for later use
        for i in range(len(self.vlan_src_ip_mac)):
            if vlan_id == self.vlan_src_ip_mac[i]['vlan']:
                vlan_exist = True
                break
        if vlan_exist == False:
            self.vlan_src_ip_mac.append({
                "vlan": vlan_id,
                "MAC": arp_src_mac,
                "IP": arp_src_ip
            })
        self.logger.info(
            "SRC_MAC_IP_VLAN table has been updated! = {0}".format(
                self.vlan_src_ip_mac))

        # create ARP Response
        if arp_dst_ip == HOST_IP:
            # create ethernet
            pkt = packet.Packet()
            pkt.add_protocol(
                ethernet.ethernet(ethertype=ether.ETH_TYPE_8021Q,
                                  dst=arp_src_mac,
                                  src=HOST_MAC))
            # add vlan tag
            pkt.add_protocol(
                vlan.vlan(vid=vlan_id, ethertype=ether.ETH_TYPE_ARP))

            #add arp header
            pkt.add_protocol(
                arp.arp(proto=0x0800,
                        opcode=arp.ARP_REPLY,
                        src_ip=arp_dst_ip,
                        dst_ip=arp_src_ip,
                        src_mac=HOST_MAC,
                        dst_mac=arp_src_mac))

            self._send_packet(datapath, in_port, pkt)

        else:
            return
コード例 #19
0
 def test_pkt_in_filter_pass(self):
     datapath = ProtocolDesc(version=ofproto_v1_3.OFP_VERSION)
     e = ethernet.ethernet(mac.BROADCAST_STR, mac.BROADCAST_STR,
                           ether.ETH_TYPE_8021Q)
     v = vlan.vlan()
     i = ipv4.ipv4()
     pkt = (e / v / i)
     pkt.serialize()
     pkt_in = ofproto_v1_3_parser.OFPPacketIn(datapath,
                                              data=buffer(pkt.data))
     ev = ofp_event.EventOFPPacketIn(pkt_in)
     ok_(self.app.packet_in_handler(ev))
コード例 #20
0
ファイル: test_valve.py プロジェクト: nfz1/faucet
def build_pkt(pkt):
    """Build and return a packet and eth type from a dict."""
    layers = []
    assert 'eth_dst' in pkt and 'eth_src' in pkt
    ethertype = None
    if 'arp_source_ip' in pkt and 'arp_target_ip' in pkt:
        ethertype = ether.ETH_TYPE_ARP
        layers.append(
            arp.arp(src_ip=pkt['arp_source_ip'], dst_ip=pkt['arp_target_ip']))
    elif 'ipv6_src' in pkt and 'ipv6_dst' in pkt:
        ethertype = ether.ETH_TYPE_IPV6
        if 'neighbor_solicit_ip' in pkt:
            layers.append(
                icmpv6.icmpv6(
                    type_=icmpv6.ND_NEIGHBOR_SOLICIT,
                    data=icmpv6.nd_neighbor(
                        dst=pkt['neighbor_solicit_ip'],
                        option=icmpv6.nd_option_sla(hw_src=pkt['eth_src']))))
        elif 'echo_request_data' in pkt:
            layers.append(
                icmpv6.icmpv6(type_=icmpv6.ICMPV6_ECHO_REQUEST,
                              data=icmpv6.echo(id_=1,
                                               seq=1,
                                               data=pkt['echo_request_data'])))
        layers.append(
            ipv6.ipv6(src=pkt['ipv6_src'],
                      dst=pkt['ipv6_dst'],
                      nxt=inet.IPPROTO_ICMPV6))
    elif 'ipv4_src' in pkt and 'ipv4_dst' in pkt:
        ethertype = ether.ETH_TYPE_IP
        proto = inet.IPPROTO_IP
        if 'echo_request_data' in pkt:
            echo = icmp.echo(id_=1, seq=1, data=pkt['echo_request_data'])
            layers.append(icmp.icmp(type_=icmp.ICMP_ECHO_REQUEST, data=echo))
            proto = inet.IPPROTO_ICMP
        net = ipv4.ipv4(src=pkt['ipv4_src'], dst=pkt['ipv4_dst'], proto=proto)
        layers.append(net)
    assert ethertype is not None, pkt
    if 'vid' in pkt:
        tpid = ether.ETH_TYPE_8021Q
        layers.append(vlan.vlan(vid=pkt['vid'], ethertype=ethertype))
    else:
        tpid = ethertype
    eth = ethernet.ethernet(dst=pkt['eth_dst'],
                            src=pkt['eth_src'],
                            ethertype=tpid)
    layers.append(eth)
    layers = [layer for layer in reversed(layers)]
    result = packet.Packet()
    for layer in layers:
        result.add_protocol(layer)
    result.serialize()
    return (result, ethertype)
コード例 #21
0
 def test_pkt_in_filter_pass(self):
     datapath = ProtocolDesc(version=ofproto_v1_3.OFP_VERSION)
     e = ethernet.ethernet(mac.BROADCAST_STR,
                           mac.BROADCAST_STR,
                           ether.ETH_TYPE_8021Q)
     v = vlan.vlan()
     i = ipv4.ipv4()
     pkt = (e / v / i)
     pkt.serialize()
     pkt_in = ofproto_v1_3_parser.OFPPacketIn(datapath,
                                              data=six.binary_type(pkt.data))
     ev = ofp_event.EventOFPPacketIn(pkt_in)
     ok_(self.app.packet_in_handler(ev))
コード例 #22
0
 def test_pkt_in_filter_pass(self):
     datapath = _Datapath()
     e = ethernet.ethernet(mac.BROADCAST_STR,
                           mac.BROADCAST_STR,
                           ether.ETH_TYPE_8021Q)
     v = vlan.vlan()
     i = ipv4.ipv4()
     pkt = (e / v / i)
     pkt.serialize()
     pkt_in = ofproto_v1_3_parser.OFPPacketIn(datapath,
                                              data=buffer(pkt.data))
     ev = ofp_event.EventOFPPacketIn(pkt_in)
     ok_(self.app.packet_in_handler(ev))
コード例 #23
0
 def build_ethernet_pkt(self, eth_dst, in_port, vlan, ethertype):
     pkt = packet.Packet()
     if vlan.port_is_tagged(in_port):
         eth_pkt = ethernet.ethernet(
             eth_dst, self.FAUCET_MAC, ether.ETH_TYPE_8021Q)
         vlan_pkt = packet_vlan.vlan(
             vid=vlan.vid, ethertype=ethertype)
         pkt.add_protocol(eth_pkt)
         pkt.add_protocol(vlan_pkt)
     else:
         eth_pkt = ethernet.ethernet(
             eth_dst, self.FAUCET_MAC, ethertype)
         pkt.add_protocol(eth_pkt)
     return pkt
コード例 #24
0
ファイル: valve.py プロジェクト: dr-clark/faucet
 def build_ethernet_pkt(self, eth_dst, in_port, vlan, ethertype):
     pkt = packet.Packet()
     if vlan.port_is_tagged(in_port):
         eth_pkt = ethernet.ethernet(
             eth_dst, self.FAUCET_MAC, ether.ETH_TYPE_8021Q)
         vlan_pkt = packet_vlan.vlan(
             vid=vlan.vid, ethertype=ethertype)
         pkt.add_protocol(eth_pkt)
         pkt.add_protocol(vlan_pkt)
     else:
         eth_pkt = ethernet.ethernet(
             eth_dst, self.FAUCET_MAC, ethertype)
         pkt.add_protocol(eth_pkt)
     return pkt
コード例 #25
0
    def create_packet(self, primary_ip_address, vlan_id=None):
        """Prepare a VRRP packet.

        Returns a newly created ryu.lib.packet.packet.Packet object
        with appropriate protocol header objects added by add_protocol().
        It's caller's responsibility to serialize().
        The serialized packet would looks like the ones described in
        the following sections.

        * RFC 3768 5.1. VRRP Packet Format
        * RFC 5798 5.1. VRRP Packet Format

        ================== ====================
        Argument           Description
        ================== ====================
        primary_ip_address Source IP address
        vlan_id            VLAN ID.  None for no VLAN.
        ================== ====================
        """
        if self.is_ipv6:
            traffic_class = 0xc0        # set tos to internetwork control
            flow_label = 0
            payload_length = ipv6.ipv6._MIN_LEN + len(self)     # XXX _MIN_LEN
            e = ethernet.ethernet(VRRP_IPV6_DST_MAC_ADDRESS,
                                  vrrp_ipv6_src_mac_address(self.vrid),
                                  ether.ETH_TYPE_IPV6)
            ip = ipv6.ipv6(6, traffic_class, flow_label, payload_length,
                           inet.IPPROTO_VRRP, VRRP_IPV6_HOP_LIMIT,
                           primary_ip_address, VRRP_IPV6_DST_ADDRESS)
        else:
            header_length = ipv4.ipv4._MIN_LEN / 4      # XXX _MIN_LEN
            total_length = 0
            tos = 0xc0  # set tos to internetwork control
            identification = self.get_identification()
            e = ethernet.ethernet(VRRP_IPV4_DST_MAC_ADDRESS,
                                  vrrp_ipv4_src_mac_address(self.vrid),
                                  ether.ETH_TYPE_IP)
            ip = ipv4.ipv4(4, header_length, tos, total_length, identification,
                           0, 0, VRRP_IPV4_TTL, inet.IPPROTO_VRRP, 0,
                           primary_ip_address, VRRP_IPV4_DST_ADDRESS)

        p = packet.Packet()
        p.add_protocol(e)
        if vlan_id is not None:
            vlan_ = vlan.vlan(0, 0, vlan_id, e.ethertype)
            e.ethertype = ether.ETH_TYPE_8021Q
            p.add_protocol(vlan_)
        p.add_protocol(ip)
        p.add_protocol(self)
        return p
コード例 #26
0
 def encapsulate_dot1q(self, pkt, tag):
     eth = pkt.get_protocol(ethernet.ethernet)
     if not eth:
         return
     e = pkt.protocols.pop(0)
     assert (eth == e)
     eth_rep = ethernet.ethernet(ethertype=ether_types.ETH_TYPE_8021Q,
                                 dst=eth.dst,
                                 src=eth.src)
     vlan_rep = vlan.vlan(vid=tag, ethertype=eth.ethertype)
     pkt.protocols.insert(0, eth_rep)
     pkt.protocols.insert(1, vlan_rep)
     pkt.serialize()
     return pkt
コード例 #27
0
    def _handle_arp(self, datapath, port, pkt_ethernet, pkt_arp, pkt_vlan):
        if pkt_arp.opcode != arp.ARP_REQUEST:
            return

        # check for dst_ip's matching MAC #

        dst_mac = pkt_ethernet.dst #unknown value
        src_mac = pkt_ethernet.src
        dst_ip = pkt_arp.dst_ip
        src_ip = pkt_arp.src_ip

        dpid = datapath.id
        self.ip_to_mac.setdefault(dpid, {})

        self.logger.info("packet in %s %s %s %s", dpid, src_mac, dst_mac, port)

        # learn mac address to avoid DROP.
        self.ip_to_mac[dpid][src_ip] = src_mac

        if dst_ip in self.ip_to_mac[dpid]:
            dst_mac = self.ip_to_mac[dpid][dst_ip]
        else:
             # Requested MAC address is unknown.
             # There is nothing we can do without flood.
             return


        # build arp reply #

        pkt = packet.Packet()
        e = ethernet.ethernet(ethertype=pkt_ethernet.ethertype,
                              dst=src_mac,
                              src=dst_mac)

        v = vlan.vlan(pcp=pkt_vlan.pcp,
                      cfi=pkt_vlan.cfi,
                      vid=pkt_vlan.vid,
                      ethertype=pkt_vlan.ethertype)

        a = arp.arp(opcode=arp.ARP_REPLY,
                    src_mac=dst_mac,
                    src_ip=dst_ip,
                    dst_mac=src_mac,
                    dst_ip=src_ip)

        pkt.add_protocol(e)
        pkt.add_protocol(v)
        pkt.add_protocol(a)

        self._send_packet(datapath, port, pkt)
コード例 #28
0
ファイル: test_arp.py プロジェクト: Ashwini130/cloudnetmooc
    def _build_arp(self, vlan_enabled):
        if vlan_enabled is True:
            ethertype = ether.ETH_TYPE_8021Q
            v = vlan(1, 1, 3, ether.ETH_TYPE_ARP)
        else:
            ethertype = ether.ETH_TYPE_ARP
        e = ethernet(self.dst_mac, self.src_mac, ethertype)
        p = Packet()

        p.add_protocol(e)
        if vlan_enabled is True:
            p.add_protocol(v)
        p.add_protocol(self.a)
        p.serialize()
        return p
コード例 #29
0
ファイル: utils.py プロジェクト: Qazzzz/ryu
def may_add_vlan(packet, vlan_id):
    """
    :type packet: ryu.lib.packet.packet.Packet
    :param packet:
    :type vlan_id: int (0 <= vlan_id <= 4095) or None (= No VLAN)
    :param vlan_id:
    """
    if vlan_id is None:
        return

    e = packet.protocols[0]
    assert isinstance(e, ethernet.ethernet)
    v = vlan.vlan(0, 0, vlan_id, e.ethertype)
    e.ethertype = ether.ETH_TYPE_8021Q
    packet.add_protocol(v)
コード例 #30
0
ファイル: utils.py プロジェクト: altusnets/ryu
def may_add_vlan(packet, vlan_id):
    """
    :type packet: ryu.lib.packet.packet.Packet
    :param packet:
    :type vlan_id: int (0 <= vlan_id <= 4095) or None (= No VLAN)
    :param vlan_id:
    """
    if vlan_id is None:
        return

    e = packet.protocols[0]
    assert isinstance(e, ethernet.ethernet)
    v = vlan.vlan(0, 0, vlan_id, e.ethertype)
    e.ethertype = ether.ETH_TYPE_8021Q
    packet.add_protocol(v)
コード例 #31
0
 def Set_Trunk_Vlan(self, ev, datapath, in_port, src):
     dpid = datapath.id
     msg = ev.msg
     pkt = packet.Packet(msg.data)
     for i in range(0, len(trunk_ports)):
         if i == dpid - 1:
             continue
         else:
             # search the vlan tag
             for j in port_vlan[i]:
                 # for the naive vlan
                 print(" the vlan to port is", self.vlan_to_port)
                 print(" the mac to port is", self.mac_to_port)
                 if j != 0:
                     if src in self.vlan_to_port[i + 1][j]:
                         check_port = self.vlan_to_port[i + 1][j][src]
                         vlan_tag = port_vlan[i][check_port - 1]
                         pkt.add_protocol(
                             vlan.vlan(vid=vlan_tag,
                                       ethertype=ether.ETH_TYPE_8021Q))
                         print "add the trunk vlan tag"
                         # dpid = i + 1
                         # src_vlan = j
                         record_ij[0] = i + 1
                         record_ij[1] = j
                         return pkt
                 # for the normal
                 else:
                     if src in self.mac_to_port[i + 1]:
                         check_port = self.mac_to_port[i + 1][src]
                         vlan_tag = 0
                         pkt.add_protocol(
                             vlan.vlan(vid=vlan_tag,
                                       ethertype=ether.ETH_TYPE_8021Q))
                         print "add the trunk normal tag"
                         return pkt
コード例 #32
0
ファイル: test_arp.py プロジェクト: 5g-empower/empower-ryu
    def _build_arp(self, vlan_enabled):
        if vlan_enabled is True:
            ethertype = ether.ETH_TYPE_8021Q
            v = vlan(1, 1, 3, ether.ETH_TYPE_ARP)
        else:
            ethertype = ether.ETH_TYPE_ARP
        e = ethernet(self.dst_mac, self.src_mac, ethertype)
        p = Packet()

        p.add_protocol(e)
        if vlan_enabled is True:
            p.add_protocol(v)
        p.add_protocol(self.a)
        p.serialize()
        return p
コード例 #33
0
ファイル: ofctl_utils.py プロジェクト: phx1999/SDN
    def send_arp(self, arp_opcode, vlan_id, dst_mac, sender_mac, sender_ip,
                 target_ip, target_mac, src_port, output_port):
        """
        Generate an ARP packet and send it
        Arguments:
        arp_opcode    -- Opcode for message
        vlan_id       -- VLAN identifier, or VLANID_NONE
        dst_mac       -- Destination to send the packet (not an ARP field)
        sender_mac    -- Sender hardware address
        sender_ip     -- Sender protocol address
        target_mac    -- Target hardware address
        target_ip     -- Target protocol address
        src_port      -- Source port number for sending message (can be OFPP_CONTROLLER)
        output_port   -- Outgoing port number to send message
        """

        if vlan_id != VLANID_NONE:
            ether_proto = ether.ETH_TYPE_8021Q
            pcp = 0
            cfi = 0
            vlan_ether = ether.ETH_TYPE_ARP
            v = vlan.vlan(pcp, cfi, vlan_id, vlan_ether)
        else:
            ether_proto = ether.ETH_TYPE_ARP
        hwtype = 1
        arp_proto = ether.ETH_TYPE_IP
        hlen = 6
        plen = 4

        pkt = packet.Packet()
        e = ethernet.ethernet(dst_mac, sender_mac, ether_proto)
        a = arp.arp(hwtype, arp_proto, hlen, plen, arp_opcode, sender_mac,
                    sender_ip, target_mac, target_ip)
        pkt.add_protocol(e)
        if vlan_id != VLANID_NONE:
            pkt.add_protocol(v)
        pkt.add_protocol(a)
        pkt.serialize()
        print(sender_mac)
        print(sender_ip)
        print(target_mac)
        print(target_ip)

        # Send packet out
        self.send_packet_out(src_port,
                             output_port,
                             pkt.data,
                             data_str=str(pkt))
コード例 #34
0
    def send_tcp_pke(self, datapath, port, vlan_id, dst_ip, src_ip,
                     src_mac, dst_mac, dport, sport=61300):
        seq = 0
        ack = 0
        offset = 6
        window_size = 8192
        urgent = 0
        option = [tcp.TCPOptionWindowScale(shift_cnt=9),
                  tcp.TCPOptionSACKPermitted(length=2),
                  tcp.TCPOptionTimestamps(ts_val=287454020, ts_ecr=1432778632)]
        if vlan_id != 0:
            ether_proto = ether.ETH_TYPE_8021Q
            vlan_ether = ether.ETH_TYPE_IP
            v = vlan.vlan(0, 0, vlan_id, vlan_ether)
            offset += vlan.vlan._MIN_LEN
        else:
            ether_proto = ether.ETH_TYPE_IP
        pkt = packet.Packet()
        # Add ethernet protocol with ether type IP protocol and mac addresses
        pkt.add_protocol(ethernet.ethernet(ethertype=ether_proto,
                                           dst=dst_mac,
                                           src=src_mac))

        # Add ipv4 protocol with IP addresses and TCP protocol which is 6
        ipv4_pkt = ipv4.ipv4(dst=dst_ip,
                             src=src_ip,
                             proto=6,
                             flags=2)
        pkt.add_protocol(ipv4_pkt)

        # Add tcp protocol with port numbers and sequence number
        tcp_pkt = tcp.tcp(src_port=sport,
                          dst_port=dport,
                          seq=seq,
                          ack=ack,
                          offset=offset,
                          bits=tcp.TCP_SYN,
                          window_size=window_size,
                          urgent=urgent,
                          option=option)
        tcp_pkt.has_flags(tcp.TCP_SYN)
        pkt.add_protocol(tcp_pkt)

        if vlan_id != 0:
            pkt.add_protocol(v)
        self._send_packet(datapath, pkt, port)
コード例 #35
0
    def assemble_arp(self, opcode, src_mac, src_ip, dst_ip, vlan_id=0):
        pkt = packet.Packet()
        offset = ethernet.ethernet._MIN_LEN
        if int(vlan_id) != 0:
            ether_proto = ether.ETH_TYPE_8021Q
            vlan_ether = ether.ETH_TYPE_ARP
            v = vlan.vlan(0, 0, int(vlan_id), vlan_ether)
            offset += vlan.vlan._MIN_LEN
        else:
            ether_proto = ether.ETH_TYPE_ARP

        e = ethernet.ethernet('ff:ff:ff:ff:ff:ff', src_mac, ether_proto)
        a = arp.arp(1, 0x0800, 6, 4, opcode, src_mac, src_ip, '00:00:00:00:00:00', dst_ip)
        if int(vlan_id) != 0:
            pkt.add_protocol(v)
        pkt.add_protocol(e)
        pkt.add_protocol(a)
        return pkt
コード例 #36
0
ファイル: pipette.py プロジェクト: cglewis/pipette
 def packet_in_handler(self, event):
     if event.msg.match['in_port'] != FAKEPORT:
         return
     pkt = packet.Packet(event.msg.data)
     eth_protocol = pkt.get_protocol(ethernet.ethernet)
     vlan_protocol = pkt.get_protocol(vlan.vlan)
     ipv6_protocol = pkt.get_protocol(ipv6.ipv6)
     icmpv6_protocol = pkt.get_protocol(icmpv6.icmpv6)
     if not (eth_protocol and vlan_protocol and ipv6_protocol
             and icmpv6_protocol):
         return
     if icmpv6_protocol.type_ != icmpv6.ND_NEIGHBOR_SOLICIT:
         return
     if int(ipaddress.ip_address(ipv6_protocol.src)) == 0:
         return
     src_ip = ipaddress.ip_address(icmpv6_protocol.data.dst)
     if src_ip.is_reserved:
         return
     eth_dst = eth_protocol.src
     dst_ip = ipv6_protocol.src
     eth_src = FAKECLIENTMAC
     vid = vlan_protocol.vid
     reply = packet.Packet()
     for protocol in (ethernet.ethernet(eth_dst, eth_src,
                                        ether.ETH_TYPE_8021Q),
                      vlan.vlan(vid=vid, ethertype=ether.ETH_TYPE_IPV6),
                      ipv6.ipv6(src=src_ip,
                                dst=dst_ip,
                                nxt=socket.IPPROTO_ICMPV6,
                                hop_limit=255),
                      icmpv6.icmpv6(
                          type_=icmpv6.ND_NEIGHBOR_ADVERT,
                          data=icmpv6.nd_neighbor(
                              dst=src_ip,
                              option=icmpv6.nd_option_tla(hw_src=eth_src),
                              res=7))):
         reply.add_protocol(protocol)
     reply.serialize()
     out = parser.OFPPacketOut(datapath=event.msg.datapath,
                               buffer_id=ofp.OFP_NO_BUFFER,
                               in_port=ofp.OFPP_CONTROLLER,
                               actions=[parser.OFPActionOutput(FAKEPORT)],
                               data=reply.data)
     self.send_mods(event.msg.datapath, [out])
コード例 #37
0
def prepare_lldp_packet(node, port, vlan_id):
    """
        Prepare the LLDP frame to be used by PacketOut
        Args:
            node: destination node
            port: destination port
            vlan_id: vlan tag to be added to pkt
        Returns:
            an Ethernet+LLDP frame (data field of PacketOut)
    """

    pkt = packet.Packet()
    # Generate Ethernet frame
    dst = lldp.LLDP_MAC_NEAREST_BRIDGE
    src = 'ca:fe:ca:fe:ca:fe'
    vlan_pkt = None

    if vlan_id > 1:
        ethertype = ether.ETH_TYPE_8021Q
        vlan_pkt = vlan.vlan(vid=vlan_id, ethertype=ether.ETH_TYPE_LLDP)
    else:
        ethertype = ether.ETH_TYPE_LLDP

    eth_pkt = ethernet.ethernet(dst, src, ethertype)
    pkt.add_protocol(eth_pkt)

    if vlan_id > 1:
        pkt.add_protocol(vlan_pkt)

    # Generate LLDP packet
    dp = '%016x' % node.dpid
    chassis_subtype = lldp.ChassisID.SUB_LOCALLY_ASSIGNED
    tlv_chassis_id = lldp.ChassisID(subtype=chassis_subtype,
                                    chassis_id=dp)
    tlv_port_id = lldp.PortID(subtype=lldp.PortID.SUB_PORT_COMPONENT,
                              port_id=(b'%s' % port))
    tlv_ttl = lldp.TTL(ttl=120)
    tlv_end = lldp.End()
    tlvs = (tlv_chassis_id, tlv_port_id, tlv_ttl, tlv_end)
    lldp_pkt = lldp.lldp(tlvs)
    pkt.add_protocol(lldp_pkt)
    pkt.serialize()

    return pkt
コード例 #38
0
    def build_udp(self):
        #dst = '1' * 6
	dst = '00:00:00:00:00:01'
        src = '00:00:00:00:00:02' 
        ethertype = ether.ETH_TYPE_8021Q
        e = ethernet.ethernet(dst, src, ethertype)
        v = vlan.vlan(1, 1, 3, ether.ETH_TYPE_IP)

        ip = ipv4.ipv4(4, 5, 0, 0, 0, 0, 0, 255, 17, 33, '192.168.1.1', '192.168.1.11')
        u = udp.udp(12, 34, 0)
        p = packet.Packet()
        p.add_protocol(e)
        p.add_protocol(v)
        p.add_protocol(ip)
        p.add_protocol(u)
	#data content
        p.add_protocol("123456789")
        p.serialize()
        return p
コード例 #39
0
ファイル: ys_switches.py プロジェクト: linuxxunil/ys-ryu
    def lldp_packet(dpid, port_no, dl_addr, ttl, vlan_vid):
	# by jesse : add vlan
        if vlan_vid != VLANID_NONE:
	    ether_proto = ETH_TYPE_8021Q
	    pcp = 0
	    cfi = 0
	    vlan_ether = ETH_TYPE_LLDP
	    v = vlan.vlan(pcp, cfi, vlan_vid, vlan_ether)

	    dst = lldp.LLDP_MAC_NEAREST_BRIDGE
	    src = dl_addr
	    pkt = packet.Packet()
	    e = ethernet.ethernet(dst, src, ether_proto)
	    pkt.add_protocol(e)
	    pkt.add_protocol(v)
	else:
            pkt = packet.Packet()
            dst = lldp.LLDP_MAC_NEAREST_BRIDGE
            src = dl_addr
            ethertype = ETH_TYPE_LLDP
            eth_pkt = ethernet.ethernet(dst, src, ethertype)
            pkt.add_protocol(eth_pkt)

        tlv_chassis_id = lldp.ChassisID(
            subtype=lldp.ChassisID.SUB_LOCALLY_ASSIGNED,
            chassis_id=LLDPPacket.CHASSIS_ID_FMT %
            dpid_to_str(dpid))

        tlv_port_id = lldp.PortID(subtype=lldp.PortID.SUB_PORT_COMPONENT,
                                  port_id=struct.pack(
                                      LLDPPacket.PORT_ID_STR,
                                      port_no))

        tlv_ttl = lldp.TTL(ttl=ttl)
        tlv_end = lldp.End()

        tlvs = (tlv_chassis_id, tlv_port_id, tlv_ttl, tlv_end)
        lldp_pkt = lldp.lldp(tlvs)
        pkt.add_protocol(lldp_pkt)

        pkt.serialize()
        return pkt.data
コード例 #40
0
ファイル: valve_packet.py プロジェクト: yulinrm/faucet
def build_pkt_header(vid, eth_src, eth_dst, dl_type):
    """Return an Ethernet packet header.

    Args:
        vid (int or None): VLAN VID to use (or None).
        eth_src (str): source Ethernet MAC address.
        eth_dst (str): destination Ethernet MAC address.
        dl_type (int): EtherType.
    Returns:
        ryu.lib.packet.ethernet: Ethernet packet with header.
    """
    pkt_header = packet.Packet()
    if vid is None:
        eth_header = ethernet.ethernet(eth_dst, eth_src, dl_type)
        pkt_header.add_protocol(eth_header)
    else:
        eth_header = ethernet.ethernet(eth_dst, eth_src, ether.ETH_TYPE_8021Q)
        pkt_header.add_protocol(eth_header)
        vlan_header = vlan.vlan(vid=vid, ethertype=dl_type)
        pkt_header.add_protocol(vlan_header)
    return pkt_header
コード例 #41
0
    def test_smoke_packet_in(self):
        nd_solicit = packet.Packet()
        eth_src = '01:02:03:04:05:06'
        eth_dst = 'ff:ff:ff:ff:ff:ff'
        src_ip = 'fc00::1'
        dst_ip = 'fc00::2'
        vid = 2
        for protocol in (
                ethernet.ethernet(eth_dst, eth_src, ether.ETH_TYPE_8021Q),
                vlan.vlan(vid=vid, ethertype=ether.ETH_TYPE_IPV6),
                ipv6.ipv6(src=src_ip, dst=dst_ip, nxt=socket.IPPROTO_ICMPV6, hop_limit=255),
                icmpv6.icmpv6(
                    type_=icmpv6.ND_NEIGHBOR_SOLICIT,
                    data=icmpv6.nd_neighbor(dst=src_ip, option=icmpv6.nd_option_tla(hw_src=eth_src), res=7))):
            nd_solicit.add_protocol(protocol)
        nd_solicit.serialize()


        fake_dp = FakeDP()
        fake_pipette = Pipette(dpset={})

        class FakeMsg:

            def __init__(self):
                self.datapath = fake_dp
                self.match = {'in_port': FAKEPORT}
                self.data = nd_solicit.data


        class FakePiEv:

            def __init__(self):
                self.msg = FakeMsg()


        fake_pipette = Pipette(dpset={})
        fake_pipette.packet_in_handler(FakePiEv())
        assert fake_dp.msgs
コード例 #42
0
    def _build_svlan(self):
        src_mac = '00:07:0d:af:f4:54'
        dst_mac = '00:00:00:00:00:00'
        ethertype = ether.ETH_TYPE_8021AD
        e = ethernet(dst_mac, src_mac, ethertype)

        pcp = 0
        cfi = 0
        vid = 32
        tci = pcp << 15 | cfi << 12 | vid
        ethertype = ether.ETH_TYPE_IP
        v = vlan(pcp, cfi, vid, ethertype)

        version = 4
        header_length = 20
        tos = 0
        total_length = 24
        identification = 0x8a5d
        flags = 0
        offset = 1480
        ttl = 64
        proto = inet.IPPROTO_ICMP
        csum = 0xa7f2
        src = '131.151.32.21'
        dst = '131.151.32.129'
        option = 'TEST'
        ip = ipv4(version, header_length, tos, total_length, identification,
                  flags, offset, ttl, proto, csum, src, dst, option)

        p = Packet()

        p.add_protocol(e)
        p.add_protocol(self.sv)
        p.add_protocol(v)
        p.add_protocol(ip)
        p.serialize()

        return p
コード例 #43
0
    def _build_svlan(self):
        src_mac = '00:07:0d:af:f4:54'
        dst_mac = '00:00:00:00:00:00'
        ethertype = ether.ETH_TYPE_8021AD
        e = ethernet(dst_mac, src_mac, ethertype)

        pcp = 0
        cfi = 0
        vid = 32
        tci = pcp << 15 | cfi << 12 | vid
        ethertype = ether.ETH_TYPE_IP
        v = vlan(pcp, cfi, vid, ethertype)

        version = 4
        header_length = 20
        tos = 0
        total_length = 24
        identification = 0x8a5d
        flags = 0
        offset = 1480
        ttl = 64
        proto = inet.IPPROTO_ICMP
        csum = 0xa7f2
        src = '131.151.32.21'
        dst = '131.151.32.129'
        option = b'TEST'
        ip = ipv4(version, header_length, tos, total_length, identification,
                  flags, offset, ttl, proto, csum, src, dst, option)

        p = Packet()

        p.add_protocol(e)
        p.add_protocol(self.sv)
        p.add_protocol(v)
        p.add_protocol(ip)
        p.serialize()

        return p
コード例 #44
0
 def assemble_icmp(self, vlanid, dst_ip, dst_mac, src_ip, src_mac, csum, identification):
     offset = ethernet.ethernet._MIN_LEN
     if vlanid != 0:
         ether_proto = ether.ETH_TYPE_8021Q
         vlan_ether = ether.ETH_TYPE_IP
         v = vlan.vlan(0, 0, vlanid, vlan_ether)
         offset += vlan.vlan._MIN_LEN
     else:
         ether_proto = ether.ETH_TYPE_IP
     pkt = packet.Packet()
     if vlanid != 0:
         pkt.add_protocol(v)
     pkt.add_protocol(ethernet.ethernet(ethertype=ether_proto,
                                        dst=dst_mac,
                                        src=src_mac))
     pkt.add_protocol(ipv4.ipv4(dst=dst_ip,
                                src=src_ip,
                                csum=csum,
                                identification=identification,
                                total_length=60,
                                ttl=127,
                                proto=1))
     return pkt
コード例 #45
0
    def encode_in_place(self, pyr, pkt):
        if (not 'vlan_id' in pyr and not 'vlan_pcp' in pyr
                and vlan.vlan in pkt):
            for idx, proto in enumerate(pkt.protocols):
                if isinstance(proto, vlan.vlan):
                    pkt.protocols.pop(idx)

            return pyr

        if not 'vlan_id' in pyr:
            return pyr

        if not vlan.vlan in pkt:
            pkt.protocols.insert(
                1, vlan.vlan(ethertype=pkt.protocols[0].ethertype))

        gen = (protocol for protocol in pkt.protocols
               if protocol.__class__ == vlan.vlan)
        vl = gen.next()
        vl.vid = pyr['vlan_id']
        pkt.protocols[0].ethertype = VLAN

        return pyr
コード例 #46
0
ファイル: valve_packet.py プロジェクト: Baloc/faucet
def build_pkt_header(eth_src, eth_dst, vid, dl_type):
    """Return an Ethernet packet header.

    Args:
        eth_src (str): source Ethernet MAC address.
        eth_dst (str): destination Ethernet MAC address.
        vid (int or None): VLAN VID to use (or None)
        dl_type (int): EtherType.
    Returns:
        ryu.lib.packet.ethernet: Ethernet packet with header.
    """
    pkt_header = packet.Packet()
    if vid is None:
        eth_header = ethernet.ethernet(
            eth_dst, eth_src, dl_type)
        pkt_header.add_protocol(eth_header)
    else:
        eth_header = ethernet.ethernet(
            eth_dst, eth_src, ether.ETH_TYPE_8021Q)
        pkt_header.add_protocol(eth_header)
        vlan_header = vlan.vlan(vid=vid, ethertype=dl_type)
        pkt_header.add_protocol(vlan_header)
    return pkt_header
コード例 #47
0
ファイル: dhcpd.py プロジェクト: chenleji/ryu
    def _respond_dhcp(self, datapath, port, pool,
                      pkt_ethernet, pkt_vlan, pkt_ip, pkt_udp, pkt_dhcp):
        # DHCP message type code
        options = dict()
        for option in pkt_dhcp.options.option_list:
            options[option.tag] = option.value
        src = pkt_dhcp.chaddr

        # RESPONSE MSG
        pkt = packet.Packet()
        pkt.add_protocol(ethernet.ethernet(ethertype=pkt_ethernet.ethertype,
                                           dst=pkt_ethernet.src,
                                           src='00:00:00:00:00:00'))
        if pkt_vlan:
            pkt.add_protocol(vlan.vlan(cfi=pkt_vlan.cfi,
                                       ethertype=pkt_vlan.ethertype,
                                       pcp=pkt_vlan.pcp,
                                       vid=pkt_vlan.vid))
        pkt.add_protocol(ipv4.ipv4(src=pkt_ip.dst, dst=pkt_ip.src, proto=in_proto.IPPROTO_UDP))
        pkt.add_protocol(udp.udp(src_port=pkt_udp.dst_port, dst_port=pkt_udp.src_port))

        # DISCOVER MSG
        dhcp_msg_type = ord(options[dhcp.DHCP_MESSAGE_TYPE_OPT])
        if dhcp_msg_type == dhcp.DHCP_DISCOVER:
            msg_type = dhcp.DHCP_OFFER
            if src in self.leases:
                offer = self.leases[src]
                del self.leases[src]
                self.offers[src] = offer
            else:
                offer = self.offers.get(src)
                if offer is None:
                    if len(pool) == 0:
                        LOG.error("Out of IP addresses")
                        msg_type = dhcp.DHCP_NAK

                    offer = pool[0]
                    if dhcp.DHCP_REQUESTED_IP_ADDR_OPT in options:
                        wanted_ip = IPAddr(addrconv.ipv4.bin_to_text(options[dhcp.DHCP_REQUESTED_IP_ADDR_OPT].value))
                        if wanted_ip in pool:
                            offer = wanted_ip
                    pool.remove(offer)
                    self.offers[src] = offer
            wanted_opts = list()
            if dhcp.DHCP_PARAMETER_REQUEST_LIST_OPT in options:
                fmt = "s" * len(options[dhcp.DHCP_PARAMETER_REQUEST_LIST_OPT])
                wanted_opt_set = struct.unpack(fmt, options[dhcp.DHCP_PARAMETER_REQUEST_LIST_OPT])
                for i in wanted_opt_set:
                    wanted_opts.append(ord(i))
            option_list = list()
            option_list.append(dhcp.option(dhcp.DHCP_MESSAGE_TYPE_OPT, chr(msg_type), length=1))
            if msg_type is not dhcp.DHCP_NAK:
                if dhcp.DHCP_SUBNET_MASK_OPT in wanted_opts:
                    option_list.append(dhcp.option(dhcp.DHCP_SUBNET_MASK_OPT,
                                                   addrconv.ipv4.text_to_bin(self.subnet.toStr()),
                                                   length=4))
                if dhcp.DHCP_GATEWAY_ADDR_OPT in wanted_opts and self.router_addr is not None:
                    option_list.append(dhcp.option(dhcp.DHCP_GATEWAY_ADDR_OPT,
                                                   addrconv.ipv4.text_to_bin(self.router_addr.toStr()),
                                                   length=4))
                if dhcp.DHCP_DNS_SERVER_ADDR_OPT in wanted_opts and self.dns_addr is not None:
                    option_list.append(dhcp.option(dhcp.DHCP_DNS_SERVER_ADDR_OPT,
                                                   addrconv.ipv4.text_to_bin(self.dns_addr.toStr()),
                                                   length=4))
                option_list.append(dhcp.option(dhcp.DHCP_IP_ADDR_LEASE_TIME_OPT,
                                               chr(self.lease_time),
                                               length=4))
                option_list.append(dhcp.option(dhcp.DHCP_RENEWAL_TIME_OPT, chr(self.lease_time / 2), length=4))
                option_list.append(dhcp.option(dhcp.DHCP_REBINDING_TIME_OPT, chr(self.lease_time * 7 / 8), length=4))
            resp_options = dhcp.options(option_list=option_list)
            pkt.add_protocol(dhcp.dhcp(op=self._MSG_TYPE_BOOT_REPLY, chaddr=pkt_dhcp.chaddr, options=resp_options,
                                       xid=pkt_dhcp.xid, ciaddr=pkt_dhcp.ciaddr, yiaddr=offer.toStr(),
                                       siaddr=self.ip_addr.toStr(), giaddr='0.0.0.0', sname='', boot_file=''))

        # REQUEST MSG
        if dhcp_msg_type == dhcp.DHCP_REQUEST:
            msg_type = dhcp.DHCP_ACK
            if dhcp.DHCP_REQUESTED_IP_ADDR_OPT not in options:
                return
            wanted_ip = IPAddr(addrconv.ipv4.bin_to_text(options[dhcp.DHCP_REQUESTED_IP_ADDR_OPT]))
            got_ip = None
            if src in self.leases:
                if wanted_ip != self.leases[src]:
                    pool.append(self.leases[src])
                    del self.leases[src]
                else:
                    got_ip = self.leases[src]
            if got_ip is None:
                if src in self.offers:
                    if wanted_ip != self.offers[src]:
                        pool.append(self.offers[src])
                        del self.offers[src]
                    else:
                        got_ip = self.offers[src]
            if got_ip is None:
                if wanted_ip in pool:
                    pool.remove(wanted_ip)
                    got_ip = wanted_ip
            if got_ip is None:
                LOG.warn("%s asked for un-offered %s", src, wanted_ip.toStr())
                msg_type = dhcp.DHCP_NAK
            wanted_opts = list()
            if dhcp.DHCP_PARAMETER_REQUEST_LIST_OPT in options:
                fmt = "s" * len(options[dhcp.DHCP_PARAMETER_REQUEST_LIST_OPT])
                wanted_opt_set = struct.unpack(fmt, options[dhcp.DHCP_PARAMETER_REQUEST_LIST_OPT])
                for i in wanted_opt_set:
                    wanted_opts.append(ord(i))
            # DHCP options tag code
            option_list = list()
            option_list.append(dhcp.option(dhcp.DHCP_MESSAGE_TYPE_OPT, chr(msg_type), length=1))
            if msg_type is not dhcp.DHCP_NAK:
                if dhcp.DHCP_SUBNET_MASK_OPT in wanted_opts:
                    option_list.append(dhcp.option(dhcp.DHCP_SUBNET_MASK_OPT,
                                                   addrconv.ipv4.text_to_bin(self.subnet.toStr()),
                                                   length=4))
                if dhcp.DHCP_GATEWAY_ADDR_OPT in wanted_opts and self.router_addr is not None:
                    option_list.append(dhcp.option(dhcp.DHCP_GATEWAY_ADDR_OPT,
                                                   addrconv.ipv4.text_to_bin(self.router_addr.toStr()),
                                                   length=4))
                if dhcp.DHCP_DNS_SERVER_ADDR_OPT in wanted_opts and self.dns_addr is not None:
                    option_list.append(dhcp.option(dhcp.DHCP_DNS_SERVER_ADDR_OPT,
                                                   addrconv.ipv4.text_to_bin(self.dns_addr.toStr()),
                                                   length=4))
                option_list.append(dhcp.option(dhcp.DHCP_IP_ADDR_LEASE_TIME_OPT,
                                               chr(self.lease_time),
                                               length=4))
                option_list.append(dhcp.option(dhcp.DHCP_RENEWAL_TIME_OPT, chr(self.lease_time / 2), length=4))
                option_list.append(dhcp.option(dhcp.DHCP_REBINDING_TIME_OPT, chr(self.lease_time * 7 / 8), length=4))
            resp_options = dhcp.options(option_list=option_list)
            pkt.add_protocol(dhcp.dhcp(op=self._MSG_TYPE_BOOT_REPLY, chaddr=pkt_dhcp.chaddr, options=resp_options,
                                       xid=pkt_dhcp.xid, ciaddr=pkt_dhcp.ciaddr, yiaddr=wanted_ip.toStr(),
                                       siaddr=self.ip_addr.toStr(), giaddr='0.0.0.0', sname='', boot_file=''))

        # RELEASE MSG
        if dhcp_msg_type == dhcp.DHCP_RELEASE:
            if self.leases.get(src).toStr() != pkt_dhcp.ciaddr:
                LOG.warn("%s tried to release unleased %s" % (src, pkt_dhcp.ciaddr))
                return
            del self.leases[src]
            pool.append(pkt_dhcp.ciaddr)
            LOG.info("%s released %s" % (src, pkt_dhcp.ciaddr))

        self._send_dhcp_reply(datapath, port, pkt)
        return True
コード例 #48
0
ファイル: send_icmpv6.py プロジェクト: t-koshiba/trial
    def _packet_in_handler(self, ev):
        self.packet_in_cnt += 1
        self.packet_in_cnt_s += 1

        msg = ev.msg
        datapath = msg.datapath
        ofproto = datapath.ofproto
        parser = datapath.ofproto_parser
        in_port = msg.match['in_port']

        pkt = packet.Packet(msg.data)

        # get_protocols(ethernet)
        pkt_eth = pkt.get_protocols(ethernet.ethernet)[0]
        self.logger.debug('ethernet= %s ', str(pkt_eth))
        dst = pkt_eth.dst
        src = pkt_eth.src

        pkt_ipv6 = None
        pkt_icmpv6 = None
        if 'ipv6' in self.PROTPCOL:
            # get_protocols(pkt_ipv6)
            pkt_ipv6 = pkt.get_protocols(ipv6.ipv6)
            if 0 < len(pkt_ipv6):
                self.logger.debug('ipv6= %s', str(pkt_ipv6))

            # get_protocols(pkt_icmpv6)
            pkt_icmpv6 = pkt.get_protocols(icmpv6.icmpv6)
            if 0 < len(pkt_icmpv6):
                self.logger.debug('icmpv6= %s icmpv6.ND_NEIGHBOR_SOLICIT = %s' , str(pkt_icmpv6), icmpv6.ND_NEIGHBOR_SOLICIT)
                
                if not pkt_icmpv6[0].type_ in [icmpv6.MLDV2_LISTENER_REPORT, icmpv6.ICMPV6_MEMBERSHIP_QUERY]:
                    print "icmpv6.type is " + pkt_icmpv6[0].type
                    return
            
        dpid = datapath
        self.mac_to_port.setdefault(dpid, {})

        self.logger.debug('packet in %s %s %s %s %s', dpid, src, dst, in_port, str(self.packet_in_cnt))

        # learn a mac address to avoid FLOOD next time.
        self.mac_to_port[dpid][src] = in_port

        if dst in self.mac_to_port[dpid]:
            out_port = self.mac_to_port[dpid][dst]
        else:
            out_port = ofproto.OFPP_FLOOD

        actions = [parser.OFPActionOutput(out_port)]

        # install a flow to avoid packet_in next time
        self.logger.debug('in_port = %s, out_port = %s, OFPP_FLOOD = %s', str(in_port), str(out_port), str(ofproto.OFPP_FLOOD))
        
        if out_port != ofproto.OFPP_FLOOD:
            
            if 'eth' in self.PROTPCOL:
                # match
                match = parser.OFPMatch(in_port=in_port, eth_dst=dst )
                #miss match
                match = parser.OFPMatch(in_port=in_port, eth_type=0, eth_dst=dst )
            elif 'ipv6' in self.PROTPCOL:
                match = parser.OFPMatch(in_port=in_port, eth_type=ether.ETH_TYPE_IPV6, ip_proto=inet.IPPROTO_ICMPV6, ipv6_dst=dst)

            self.add_flow(datapath, 1, match, actions)

        data = None
        if msg.buffer_id == ofproto.OFP_NO_BUFFER:
            data = msg.data

        # create send packet 
        sendpkt = packet.Packet()
        sendpkt.add_protocol(ethernet.ethernet(ethertype=ether.ETH_TYPE_8021Q, dst=dst, src=src))
        sendpkt.add_protocol(vlan.vlan(pcp=0, cfi=0, vid=100, ethertype=ether.ETH_TYPE_IPV6))
        sendpkt.add_protocol(ipv6.ipv6(src=pkt_ipv6[0].src, dst=pkt_ipv6[0].dst, nxt=inet.IPPROTO_ICMPV6))
        sendpkt.add_protocol(icmpv6.icmpv6(type_=icmpv6.ICMPV6_MEMBERSHIP_QUERY, 
                                data=icmpv6.mldv2_query(address='::')))
        sendpkt.serialize()
        self.logger.debug("******** create packet :\n %s" % (sendpkt,))
        print "\n"
        data = sendpkt.data

        #out = parser.OFPPacketOut(datapath=datapath, buffer_id=msg.buffer_id, in_port=in_port, actions=actions, data=data)
        out = parser.OFPPacketOut(datapath=datapath, buffer_id=0xffffffff, in_port=in_port, actions=actions, data=data)
        self.logger.debug("******** send :\n datapath : %s,\n in_port : %s,\n" \
                            % (str(datapath), str(in_port)))
        datapath.send_msg(out)


        """
コード例 #49
0
    def _packet_in_handler(self, ev):
        self.packet_in_cnt += 1
        self.packet_in_cnt_s += 1

        msg = ev.msg
        datapath = msg.datapath
        ofproto = datapath.ofproto
        parser = datapath.ofproto_parser
        in_port = msg.match['in_port']

        pkt = packet.Packet(msg.data)

        # get_protocols(ethernet)
        pkt_eth = pkt.get_protocols(ethernet.ethernet)[0]
        self.logger.debug('ethernet= %s ', str(pkt_eth))
        dst = pkt_eth.dst
        src = pkt_eth.src

        pkt_ipv6 = None
        pkt_icmpv6 = None
        if 'ipv6' in self.PROTPCOL:
            # get_protocols(pkt_ipv6)
            pkt_ipv6 = pkt.get_protocols(ipv6.ipv6)
            if 0 < len(pkt_ipv6):
                self.logger.debug('ipv6= %s', str(pkt_ipv6))

            # get_protocols(pkt_icmpv6)
            pkt_icmpv6 = pkt.get_protocols(icmpv6.icmpv6)
            if 0 < len(pkt_icmpv6):
                self.logger.debug('icmpv6= %s icmpv6.ND_NEIGHBOR_SOLICIT = %s' , str(pkt_icmpv6), icmpv6.ND_NEIGHBOR_SOLICIT)

#                if not pkt_icmpv6[0].type_ in [icmpv6.MLDV2_LISTENER_REPORT, icmpv6.ICMPV6_MEMBERSHIP_QUERY]:
#                    print "icmpv6.type is " + str(pkt_icmpv6[0].type_)
#                    return

        dpid = datapath
        self.mac_to_port.setdefault(dpid, {})

        self.logger.debug('packet in %s %s %s %s %s', dpid, src, dst, in_port, str(self.packet_in_cnt))

        # learn a mac address to avoid FLOOD next time.
        self.mac_to_port[dpid][src] = in_port

        if dst in self.mac_to_port[dpid]:
            out_port = self.mac_to_port[dpid][dst]
        else:
            out_port = ofproto.OFPP_FLOOD

        actions = [parser.OFPActionOutput(out_port)]

        # install a flow to avoid packet_in next time
        self.logger.debug('in_port = %s, out_port = %s, OFPP_FLOOD = %s', str(in_port), str(out_port), str(ofproto.OFPP_FLOOD))
        
        if out_port != ofproto.OFPP_FLOOD:
            
            if 'eth' in self.PROTPCOL:
                # match
                match = parser.OFPMatch(in_port=in_port, eth_dst=dst )
                #miss match
                match = parser.OFPMatch(in_port=in_port, eth_type=0, eth_dst=dst )
            elif 'ipv6' in self.PROTPCOL:
                match = parser.OFPMatch(in_port=in_port, eth_type=ether.ETH_TYPE_IPV6, ip_proto=inet.IPPROTO_ICMPV6, ipv6_dst=dst)

            self.add_flow(datapath, 1, match, actions)

        data = None
        if msg.buffer_id == ofproto.OFP_NO_BUFFER:
            data = msg.data

        # create send packet
        sendpkt = packet.Packet()
        sendpkt.add_protocol(ethernet.ethernet(ethertype=ether.ETH_TYPE_8021Q, dst=dst, src=src))
        sendpkt.add_protocol(vlan.vlan(pcp=0, cfi=0, vid=100, ethertype=ether.ETH_TYPE_IPV6))
        sendpkt.add_protocol(ipv6.ipv6(src=srcip, dst=dstip, nxt=inet.IPPROTO_ICMPV6))
        sendpkt.add_protocol(icmpv6.icmpv6(type_=icmpv6.ICMPV6_MEMBERSHIP_QUERY,
                                data=icmpv6.mldv2_query(address='::')))
        sendpkt.serialize()
        
        self.logger.debug("packet-out %s" % (sendpkt,))
        print "\n"
        data = sendpkt.data

        IPPROTO_ICMP = socket.getprotobyname('icmp')
        sock = socket.socket(socket.AF_INET6, socket.SOCK_RAW, IPPROTO_ICMP)

        while sendpkt.data:
            sent_bytes = sock.sendto(sendpkt.data, ('ff38::1', 0))
            sendpkt.data = sendpkt.data[sent_bytes:]

        """


#        out = parser.OFPPacketOut(datapath=datapath, buffer_id=msg.buffer_id, in_port=in_port, actions=actions, data=data)
        #out = parser.OFPPacketOut(datapath=datapath, buffer_id=0xffffffff, in_port=in_port, actions=actions, data=data)
        self.logger.debug("out %s %s %s %s" % (datapath, self.buffer_id, in_port, actions))
        

        sendmsg = ofproto_v1_3_parser._set_msg_type(ofproto_v1_3.OFPT_PACKET_OUT);
        sendmsg.__init__(datapath)
        sendmsg.datapath = datapath
        sendmsg.buffer_id = 0xffffffff
        sendmsg.in_port = in_port
        sendmsg.actions_len = 0
        sendmsg.actions = actions
        self.logger.debug("sendmsg %s %s %s %s" % (sendmsg.datapath, sendmsg.buffer_id, sendmsg.in_port, sendmsg.actions))

        actions_len = 0
        offset = ofproto_v1_3.OFP_PACKET_OUT_SIZE
        for a in actions:
            a.serialize(self.buf, offset)
            offset += a.len
            actions_len += a.len

        if sendpkt.data is not None:
            assert sendmsg.buffer_id == ofproto_v1_3.OFP_NO_BUFFER
            self.buf += sendpkt.data

        self.logger.debug("self.buf %s " % (self.buf))

        sendout = msg_pack_into(ofproto_v1_3.OFP_PACKET_OUT_PACK_STR,
                      self.buf, ofproto_v1_3.OFP_HEADER_SIZE,
                      sendmsg.buffer_id, in_port, a.len)

        self.logger.debug("self.buf %s " % (self.buf))
        IPPROTO_ICMP = socket.getprotobyname('icmp')
        sock = socket.socket(socket.AF_INET6, socket.SOCK_RAW, IPPROTO_ICMP)
#        sock.send(sendout)
        
#        while self.buf:
#            sent_bytes = sock.sendto(self.buf, ('ff38::1', 0))
#            self.buf = self.buf[sent_bytes:]
        
        while self.buf:
            sent_bytes = sock.sendto(self.buf, ('ff38::1', 0))
            self.buf = self.buf[sent_bytes:]

#        create_connection
#        sock.send()

        #datapath.send_packet_out(self, sendmsg.buffer_id, sendmsg.in_port, sendmsg.actions)
        """
        #datapath.send_packet_out(buffer_id=0xffffffff, in_port=in_port, actions=actions, data=data)
#        datapath.send_msg(sendout)
#        datapath.send_msg(out)

        """
        # create send packet
        sendpkt = packet.Packet()
        sendpkt.add_protocol(ethernet.ethernet(ethertype=ether.ETH_TYPE_8021Q, dst=dst, src=src))
        sendpkt.add_protocol(vlan.vlan(pcp=0, cfi=0, vid=100, ethertype=ether.ETH_TYPE_IPV6))
        sendpkt.add_protocol(ipv6.ipv6(src=pkt_ipv6[0].src, dst=pkt_ipv6[0].dst, nxt=inet.IPPROTO_ICMPV6))
        sendpkt.add_protocol(icmpv6.icmpv6(type_=icmpv6.ICMPV6_MEMBERSHIP_QUERY, data=icmpv6.mldv2_query(address='::')))
        sendpkt.serialize()

        newmsg = ofproto_v1_3_parser._set_msg_type(ofproto.OFPT_PACKET_OUT);
        self.logger.debug("newmsg %s " % (newmsg))
        
        newmsg.__init__(datapath)
        newmsg.buffer_id = msg.buffer_id
        newmsg.in_port = in_port
        newmsg.actions_len = 0
        newmsg.actions = actions
        self.buf

        print "\n"
        
        actions_len = 0
        offset = ofproto.OFP_PACKET_OUT_SIZE
        for a in actions:
            a.serialize(self.buf, offset)
            offset += a.len
            actions_len += a.len

        self.logger.debug("DATA %s " % (sendpkt.data))

        if sendpkt.data is not None:
#            assert msg.buffer_id == 0xffffffff
            self.buf += sendpkt.data

        msg_pack_into(ofproto.OFP_PACKET_OUT_PACK_STR,
                      self.buf, ofproto.OFP_HEADER_SIZE,
                      self.buffer_id, self.in_port, self.actions_len)
        if data is not None:
            newmsg.buf += sendpkt.data


        self.logger.debug("self.buf %s " % (newmsg.buf))
        self.logger.debug("ofproto.OFP_PACKET_OUT_PACK_STR %s " % (ofproto.OFP_PACKET_OUT_PACK_STR))
        self.logger.debug("ofproto.OFP_HEADER_SIZE %s " % (ofproto.OFP_HEADER_SIZE))
        self.logger.debug("msg.buffer_id %s " % (newmsg.buffer_id))
        self.logger.debug("in_port %s " % (in_port))
        self.logger.debug("a.len %s " % (a.len))


        out = msg_pack_into(ofproto.OFP_PACKET_OUT_PACK_STR,
                      newmsg.buf, ofproto.OFP_HEADER_SIZE,
                      newmsg.buffer_id, in_port, a.len)
        
        
        self.logger.debug("out %s " % (out))
        
        
        
        
#        data = sendpkt.data
#        assert isinstance(msg, parser.MsgBase)
        
        
        IPPROTO_ICMP = socket.getprotobyname('icmp')
        sock = socket.socket(socket.AF_INET6, socket.SOCK_RAW, IPPROTO_ICMP)

#        msg.buffer_id == 0xffffffff
#        out = parser.OFPPacketOut(datapath=datapath, buffer_id=msg.buffer_id,
#                                  in_port=in_port, actions=actions, data=data)
        
        
#        msg(datapath, version, msg_type, msg_len, xid, buf):
#        parser.OFPMatch
#        out = parser.OFPPacketOut(datapath=datapath, buffer_id=msg.buffer_id,
#                                  in_port=in_port, actions=actions, data=data)

#        out.serialize()
        sock.send(out)


#        if sendpkt.xid is None:
#            parser.set
#            self.set_xid(sendpkt)
#        sendpkt.serialize()
        # LOG.debug('send_msg %s', msg)
#        self.send(msg.buf)

#        if self.data is not None:
#            assert self.buffer_id == 0xffffffff
#            self.buf += data
    """
#        sock.sendto(sendpkt,dst)
#        datapath.send_msg(parserdata)
        """
        self.buffer_id = ofproto.OFP_NO_BUFFER
        self.in_port = in_port
        self.actions = actions
        self.actions_len = 16
        self.data = data
        
        print('self.buffer_id=' + str(self.buffer_id) + ' self.in_port=' + str(self.in_port) + ' self.actions=' + str(self.actions) + ' self.actions_len=' + str(self.actions_len) + ' self.data=' + str(self.data))
        
        offset = ofproto.OFP_PACKET_OUT_SIZE
        print('offset=' + str(offset))

        if self.data is not None:
            assert self.buffer_id == 0xffffffff
            self.buf += data
        
        print ("send %s " % data)
        
        parserdata = parser.msg_pack_into(ofproto_v1_3.OFP_PACKET_OUT_PACK_STR,
                      self.buf, ofproto.OFP_HEADER_SIZE,
                      self.buffer_id, self.in_port, self.actions_len)
        
        print ("send %s " % self.buf)
        print ("send %s " % parserdata)
        datapath.send_msg(parserdata)
        """
#        sock.send(sendpkt)
        """
        print('New switch is joined: %s' % datapath.id)
        flow = {
            'match': {
                'dl_type': ether.ETH_TYPE_IPV6,
                'nw_proto': inet.IPPROTO_ICMPV6,
            },
            'actions': [
                {
                    'type': 'OUTPUT',
                    'port': ofproto_v1_3.OFPP_NORMAL,
                },
            ]
        }
        print('New flow: %s' % flow)
        
        self.actions_len = 0
        offset = ofproto.OFP_PACKET_OUT_SIZE
        for a in self.actions:
            a.serialize(self.buf, offset)
            offset += a.len
            self.actions_len += a.len

        if self.data is not None:
            assert self.buffer_id == 0xffffffff
            self.buf += self.data

        msg_pack_into(ofproto.OFP_PACKET_OUT_PACK_STR,
                      self.buf, ofproto.OFP_HEADER_SIZE,
                      self.buffer_id, self.in_port, self.actions_len)
#         parser
#        parser(cls, datapath, version, msg_type, msg_len, xid, buf):
        parser.OFPPacketOut
        #out = parser.OFPPacketOut(datapath=datapath, buffer_id=msg.buffer_id, in_port=in_port, actions=actions, data=data)
#        out = parser.OFPPacketOut(datapath=datapath, buffer_id=0xffffffff, in_port=in_port, actions=actions, data=data)
#        MsgBase.set_headers()
#        buf = 'version: %s msg_type %s xid %s ' % ('0x1', '0x6', '0xd35262b')
#        buf = 'version: 0x%x msg_type 0x%x xid 0x%x ' % (self.OFP_VERSIONS, 0x6, 8)
#       print (str(buf))
        aaa = parser.set_headers(self, '0x1', '0x6', '0xd35262b')
#         MsgBase(self, datapath)
        print aaa
#        datapath.ofproto_parser
#        ofproto_parser
#        MsgBase.set_buf(buf)
#        MsgBase.set_buf()
        
#       def parser(cls, datapath, version, msg_type, msg_len, xid, buf):
        
#        msg_ = cls(datapath)
#        msg_.set_headers(version, msg_type, msg_len, xid)
#        msg_.set_buf(buf)
#        return msg_
        """
        """
        self.socket = socket
        self.socket.setsockopt(IPPROTO_TCP, TCP_NODELAY, 1)
        self.address = address
        self.is_active = True

        # The limit is arbitrary. We need to limit queue size to
        # prevent it from eating memory up
        self.send_q = hub.Queue(16)

        self.xid = random.randint(0, self.ofproto.MAX_XID)
        self.id = None  # datapath_id is unknown yet
        self.ports = None
        self.flow_format = ofproto_v1_0.NXFF_OPENFLOW10
        self.ofp_brick = ryu.base.app_manager.lookup_service_brick('ofp_event')
        self.set_state(handler.HANDSHAKE_DISPATCHER)
        """
        
        #datapath.send_msg(out)


        """
コード例 #50
0
ファイル: send.py プロジェクト: ntts-clo/mld-ryu
'''
$ sudo ip link add veth0 type veth peer name veth1
$ sudo ip netns add ns0
$ sudo ip link set dev veth0 netns ns0
$ sudo ip netns exec ns0 bash
# python send.py
'''
import socket
from ryu.lib.packet import packet, ethernet, vlan, ipv6, icmpv6
from ryu.ofproto import ether, inet

sock = socket.socket(socket.AF_PACKET, socket.SOCK_RAW)
sock.bind(('veth0', 0))

pkt = packet.Packet()
pkt.add_protocol(ethernet.ethernet(ethertype=ether.ETH_TYPE_8021Q))
pkt.add_protocol(vlan.vlan(vid=10, ethertype=ether.ETH_TYPE_IPV6))
pkt.add_protocol(ipv6.ipv6(nxt=inet.IPPROTO_ICMPV6))
pkt.add_protocol(icmpv6.icmpv6(
    type_=icmpv6.MLD_LISTENER_QUERY,
    data=icmpv6.mldv2_query()))
pkt.serialize()

sock.send(pkt.data)
コード例 #51
0
ファイル: ofctl_utils.py プロジェクト: phx1999/SDN
    def send_icmp(self,
                  in_port,
                  protocol_list,
                  vlan_id,
                  icmp_type,
                  icmp_code,
                  icmp_data=None,
                  msg_data=None,
                  src_ip=None):
        # Generate ICMP reply packet
        csum = 0
        offset = ethernet.ethernet._MIN_LEN

        if vlan_id != VLANID_NONE:
            ether_proto = ether.ETH_TYPE_8021Q
            pcp = 0
            cfi = 0
            vlan_ether = ether.ETH_TYPE_IP
            v = vlan.vlan(pcp, cfi, vlan_id, vlan_ether)
            offset += vlan.vlan._MIN_LEN
        else:
            ether_proto = ether.ETH_TYPE_IP

        eth = protocol_list[ETHERNET]
        e = ethernet.ethernet(eth.src, eth.dst, ether_proto)

        ip = protocol_list[IPV4]

        if icmp_data is None and msg_data is not None:
            # RFC 4884 says that we should send "at least 128 octets"
            # if we are using the ICMP Extension Structure.
            # We're not using the extension structure, but let's send
            # up to 128 bytes of the original msg_data.
            #
            # RFC 4884 also states that the length field is interpreted in
            # 32 bit units, so the length calculated in bytes needs to first
            # be divided by 4, then increased by 1 if the modulus is non-zero.
            #
            # Finally, RFC 4884 says, if we're specifying the length, we MUST
            # zero pad to the next 32 bit boundary.
            end_of_data = offset + len(ip) + 128
            ip_datagram = bytearray()
            ip_datagram += msg_data[offset:end_of_data]
            data_len = int(len(ip_datagram) / 4)
            length_modulus = int(len(ip_datagram) % 4)
            if length_modulus:
                data_len += 1
                ip_datagram += bytearray([0] * (4 - length_modulus))
            if icmp_type == icmp.ICMP_DEST_UNREACH:
                icmp_data = icmp.dest_unreach(data_len=data_len,
                                              data=ip_datagram)
            elif icmp_type == icmp.ICMP_TIME_EXCEEDED:
                icmp_data = icmp.TimeExceeded(data_len=data_len,
                                              data=ip_datagram)

        ic = icmp.icmp(icmp_type, icmp_code, csum, data=icmp_data)

        if src_ip is None:
            src_ip = ip.dst
        ip_total_length = ip.header_length * 4 + ic._MIN_LEN
        if ic.data is not None:
            ip_total_length += ic.data._MIN_LEN
            if ic.data.data is not None:
                ip_total_length += +len(ic.data.data)
        i = ipv4.ipv4(ip.version, ip.header_length, ip.tos, ip_total_length,
                      ip.identification, ip.flags, ip.offset, DEFAULT_TTL,
                      inet.IPPROTO_ICMP, csum, src_ip, ip.src)

        pkt = packet.Packet()
        pkt.add_protocol(e)
        if vlan_id != VLANID_NONE:
            pkt.add_protocol(v)
        pkt.add_protocol(i)
        pkt.add_protocol(ic)
        pkt.serialize()

        # Send packet out
        self.send_packet_out(in_port,
                             self.dp.ofproto.OFPP_IN_PORT,
                             pkt.data,
                             data_str=str(pkt))