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+# SPDX-License-Identifier: GPL-2.0
+import subprocess
+import socket
+from ipaddress import IPv4Address
+from ipaddress import IPv6Address
+
+
+class NamespaceFixture:
+ """Create a pair of namespaces connected by one veth pair
+
+ Each end of the pair has multiple addresses but everything is in the same subnet
+ """
+
+ server_netns_name = "tcp_authopt_test_server"
+ client_netns_name = "tcp_authopt_test_client"
+
+ @classmethod
+ def get_ipv4_addr(cls, ns=1, index=1) -> IPv4Address:
+ return IPv4Address("10.10.0.0") + (ns << 8) + index
+
+ @classmethod
+ def get_ipv6_addr(cls, ns=1, index=1) -> IPv6Address:
+ return IPv6Address("fd00::") + (ns << 16) + index
+
+ @classmethod
+ def get_addr(cls, address_family=socket.AF_INET, ns=1, index=1):
+ if address_family == socket.AF_INET:
+ return cls.get_ipv4_addr(ns, index)
+ elif address_family == socket.AF_INET6:
+ return cls.get_ipv6_addr(ns, index)
+ else:
+ raise ValueError(f"Bad address_family={address_family}")
+
+ # 02:* means "locally administered"
+ server_mac_addr = "02:00:00:00:00:01"
+ client_mac_addr = "02:00:00:00:00:02"
+
+ ipv4_prefix_len = 16
+ ipv6_prefix_len = 64
+
+ @classmethod
+ def get_prefix_length(cls, address_family) -> int:
+ return {
+ socket.AF_INET: cls.ipv4_prefix_len,
+ socket.AF_INET6: cls.ipv6_prefix_len,
+ }[address_family]
+
+ def __init__(self, **kw):
+ for k, v in kw.items():
+ setattr(self, k, v)
+
+ def __enter__(self):
+ self._del_netns()
+ script = f"""
+set -e
+ip netns add {self.server_netns_name}
+ip netns add {self.client_netns_name}
+ip link add veth0 netns {self.server_netns_name} type veth peer name veth0 netns {self.client_netns_name}
+ip netns exec {self.server_netns_name} ip link set veth0 up addr {self.server_mac_addr}
+ip netns exec {self.client_netns_name} ip link set veth0 up addr {self.client_mac_addr}
+"""
+ for index in [1, 2, 3]:
+ script += f"ip -n {self.server_netns_name} addr add {self.get_ipv4_addr(1, index)}/16 dev veth0\n"
+ script += f"ip -n {self.client_netns_name} addr add {self.get_ipv4_addr(2, index)}/16 dev veth0\n"
+ script += f"ip -n {self.server_netns_name} addr add {self.get_ipv6_addr(1, index)}/64 dev veth0 nodad\n"
+ script += f"ip -n {self.client_netns_name} addr add {self.get_ipv6_addr(2, index)}/64 dev veth0 nodad\n"
+ subprocess.run(script, shell=True, check=True)
+ return self
+
+ def _del_netns(self):
+ script = f"""\
+set -e
+if ip netns list | grep -q {self.server_netns_name}; then
+ ip netns del {self.server_netns_name}
+fi
+if ip netns list | grep -q {self.client_netns_name}; then
+ ip netns del {self.client_netns_name}
+fi
+"""
+ subprocess.run(script, shell=True, check=True)
+
+ def __exit__(self, *a):
+ self._del_netns()
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+# SPDX-License-Identifier: GPL-2.0
+import logging
+import os
+import selectors
+from contextlib import ExitStack
+from threading import Thread
+
+logger = logging.getLogger(__name__)
+
+
+class SimpleServerThread(Thread):
+ """Simple server thread for testing TCP sockets
+
+ All data is read in 1000 bytes chunks and either echoed back or discarded.
+
+ :ivar keep_half_open: do not close in response to remote close.
+ """
+
+ DEFAULT_BUFSIZE = 1000
+
+ def __init__(self, socket, mode="recv", bufsize=DEFAULT_BUFSIZE, keep_half_open=False):
+ self.listen_socket = socket
+ self.server_socket = []
+ self.bufsize = bufsize
+ self.keep_half_open = keep_half_open
+ self.mode = mode
+ super().__init__()
+
+ def _read(self, conn, events):
+ # logger.debug("events=%r", events)
+ try:
+ data = conn.recv(self.bufsize)
+ except ConnectionResetError:
+ # logger.info("reset %r", conn)
+ conn.close()
+ self.sel.unregister(conn)
+ return
+ # logger.debug("len(data)=%r", len(data))
+ if len(data) == 0:
+ if not self.keep_half_open:
+ # logger.info("closing %r", conn)
+ conn.close()
+ self.sel.unregister(conn)
+ else:
+ if self.mode == "echo":
+ conn.sendall(data)
+ elif self.mode == "recv":
+ pass
+ else:
+ raise ValueError(f"Unknown mode {self.mode}")
+
+ def _stop_pipe_read(self, conn, events):
+ self.should_loop = False
+
+ def start(self) -> None:
+ self.exit_stack = ExitStack()
+ self._stop_pipe_rfd, self._stop_pipe_wfd = os.pipe()
+ self.exit_stack.callback(lambda: os.close(self._stop_pipe_rfd))
+ self.exit_stack.callback(lambda: os.close(self._stop_pipe_wfd))
+ return super().start()
+
+ def _accept(self, conn, events):
+ assert conn == self.listen_socket
+ conn, _addr = self.listen_socket.accept()
+ conn = self.exit_stack.enter_context(conn)
+ conn.setblocking(False)
+ self.sel.register(conn, selectors.EVENT_READ, self._read)
+ self.server_socket.append(conn)
+
+ def run(self):
+ self.should_loop = True
+ self.sel = self.exit_stack.enter_context(selectors.DefaultSelector())
+ self.sel.register(
+ self._stop_pipe_rfd, selectors.EVENT_READ, self._stop_pipe_read
+ )
+ self.sel.register(self.listen_socket, selectors.EVENT_READ, self._accept)
+ # logger.debug("loop init")
+ while self.should_loop:
+ for key, events in self.sel.select(timeout=1):
+ callback = key.data
+ callback(key.fileobj, events)
+ # logger.debug("loop done")
+
+ def stop(self):
+ """Try to stop nicely"""
+ os.write(self._stop_pipe_wfd, b"Q")
+ self.join()
+ self.exit_stack.close()
+
+ def __enter__(self):
+ self.start()
+ return self
+
+ def __exit__(self, *args):
+ self.stop()
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+# SPDX-License-Identifier: GPL-2.0
+"""Test TCP-AO keys can be bound to specific remote addresses"""
+from contextlib import ExitStack
+import socket
+import pytest
+from .netns_fixture import NamespaceFixture
+from .utils import create_listen_socket
+from .server import SimpleServerThread
+from .linux_tcp_authopt import (
+ tcp_authopt,
+ TCP_AUTHOPT_FLAG,
+ TCP_AUTHOPT_KEY_FLAG,
+ TCP_AUTHOPT_ALG,
+ set_tcp_authopt,
+ set_tcp_authopt_key,
+ tcp_authopt_key,
+)
+from .utils import netns_context, DEFAULT_TCP_SERVER_PORT, check_socket_echo
+from .conftest import skipif_missing_tcp_authopt
+
+pytestmark = skipif_missing_tcp_authopt
+
+
+@pytest.mark.parametrize("address_family", [socket.AF_INET, socket.AF_INET6])
+def test_addr_server_bind(exit_stack: ExitStack, address_family):
+ """ "Server only accept client2, check client1 fails"""
+ nsfixture = exit_stack.enter_context(NamespaceFixture())
+ server_addr = str(nsfixture.get_addr(address_family, 1, 1))
+ client_addr = str(nsfixture.get_addr(address_family, 2, 1))
+ client_addr2 = str(nsfixture.get_addr(address_family, 2, 2))
+
+ # create server:
+ listen_socket = exit_stack.push(
+ create_listen_socket(family=address_family, ns=nsfixture.server_netns_name)
+ )
+ exit_stack.enter_context(SimpleServerThread(listen_socket, mode="echo"))
+
+ # set keys:
+ server_key = tcp_authopt_key(
+ alg=TCP_AUTHOPT_ALG.HMAC_SHA_1_96,
+ key="hello",
+ flags=TCP_AUTHOPT_KEY_FLAG.BIND_ADDR,
+ addr=client_addr2,
+ )
+ set_tcp_authopt(
+ listen_socket,
+ tcp_authopt(flags=TCP_AUTHOPT_FLAG.REJECT_UNEXPECTED),
+ )
+ set_tcp_authopt_key(listen_socket, server_key)
+
+ # create client socket:
+ def create_client_socket():
+ with netns_context(nsfixture.client_netns_name):
+ client_socket = socket.socket(address_family, socket.SOCK_STREAM)
+ client_key = tcp_authopt_key(
+ alg=TCP_AUTHOPT_ALG.HMAC_SHA_1_96,
+ key="hello",
+ )
+ set_tcp_authopt_key(client_socket, client_key)
+ return client_socket
+
+ # addr match:
+ # with create_client_socket() as client_socket2:
+ # client_socket2.bind((client_addr2, 0))
+ # client_socket2.settimeout(1.0)
+ # client_socket2.connect((server_addr, TCP_SERVER_PORT))
+
+ # addr mismatch:
+ with create_client_socket() as client_socket1:
+ client_socket1.bind((client_addr, 0))
+ with pytest.raises(socket.timeout):
+ client_socket1.settimeout(1.0)
+ client_socket1.connect((server_addr, DEFAULT_TCP_SERVER_PORT))
+
+
+@pytest.mark.parametrize("address_family", [socket.AF_INET, socket.AF_INET6])
+def test_addr_client_bind(exit_stack: ExitStack, address_family):
+ """Client configures different keys with same id but different addresses"""
+ nsfixture = exit_stack.enter_context(NamespaceFixture())
+ server_addr1 = str(nsfixture.get_addr(address_family, 1, 1))
+ server_addr2 = str(nsfixture.get_addr(address_family, 1, 2))
+ client_addr = str(nsfixture.get_addr(address_family, 2, 1))
+
+ # create servers:
+ listen_socket1 = exit_stack.enter_context(
+ create_listen_socket(
+ family=address_family, ns=nsfixture.server_netns_name, bind_addr=server_addr1
+ )
+ )
+ listen_socket2 = exit_stack.enter_context(
+ create_listen_socket(
+ family=address_family, ns=nsfixture.server_netns_name, bind_addr=server_addr2
+ )
+ )
+ exit_stack.enter_context(SimpleServerThread(listen_socket1, mode="echo"))
+ exit_stack.enter_context(SimpleServerThread(listen_socket2, mode="echo"))
+
+ # set keys:
+ set_tcp_authopt_key(
+ listen_socket1,
+ tcp_authopt_key(
+ alg=TCP_AUTHOPT_ALG.HMAC_SHA_1_96,
+ key="11111",
+ ),
+ )
+ set_tcp_authopt_key(
+ listen_socket2,
+ tcp_authopt_key(
+ alg=TCP_AUTHOPT_ALG.HMAC_SHA_1_96,
+ key="22222",
+ ),
+ )
+
+ # create client socket:
+ def create_client_socket():
+ with netns_context(nsfixture.client_netns_name):
+ client_socket = socket.socket(address_family, socket.SOCK_STREAM)
+ set_tcp_authopt_key(
+ client_socket,
+ tcp_authopt_key(
+ alg=TCP_AUTHOPT_ALG.HMAC_SHA_1_96,
+ key="11111",
+ flags=TCP_AUTHOPT_KEY_FLAG.BIND_ADDR,
+ addr=server_addr1,
+ ),
+ )
+ set_tcp_authopt_key(
+ client_socket,
+ tcp_authopt_key(
+ alg=TCP_AUTHOPT_ALG.HMAC_SHA_1_96,
+ key="22222",
+ flags=TCP_AUTHOPT_KEY_FLAG.BIND_ADDR,
+ addr=server_addr2,
+ ),
+ )
+ client_socket.settimeout(1.0)
+ client_socket.bind((client_addr, 0))
+ return client_socket
+
+ with create_client_socket() as client_socket1:
+ client_socket1.connect((server_addr1, DEFAULT_TCP_SERVER_PORT))
+ check_socket_echo(client_socket1)
+ with create_client_socket() as client_socket2:
+ client_socket2.connect((server_addr2, DEFAULT_TCP_SERVER_PORT))
+ check_socket_echo(client_socket2)
new file mode 100644
@@ -0,0 +1,102 @@
+# SPDX-License-Identifier: GPL-2.0
+import json
+import random
+import subprocess
+import socket
+from contextlib import nullcontext
+
+from nsenter import Namespace
+
+# TCP port does not impact Authentication Option so define a single default
+DEFAULT_TCP_SERVER_PORT = 17971
+
+
+def recvall(sock, todo):
+ """Receive exactly todo bytes unless EOF"""
+ data = bytes()
+ while True:
+ chunk = sock.recv(todo)
+ if not len(chunk):
+ return data
+ data += chunk
+ todo -= len(chunk)
+ if todo == 0:
+ return data
+ assert todo > 0
+
+
+def randbytes(count) -> bytes:
+ """Return a random byte array"""
+ return bytes([random.randint(0, 255) for index in range(count)])
+
+
+def check_socket_echo(sock: socket.socket, size=1000):
+ """Send random bytes and check they are received
+
+ The default size is equal to `SimpleServerThread.DEFAULT_BUFSIZE` which
+ means that a single pair of packets will be sent at the TCP level.
+ """
+ send_buf = randbytes(size)
+ sock.sendall(send_buf)
+ recv_buf = recvall(sock, size)
+ assert send_buf == recv_buf
+
+
+def nstat_json(command_prefix: str = ""):
+ """Parse nstat output into a python dict"""
+ runres = subprocess.run(
+ f"{command_prefix}nstat -a --zeros --json",
+ shell=True,
+ check=True,
+ stdout=subprocess.PIPE,
+ encoding="utf-8",
+ )
+ return json.loads(runres.stdout)["kernel"]
+
+
+def netns_context(ns: str = ""):
+ """Create context manager for a certain optional netns
+
+ If the ns argument is empty then just return a `nullcontext`
+ """
+ if ns:
+ return Namespace("/var/run/netns/" + ns, "net")
+ else:
+ return nullcontext()
+
+
+def create_listen_socket(
+ ns: str = "",
+ family=socket.AF_INET,
+ reuseaddr=True,
+ listen_depth=10,
+ bind_addr="",
+ bind_port=DEFAULT_TCP_SERVER_PORT,
+):
+ with netns_context(ns):
+ listen_socket = socket.socket(family, socket.SOCK_STREAM)
+ if reuseaddr:
+ listen_socket.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
+ listen_socket.bind((str(bind_addr), bind_port))
+ listen_socket.listen(listen_depth)
+ return listen_socket
+
+
+def create_client_socket(
+ ns: str = "", family=socket.AF_INET, bind_addr="", bind_port=0, timeout=1.0
+):
+ with netns_context(ns):
+ client_socket = socket.socket(family, socket.SOCK_STREAM)
+ if bind_addr or bind_port:
+ client_socket.bind((str(bind_addr), bind_port))
+ if timeout is not None:
+ client_socket.settimeout(timeout)
+ return client_socket
+
+
+def socket_set_linger(sock, onoff, value):
+ import struct
+
+ sock.setsockopt(
+ socket.SOL_SOCKET, socket.SO_LINGER, struct.pack("ii", int(onoff), int(value))
+ )
By default TCP-AO keys apply to all possible peers but it's possible to have different keys for different remote hosts. This patch adds initial tests for the behavior behind the TCP_AUTHOPT_KEY_BIND_ADDR flag. Server rejection is tested via client timeout so this can be slightly slow. Signed-off-by: Leonard Crestez <cdleonard@gmail.com> --- .../tcp_authopt_test/netns_fixture.py | 83 ++++++++++ .../tcp_authopt/tcp_authopt_test/server.py | 95 ++++++++++++ .../tcp_authopt/tcp_authopt_test/test_bind.py | 145 ++++++++++++++++++ .../tcp_authopt/tcp_authopt_test/utils.py | 102 ++++++++++++ 4 files changed, 425 insertions(+) create mode 100644 tools/testing/selftests/tcp_authopt/tcp_authopt_test/netns_fixture.py create mode 100644 tools/testing/selftests/tcp_authopt/tcp_authopt_test/server.py create mode 100644 tools/testing/selftests/tcp_authopt/tcp_authopt_test/test_bind.py create mode 100644 tools/testing/selftests/tcp_authopt/tcp_authopt_test/utils.py