/* SPDX-License-Identifier: GPL-2.0 */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include "params.h" #include "logging.h" #include "util.h" #include "stats.h" #include "common_kern_user.h" #include "prog_features.h" #define NEED_RLIMIT (20 * 1024 * 1024) /* 10 Mbyte */ #define PROG_NAME "xdp-filter" struct flag_val map_flags_all[] = { {"src", MAP_FLAG_SRC}, {"dst", MAP_FLAG_DST}, {"tcp", MAP_FLAG_TCP}, {"udp", MAP_FLAG_UDP}, {} }; struct flag_val map_flags_srcdst[] = { {"src", MAP_FLAG_SRC}, {"dst", MAP_FLAG_DST}, {} }; struct flag_val map_flags_tcpudp[] = { {"tcp", MAP_FLAG_TCP}, {"udp", MAP_FLAG_UDP}, {} }; static char *find_prog_file(__u32 features) { struct prog_feature *feat; if (!features) return NULL; for (feat = prog_features; feat->prog_name; feat++) { if ((ntohl(feat->features) & features) == features) return strdup(feat->prog_name); } return NULL; } static __u32 find_features(const char *progname) { struct prog_feature *feat; for (feat = prog_features; feat->prog_name; feat++) { if (is_prefix(progname, feat->prog_name)) return ntohl(feat->features); } return 0; } int map_get_counter_flags(int fd, void *key, __u64 *counter, __u8 *flags) { /* For percpu maps, userspace gets a value per possible CPU */ int nr_cpus = libbpf_num_possible_cpus(); __u64 sum_ctr = 0; int i, err = 0; __u64 *values; if (nr_cpus < 0) return nr_cpus; values = calloc(nr_cpus, sizeof(*values)); if (!values) return -ENOMEM; if ((bpf_map_lookup_elem(fd, key, values)) != 0) { err = -ENOENT; goto out; } /* Sum values from each CPU */ for (i = 0; i < nr_cpus; i++) { __u8 flg = values[i] & MAP_FLAGS; if (!flg) { err = -ENOENT; /* not set */ goto out; } *flags = flg; sum_ctr += values[i] >> COUNTER_SHIFT; } *counter = sum_ctr; out: free(values); return err; } int map_set_flags(int fd, void *key, __u8 flags) { /* For percpu maps, userspace gets a value per possible CPU */ int nr_cpus = libbpf_num_possible_cpus(); __u64 *values; int i, err; if (nr_cpus < 0) return nr_cpus; values = calloc(nr_cpus, sizeof(*values)); if (!values) return -ENOMEM; if ((bpf_map_lookup_elem(fd, key, values)) != 0) memset(values, 0, sizeof(*values) * nr_cpus); for (i = 0; i < nr_cpus; i++) values[i] = flags ? (values[i] & ~MAP_FLAGS) | (flags & MAP_FLAGS) : 0; pr_debug("Setting new map value %" PRIu64 " from flags %u\n", (uint64_t)values[0], flags); err = bpf_map_update_elem(fd, key, values, 0); free(values); return err; } static int get_iface_features(__unused const struct iface *iface, struct xdp_program *prog, __unused enum xdp_attach_mode mode, void *arg) { __u32 *all_feats = arg; *all_feats |= find_features(xdp_program__name(prog)); return 0; } static int get_used_features(const char *pin_root_path, __u32 *feats) { __u32 all_feats = 0; int err; err = iterate_pinned_programs(pin_root_path, get_iface_features, &all_feats); if (err && err != -ENOENT) return err; *feats = all_feats; return 0; } static const struct loadopt { bool help; struct iface iface; unsigned int features; enum xdp_attach_mode mode; unsigned int policy_mode; } defaults_load = { .features = FEAT_ALL, .mode = XDP_MODE_NATIVE, .policy_mode = FEAT_ALLOW, }; struct flag_val load_features[] = { {"tcp", FEAT_TCP}, {"udp", FEAT_UDP}, {"ipv6", FEAT_IPV6}, {"ipv4", FEAT_IPV4}, {"ethernet", FEAT_ETHERNET}, {"all", FEAT_ALL}, {} }; struct flag_val print_features[] = { {"tcp", FEAT_TCP}, {"udp", FEAT_UDP}, {"ipv6", FEAT_IPV6}, {"ipv4", FEAT_IPV4}, {"ethernet", FEAT_ETHERNET}, {"allow", FEAT_ALLOW}, {"deny", FEAT_DENY}, {} }; struct enum_val xdp_modes[] = { {"native", XDP_MODE_NATIVE}, {"skb", XDP_MODE_SKB}, {"hw", XDP_MODE_HW}, {NULL, 0} }; struct enum_val policy_modes[] = { {"allow", FEAT_ALLOW}, {"deny", FEAT_DENY}, {NULL, 0} }; static struct prog_option load_options[] = { DEFINE_OPTION("mode", OPT_ENUM, struct loadopt, mode, .short_opt = 'm', .typearg = xdp_modes, .metavar = "", .help = "Load XDP program in ; default native"), DEFINE_OPTION("policy", OPT_ENUM, struct loadopt, policy_mode, .short_opt = 'p', .typearg = policy_modes, .metavar = "", .help = "Policy for unmatched packets; default allow"), DEFINE_OPTION("dev", OPT_IFNAME, struct loadopt, iface, .positional = true, .metavar = "", .required = true, .help = "Load on device "), DEFINE_OPTION("features", OPT_FLAGS, struct loadopt, features, .short_opt = 'f', .metavar = "", .typearg = load_features, .help = "Features to enable; default all"), END_OPTIONS }; int do_load(const void *cfg, const char *pin_root_path) { char errmsg[STRERR_BUFSIZE], featbuf[100]; const struct loadopt *opt = cfg; struct xdp_program *p = NULL; int err = EXIT_SUCCESS; unsigned int features; __u32 used_feats; char *filename; DECLARE_LIBBPF_OPTS(bpf_object_open_opts, opts, .pin_root_path = pin_root_path); if (opt->mode == XDP_MODE_HW) { pr_warn("xdp-filter does not support offloading.\n"); return EXIT_FAILURE; } err = get_used_features(pin_root_path, &used_feats); if (err) { pr_warn("Error getting list of loaded programs: %s\n", strerror(-err)); return err; } features = opt->features; if (opt->policy_mode == FEAT_DENY && used_feats & FEAT_ALLOW) { pr_warn("xdp-filter is already loaded in allow policy mode. " "Unload before loading in deny mode.\n"); return EXIT_FAILURE; } else if (opt->policy_mode == FEAT_ALLOW && used_feats & FEAT_DENY) { pr_warn("xdp-filter is already loaded in deny policy mode. " "Unload before loading in allow mode.\n"); return EXIT_FAILURE; } features |= opt->policy_mode; err = get_pinned_program(&opt->iface, pin_root_path, NULL, &p); if (!err) { pr_warn("xdp-filter is already loaded on %s\n", opt->iface.ifname); xdp_program__close(p); return EXIT_FAILURE; } print_flags(featbuf, sizeof(featbuf), print_features, features); pr_debug("Looking for eBPF program with features %s\n", featbuf); filename = find_prog_file(features); if (!filename) { pr_warn("Couldn't find an eBPF program with the requested feature set!\n"); return EXIT_FAILURE; } pr_debug("Found prog '%s' matching feature set to be loaded on interface '%s'.\n", filename, opt->iface.ifname); /* libbpf spits out a lot of unhelpful error messages while loading. * Silence the logging so we can provide our own messages instead; this * is a noop if verbose logging is enabled. */ silence_libbpf_logging(); retry: p = xdp_program__find_file(filename, "xdp_filter", &opts); err = libxdp_get_error(p); if (err) { if (err == -EPERM && !double_rlimit()) goto retry; libxdp_strerror(err, errmsg, sizeof(errmsg)); pr_warn("Couldn't load BPF program: %s(%d)\n", errmsg, err); p = NULL; goto out; } err = attach_xdp_program(p, &opt->iface, opt->mode, pin_root_path); if (err) { if (err == -EPERM && !double_rlimit()) { xdp_program__close(p); goto retry; } libxdp_strerror(err, errmsg, sizeof(errmsg)); pr_warn("Couldn't attach XDP program on iface '%s': %s(%d)\n", opt->iface.ifname, errmsg, err); goto out; } out: if (p) xdp_program__close(p); free(filename); return err; } static int remove_unused_maps(const char *pin_root_path, __u32 features) { int dir_fd, err = 0; dir_fd = open(pin_root_path, O_DIRECTORY); if (dir_fd < 0) { if (errno == ENOENT) return 0; err = -errno; pr_warn("Unable to open pin directory %s: %s\n", pin_root_path, strerror(-err)); goto out; } if (!(features & (FEAT_TCP | FEAT_UDP))) { err = unlink_pinned_map(dir_fd, textify(MAP_NAME_PORTS)); if (err) goto out; } if (!(features & FEAT_IPV4)) { err = unlink_pinned_map(dir_fd, textify(MAP_NAME_IPV4)); if (err) goto out; } if (!(features & FEAT_IPV6)) { err = unlink_pinned_map(dir_fd, textify(MAP_NAME_IPV6)); if (err) goto out; } if (!(features & FEAT_ETHERNET)) { err = unlink_pinned_map(dir_fd, textify(MAP_NAME_ETHERNET)); if (err) goto out; } if (!features) { char buf[PATH_MAX]; err = unlink_pinned_map(dir_fd, textify(XDP_STATS_MAP_NAME)); if (err) goto out; close(dir_fd); dir_fd = -1; err = try_snprintf(buf, sizeof(buf), "%s/%s", pin_root_path, "programs"); if (err) goto out; pr_debug("Removing program directory %s\n", buf); err = rmdir(buf); if (err) { err = -errno; pr_warn("Unable to rmdir: %s\n", strerror(-err)); goto out; } pr_debug("Removing pinning directory %s\n", pin_root_path); err = rmdir(pin_root_path); if (err) { err = -errno; pr_warn("Unable to rmdir: %s\n", strerror(-err)); goto out; } } out: if (dir_fd >= 0) close(dir_fd); return err; } static int remove_iface_program(const struct iface *iface, struct xdp_program *prog, enum xdp_attach_mode mode, void *arg) { char errmsg[STRERR_BUFSIZE], buf[100]; char *pin_root_path = arg; __u32 feats; int err; feats = find_features(xdp_program__name(prog)); if (!feats) { pr_warn("Unrecognised XDP program on interface %s. Not removing.\n", iface->ifname); return -ENOENT; } print_flags(buf, sizeof(buf), print_features, feats); pr_debug("Removing XDP program with features %s from iface %s\n", buf, iface->ifname); err = detach_xdp_program(prog, iface, mode, pin_root_path); if (err) { libxdp_strerror(err, errmsg, sizeof(errmsg)); pr_warn("Removing XDP program on iface %s failed (%d): %s\n", iface->ifname, -err, errmsg); } return err; } static const struct unloadopt { bool all; bool keep; struct iface iface; } defaults_unload = {}; static struct prog_option unload_options[] = { DEFINE_OPTION("dev", OPT_IFNAME, struct unloadopt, iface, .positional = true, .metavar = "", .help = "Unload from device "), DEFINE_OPTION("all", OPT_BOOL, struct unloadopt, all, .short_opt = 'a', .help = "Unload from all interfaces"), DEFINE_OPTION("keep-maps", OPT_BOOL, struct unloadopt, keep, .short_opt = 'k', .help = "Don't destroy unused maps after unloading"), END_OPTIONS }; int do_unload(const void *cfg, const char *pin_root_path) { const struct unloadopt *opt = cfg; enum xdp_attach_mode mode; struct xdp_program *prog; int err = EXIT_SUCCESS; char buf[100]; __u32 feats; DECLARE_LIBBPF_OPTS(bpf_object_open_opts, opts, .pin_root_path = pin_root_path); if (opt->all) { pr_debug("Removing xdp-filter from all interfaces\n"); err = iterate_pinned_programs(pin_root_path, remove_iface_program, (void *)pin_root_path); if (err && err != -ENOENT) goto out; goto clean_maps; } if (!opt->iface.ifindex) { pr_warn("Must specify ifname or --all\n"); err = EXIT_FAILURE; goto out; } err = get_pinned_program(&opt->iface, pin_root_path, &mode, &prog); if (err) { pr_warn("xdp-filter is not loaded on %s\n", opt->iface.ifname); err = EXIT_FAILURE; goto out; } err = remove_iface_program(&opt->iface, prog, mode, (void *)pin_root_path); if (err) goto out; clean_maps: if (opt->keep) { pr_debug("Not removing pinned maps because of --keep-maps option\n"); goto out; } pr_debug("Checking map usage and removing unused maps\n"); err = get_used_features(pin_root_path, &feats); if (err) goto out; print_flags(buf, sizeof(buf), print_features, feats); pr_debug("Features still being used: %s\n", feats ? buf : "none"); err = remove_unused_maps(pin_root_path, feats); if (err) goto out; out: return err; } int print_ports(int map_fd) { __u32 map_key = -1, prev_key = 0; int err; printf("Filtered ports:\n"); printf(" %-40s Mode Hit counter\n", ""); FOR_EACH_MAP_KEY (err, map_fd, map_key, prev_key) { char buf[100]; __u64 counter; __u8 flags = 0; err = map_get_counter_flags(map_fd, &map_key, &counter, &flags); if (err == -ENOENT) continue; else if (err) return err; print_flags(buf, sizeof(buf), map_flags_all, flags); printf(" %-40u %-15s %" PRIu64 "\n", ntohs(map_key), buf, (uint64_t)counter); } return 0; } static const struct portopt { unsigned int mode; unsigned int proto; __u16 port; bool print_status; bool remove; } defaults_port = {}; static struct prog_option port_options[] = { DEFINE_OPTION("port", OPT_U16, struct portopt, port, .positional = true, .metavar = "", .required = true, .help = "Port to add or remove"), DEFINE_OPTION("remove", OPT_BOOL, struct portopt, remove, .short_opt = 'r', .help = "Remove port instead of adding"), DEFINE_OPTION("mode", OPT_FLAGS, struct portopt, mode, .short_opt = 'm', .metavar = "", .typearg = map_flags_srcdst, .help = "Filter mode; default dst"), DEFINE_OPTION("proto", OPT_FLAGS, struct portopt, proto, .short_opt = 'p', .metavar = "", .typearg = map_flags_tcpudp, .help = "Protocol to filter; default tcp,udp"), DEFINE_OPTION("status", OPT_BOOL, struct portopt, print_status, .short_opt = 's', .help = "Print status of filtered ports after changing"), END_OPTIONS }; int do_port(const void *cfg, const char *pin_root_path) { int map_fd = -1, err = EXIT_SUCCESS; char modestr[100], protostr[100]; const struct portopt *opt = cfg; unsigned int proto = opt->proto; unsigned int mode = opt->mode; struct bpf_map_info info = {}; __u8 flags = 0; __u64 counter; __u32 map_key; map_fd = get_pinned_map_fd(pin_root_path, textify(MAP_NAME_PORTS), &info); if (map_fd < 0) { pr_warn("Couldn't find port filter map; is xdp-filter loaded " "with the right features (udp and/or tcp)?\n"); err = EXIT_FAILURE; goto out; } pr_debug("Found map with fd %d for map id %d\n", map_fd, info.id); map_key = htons(opt->port); err = map_get_counter_flags(map_fd, &map_key, &counter, &flags); if (err && err != -ENOENT) goto out; if (opt->remove) { if (mode == 0 && proto == 0) { mode = MAP_FLAG_SRC | MAP_FLAG_DST; proto = MAP_FLAG_TCP | MAP_FLAG_UDP; } flags &= ~(mode | proto); } else { if (mode == 0) mode = MAP_FLAG_DST; if (proto == 0) proto = MAP_FLAG_TCP | MAP_FLAG_UDP; flags |= mode | proto; } print_flags(modestr, sizeof(modestr), map_flags_srcdst, mode); print_flags(protostr, sizeof(protostr), map_flags_tcpudp, proto); pr_debug("%s %s port %u mode %s\n", opt->remove ? "Removing" : "Adding", protostr, opt->port, modestr); if (!(flags & (MAP_FLAG_DST | MAP_FLAG_SRC)) || !(flags & (MAP_FLAG_TCP | MAP_FLAG_UDP))) flags = 0; err = map_set_flags(map_fd, &map_key, flags); if (err) goto out; if (opt->print_status) { err = print_ports(map_fd); if (err) goto out; } out: if (map_fd >= 0) close(map_fd); return err; } int __print_ips(int map_fd, int af) { struct ip_addr map_key = { .af = af }, prev_key = {}; int err; FOR_EACH_MAP_KEY (err, map_fd, map_key.addr, prev_key.addr) { char flagbuf[100], addrbuf[100]; __u8 flags = 0; __u64 counter; err = map_get_counter_flags(map_fd, &map_key.addr, &counter, &flags); if (err == -ENOENT) continue; else if (err) return err; print_flags(flagbuf, sizeof(flagbuf), map_flags_srcdst, flags); print_addr(addrbuf, sizeof(addrbuf), &map_key); printf(" %-40s %-15s %" PRIu64 "\n", addrbuf, flagbuf, (uint64_t)counter); } return 0; } int print_ips() { int map_fd4 = -1, map_fd6 = -1; char pin_root_path[PATH_MAX]; int err = 0; err = get_bpf_root_dir(pin_root_path, sizeof(pin_root_path), PROG_NAME); if (err) goto out; map_fd6 = get_pinned_map_fd(pin_root_path, textify(MAP_NAME_IPV6), NULL); map_fd4 = get_pinned_map_fd(pin_root_path, textify(MAP_NAME_IPV4), NULL); if (map_fd4 < 0 && map_fd6 < 0) { err = -ENOENT; goto out; } printf("Filtered IP addresses:\n"); printf(" %-40s Mode Hit counter\n", ""); if (map_fd6 >= 0) { err = __print_ips(map_fd6, AF_INET6); if (err) goto out; } if (map_fd4 >= 0) err = __print_ips(map_fd4, AF_INET); out: if (map_fd4 >= 0) close(map_fd4); if (map_fd6 >= 0) close(map_fd6); return err; } static int __do_address(const char *pin_root_path, const char *map_name, const char *feat_name, void *map_key, bool remove, int mode) { int map_fd = -1, err = 0; __u8 flags = 0; __u64 counter; map_fd = get_pinned_map_fd(pin_root_path, map_name, NULL); if (map_fd < 0) { pr_warn("Couldn't find filter map; is xdp-filter loaded " "with the %s feature?\n", feat_name); err = -ENOENT; goto out; } err = map_get_counter_flags(map_fd, map_key, &counter, &flags); if (err && err != -ENOENT) goto out; if (remove) flags &= ~mode; else flags |= mode; err = map_set_flags(map_fd, map_key, flags); if (err) goto out; out: return err ?: map_fd; } static const struct ipopt { unsigned int mode; struct ip_addr addr; bool print_status; bool remove; } defaults_ip = { .mode = MAP_FLAG_DST, }; static struct prog_option ip_options[] = { DEFINE_OPTION("addr", OPT_IPADDR, struct ipopt, addr, .positional = true, .metavar = "", .required = true, .help = "Address to add or remove"), DEFINE_OPTION("remove", OPT_BOOL, struct ipopt, remove, .short_opt = 'r', .help = "Remove address instead of adding"), DEFINE_OPTION("mode", OPT_FLAGS, struct ipopt, mode, .short_opt = 'm', .metavar = "", .typearg = map_flags_srcdst, .help = "Filter mode; default dst"), DEFINE_OPTION("status", OPT_BOOL, struct ipopt, print_status, .short_opt = 's', .help = "Print status of filtered addresses after changing"), END_OPTIONS }; static int do_ip(const void *cfg, const char *pin_root_path) { int map_fd = -1, err = EXIT_SUCCESS; char modestr[100], addrstr[100]; const struct ipopt *opt = cfg; struct ip_addr addr = opt->addr; bool v6; print_flags(modestr, sizeof(modestr), map_flags_srcdst, opt->mode); print_addr(addrstr, sizeof(addrstr), &opt->addr); pr_debug("%s addr %s mode %s\n", opt->remove ? "Removing" : "Adding", addrstr, modestr); v6 = (opt->addr.af == AF_INET6); map_fd = __do_address(pin_root_path, v6 ? textify(MAP_NAME_IPV6) : textify(MAP_NAME_IPV4), v6 ? "ipv6" : "ipv4", &addr.addr, opt->remove, opt->mode); if (map_fd < 0) { err = map_fd; goto out; } if (opt->print_status) { err = print_ips(); if (err) goto out; } out: if (map_fd >= 0) close(map_fd); return err; } int print_ethers(int map_fd) { struct mac_addr map_key = {}, prev_key = {}; int err; printf("Filtered MAC addresses:\n"); printf(" %-40s Mode Hit counter\n", ""); FOR_EACH_MAP_KEY (err, map_fd, map_key, prev_key) { char modebuf[100], addrbuf[100]; __u8 flags = 0; __u64 counter; err = map_get_counter_flags(map_fd, &map_key, &counter, &flags); if (err == -ENOENT) continue; else if (err) return err; print_flags(modebuf, sizeof(modebuf), map_flags_srcdst, flags); print_macaddr(addrbuf, sizeof(addrbuf), &map_key); printf(" %-40s %-15s %" PRIu64 "\n", addrbuf, modebuf, (uint64_t)counter); } return 0; } static const struct etheropt { unsigned int mode; struct mac_addr addr; bool print_status; bool remove; } defaults_ether = { .mode = MAP_FLAG_DST, }; static struct prog_option ether_options[] = { DEFINE_OPTION("addr", OPT_MACADDR, struct etheropt, addr, .positional = true, .metavar = "", .required = true, .help = "Address to add or remove"), DEFINE_OPTION("remove", OPT_BOOL, struct etheropt, remove, .short_opt = 'r', .help = "Remove address instead of adding"), DEFINE_OPTION("mode", OPT_FLAGS, struct etheropt, mode, .short_opt = 'm', .metavar = "", .typearg = map_flags_srcdst, .help = "Filter mode; default dst"), DEFINE_OPTION("status", OPT_BOOL, struct etheropt, print_status, .short_opt = 's', .help = "Print status of filtered addresses after changing"), END_OPTIONS }; static int do_ether(const void *cfg, const char *pin_root_path) { int err = EXIT_SUCCESS, map_fd = -1; const struct etheropt *opt = cfg; struct mac_addr addr = opt->addr; char modestr[100], addrstr[100]; print_flags(modestr, sizeof(modestr), map_flags_srcdst, opt->mode); print_macaddr(addrstr, sizeof(addrstr), &opt->addr); pr_debug("%s addr %s mode %s\n", opt->remove ? "Removing" : "Adding", addrstr, modestr); map_fd = __do_address(pin_root_path, textify(MAP_NAME_ETHERNET), "ethernet", &addr.addr, opt->remove, opt->mode); if (map_fd < 0) { err = map_fd; goto out; } if (opt->print_status) { err = print_ethers(map_fd); if (err) goto out; } out: if (map_fd >= 0) close(map_fd); return err; } static struct prog_option status_options[] = { END_OPTIONS }; int print_iface_status(const struct iface *iface, struct xdp_program *prog, enum xdp_attach_mode mode, __unused void *arg) { __u32 feat = 0; int err; printf("%s\n", xdp_program__name(prog)); err = get_iface_features(iface, prog, XDP_MODE_UNSPEC, &feat); if (err) return err; if (feat) { char featbuf[100]; char namebuf[100]; print_flags(featbuf, sizeof(featbuf), print_features, feat); snprintf(namebuf, sizeof(namebuf), "%s (%s mode)", iface->ifname, get_enum_name(xdp_modes, mode)); printf(" %-40s %s\n", namebuf, featbuf); } return 0; } int do_status(__unused const void *cfg, const char *pin_root_path) { int err = EXIT_SUCCESS, map_fd = -1; struct stats_record rec = {}; struct bpf_map_info info; map_fd = get_pinned_map_fd(pin_root_path, textify(XDP_STATS_MAP_NAME), &info); if (map_fd < 0) { err = map_fd; pr_warn("Couldn't find stats map. Maybe xdp-filter is not loaded?\n"); goto out; } rec.stats[XDP_DROP].enabled = true; rec.stats[XDP_PASS].enabled = true; rec.stats[XDP_ABORTED].enabled = true; err = stats_collect(map_fd, info.type, &rec); if (err) goto out; printf("CURRENT XDP-FILTER STATUS:\n\n"); printf("Aggregate per-action statistics:\n"); err = stats_print_one(&rec); if (err) goto out; printf("\n"); printf("Loaded on interfaces:\n"); printf(" %-40s Enabled features\n", ""); err = iterate_pinned_programs(pin_root_path, print_iface_status, NULL); if (err) goto out; printf("\n"); map_fd = get_pinned_map_fd(pin_root_path, textify(MAP_NAME_PORTS), NULL); if (map_fd >= 0) { err = print_ports(map_fd); if (err) goto out; printf("\n"); close(map_fd); map_fd = -1; } err = print_ips(); if (err && err != -ENOENT) goto out; printf("\n"); map_fd = get_pinned_map_fd(pin_root_path, textify(MAP_NAME_ETHERNET), NULL); if (map_fd >= 0) { err = print_ethers(map_fd); if (err) goto out; } printf("\n"); out: if (map_fd >= 0) close(map_fd); return err; } static const struct pollopt { __u32 interval; } defaults_poll = { .interval = 1000 }; static struct prog_option poll_options[] = { DEFINE_OPTION("interval", OPT_U32, struct pollopt, interval, .short_opt = 'i', .metavar = "", .help = "Polling interval in milliseconds (default 1000)"), END_OPTIONS }; int do_poll(const void *cfg, const char *pin_root_path) { int err = 0, map_fd = -1; const struct pollopt *opt = cfg; if (!opt->interval) { err = -EINVAL; pr_warn("Can't use a polling interval of 0\n"); goto out; } map_fd = get_pinned_map_fd(pin_root_path, textify(XDP_STATS_MAP_NAME), NULL); if (map_fd < 0) { err = map_fd; pr_warn("Couldn't find stats map. Maybe xdp-filter is not loaded?\n"); goto out; } prog_lock_release(0); err = stats_poll(map_fd, pin_root_path, textify(XDP_STATS_MAP_NAME), opt->interval); if (err) { pr_warn("Error polling statistics: %s\n", strerror(-err)); goto out; } out: return err ? EXIT_FAILURE : EXIT_SUCCESS; } int do_help(__unused const void *cfg, __unused const char *pin_root_path) { fprintf(stderr, "Usage: xdp-filter COMMAND [options]\n" "\n" "COMMAND can be one of:\n" " load - load xdp-filter on an interface\n" " unload - unload xdp-filter from an interface\n" " port - add a port to the filter list\n" " ip - add an IP address to the filter list\n" " ether - add an Ethernet MAC address to the filter list\n" " status - show current xdp-filter status\n" " poll - poll statistics output\n" " help - show this help message\n" "\n" "Use 'xdp-filter COMMAND --help' to see options for each command\n"); return -1; } static const struct prog_command cmds[] = { DEFINE_COMMAND(load, "Load xdp-filter on an interface"), DEFINE_COMMAND(unload, "Unload xdp-filter from an interface"), DEFINE_COMMAND(port, "Add or remove ports from xdp-filter"), DEFINE_COMMAND(ip, "Add or remove IP addresses from xdp-filter"), DEFINE_COMMAND(ether, "Add or remove MAC addresses from xdp-filter"), DEFINE_COMMAND(poll, "Poll xdp-filter statistics"), DEFINE_COMMAND_NODEF(status, "Show xdp-filter status"), { .name = "help", .func = do_help, .no_cfg = true }, END_COMMANDS }; union all_opts { struct loadopt load; struct unloadopt unload; struct portopt port; struct ipopt ip; struct etheropt ether; struct pollopt poll; }; int main(int argc, char **argv) { if (argc > 1) return dispatch_commands(argv[1], argc - 1, argv + 1, cmds, sizeof(union all_opts), PROG_NAME); return do_help(NULL, NULL); }