xref: /freebsd/tests/sys/netpfil/pf/sctp.py (revision 7fdf597e96a02165cfe22ff357b857d5fa15ed8a)
1import pytest
2import ctypes
3import socket
4import ipaddress
5import re
6from atf_python.sys.net.tools import ToolsHelper
7from atf_python.sys.net.vnet import VnetTestTemplate
8
9import time
10
11SCTP_UNORDERED = 0x0400
12
13SCTP_NODELAY                 = 0x00000004
14SCTP_SET_PEER_PRIMARY_ADDR   = 0x00000006
15SCTP_PRIMARY_ADDR            = 0x00000007
16
17SCTP_BINDX_ADD_ADDR          = 0x00008001
18SCTP_BINDX_REM_ADDR          = 0x00008002
19
20class sockaddr_in(ctypes.Structure):
21    _fields_ = [
22        ('sin_len', ctypes.c_uint8),
23        ('sin_family', ctypes.c_uint8),
24        ('sin_port', ctypes.c_uint16),
25        ('sin_addr', ctypes.c_uint32),
26        ('sin_zero', ctypes.c_int8 * 8)
27    ]
28
29class sockaddr_in6(ctypes.Structure):
30    _fields_ = [
31        ('sin6_len',      ctypes.c_uint8),
32        ('sin6_family',   ctypes.c_uint8),
33        ('sin6_port',     ctypes.c_uint16),
34        ('sin6_flowinfo', ctypes.c_uint32),
35        ('sin6_addr',     ctypes.c_uint8 * 16),
36        ('sin6_scope_id', ctypes.c_uint32)
37    ]
38
39class sockaddr_storage(ctypes.Union):
40    _fields_ = [
41        ("v4",    sockaddr_in),
42        ("v6",   sockaddr_in6)
43    ]
44
45class sctp_sndrcvinfo(ctypes.Structure):
46    _fields_ = [
47        ('sinfo_stream',        ctypes.c_uint16),
48        ('sinfo_ssn',           ctypes.c_uint16),
49        ('sinfo_flags',         ctypes.c_uint16),
50        ('sinfo_ppid',          ctypes.c_uint32),
51        ('sinfo_context',       ctypes.c_uint32),
52        ('sinfo_timetolive',    ctypes.c_uint32),
53        ('sinfo_tsn',           ctypes.c_uint32),
54        ('sinfo_cumtsn',        ctypes.c_uint32),
55        ('sinfo_assoc_id',      ctypes.c_uint32),
56    ]
57
58class sctp_setprim(ctypes.Structure):
59    _fields_ = [
60        ('ssp_addr',        sockaddr_storage),
61        ('ssp_pad',         ctypes.c_int8 * (128 - 16)),
62        ('ssp_assoc_id',    ctypes.c_uint32),
63        ('ssp_padding',     ctypes.c_uint32)
64    ]
65
66def to_sockaddr(ip, port):
67    ip = ipaddress.ip_address(ip)
68
69    if ip.version == 4:
70        addr = sockaddr_in()
71        addr.sin_len = ctypes.sizeof(addr)
72        addr.sin_family = socket.AF_INET
73        addr.sin_port = socket.htons(port)
74        addr.sin_addr = socket.htonl(int.from_bytes(ip.packed, byteorder='big'))
75    else:
76        assert ip.version == 6
77
78        addr = sockaddr_in6()
79        addr.sin6_len = ctypes.sizeof(addr)
80        addr.sin6_family = socket.AF_INET6
81        addr.sin6_port = socket.htons(port)
82        for i in range(0, 16):
83            addr.sin6_addr[i] = ip.packed[i]
84
85    return addr
86
87class SCTPServer:
88    def __init__(self, family, port=1234):
89        self._libc = ctypes.CDLL("libc.so.7", use_errno=True)
90
91        self._listen_fd = self._libc.socket(family, socket.SOCK_STREAM, socket.IPPROTO_SCTP)
92        if self._listen_fd == -1:
93            raise Exception("Failed to create socket")
94
95        if family == socket.AF_INET:
96            srvaddr = sockaddr_in()
97            srvaddr.sin_len = ctypes.sizeof(srvaddr)
98            srvaddr.sin_family = socket.AF_INET
99            srvaddr.sin_port = socket.htons(port)
100            srvaddr.sin_addr = socket.INADDR_ANY
101        else:
102            srvaddr = sockaddr_in6()
103            srvaddr.sin6_len = ctypes.sizeof(srvaddr)
104            srvaddr.sin6_family = family
105            srvaddr.sin6_port = socket.htons(port)
106            # Leave sin_addr empty, because ANY is zero
107
108        ret = self._libc.bind(self._listen_fd, ctypes.pointer(srvaddr),
109            ctypes.sizeof(srvaddr))
110        if ret == -1:
111            raise Exception("Failed to bind: %d" % ctypes.get_errno())
112
113        ret = self._libc.listen(self._listen_fd, 2)
114        if ret == -1:
115            raise Exception("Failed to listen")
116
117    def _to_string(self, buf):
118        return ''.join([chr(int.from_bytes(i, byteorder='big')) for i in buf]).rstrip('\x00')
119
120    def accept(self, vnet):
121        fd = self._libc.accept(self._listen_fd, 0, 0)
122        if fd < 0:
123            raise Exception("Failed to accept")
124
125        print("SCTPServer: connection opened")
126        while True:
127            rcvinfo = sctp_sndrcvinfo()
128            flags = ctypes.c_int()
129            buf = ctypes.create_string_buffer(128)
130
131            # Receive a single message, and inform the other vnet about it.
132            ret = self._libc.sctp_recvmsg(fd, ctypes.cast(buf, ctypes.c_void_p), 128,
133                0, 0, ctypes.pointer(rcvinfo), ctypes.pointer(flags))
134            if ret < 0:
135                print("SCTPServer: connection closed")
136                return
137            if ret == 0:
138                continue
139
140            rcvd = {}
141            rcvd['ppid'] = socket.ntohl(rcvinfo.sinfo_ppid)
142            rcvd['data'] = self._to_string(buf)
143            rcvd['len'] = ret
144            print(rcvd)
145            vnet.pipe.send(rcvd)
146
147class SCTPClient:
148    def __init__(self, ip, port=1234, fromaddr=None):
149        self._libc = ctypes.CDLL("libc.so.7", use_errno=True)
150
151        if ipaddress.ip_address(ip).version == 4:
152            family = socket.AF_INET
153        else:
154            family = socket.AF_INET6
155
156        self._fd = self._libc.socket(family, socket.SOCK_STREAM,
157            socket.IPPROTO_SCTP)
158        if self._fd == -1:
159            raise Exception("Failed to open socket")
160
161        if fromaddr is not None:
162            addr = to_sockaddr(fromaddr, 0)
163
164            ret = self._libc.bind(self._fd, ctypes.pointer(addr), ctypes.sizeof(addr))
165            if ret != 0:
166                print("bind() => %d", ctypes.get_errno())
167                raise
168
169        addr = to_sockaddr(ip, port)
170        ret = self._libc.connect(self._fd, ctypes.pointer(addr), ctypes.sizeof(addr))
171        if ret == -1:
172            raise Exception("Failed to connect")
173
174        # Enable NODELAY, because otherwise the sending host may wait for SACK
175        # on a data chunk we've removed
176        enable = ctypes.c_int(1)
177        ret = self._libc.setsockopt(self._fd, socket.IPPROTO_SCTP,
178                SCTP_NODELAY, ctypes.pointer(enable), 4)
179
180    def newpeer(self, addr):
181        print("newpeer(%s)" % (addr))
182
183        setp = sctp_setprim()
184        a = to_sockaddr(addr, 0)
185        if type(a) is sockaddr_in:
186            setp.ssp_addr.v4 = a
187        else:
188            assert type(a) is sockaddr_in6
189            setp.ssp_addr.v6 = a
190
191        ret = self._libc.setsockopt(self._fd, socket.IPPROTO_SCTP,
192            SCTP_PRIMARY_ADDR, ctypes.pointer(setp), ctypes.sizeof(setp))
193        if ret != 0:
194            print("errno %d" % ctypes.get_errno())
195            raise Exception(ctypes.get_errno())
196
197    def newprimary(self, addr):
198        print("newprimary(%s)" % (addr))
199
200        # Strictly speaking needs to be struct sctp_setpeerprim, but that's
201        # identical to sctp_setprim
202        setp = sctp_setprim()
203        a = to_sockaddr(addr, 0)
204        if type(a) is sockaddr_in:
205            setp.ssp_addr.v4 = a
206        else:
207            assert type(a) is sockaddr_in6
208            setp.ssp_addr.v6 = a
209
210        ret = self._libc.setsockopt(self._fd, socket.IPPROTO_SCTP,
211            SCTP_SET_PEER_PRIMARY_ADDR, ctypes.pointer(setp), ctypes.sizeof(setp))
212        if ret != 0:
213            print("errno %d" % ctypes.get_errno())
214            raise
215
216    def bindx(self, addr, add):
217        print("bindx(%s, %s)" % (addr, add))
218
219        addr = to_sockaddr(addr, 0)
220
221        if add:
222            flag = SCTP_BINDX_ADD_ADDR
223        else:
224            flag = SCTP_BINDX_REM_ADDR
225        ret = self._libc.sctp_bindx(self._fd, ctypes.pointer(addr), 1, flag)
226        if ret != 0:
227            print("sctp_bindx() errno %d" % ctypes.get_errno())
228            raise
229
230    def send(self, buf, ppid, ordered=False):
231        flags = 0
232
233        if not ordered:
234            flags = SCTP_UNORDERED
235
236        ppid = socket.htonl(ppid)
237        ret = self._libc.sctp_sendmsg(self._fd, ctypes.c_char_p(buf), len(buf),
238            ctypes.c_void_p(0), 0, ppid, flags, 0, 0, 0)
239        if ret < 0:
240            raise Exception("Failed to send message")
241
242    def close(self):
243        self._libc.close(self._fd)
244        self._fd = -1
245
246class TestSCTP(VnetTestTemplate):
247    REQUIRED_MODULES = ["sctp", "pf"]
248    TOPOLOGY = {
249        "vnet1": {"ifaces": ["if1"]},
250        "vnet2": {"ifaces": ["if1"]},
251        "if1": {"prefixes4": [("192.0.2.1/24", "192.0.2.2/24")]},
252    }
253
254    def vnet2_handler(self, vnet):
255        # Give ourself a second IP address, for multihome testing
256        ifname = vnet.iface_alias_map["if1"].name
257        ToolsHelper.print_output("/sbin/ifconfig %s inet alias 192.0.2.3/24" % ifname)
258
259        # Start an SCTP server process, pipe the ppid + data back to the other vnet?
260        srv = SCTPServer(socket.AF_INET, port=1234)
261        while True:
262            srv.accept(vnet)
263
264    @pytest.mark.require_user("root")
265    def test_multihome(self):
266        srv_vnet = self.vnet_map["vnet2"]
267
268        ToolsHelper.print_output("/sbin/pfctl -e")
269        ToolsHelper.pf_rules([
270            "block proto sctp",
271            "pass inet proto sctp to 192.0.2.0/24",
272            "pass on lo"])
273
274        # Sanity check, we can communicate with the primary address.
275        client = SCTPClient("192.0.2.3", 1234)
276        client.send(b"hello", 0)
277        rcvd = self.wait_object(srv_vnet.pipe)
278        print(rcvd)
279        assert rcvd['ppid'] == 0
280        assert rcvd['data'] == "hello"
281
282        try:
283            client.newpeer("192.0.2.2")
284            client.send(b"world", 0)
285            rcvd = self.wait_object(srv_vnet.pipe)
286            print(rcvd)
287            assert rcvd['ppid'] == 0
288            assert rcvd['data'] == "world"
289        finally:
290            # Debug output
291            ToolsHelper.print_output("/sbin/pfctl -ss")
292            ToolsHelper.print_output("/sbin/pfctl -sr -vv")
293
294        # Check that we have a state for 192.0.2.3 and 192.0.2.2 to 192.0.2.1
295        states = ToolsHelper.get_output("/sbin/pfctl -ss")
296        assert re.search(r"all sctp 192.0.2.1:.*192.0.2.3:1234", states)
297        assert re.search(r"all sctp 192.0.2.1:.*192.0.2.2:1234", states)
298
299    @pytest.mark.require_user("root")
300    def test_multihome_asconf(self):
301        srv_vnet = self.vnet_map["vnet2"]
302
303        # Assign a second IP to ourselves
304        ToolsHelper.print_output("/sbin/ifconfig %s inet alias 192.0.2.10/24"
305            % self.vnet.iface_alias_map["if1"].name)
306        ToolsHelper.print_output("/sbin/pfctl -e")
307        ToolsHelper.pf_rules([
308            "block proto sctp",
309            "pass on lo",
310            "pass inet proto sctp from 192.0.2.0/24"])
311
312        # Sanity check, we can communicate with the primary address.
313        client = SCTPClient("192.0.2.3", 1234, "192.0.2.1")
314        client.send(b"hello", 0)
315        rcvd = self.wait_object(srv_vnet.pipe)
316        print(rcvd)
317        assert rcvd['ppid'] == 0
318        assert rcvd['data'] == "hello"
319
320        # Now add our second address to the connection
321        client.bindx("192.0.2.10", True)
322
323        # We can still communicate
324        client.send(b"world", 0)
325        rcvd = self.wait_object(srv_vnet.pipe)
326        print(rcvd)
327        assert rcvd['ppid'] == 0
328        assert rcvd['data'] == "world"
329
330        # Now change to a different peer address
331        try:
332            client.newprimary("192.0.2.10")
333            client.send(b"!", 0)
334            rcvd = self.wait_object(srv_vnet.pipe, 5)
335            print(rcvd)
336            assert rcvd['ppid'] == 0
337            assert rcvd['data'] == "!"
338        finally:
339            # Debug output
340            ToolsHelper.print_output("/sbin/pfctl -ss -vv")
341
342        # Ensure we have the states we'd expect
343        states = ToolsHelper.get_output("/sbin/pfctl -ss")
344        assert re.search(r"all sctp 192.0.2.1:.*192.0.2.3:1234", states)
345        assert re.search(r"all sctp 192.0.2.10:.*192.0.2.3:1234", states)
346
347        # Now remove 192.0.2.1 as an address
348        client.bindx("192.0.2.1", False)
349
350        # We can still communicate
351        try:
352            client.send(b"More data", 0)
353            rcvd = self.wait_object(srv_vnet.pipe, 5)
354            print(rcvd)
355            assert rcvd['ppid'] == 0
356            assert rcvd['data'] =="More data"
357        finally:
358            # Debug output
359            ToolsHelper.print_output("/sbin/pfctl -ss -vv")
360
361        # Verify that state is closing
362        states = ToolsHelper.get_output("/sbin/pfctl -ss")
363        assert re.search(r"all sctp 192.0.2.1:.*192.0.2.3:1234.*SHUTDOWN", states)
364
365
366    @pytest.mark.require_user("root")
367    def test_permutation_if_bound(self):
368        # Test that we generate all permutations of src/dst addresses.
369        # Assign two addresses to each end, and check for the expected states
370        srv_vnet = self.vnet_map["vnet2"]
371
372        ifname = self.vnet_map["vnet1"].iface_alias_map["if1"].name
373        ToolsHelper.print_output("/sbin/ifconfig %s inet alias 192.0.2.4/24" % ifname)
374
375        ToolsHelper.print_output("/sbin/pfctl -e")
376        ToolsHelper.pf_rules([
377            "set state-policy if-bound",
378            "block proto sctp",
379            "pass on lo",
380            "pass inet proto sctp to 192.0.2.0/24"])
381
382        # Sanity check, we can communicate with the primary address.
383        client = SCTPClient("192.0.2.3", 1234)
384        client.send(b"hello", 0)
385        rcvd = self.wait_object(srv_vnet.pipe)
386        print(rcvd)
387        assert rcvd['ppid'] == 0
388        assert rcvd['data'] == "hello"
389
390        # Check that we have a state for 192.0.2.3 and 192.0.2.2 to 192.0.2.1, but also to 192.0.2.4
391        states = ToolsHelper.get_output("/sbin/pfctl -ss")
392        print(states)
393        assert re.search(r"epair.*sctp 192.0.2.1:.*192.0.2.3:1234", states)
394        assert re.search(r"epair.*sctp 192.0.2.1:.*192.0.2.2:1234", states)
395        assert re.search(r"epair.*sctp 192.0.2.4:.*192.0.2.3:1234", states)
396        assert re.search(r"epair.*sctp 192.0.2.4:.*192.0.2.2:1234", states)
397
398    @pytest.mark.require_user("root")
399    def test_permutation_floating(self):
400        # Test that we generate all permutations of src/dst addresses.
401        # Assign two addresses to each end, and check for the expected states
402        srv_vnet = self.vnet_map["vnet2"]
403
404        ifname = self.vnet_map["vnet1"].iface_alias_map["if1"].name
405        ToolsHelper.print_output("/sbin/ifconfig %s inet alias 192.0.2.4/24" % ifname)
406
407        ToolsHelper.print_output("/sbin/pfctl -e")
408        ToolsHelper.pf_rules([
409            "block proto sctp",
410            "pass on lo",
411            "pass inet proto sctp to 192.0.2.0/24"])
412
413        # Sanity check, we can communicate with the primary address.
414        client = SCTPClient("192.0.2.3", 1234)
415        client.send(b"hello", 0)
416        rcvd = self.wait_object(srv_vnet.pipe)
417        print(rcvd)
418        assert rcvd['ppid'] == 0
419        assert rcvd['data'] == "hello"
420
421        # Check that we have a state for 192.0.2.3 and 192.0.2.2 to 192.0.2.1, but also to 192.0.2.4
422        states = ToolsHelper.get_output("/sbin/pfctl -ss")
423        print(states)
424        assert re.search(r"all sctp 192.0.2.1:.*192.0.2.3:1234", states)
425        assert re.search(r"all sctp 192.0.2.1:.*192.0.2.2:1234", states)
426        assert re.search(r"all sctp 192.0.2.4:.*192.0.2.3:1234", states)
427        assert re.search(r"all sctp 192.0.2.4:.*192.0.2.2:1234", states)
428
429class TestSCTPv6(VnetTestTemplate):
430    REQUIRED_MODULES = ["sctp", "pf"]
431    TOPOLOGY = {
432        "vnet1": {"ifaces": ["if1"]},
433        "vnet2": {"ifaces": ["if1"]},
434        "if1": {"prefixes6": [("2001:db8::1/64", "2001:db8::2/64")]},
435    }
436
437    def vnet2_handler(self, vnet):
438        # Give ourself a second IP address, for multihome testing
439        ifname = vnet.iface_alias_map["if1"].name
440        ToolsHelper.print_output("/sbin/ifconfig %s inet6 alias 2001:db8::3/64" % ifname)
441
442        # Start an SCTP server process, pipe the ppid + data back to the other vnet?
443        srv = SCTPServer(socket.AF_INET6, port=1234)
444        while True:
445            srv.accept(vnet)
446
447    @pytest.mark.require_user("root")
448    def test_multihome(self):
449        srv_vnet = self.vnet_map["vnet2"]
450
451        ToolsHelper.print_output("/sbin/pfctl -e")
452        ToolsHelper.pf_rules([
453            "block proto sctp",
454            "pass on lo",
455            "pass inet6 proto sctp to 2001:db8::0/64"])
456
457        # Sanity check, we can communicate with the primary address.
458        client = SCTPClient("2001:db8::3", 1234)
459        client.send(b"hello", 0)
460        rcvd = self.wait_object(srv_vnet.pipe)
461        print(rcvd)
462        assert rcvd['ppid'] == 0
463        assert rcvd['data'] == "hello"
464
465        # Now change to a different peer address
466        try:
467            client.newpeer("2001:db8::2")
468            client.send(b"world", 0)
469            rcvd = self.wait_object(srv_vnet.pipe)
470            print(rcvd)
471            assert rcvd['ppid'] == 0
472            assert rcvd['data'] == "world"
473        finally:
474            # Debug output
475            ToolsHelper.print_output("/sbin/pfctl -ss -vv")
476
477        # Check that we have the expected states
478        states = ToolsHelper.get_output("/sbin/pfctl -ss")
479        assert re.search(r"all sctp 2001:db8::1\[.*2001:db8::3\[1234\]", states)
480        assert re.search(r"all sctp 2001:db8::1\[.*2001:db8::2\[1234\]", states)
481
482    @pytest.mark.require_user("root")
483    def test_multihome_asconf(self):
484        srv_vnet = self.vnet_map["vnet2"]
485
486        # Assign a second IP to ourselves
487        ToolsHelper.print_output("/sbin/ifconfig %s inet6 alias 2001:db8::10/64"
488            % self.vnet.iface_alias_map["if1"].name)
489        ToolsHelper.print_output("/sbin/pfctl -e")
490        ToolsHelper.pf_rules([
491            "block proto sctp",
492            "pass on lo",
493            "pass inet6 proto sctp from 2001:db8::/64"])
494
495        # Sanity check, we can communicate with the primary address.
496        client = SCTPClient("2001:db8::3", 1234, "2001:db8::1")
497        client.send(b"hello", 0)
498        rcvd = self.wait_object(srv_vnet.pipe)
499        print(rcvd)
500        assert rcvd['ppid'] == 0
501        assert rcvd['data'] == "hello"
502
503        # Now add our second address to the connection
504        client.bindx("2001:db8::10", True)
505
506        # We can still communicate
507        client.send(b"world", 0)
508        rcvd = self.wait_object(srv_vnet.pipe)
509        print(rcvd)
510        assert rcvd['ppid'] == 0
511        assert rcvd['data'] == "world"
512
513        # Now change to a different peer address
514        try:
515            client.newprimary("2001:db8::10")
516            client.send(b"!", 0)
517            rcvd = self.wait_object(srv_vnet.pipe, 5)
518            print(rcvd)
519            assert rcvd['ppid'] == 0
520            assert rcvd['data'] == "!"
521        finally:
522            # Debug output
523            ToolsHelper.print_output("/sbin/pfctl -ss -vv")
524
525        # Check that we have the expected states
526        states = ToolsHelper.get_output("/sbin/pfctl -ss")
527        assert re.search(r"all sctp 2001:db8::1\[.*2001:db8::3\[1234\]", states)
528        assert re.search(r"all sctp 2001:db8::10\[.*2001:db8::3\[1234\]", states)
529
530        # Now remove 2001:db8::1 as an address
531        client.bindx("2001:db8::1", False)
532
533        # Wecan still communicate
534        try:
535            client.send(b"More data", 0)
536            rcvd = self.wait_object(srv_vnet.pipe, 5)
537            print(rcvd)
538            assert rcvd['ppid'] == 0
539            assert rcvd['data'] == "More data"
540        finally:
541            # Debug output
542            ToolsHelper.print_output("/sbin/pfctl -ss -vv")
543
544        # Verify that the state is closing
545        states = ToolsHelper.get_output("/sbin/pfctl -ss")
546        assert re.search(r"all sctp 2001:db8::1\[.*2001:db8::3\[1234\].*SHUTDOWN", states)
547
548    @pytest.mark.require_user("root")
549    def test_permutation(self):
550        # Test that we generate all permutations of src/dst addresses.
551        # Assign two addresses to each end, and check for the expected states
552        srv_vnet = self.vnet_map["vnet2"]
553
554        ifname = self.vnet_map["vnet1"].iface_alias_map["if1"].name
555        ToolsHelper.print_output("/sbin/ifconfig %s inet6 alias 2001:db8::4/64" % ifname)
556
557        ToolsHelper.print_output("/sbin/pfctl -e")
558        ToolsHelper.pf_rules([
559            "set state-policy if-bound",
560            "block proto sctp",
561            "pass on lo",
562            "pass inet6 proto sctp to 2001:db8::0/64"])
563
564        # Sanity check, we can communicate with the primary address.
565        client = SCTPClient("2001:db8::3", 1234)
566        client.send(b"hello", 0)
567        rcvd = self.wait_object(srv_vnet.pipe)
568        print(rcvd)
569        assert rcvd['ppid'] == 0
570        assert rcvd['data'] == "hello"
571
572        # Check that we have a state for 2001:db8::3 and 2001:db8::2 to 2001:db8::1, but also to 2001:db8::4
573        states = ToolsHelper.get_output("/sbin/pfctl -ss")
574        print(states)
575        assert re.search(r"epair.*sctp 2001:db8::1\[.*2001:db8::2\[1234\]", states)
576        assert re.search(r"epair.*sctp 2001:db8::1\[.*2001:db8::3\[1234\]", states)
577        assert re.search(r"epair.*sctp 2001:db8::4\[.*2001:db8::2\[1234\]", states)
578        assert re.search(r"epair.*sctp 2001:db8::4\[.*2001:db8::3\[1234\]", states)
579
580    @pytest.mark.require_user("root")
581    def test_permutation_floating(self):
582        # Test that we generate all permutations of src/dst addresses.
583        # Assign two addresses to each end, and check for the expected states
584        srv_vnet = self.vnet_map["vnet2"]
585
586        ifname = self.vnet_map["vnet1"].iface_alias_map["if1"].name
587        ToolsHelper.print_output("/sbin/ifconfig %s inet6 alias 2001:db8::4/64" % ifname)
588
589        ToolsHelper.print_output("/sbin/pfctl -e")
590        ToolsHelper.pf_rules([
591            "block proto sctp",
592            "pass on lo",
593            "pass inet6 proto sctp to 2001:db8::0/64"])
594
595        # Sanity check, we can communicate with the primary address.
596        client = SCTPClient("2001:db8::3", 1234)
597        client.send(b"hello", 0)
598        rcvd = self.wait_object(srv_vnet.pipe)
599        print(rcvd)
600        assert rcvd['ppid'] == 0
601        assert rcvd['data'] == "hello"
602
603        # Check that we have a state for 2001:db8::3 and 2001:db8::2 to 2001:db8::1, but also to 2001:db8::4
604        states = ToolsHelper.get_output("/sbin/pfctl -ss")
605        print(states)
606        assert re.search(r"all sctp 2001:db8::1\[.*2001:db8::2\[1234\]", states)
607        assert re.search(r"all sctp 2001:db8::1\[.*2001:db8::3\[1234\]", states)
608        assert re.search(r"all sctp 2001:db8::4\[.*2001:db8::2\[1234\]", states)
609        assert re.search(r"all sctp 2001:db8::4\[.*2001:db8::3\[1234\]", states)
610