Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Daniel Borkmann | 4365 | 100.00% | 3 | 100.00% |
Total | 4365 | 3 |
// SPDX-License-Identifier: GPL-2.0 /* Copyright (c) 2023 Isovalent */ #include <uapi/linux/if_link.h> #include <net/if.h> #include <test_progs.h> #define netkit_peer "nk0" #define netkit_name "nk1" #define ping_addr_neigh 0x0a000002 /* 10.0.0.2 */ #define ping_addr_noneigh 0x0a000003 /* 10.0.0.3 */ #include "test_tc_link.skel.h" #include "netlink_helpers.h" #include "tc_helpers.h" #define ICMP_ECHO 8 struct icmphdr { __u8 type; __u8 code; __sum16 checksum; struct { __be16 id; __be16 sequence; } echo; }; struct iplink_req { struct nlmsghdr n; struct ifinfomsg i; char buf[1024]; }; static int create_netkit(int mode, int policy, int peer_policy, int *ifindex, bool same_netns) { struct rtnl_handle rth = { .fd = -1 }; struct iplink_req req = {}; struct rtattr *linkinfo, *data; const char *type = "netkit"; int err; err = rtnl_open(&rth, 0); if (!ASSERT_OK(err, "open_rtnetlink")) return err; memset(&req, 0, sizeof(req)); req.n.nlmsg_len = NLMSG_LENGTH(sizeof(struct ifinfomsg)); req.n.nlmsg_flags = NLM_F_REQUEST | NLM_F_CREATE | NLM_F_EXCL; req.n.nlmsg_type = RTM_NEWLINK; req.i.ifi_family = AF_UNSPEC; addattr_l(&req.n, sizeof(req), IFLA_IFNAME, netkit_name, strlen(netkit_name)); linkinfo = addattr_nest(&req.n, sizeof(req), IFLA_LINKINFO); addattr_l(&req.n, sizeof(req), IFLA_INFO_KIND, type, strlen(type)); data = addattr_nest(&req.n, sizeof(req), IFLA_INFO_DATA); addattr32(&req.n, sizeof(req), IFLA_NETKIT_POLICY, policy); addattr32(&req.n, sizeof(req), IFLA_NETKIT_PEER_POLICY, peer_policy); addattr32(&req.n, sizeof(req), IFLA_NETKIT_MODE, mode); addattr_nest_end(&req.n, data); addattr_nest_end(&req.n, linkinfo); err = rtnl_talk(&rth, &req.n, NULL); ASSERT_OK(err, "talk_rtnetlink"); rtnl_close(&rth); *ifindex = if_nametoindex(netkit_name); ASSERT_GT(*ifindex, 0, "retrieve_ifindex"); ASSERT_OK(system("ip netns add foo"), "create netns"); ASSERT_OK(system("ip link set dev " netkit_name " up"), "up primary"); ASSERT_OK(system("ip addr add dev " netkit_name " 10.0.0.1/24"), "addr primary"); if (same_netns) { ASSERT_OK(system("ip link set dev " netkit_peer " up"), "up peer"); ASSERT_OK(system("ip addr add dev " netkit_peer " 10.0.0.2/24"), "addr peer"); } else { ASSERT_OK(system("ip link set " netkit_peer " netns foo"), "move peer"); ASSERT_OK(system("ip netns exec foo ip link set dev " netkit_peer " up"), "up peer"); ASSERT_OK(system("ip netns exec foo ip addr add dev " netkit_peer " 10.0.0.2/24"), "addr peer"); } return err; } static void destroy_netkit(void) { ASSERT_OK(system("ip link del dev " netkit_name), "del primary"); ASSERT_OK(system("ip netns del foo"), "delete netns"); ASSERT_EQ(if_nametoindex(netkit_name), 0, netkit_name "_ifindex"); } static int __send_icmp(__u32 dest) { struct sockaddr_in addr; struct icmphdr icmp; int sock, ret; ret = write_sysctl("/proc/sys/net/ipv4/ping_group_range", "0 0"); if (!ASSERT_OK(ret, "write_sysctl(net.ipv4.ping_group_range)")) return ret; sock = socket(AF_INET, SOCK_DGRAM, IPPROTO_ICMP); if (!ASSERT_GE(sock, 0, "icmp_socket")) return -errno; ret = setsockopt(sock, SOL_SOCKET, SO_BINDTODEVICE, netkit_name, strlen(netkit_name) + 1); if (!ASSERT_OK(ret, "setsockopt(SO_BINDTODEVICE)")) goto out; memset(&addr, 0, sizeof(addr)); addr.sin_family = AF_INET; addr.sin_addr.s_addr = htonl(dest); memset(&icmp, 0, sizeof(icmp)); icmp.type = ICMP_ECHO; icmp.echo.id = 1234; icmp.echo.sequence = 1; ret = sendto(sock, &icmp, sizeof(icmp), 0, (struct sockaddr *)&addr, sizeof(addr)); if (!ASSERT_GE(ret, 0, "icmp_sendto")) ret = -errno; else ret = 0; out: close(sock); return ret; } static int send_icmp(void) { return __send_icmp(ping_addr_neigh); } void serial_test_tc_netkit_basic(void) { LIBBPF_OPTS(bpf_prog_query_opts, optq); LIBBPF_OPTS(bpf_netkit_opts, optl); __u32 prog_ids[2], link_ids[2]; __u32 pid1, pid2, lid1, lid2; struct test_tc_link *skel; struct bpf_link *link; int err, ifindex; err = create_netkit(NETKIT_L2, NETKIT_PASS, NETKIT_PASS, &ifindex, false); if (err) return; skel = test_tc_link__open(); if (!ASSERT_OK_PTR(skel, "skel_open")) goto cleanup; ASSERT_EQ(bpf_program__set_expected_attach_type(skel->progs.tc1, BPF_NETKIT_PRIMARY), 0, "tc1_attach_type"); ASSERT_EQ(bpf_program__set_expected_attach_type(skel->progs.tc2, BPF_NETKIT_PEER), 0, "tc2_attach_type"); err = test_tc_link__load(skel); if (!ASSERT_OK(err, "skel_load")) goto cleanup; pid1 = id_from_prog_fd(bpf_program__fd(skel->progs.tc1)); pid2 = id_from_prog_fd(bpf_program__fd(skel->progs.tc2)); ASSERT_NEQ(pid1, pid2, "prog_ids_1_2"); assert_mprog_count_ifindex(ifindex, BPF_NETKIT_PRIMARY, 0); assert_mprog_count_ifindex(ifindex, BPF_NETKIT_PEER, 0); ASSERT_EQ(skel->bss->seen_tc1, false, "seen_tc1"); ASSERT_EQ(skel->bss->seen_tc2, false, "seen_tc2"); link = bpf_program__attach_netkit(skel->progs.tc1, ifindex, &optl); if (!ASSERT_OK_PTR(link, "link_attach")) goto cleanup; skel->links.tc1 = link; lid1 = id_from_link_fd(bpf_link__fd(skel->links.tc1)); assert_mprog_count_ifindex(ifindex, BPF_NETKIT_PRIMARY, 1); assert_mprog_count_ifindex(ifindex, BPF_NETKIT_PEER, 0); optq.prog_ids = prog_ids; optq.link_ids = link_ids; memset(prog_ids, 0, sizeof(prog_ids)); memset(link_ids, 0, sizeof(link_ids)); optq.count = ARRAY_SIZE(prog_ids); err = bpf_prog_query_opts(ifindex, BPF_NETKIT_PRIMARY, &optq); if (!ASSERT_OK(err, "prog_query")) goto cleanup; ASSERT_EQ(optq.count, 1, "count"); ASSERT_EQ(optq.revision, 2, "revision"); ASSERT_EQ(optq.prog_ids[0], pid1, "prog_ids[0]"); ASSERT_EQ(optq.link_ids[0], lid1, "link_ids[0]"); ASSERT_EQ(optq.prog_ids[1], 0, "prog_ids[1]"); ASSERT_EQ(optq.link_ids[1], 0, "link_ids[1]"); tc_skel_reset_all_seen(skel); ASSERT_EQ(send_icmp(), 0, "icmp_pkt"); ASSERT_EQ(skel->bss->seen_tc1, true, "seen_tc1"); ASSERT_EQ(skel->bss->seen_tc2, false, "seen_tc2"); link = bpf_program__attach_netkit(skel->progs.tc2, ifindex, &optl); if (!ASSERT_OK_PTR(link, "link_attach")) goto cleanup; skel->links.tc2 = link; lid2 = id_from_link_fd(bpf_link__fd(skel->links.tc2)); ASSERT_NEQ(lid1, lid2, "link_ids_1_2"); assert_mprog_count_ifindex(ifindex, BPF_NETKIT_PRIMARY, 1); assert_mprog_count_ifindex(ifindex, BPF_NETKIT_PEER, 1); memset(prog_ids, 0, sizeof(prog_ids)); memset(link_ids, 0, sizeof(link_ids)); optq.count = ARRAY_SIZE(prog_ids); err = bpf_prog_query_opts(ifindex, BPF_NETKIT_PEER, &optq); if (!ASSERT_OK(err, "prog_query")) goto cleanup; ASSERT_EQ(optq.count, 1, "count"); ASSERT_EQ(optq.revision, 2, "revision"); ASSERT_EQ(optq.prog_ids[0], pid2, "prog_ids[0]"); ASSERT_EQ(optq.link_ids[0], lid2, "link_ids[0]"); ASSERT_EQ(optq.prog_ids[1], 0, "prog_ids[1]"); ASSERT_EQ(optq.link_ids[1], 0, "link_ids[1]"); tc_skel_reset_all_seen(skel); ASSERT_EQ(send_icmp(), 0, "icmp_pkt"); ASSERT_EQ(skel->bss->seen_tc1, true, "seen_tc1"); ASSERT_EQ(skel->bss->seen_tc2, true, "seen_tc2"); cleanup: test_tc_link__destroy(skel); assert_mprog_count_ifindex(ifindex, BPF_NETKIT_PRIMARY, 0); assert_mprog_count_ifindex(ifindex, BPF_NETKIT_PEER, 0); destroy_netkit(); } static void serial_test_tc_netkit_multi_links_target(int mode, int target) { LIBBPF_OPTS(bpf_prog_query_opts, optq); LIBBPF_OPTS(bpf_netkit_opts, optl); __u32 prog_ids[3], link_ids[3]; __u32 pid1, pid2, lid1, lid2; struct test_tc_link *skel; struct bpf_link *link; int err, ifindex; err = create_netkit(mode, NETKIT_PASS, NETKIT_PASS, &ifindex, false); if (err) return; skel = test_tc_link__open(); if (!ASSERT_OK_PTR(skel, "skel_open")) goto cleanup; ASSERT_EQ(bpf_program__set_expected_attach_type(skel->progs.tc1, target), 0, "tc1_attach_type"); ASSERT_EQ(bpf_program__set_expected_attach_type(skel->progs.tc2, target), 0, "tc2_attach_type"); err = test_tc_link__load(skel); if (!ASSERT_OK(err, "skel_load")) goto cleanup; pid1 = id_from_prog_fd(bpf_program__fd(skel->progs.tc1)); pid2 = id_from_prog_fd(bpf_program__fd(skel->progs.tc2)); ASSERT_NEQ(pid1, pid2, "prog_ids_1_2"); assert_mprog_count_ifindex(ifindex, target, 0); ASSERT_EQ(skel->bss->seen_tc1, false, "seen_tc1"); ASSERT_EQ(skel->bss->seen_eth, false, "seen_eth"); ASSERT_EQ(skel->bss->seen_tc2, false, "seen_tc2"); link = bpf_program__attach_netkit(skel->progs.tc1, ifindex, &optl); if (!ASSERT_OK_PTR(link, "link_attach")) goto cleanup; skel->links.tc1 = link; lid1 = id_from_link_fd(bpf_link__fd(skel->links.tc1)); assert_mprog_count_ifindex(ifindex, target, 1); optq.prog_ids = prog_ids; optq.link_ids = link_ids; memset(prog_ids, 0, sizeof(prog_ids)); memset(link_ids, 0, sizeof(link_ids)); optq.count = ARRAY_SIZE(prog_ids); err = bpf_prog_query_opts(ifindex, target, &optq); if (!ASSERT_OK(err, "prog_query")) goto cleanup; ASSERT_EQ(optq.count, 1, "count"); ASSERT_EQ(optq.revision, 2, "revision"); ASSERT_EQ(optq.prog_ids[0], pid1, "prog_ids[0]"); ASSERT_EQ(optq.link_ids[0], lid1, "link_ids[0]"); ASSERT_EQ(optq.prog_ids[1], 0, "prog_ids[1]"); ASSERT_EQ(optq.link_ids[1], 0, "link_ids[1]"); tc_skel_reset_all_seen(skel); ASSERT_EQ(send_icmp(), 0, "icmp_pkt"); ASSERT_EQ(skel->bss->seen_tc1, true, "seen_tc1"); ASSERT_EQ(skel->bss->seen_eth, true, "seen_eth"); ASSERT_EQ(skel->bss->seen_tc2, false, "seen_tc2"); LIBBPF_OPTS_RESET(optl, .flags = BPF_F_BEFORE, .relative_fd = bpf_program__fd(skel->progs.tc1), ); link = bpf_program__attach_netkit(skel->progs.tc2, ifindex, &optl); if (!ASSERT_OK_PTR(link, "link_attach")) goto cleanup; skel->links.tc2 = link; lid2 = id_from_link_fd(bpf_link__fd(skel->links.tc2)); ASSERT_NEQ(lid1, lid2, "link_ids_1_2"); assert_mprog_count_ifindex(ifindex, target, 2); memset(prog_ids, 0, sizeof(prog_ids)); memset(link_ids, 0, sizeof(link_ids)); optq.count = ARRAY_SIZE(prog_ids); err = bpf_prog_query_opts(ifindex, target, &optq); if (!ASSERT_OK(err, "prog_query")) goto cleanup; ASSERT_EQ(optq.count, 2, "count"); ASSERT_EQ(optq.revision, 3, "revision"); ASSERT_EQ(optq.prog_ids[0], pid2, "prog_ids[0]"); ASSERT_EQ(optq.link_ids[0], lid2, "link_ids[0]"); ASSERT_EQ(optq.prog_ids[1], pid1, "prog_ids[1]"); ASSERT_EQ(optq.link_ids[1], lid1, "link_ids[1]"); ASSERT_EQ(optq.prog_ids[2], 0, "prog_ids[2]"); ASSERT_EQ(optq.link_ids[2], 0, "link_ids[2]"); tc_skel_reset_all_seen(skel); ASSERT_EQ(send_icmp(), 0, "icmp_pkt"); ASSERT_EQ(skel->bss->seen_tc1, true, "seen_tc1"); ASSERT_EQ(skel->bss->seen_eth, true, "seen_eth"); ASSERT_EQ(skel->bss->seen_tc2, true, "seen_tc2"); cleanup: test_tc_link__destroy(skel); assert_mprog_count_ifindex(ifindex, target, 0); destroy_netkit(); } void serial_test_tc_netkit_multi_links(void) { serial_test_tc_netkit_multi_links_target(NETKIT_L2, BPF_NETKIT_PRIMARY); serial_test_tc_netkit_multi_links_target(NETKIT_L3, BPF_NETKIT_PRIMARY); serial_test_tc_netkit_multi_links_target(NETKIT_L2, BPF_NETKIT_PEER); serial_test_tc_netkit_multi_links_target(NETKIT_L3, BPF_NETKIT_PEER); } static void serial_test_tc_netkit_multi_opts_target(int mode, int target) { LIBBPF_OPTS(bpf_prog_attach_opts, opta); LIBBPF_OPTS(bpf_prog_detach_opts, optd); LIBBPF_OPTS(bpf_prog_query_opts, optq); __u32 pid1, pid2, fd1, fd2; __u32 prog_ids[3]; struct test_tc_link *skel; int err, ifindex; err = create_netkit(mode, NETKIT_PASS, NETKIT_PASS, &ifindex, false); if (err) return; skel = test_tc_link__open_and_load(); if (!ASSERT_OK_PTR(skel, "skel_load")) goto cleanup; fd1 = bpf_program__fd(skel->progs.tc1); fd2 = bpf_program__fd(skel->progs.tc2); pid1 = id_from_prog_fd(fd1); pid2 = id_from_prog_fd(fd2); ASSERT_NEQ(pid1, pid2, "prog_ids_1_2"); assert_mprog_count_ifindex(ifindex, target, 0); ASSERT_EQ(skel->bss->seen_tc1, false, "seen_tc1"); ASSERT_EQ(skel->bss->seen_eth, false, "seen_eth"); ASSERT_EQ(skel->bss->seen_tc2, false, "seen_tc2"); err = bpf_prog_attach_opts(fd1, ifindex, target, &opta); if (!ASSERT_EQ(err, 0, "prog_attach")) goto cleanup; assert_mprog_count_ifindex(ifindex, target, 1); optq.prog_ids = prog_ids; memset(prog_ids, 0, sizeof(prog_ids)); optq.count = ARRAY_SIZE(prog_ids); err = bpf_prog_query_opts(ifindex, target, &optq); if (!ASSERT_OK(err, "prog_query")) goto cleanup_fd1; ASSERT_EQ(optq.count, 1, "count"); ASSERT_EQ(optq.revision, 2, "revision"); ASSERT_EQ(optq.prog_ids[0], pid1, "prog_ids[0]"); ASSERT_EQ(optq.prog_ids[1], 0, "prog_ids[1]"); tc_skel_reset_all_seen(skel); ASSERT_EQ(send_icmp(), 0, "icmp_pkt"); ASSERT_EQ(skel->bss->seen_tc1, true, "seen_tc1"); ASSERT_EQ(skel->bss->seen_eth, true, "seen_eth"); ASSERT_EQ(skel->bss->seen_tc2, false, "seen_tc2"); LIBBPF_OPTS_RESET(opta, .flags = BPF_F_BEFORE, .relative_fd = fd1, ); err = bpf_prog_attach_opts(fd2, ifindex, target, &opta); if (!ASSERT_EQ(err, 0, "prog_attach")) goto cleanup_fd1; assert_mprog_count_ifindex(ifindex, target, 2); memset(prog_ids, 0, sizeof(prog_ids)); optq.count = ARRAY_SIZE(prog_ids); err = bpf_prog_query_opts(ifindex, target, &optq); if (!ASSERT_OK(err, "prog_query")) goto cleanup_fd2; ASSERT_EQ(optq.count, 2, "count"); ASSERT_EQ(optq.revision, 3, "revision"); ASSERT_EQ(optq.prog_ids[0], pid2, "prog_ids[0]"); ASSERT_EQ(optq.prog_ids[1], pid1, "prog_ids[1]"); ASSERT_EQ(optq.prog_ids[2], 0, "prog_ids[2]"); tc_skel_reset_all_seen(skel); ASSERT_EQ(send_icmp(), 0, "icmp_pkt"); ASSERT_EQ(skel->bss->seen_tc1, true, "seen_tc1"); ASSERT_EQ(skel->bss->seen_eth, true, "seen_eth"); ASSERT_EQ(skel->bss->seen_tc2, true, "seen_tc2"); cleanup_fd2: err = bpf_prog_detach_opts(fd2, ifindex, target, &optd); ASSERT_OK(err, "prog_detach"); assert_mprog_count_ifindex(ifindex, target, 1); cleanup_fd1: err = bpf_prog_detach_opts(fd1, ifindex, target, &optd); ASSERT_OK(err, "prog_detach"); assert_mprog_count_ifindex(ifindex, target, 0); cleanup: test_tc_link__destroy(skel); assert_mprog_count_ifindex(ifindex, target, 0); destroy_netkit(); } void serial_test_tc_netkit_multi_opts(void) { serial_test_tc_netkit_multi_opts_target(NETKIT_L2, BPF_NETKIT_PRIMARY); serial_test_tc_netkit_multi_opts_target(NETKIT_L3, BPF_NETKIT_PRIMARY); serial_test_tc_netkit_multi_opts_target(NETKIT_L2, BPF_NETKIT_PEER); serial_test_tc_netkit_multi_opts_target(NETKIT_L3, BPF_NETKIT_PEER); } void serial_test_tc_netkit_device(void) { LIBBPF_OPTS(bpf_prog_query_opts, optq); LIBBPF_OPTS(bpf_netkit_opts, optl); __u32 prog_ids[2], link_ids[2]; __u32 pid1, pid2, lid1; struct test_tc_link *skel; struct bpf_link *link; int err, ifindex, ifindex2; err = create_netkit(NETKIT_L3, NETKIT_PASS, NETKIT_PASS, &ifindex, true); if (err) return; ifindex2 = if_nametoindex(netkit_peer); ASSERT_NEQ(ifindex, ifindex2, "ifindex_1_2"); skel = test_tc_link__open(); if (!ASSERT_OK_PTR(skel, "skel_open")) goto cleanup; ASSERT_EQ(bpf_program__set_expected_attach_type(skel->progs.tc1, BPF_NETKIT_PRIMARY), 0, "tc1_attach_type"); ASSERT_EQ(bpf_program__set_expected_attach_type(skel->progs.tc2, BPF_NETKIT_PEER), 0, "tc2_attach_type"); ASSERT_EQ(bpf_program__set_expected_attach_type(skel->progs.tc3, BPF_NETKIT_PRIMARY), 0, "tc3_attach_type"); err = test_tc_link__load(skel); if (!ASSERT_OK(err, "skel_load")) goto cleanup; pid1 = id_from_prog_fd(bpf_program__fd(skel->progs.tc1)); pid2 = id_from_prog_fd(bpf_program__fd(skel->progs.tc2)); ASSERT_NEQ(pid1, pid2, "prog_ids_1_2"); assert_mprog_count_ifindex(ifindex, BPF_NETKIT_PRIMARY, 0); assert_mprog_count_ifindex(ifindex, BPF_NETKIT_PEER, 0); ASSERT_EQ(skel->bss->seen_tc1, false, "seen_tc1"); ASSERT_EQ(skel->bss->seen_tc2, false, "seen_tc2"); link = bpf_program__attach_netkit(skel->progs.tc1, ifindex, &optl); if (!ASSERT_OK_PTR(link, "link_attach")) goto cleanup; skel->links.tc1 = link; lid1 = id_from_link_fd(bpf_link__fd(skel->links.tc1)); assert_mprog_count_ifindex(ifindex, BPF_NETKIT_PRIMARY, 1); assert_mprog_count_ifindex(ifindex, BPF_NETKIT_PEER, 0); optq.prog_ids = prog_ids; optq.link_ids = link_ids; memset(prog_ids, 0, sizeof(prog_ids)); memset(link_ids, 0, sizeof(link_ids)); optq.count = ARRAY_SIZE(prog_ids); err = bpf_prog_query_opts(ifindex, BPF_NETKIT_PRIMARY, &optq); if (!ASSERT_OK(err, "prog_query")) goto cleanup; ASSERT_EQ(optq.count, 1, "count"); ASSERT_EQ(optq.revision, 2, "revision"); ASSERT_EQ(optq.prog_ids[0], pid1, "prog_ids[0]"); ASSERT_EQ(optq.link_ids[0], lid1, "link_ids[0]"); ASSERT_EQ(optq.prog_ids[1], 0, "prog_ids[1]"); ASSERT_EQ(optq.link_ids[1], 0, "link_ids[1]"); tc_skel_reset_all_seen(skel); ASSERT_EQ(send_icmp(), 0, "icmp_pkt"); ASSERT_EQ(skel->bss->seen_tc1, true, "seen_tc1"); ASSERT_EQ(skel->bss->seen_tc2, false, "seen_tc2"); memset(prog_ids, 0, sizeof(prog_ids)); memset(link_ids, 0, sizeof(link_ids)); optq.count = ARRAY_SIZE(prog_ids); err = bpf_prog_query_opts(ifindex2, BPF_NETKIT_PRIMARY, &optq); ASSERT_EQ(err, -EACCES, "prog_query_should_fail"); err = bpf_prog_query_opts(ifindex2, BPF_NETKIT_PEER, &optq); ASSERT_EQ(err, -EACCES, "prog_query_should_fail"); link = bpf_program__attach_netkit(skel->progs.tc2, ifindex2, &optl); if (!ASSERT_ERR_PTR(link, "link_attach_should_fail")) { bpf_link__destroy(link); goto cleanup; } link = bpf_program__attach_netkit(skel->progs.tc3, ifindex2, &optl); if (!ASSERT_ERR_PTR(link, "link_attach_should_fail")) { bpf_link__destroy(link); goto cleanup; } assert_mprog_count_ifindex(ifindex, BPF_NETKIT_PRIMARY, 1); assert_mprog_count_ifindex(ifindex, BPF_NETKIT_PEER, 0); cleanup: test_tc_link__destroy(skel); assert_mprog_count_ifindex(ifindex, BPF_NETKIT_PRIMARY, 0); assert_mprog_count_ifindex(ifindex, BPF_NETKIT_PEER, 0); destroy_netkit(); } static void serial_test_tc_netkit_neigh_links_target(int mode, int target) { LIBBPF_OPTS(bpf_prog_query_opts, optq); LIBBPF_OPTS(bpf_netkit_opts, optl); __u32 prog_ids[2], link_ids[2]; __u32 pid1, lid1; struct test_tc_link *skel; struct bpf_link *link; int err, ifindex; err = create_netkit(mode, NETKIT_PASS, NETKIT_PASS, &ifindex, false); if (err) return; skel = test_tc_link__open(); if (!ASSERT_OK_PTR(skel, "skel_open")) goto cleanup; ASSERT_EQ(bpf_program__set_expected_attach_type(skel->progs.tc1, BPF_NETKIT_PRIMARY), 0, "tc1_attach_type"); err = test_tc_link__load(skel); if (!ASSERT_OK(err, "skel_load")) goto cleanup; pid1 = id_from_prog_fd(bpf_program__fd(skel->progs.tc1)); assert_mprog_count_ifindex(ifindex, target, 0); ASSERT_EQ(skel->bss->seen_tc1, false, "seen_tc1"); ASSERT_EQ(skel->bss->seen_eth, false, "seen_eth"); link = bpf_program__attach_netkit(skel->progs.tc1, ifindex, &optl); if (!ASSERT_OK_PTR(link, "link_attach")) goto cleanup; skel->links.tc1 = link; lid1 = id_from_link_fd(bpf_link__fd(skel->links.tc1)); assert_mprog_count_ifindex(ifindex, target, 1); optq.prog_ids = prog_ids; optq.link_ids = link_ids; memset(prog_ids, 0, sizeof(prog_ids)); memset(link_ids, 0, sizeof(link_ids)); optq.count = ARRAY_SIZE(prog_ids); err = bpf_prog_query_opts(ifindex, target, &optq); if (!ASSERT_OK(err, "prog_query")) goto cleanup; ASSERT_EQ(optq.count, 1, "count"); ASSERT_EQ(optq.revision, 2, "revision"); ASSERT_EQ(optq.prog_ids[0], pid1, "prog_ids[0]"); ASSERT_EQ(optq.link_ids[0], lid1, "link_ids[0]"); ASSERT_EQ(optq.prog_ids[1], 0, "prog_ids[1]"); ASSERT_EQ(optq.link_ids[1], 0, "link_ids[1]"); tc_skel_reset_all_seen(skel); ASSERT_EQ(__send_icmp(ping_addr_noneigh), 0, "icmp_pkt"); ASSERT_EQ(skel->bss->seen_tc1, true /* L2: ARP */, "seen_tc1"); ASSERT_EQ(skel->bss->seen_eth, mode == NETKIT_L3, "seen_eth"); cleanup: test_tc_link__destroy(skel); assert_mprog_count_ifindex(ifindex, target, 0); destroy_netkit(); } void serial_test_tc_netkit_neigh_links(void) { serial_test_tc_netkit_neigh_links_target(NETKIT_L2, BPF_NETKIT_PRIMARY); serial_test_tc_netkit_neigh_links_target(NETKIT_L3, BPF_NETKIT_PRIMARY); }
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