Esempio n. 1
0
 def nat_actions(self, eth_type, nfvip, nat_offset):
     ip_ver = nfvip.ip.version
     ip_src_nxm = 'ipv%u_src_nxm' % ip_ver
     ip_dst_nxm = 'ipv%u_dst_nxm' % ip_ver
     ipbits = nfvip.ip.max_prefixlen
     # pylint: disable=no-member
     return [
         parser.NXActionRegMove(src_field='ipv%u_src' % ip_ver, dst_field=self.AREG, n_bits=nat_offset, src_ofs=0, dst_ofs=nat_offset),
         parser.NXActionRegMove(src_field='ipv%u_dst' % ip_ver, dst_field=self.AREG, n_bits=nat_offset, src_ofs=0, dst_ofs=0),
         # we have to load output port numbers into reg1 and reg2 because NXFlowSpecOutput() won't take a literal.
         parser.NXActionRegLoad(value=self.FAKEPORT, dst=self.FAKEPORTREG, ofs_nbits=nicira_ext.ofs_nbits(0, 15)),
         parser.NXActionRegLoad(value=self.COPROPORT, dst=self.COPROPORTREG, ofs_nbits=nicira_ext.ofs_nbits(0, 15)),
         # now program an inbound flow to perform NAT.
         parser.NXActionLearn(
             table_id=self.FROM_COPRO_TABLE,
             priority=2,
             hard_timeout=self.IDLE,
             specs=[
                 parser.NXFlowSpecMatch(src=eth_type, dst=('eth_type_nxm', 0), n_bits=16),
                 parser.NXFlowSpecMatch(src=(ip_src_nxm, 0), dst=(ip_src_nxm, 0), n_bits=ipbits),
                 parser.NXFlowSpecMatch(src=(ip_dst_nxm, 0), dst=(ip_dst_nxm, 0), n_bits=ipbits),
                 parser.NXFlowSpecLoad(src=int(self.FAKECLIENTMAC), dst=('eth_src_nxm', 0), n_bits=48),
                 parser.NXFlowSpecLoad(src=int(self.FAKESERVERMAC), dst=('eth_dst_nxm', 0), n_bits=48),
             ] + self.reg_copy(self.AREG, ip_src_nxm, ipbits) + [
                 parser.NXFlowSpecLoad(src=int(nfvip.ip), dst=(ip_dst_nxm, 0), n_bits=ipbits),
                 parser.NXFlowSpecOutput(src=(self.FAKEPORTREG, 0), dst='', n_bits=16),
             ]),
         # now program outbound an outbound flow.
         parser.NXActionLearn(
             table_id=self.TO_COPRO_TABLE,
             priority=2,
             idle_timeout=self.IDLE,
             specs=[
                 parser.NXFlowSpecMatch(src=eth_type, dst=('eth_type_nxm', 0), n_bits=16),
                 parser.NXFlowSpecMatch(src=int(nfvip.ip), dst=(ip_src_nxm, 0), n_bits=ipbits),
             ] + self.reg_copy(self.AREG, ip_dst_nxm, ipbits) + [
                 parser.NXFlowSpecLoad(src=('eth_dst_nxm', 0), dst=('eth_src_nxm', 0), n_bits=48),
                 parser.NXFlowSpecLoad(src=('eth_src_nxm', 0), dst=('eth_dst_nxm', 0), n_bits=48),
                 parser.NXFlowSpecLoad(src=(ip_dst_nxm, 0), dst=(ip_src_nxm, 0), n_bits=ipbits),
                 parser.NXFlowSpecLoad(src=(ip_src_nxm, 0), dst=(ip_dst_nxm, 0), n_bits=ipbits),
                 parser.NXFlowSpecOutput(src=(self.COPROPORTREG, 0), dst='', n_bits=16),
             ]),
         # now that future flows are programmed, handle the packet we have.
         parser.OFPActionSetField(eth_src=self.FAKECLIENTMAC),
         parser.OFPActionSetField(eth_dst=self.FAKESERVERMAC),
         parser.NXActionRegMove(src_field=self.AREG, dst_field=('ipv%u_src' % ip_ver), n_bits=ipbits, src_ofs=0, dst_ofs=0),
         parser.OFPActionSetField(**{'ipv%u_dst' % ip_ver: str(nfvip.ip)}),
         parser.OFPActionOutput(self.FAKEPORT)
     ]
Esempio n. 2
0
 def test_flowspec_src_0_dst_2(self):
     user = ofpp.NXFlowSpecOutput(src=('in_port', 0), dst='', n_bits=16)
     on_wire = (b'\x10\x10' b'\x80\x00\x00\x04\x00\x00')
     self.assertEqual(on_wire, user.serialize())
     (o, rest) = ofpp._NXFlowSpec.parse(on_wire)
     self.assertEqual(user.to_jsondict(), o.to_jsondict())
     self.assertEqual(str(user), str(o))
     self.assertEqual(b'', rest)