From 8d9276ed564ffef5d12426e839aeef7de5164d7d Mon Sep 17 00:00:00 2001 From: Chris Kuiper Date: Wed, 21 Aug 2019 22:53:07 -0700 Subject: Support binding to multicast and broadcast addresses This fixes the issue of not being able to bind to either a multicast or broadcast address as well as to send and receive data from it. The way to solve this is to treat these addresses similar to the ANY address and register their transport endpoint ID with the global stack's demuxer rather than the NIC's. That way there is no need to require an endpoint with that multicast or broadcast address. The stack's demuxer is in fact the only correct one to use, because neither broadcast- nor multicast-bound sockets care which NIC a packet was received on (for multicast a join is still needed to receive packets on a NIC). I also took the liberty of refactoring udp_test.go to consolidate a lot of duplicate code and make it easier to create repetitive tests that test the same feature for a variety of packet and socket types. For this purpose I created a "flowType" that represents two things: 1) the type of packet being sent or received and 2) the type of socket used for the test. E.g., a "multicastV4in6" flow represents a V4-mapped multicast packet run through a V6-dual socket. This allows writing significantly simpler tests. A nice example is testTTL(). PiperOrigin-RevId: 264766909 --- test/syscalls/linux/socket_ipv4_udp_unbound.cc | 254 +++++++++++++++++++++++++ 1 file changed, 254 insertions(+) (limited to 'test/syscalls/linux') diff --git a/test/syscalls/linux/socket_ipv4_udp_unbound.cc b/test/syscalls/linux/socket_ipv4_udp_unbound.cc index d9aa7ff3f..67d29af0a 100644 --- a/test/syscalls/linux/socket_ipv4_udp_unbound.cc +++ b/test/syscalls/linux/socket_ipv4_udp_unbound.cc @@ -30,6 +30,7 @@ namespace gvisor { namespace testing { constexpr char kMulticastAddress[] = "224.0.2.1"; +constexpr char kBroadcastAddress[] = "255.255.255.255"; TestAddress V4Multicast() { TestAddress t("V4Multicast"); @@ -40,6 +41,15 @@ TestAddress V4Multicast() { return t; } +TestAddress V4Broadcast() { + TestAddress t("V4Broadcast"); + t.addr.ss_family = AF_INET; + t.addr_len = sizeof(sockaddr_in); + reinterpret_cast(&t.addr)->sin_addr.s_addr = + inet_addr(kBroadcastAddress); + return t; +} + // Check that packets are not received without a group membership. Default send // interface configured by bind. TEST_P(IPv4UDPUnboundSocketPairTest, IpMulticastLoopbackNoGroup) { @@ -1426,5 +1436,249 @@ TEST_P(IPv4UDPUnboundSocketPairTest, } } +// Check that a receiving socket can bind to the multicast address before +// joining the group and receive data once the group has been joined. +TEST_P(IPv4UDPUnboundSocketPairTest, TestBindToMcastThenJoinThenReceive) { + auto sockets = ASSERT_NO_ERRNO_AND_VALUE(NewSocketPair()); + + // Bind second socket (receiver) to the multicast address. + auto receiver_addr = V4Multicast(); + ASSERT_THAT(bind(sockets->second_fd(), + reinterpret_cast(&receiver_addr.addr), + receiver_addr.addr_len), + SyscallSucceeds()); + // Update receiver_addr with the correct port number. + socklen_t receiver_addr_len = receiver_addr.addr_len; + ASSERT_THAT(getsockname(sockets->second_fd(), + reinterpret_cast(&receiver_addr.addr), + &receiver_addr_len), + SyscallSucceeds()); + EXPECT_EQ(receiver_addr_len, receiver_addr.addr_len); + + // Register to receive multicast packets. + ip_mreqn group = {}; + group.imr_multiaddr.s_addr = inet_addr(kMulticastAddress); + group.imr_ifindex = ASSERT_NO_ERRNO_AND_VALUE(InterfaceIndex("lo")); + ASSERT_THAT(setsockopt(sockets->second_fd(), IPPROTO_IP, IP_ADD_MEMBERSHIP, + &group, sizeof(group)), + SyscallSucceeds()); + + // Send a multicast packet on the first socket out the loopback interface. + ip_mreq iface = {}; + iface.imr_interface.s_addr = htonl(INADDR_LOOPBACK); + ASSERT_THAT(setsockopt(sockets->first_fd(), IPPROTO_IP, IP_MULTICAST_IF, + &iface, sizeof(iface)), + SyscallSucceeds()); + auto sendto_addr = V4Multicast(); + reinterpret_cast(&sendto_addr.addr)->sin_port = + reinterpret_cast(&receiver_addr.addr)->sin_port; + char send_buf[200]; + RandomizeBuffer(send_buf, sizeof(send_buf)); + ASSERT_THAT( + RetryEINTR(sendto)(sockets->first_fd(), send_buf, sizeof(send_buf), 0, + reinterpret_cast(&sendto_addr.addr), + sendto_addr.addr_len), + SyscallSucceedsWithValue(sizeof(send_buf))); + + // Check that we received the multicast packet. + char recv_buf[sizeof(send_buf)] = {}; + ASSERT_THAT(RetryEINTR(recv)(sockets->second_fd(), recv_buf, sizeof(recv_buf), + MSG_DONTWAIT), + SyscallSucceedsWithValue(sizeof(recv_buf))); + EXPECT_EQ(0, memcmp(send_buf, recv_buf, sizeof(send_buf))); +} + +// Check that a receiving socket can bind to the multicast address and won't +// receive multicast data if it hasn't joined the group. +TEST_P(IPv4UDPUnboundSocketPairTest, TestBindToMcastThenNoJoinThenNoReceive) { + auto sockets = ASSERT_NO_ERRNO_AND_VALUE(NewSocketPair()); + + // Bind second socket (receiver) to the multicast address. + auto receiver_addr = V4Multicast(); + ASSERT_THAT(bind(sockets->second_fd(), + reinterpret_cast(&receiver_addr.addr), + receiver_addr.addr_len), + SyscallSucceeds()); + // Update receiver_addr with the correct port number. + socklen_t receiver_addr_len = receiver_addr.addr_len; + ASSERT_THAT(getsockname(sockets->second_fd(), + reinterpret_cast(&receiver_addr.addr), + &receiver_addr_len), + SyscallSucceeds()); + EXPECT_EQ(receiver_addr_len, receiver_addr.addr_len); + + // Send a multicast packet on the first socket out the loopback interface. + ip_mreq iface = {}; + iface.imr_interface.s_addr = htonl(INADDR_LOOPBACK); + ASSERT_THAT(setsockopt(sockets->first_fd(), IPPROTO_IP, IP_MULTICAST_IF, + &iface, sizeof(iface)), + SyscallSucceeds()); + auto sendto_addr = V4Multicast(); + reinterpret_cast(&sendto_addr.addr)->sin_port = + reinterpret_cast(&receiver_addr.addr)->sin_port; + char send_buf[200]; + RandomizeBuffer(send_buf, sizeof(send_buf)); + ASSERT_THAT( + RetryEINTR(sendto)(sockets->first_fd(), send_buf, sizeof(send_buf), 0, + reinterpret_cast(&sendto_addr.addr), + sendto_addr.addr_len), + SyscallSucceedsWithValue(sizeof(send_buf))); + + // Check that we don't receive the multicast packet. + char recv_buf[sizeof(send_buf)] = {}; + ASSERT_THAT(RetryEINTR(recv)(sockets->second_fd(), recv_buf, sizeof(recv_buf), + MSG_DONTWAIT), + SyscallFailsWithErrno(EAGAIN)); +} + +// Check that a socket can bind to a multicast address and still send out +// packets. +TEST_P(IPv4UDPUnboundSocketPairTest, TestBindToMcastThenSend) { + auto sockets = ASSERT_NO_ERRNO_AND_VALUE(NewSocketPair()); + + // Bind second socket (receiver) to the ANY address. + auto receiver_addr = V4Any(); + ASSERT_THAT(bind(sockets->second_fd(), + reinterpret_cast(&receiver_addr.addr), + receiver_addr.addr_len), + SyscallSucceeds()); + socklen_t receiver_addr_len = receiver_addr.addr_len; + ASSERT_THAT(getsockname(sockets->second_fd(), + reinterpret_cast(&receiver_addr.addr), + &receiver_addr_len), + SyscallSucceeds()); + EXPECT_EQ(receiver_addr_len, receiver_addr.addr_len); + + // Bind the first socket (sender) to the multicast address. + auto sender_addr = V4Multicast(); + ASSERT_THAT( + bind(sockets->first_fd(), reinterpret_cast(&sender_addr.addr), + sender_addr.addr_len), + SyscallSucceeds()); + socklen_t sender_addr_len = sender_addr.addr_len; + ASSERT_THAT(getsockname(sockets->first_fd(), + reinterpret_cast(&sender_addr.addr), + &sender_addr_len), + SyscallSucceeds()); + EXPECT_EQ(sender_addr_len, sender_addr.addr_len); + + // Send a packet on the first socket to the loopback address. + auto sendto_addr = V4Loopback(); + reinterpret_cast(&sendto_addr.addr)->sin_port = + reinterpret_cast(&receiver_addr.addr)->sin_port; + char send_buf[200]; + RandomizeBuffer(send_buf, sizeof(send_buf)); + ASSERT_THAT( + RetryEINTR(sendto)(sockets->first_fd(), send_buf, sizeof(send_buf), 0, + reinterpret_cast(&sendto_addr.addr), + sendto_addr.addr_len), + SyscallSucceedsWithValue(sizeof(send_buf))); + + // Check that we received the packet. + char recv_buf[sizeof(send_buf)] = {}; + ASSERT_THAT(RetryEINTR(recv)(sockets->second_fd(), recv_buf, sizeof(recv_buf), + MSG_DONTWAIT), + SyscallSucceedsWithValue(sizeof(recv_buf))); + EXPECT_EQ(0, memcmp(send_buf, recv_buf, sizeof(send_buf))); +} + +// Check that a receiving socket can bind to the broadcast address and receive +// broadcast packets. +TEST_P(IPv4UDPUnboundSocketPairTest, TestBindToBcastThenReceive) { + auto sockets = ASSERT_NO_ERRNO_AND_VALUE(NewSocketPair()); + + // Bind second socket (receiver) to the broadcast address. + auto receiver_addr = V4Broadcast(); + ASSERT_THAT(bind(sockets->second_fd(), + reinterpret_cast(&receiver_addr.addr), + receiver_addr.addr_len), + SyscallSucceeds()); + socklen_t receiver_addr_len = receiver_addr.addr_len; + ASSERT_THAT(getsockname(sockets->second_fd(), + reinterpret_cast(&receiver_addr.addr), + &receiver_addr_len), + SyscallSucceeds()); + EXPECT_EQ(receiver_addr_len, receiver_addr.addr_len); + + // Send a broadcast packet on the first socket out the loopback interface. + EXPECT_THAT(setsockopt(sockets->first_fd(), SOL_SOCKET, SO_BROADCAST, + &kSockOptOn, sizeof(kSockOptOn)), + SyscallSucceedsWithValue(0)); + // Note: Binding to the loopback interface makes the broadcast go out of it. + auto sender_bind_addr = V4Loopback(); + ASSERT_THAT(bind(sockets->first_fd(), + reinterpret_cast(&sender_bind_addr.addr), + sender_bind_addr.addr_len), + SyscallSucceeds()); + auto sendto_addr = V4Broadcast(); + reinterpret_cast(&sendto_addr.addr)->sin_port = + reinterpret_cast(&receiver_addr.addr)->sin_port; + char send_buf[200]; + RandomizeBuffer(send_buf, sizeof(send_buf)); + ASSERT_THAT( + RetryEINTR(sendto)(sockets->first_fd(), send_buf, sizeof(send_buf), 0, + reinterpret_cast(&sendto_addr.addr), + sendto_addr.addr_len), + SyscallSucceedsWithValue(sizeof(send_buf))); + + // Check that we received the multicast packet. + char recv_buf[sizeof(send_buf)] = {}; + ASSERT_THAT(RetryEINTR(recv)(sockets->second_fd(), recv_buf, sizeof(recv_buf), + MSG_DONTWAIT), + SyscallSucceedsWithValue(sizeof(recv_buf))); + EXPECT_EQ(0, memcmp(send_buf, recv_buf, sizeof(send_buf))); +} + +// Check that a socket can bind to the broadcast address and still send out +// packets. +TEST_P(IPv4UDPUnboundSocketPairTest, TestBindToBcastThenSend) { + auto sockets = ASSERT_NO_ERRNO_AND_VALUE(NewSocketPair()); + + // Bind second socket (receiver) to the ANY address. + auto receiver_addr = V4Any(); + ASSERT_THAT(bind(sockets->second_fd(), + reinterpret_cast(&receiver_addr.addr), + receiver_addr.addr_len), + SyscallSucceeds()); + socklen_t receiver_addr_len = receiver_addr.addr_len; + ASSERT_THAT(getsockname(sockets->second_fd(), + reinterpret_cast(&receiver_addr.addr), + &receiver_addr_len), + SyscallSucceeds()); + EXPECT_EQ(receiver_addr_len, receiver_addr.addr_len); + + // Bind the first socket (sender) to the broadcast address. + auto sender_addr = V4Broadcast(); + ASSERT_THAT( + bind(sockets->first_fd(), reinterpret_cast(&sender_addr.addr), + sender_addr.addr_len), + SyscallSucceeds()); + socklen_t sender_addr_len = sender_addr.addr_len; + ASSERT_THAT(getsockname(sockets->first_fd(), + reinterpret_cast(&sender_addr.addr), + &sender_addr_len), + SyscallSucceeds()); + EXPECT_EQ(sender_addr_len, sender_addr.addr_len); + + // Send a packet on the first socket to the loopback address. + auto sendto_addr = V4Loopback(); + reinterpret_cast(&sendto_addr.addr)->sin_port = + reinterpret_cast(&receiver_addr.addr)->sin_port; + char send_buf[200]; + RandomizeBuffer(send_buf, sizeof(send_buf)); + ASSERT_THAT( + RetryEINTR(sendto)(sockets->first_fd(), send_buf, sizeof(send_buf), 0, + reinterpret_cast(&sendto_addr.addr), + sendto_addr.addr_len), + SyscallSucceedsWithValue(sizeof(send_buf))); + + // Check that we received the packet. + char recv_buf[sizeof(send_buf)] = {}; + ASSERT_THAT(RetryEINTR(recv)(sockets->second_fd(), recv_buf, sizeof(recv_buf), + MSG_DONTWAIT), + SyscallSucceedsWithValue(sizeof(recv_buf))); + EXPECT_EQ(0, memcmp(send_buf, recv_buf, sizeof(send_buf))); +} + } // namespace testing } // namespace gvisor -- cgit v1.2.3