/*- * SPDX-License-Identifier: BSD-2-Clause * * Copyright (c) 2021 Rubicon Communications, LLC (Netgate) * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * - Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * - Redistributions in binary form must reproduce the above * copyright notice, this list of conditions and the following * disclaimer in the documentation and/or other materials provided * with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE * COPYRIGHT HOLDERS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN * ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "libpfctl.h" struct pfctl_handle { int fd; struct snl_state ss; }; const char* PFCTL_SYNCOOKIES_MODE_NAMES[] = { "never", "always", "adaptive" }; static int _pfctl_clear_states(int , const struct pfctl_kill *, unsigned int *, uint64_t); struct pfctl_handle * pfctl_open(const char *pf_device) { struct pfctl_handle *h; h = calloc(1, sizeof(struct pfctl_handle)); h->fd = -1; h->fd = open(pf_device, O_RDWR); if (h->fd < 0) goto error; if (!snl_init(&h->ss, NETLINK_GENERIC)) goto error; return (h); error: close(h->fd); snl_free(&h->ss); free(h); return (NULL); } void pfctl_close(struct pfctl_handle *h) { close(h->fd); snl_free(&h->ss); free(h); } int pfctl_fd(struct pfctl_handle *h) { return (h->fd); } static int pfctl_do_netlink_cmd(struct pfctl_handle *h, uint cmd) { struct snl_errmsg_data e = {}; struct snl_writer nw; struct nlmsghdr *hdr; uint32_t seq_id; int family_id; family_id = snl_get_genl_family(&h->ss, PFNL_FAMILY_NAME); if (family_id == 0) return (ENOTSUP); snl_init_writer(&h->ss, &nw); hdr = snl_create_genl_msg_request(&nw, family_id, cmd); hdr = snl_finalize_msg(&nw); if (hdr == NULL) return (ENOMEM); seq_id = hdr->nlmsg_seq; snl_send_message(&h->ss, hdr); while ((hdr = snl_read_reply_multi(&h->ss, seq_id, &e)) != NULL) { } return (e.error); } static int pfctl_do_ioctl(int dev, uint cmd, size_t size, nvlist_t **nvl) { struct pfioc_nv nv; void *data; size_t nvlen; int ret; data = nvlist_pack(*nvl, &nvlen); if (nvlen > size) size = nvlen; retry: nv.data = malloc(size); if (nv.data == NULL) { ret = ENOMEM; goto out; } memcpy(nv.data, data, nvlen); nv.len = nvlen; nv.size = size; ret = ioctl(dev, cmd, &nv); if (ret == -1 && errno == ENOSPC) { size *= 2; free(nv.data); goto retry; } nvlist_destroy(*nvl); *nvl = NULL; if (ret == 0) { *nvl = nvlist_unpack(nv.data, nv.len, 0); if (*nvl == NULL) { ret = EIO; goto out; } } else { ret = errno; } out: free(data); free(nv.data); return (ret); } static void pf_nvuint_8_array(const nvlist_t *nvl, const char *name, size_t maxelems, uint8_t *numbers, size_t *nelems) { const uint64_t *tmp; size_t elems; tmp = nvlist_get_number_array(nvl, name, &elems); assert(elems <= maxelems); for (size_t i = 0; i < elems; i++) numbers[i] = tmp[i]; if (nelems) *nelems = elems; } static void pf_nvuint_16_array(const nvlist_t *nvl, const char *name, size_t maxelems, uint16_t *numbers, size_t *nelems) { const uint64_t *tmp; size_t elems; tmp = nvlist_get_number_array(nvl, name, &elems); assert(elems <= maxelems); for (size_t i = 0; i < elems; i++) numbers[i] = tmp[i]; if (nelems) *nelems = elems; } static void pf_nvuint_32_array(const nvlist_t *nvl, const char *name, size_t maxelems, uint32_t *numbers, size_t *nelems) { const uint64_t *tmp; size_t elems; tmp = nvlist_get_number_array(nvl, name, &elems); for (size_t i = 0; i < elems && i < maxelems; i++) numbers[i] = tmp[i]; if (nelems) *nelems = elems; } static void pf_nvuint_64_array(const nvlist_t *nvl, const char *name, size_t maxelems, uint64_t *numbers, size_t *nelems) { const uint64_t *tmp; size_t elems; tmp = nvlist_get_number_array(nvl, name, &elems); assert(elems <= maxelems); for (size_t i = 0; i < elems; i++) numbers[i] = tmp[i]; if (nelems) *nelems = elems; } int pfctl_startstop(struct pfctl_handle *h, int start) { return (pfctl_do_netlink_cmd(h, start ? PFNL_CMD_START : PFNL_CMD_STOP)); } static void _pfctl_get_status_counters(const nvlist_t *nvl, struct pfctl_status_counters *counters) { const uint64_t *ids, *counts; const char *const *names; size_t id_len, counter_len, names_len; ids = nvlist_get_number_array(nvl, "ids", &id_len); counts = nvlist_get_number_array(nvl, "counters", &counter_len); names = nvlist_get_string_array(nvl, "names", &names_len); assert(id_len == counter_len); assert(counter_len == names_len); TAILQ_INIT(counters); for (size_t i = 0; i < id_len; i++) { struct pfctl_status_counter *c; c = malloc(sizeof(*c)); if (c == NULL) continue; c->id = ids[i]; c->counter = counts[i]; c->name = strdup(names[i]); TAILQ_INSERT_TAIL(counters, c, entry); } } #define _OUT(_field) offsetof(struct pfctl_status_counter, _field) static const struct snl_attr_parser ap_counter[] = { { .type = PF_C_COUNTER, .off = _OUT(counter), .cb = snl_attr_get_uint64 }, { .type = PF_C_NAME, .off = _OUT(name), .cb = snl_attr_get_string }, { .type = PF_C_ID, .off = _OUT(id), .cb = snl_attr_get_uint32 }, }; SNL_DECLARE_ATTR_PARSER(counter_parser, ap_counter); #undef _OUT static bool snl_attr_get_counters(struct snl_state *ss, struct nlattr *nla, const void *arg __unused, void *target) { struct pfctl_status_counter counter = {}; struct pfctl_status_counter *c; bool error; error = snl_parse_header(ss, NLA_DATA(nla), NLA_DATA_LEN(nla), &counter_parser, &counter); if (! error) return (error); c = malloc(sizeof(*c)); if (c == NULL) return (false); c->id = counter.id; c->counter = counter.counter; c->name = strdup(counter.name); TAILQ_INSERT_TAIL((struct pfctl_status_counters *)target, c, entry); return (error); } struct snl_uint64_array { uint64_t *array; size_t count; size_t max; }; static bool snl_attr_get_uint64_element(struct snl_state *ss, struct nlattr *nla, const void *arg, void *target) { bool error; uint64_t value; struct snl_uint64_array *t = (struct snl_uint64_array *)target; if (t->count >= t->max) return (false); error = snl_attr_get_uint64(ss, nla, arg, &value); if (! error) return (error); t->array[t->count++] = value; return (true); } static const struct snl_attr_parser ap_array[] = { { .cb = snl_attr_get_uint64_element }, }; SNL_DECLARE_ATTR_PARSER(array_parser, ap_array); static bool snl_attr_get_uint64_array(struct snl_state *ss, struct nlattr *nla, const void *arg, void *target) { struct snl_uint64_array a = { .array = target, .count = 0, .max = (size_t)arg, }; bool error; error = snl_parse_header(ss, NLA_DATA(nla), NLA_DATA_LEN(nla), &array_parser, &a); if (! error) return (error); return (true); } #define _OUT(_field) offsetof(struct pfctl_status, _field) static const struct snl_attr_parser ap_getstatus[] = { { .type = PF_GS_IFNAME, .off = _OUT(ifname), .arg_u32 = IFNAMSIZ, .cb = snl_attr_copy_string }, { .type = PF_GS_RUNNING, .off = _OUT(running), .cb = snl_attr_get_bool }, { .type = PF_GS_SINCE, .off = _OUT(since), .cb = snl_attr_get_uint32 }, { .type = PF_GS_DEBUG, .off = _OUT(debug), .cb = snl_attr_get_uint32 }, { .type = PF_GS_HOSTID, .off = _OUT(hostid), .cb = snl_attr_get_uint32 }, { .type = PF_GS_STATES, .off = _OUT(states), .cb = snl_attr_get_uint32 }, { .type = PF_GS_SRC_NODES, .off = _OUT(src_nodes), .cb = snl_attr_get_uint32 }, { .type = PF_GS_REASSEMBLE, .off = _OUT(reass), .cb = snl_attr_get_uint32 }, { .type = PF_GS_SYNCOOKIES_ACTIVE, .off = _OUT(syncookies_active), .cb = snl_attr_get_uint32 }, { .type = PF_GS_COUNTERS, .off = _OUT(counters), .cb = snl_attr_get_counters }, { .type = PF_GS_LCOUNTERS, .off = _OUT(lcounters), .cb = snl_attr_get_counters }, { .type = PF_GS_FCOUNTERS, .off = _OUT(fcounters), .cb = snl_attr_get_counters }, { .type = PF_GS_SCOUNTERS, .off = _OUT(scounters), .cb = snl_attr_get_counters }, { .type = PF_GS_CHKSUM, .off = _OUT(pf_chksum), .arg_u32 = PF_MD5_DIGEST_LENGTH, .cb = snl_attr_get_bytes }, { .type = PF_GS_BCOUNTERS, .off = _OUT(bcounters), .arg_u32 = 2 * 2, .cb = snl_attr_get_uint64_array }, { .type = PF_GS_PCOUNTERS, .off = _OUT(pcounters), .arg_u32 = 2 * 2 * 2, .cb = snl_attr_get_uint64_array }, }; static struct snl_field_parser fp_getstatus[] = {}; SNL_DECLARE_PARSER(getstatus_parser, struct genlmsghdr, fp_getstatus, ap_getstatus); #undef _OUT struct pfctl_status * pfctl_get_status_h(struct pfctl_handle *h __unused) { struct pfctl_status *status; struct snl_errmsg_data e = {}; struct nlmsghdr *hdr; struct snl_writer nw; uint32_t seq_id; int family_id; family_id = snl_get_genl_family(&h->ss, PFNL_FAMILY_NAME); if (family_id == 0) return (NULL); snl_init_writer(&h->ss, &nw); hdr = snl_create_genl_msg_request(&nw, family_id, PFNL_CMD_GET_STATUS); hdr->nlmsg_flags |= NLM_F_DUMP; hdr = snl_finalize_msg(&nw); if (hdr == NULL) { return (NULL); } seq_id = hdr->nlmsg_seq; if (! snl_send_message(&h->ss, hdr)) return (NULL); status = calloc(1, sizeof(*status)); if (status == NULL) return (NULL); TAILQ_INIT(&status->counters); TAILQ_INIT(&status->lcounters); TAILQ_INIT(&status->fcounters); TAILQ_INIT(&status->scounters); while ((hdr = snl_read_reply_multi(&h->ss, seq_id, &e)) != NULL) { if (! snl_parse_nlmsg(&h->ss, hdr, &getstatus_parser, status)) continue; } return (status); } struct pfctl_status * pfctl_get_status(int dev) { struct pfctl_status *status; nvlist_t *nvl; size_t len; const void *chksum; status = calloc(1, sizeof(*status)); if (status == NULL) return (NULL); nvl = nvlist_create(0); if (pfctl_do_ioctl(dev, DIOCGETSTATUSNV, 4096, &nvl)) { nvlist_destroy(nvl); free(status); return (NULL); } status->running = nvlist_get_bool(nvl, "running"); status->since = nvlist_get_number(nvl, "since"); status->debug = nvlist_get_number(nvl, "debug"); status->hostid = ntohl(nvlist_get_number(nvl, "hostid")); status->states = nvlist_get_number(nvl, "states"); status->src_nodes = nvlist_get_number(nvl, "src_nodes"); status->syncookies_active = nvlist_get_bool(nvl, "syncookies_active"); status->reass = nvlist_get_number(nvl, "reass"); strlcpy(status->ifname, nvlist_get_string(nvl, "ifname"), IFNAMSIZ); chksum = nvlist_get_binary(nvl, "chksum", &len); assert(len == PF_MD5_DIGEST_LENGTH); memcpy(status->pf_chksum, chksum, len); _pfctl_get_status_counters(nvlist_get_nvlist(nvl, "counters"), &status->counters); _pfctl_get_status_counters(nvlist_get_nvlist(nvl, "lcounters"), &status->lcounters); _pfctl_get_status_counters(nvlist_get_nvlist(nvl, "fcounters"), &status->fcounters); _pfctl_get_status_counters(nvlist_get_nvlist(nvl, "scounters"), &status->scounters); pf_nvuint_64_array(nvl, "pcounters", 2 * 2 * 2, (uint64_t *)status->pcounters, NULL); pf_nvuint_64_array(nvl, "bcounters", 2 * 2, (uint64_t *)status->bcounters, NULL); nvlist_destroy(nvl); return (status); } int pfctl_clear_status(struct pfctl_handle *h) { return (pfctl_do_netlink_cmd(h, PFNL_CMD_CLEAR_STATUS)); } static uint64_t _pfctl_status_counter(struct pfctl_status_counters *counters, uint64_t id) { struct pfctl_status_counter *c; TAILQ_FOREACH(c, counters, entry) { if (c->id == id) return (c->counter); } return (0); } uint64_t pfctl_status_counter(struct pfctl_status *status, int id) { return (_pfctl_status_counter(&status->counters, id)); } uint64_t pfctl_status_lcounter(struct pfctl_status *status, int id) { return (_pfctl_status_counter(&status->lcounters, id)); } uint64_t pfctl_status_fcounter(struct pfctl_status *status, int id) { return (_pfctl_status_counter(&status->fcounters, id)); } uint64_t pfctl_status_scounter(struct pfctl_status *status, int id) { return (_pfctl_status_counter(&status->scounters, id)); } void pfctl_free_status(struct pfctl_status *status) { struct pfctl_status_counter *c, *tmp; if (status == NULL) return; TAILQ_FOREACH_SAFE(c, &status->counters, entry, tmp) { free(c->name); free(c); } TAILQ_FOREACH_SAFE(c, &status->lcounters, entry, tmp) { free(c->name); free(c); } TAILQ_FOREACH_SAFE(c, &status->fcounters, entry, tmp) { free(c->name); free(c); } TAILQ_FOREACH_SAFE(c, &status->scounters, entry, tmp) { free(c->name); free(c); } free(status); } static void pfctl_nv_add_addr(nvlist_t *nvparent, const char *name, const struct pf_addr *addr) { nvlist_t *nvl = nvlist_create(0); nvlist_add_binary(nvl, "addr", addr, sizeof(*addr)); nvlist_add_nvlist(nvparent, name, nvl); nvlist_destroy(nvl); } static void pf_nvaddr_to_addr(const nvlist_t *nvl, struct pf_addr *addr) { size_t len; const void *data; data = nvlist_get_binary(nvl, "addr", &len); assert(len == sizeof(struct pf_addr)); memcpy(addr, data, len); } static void pfctl_nv_add_addr_wrap(nvlist_t *nvparent, const char *name, const struct pf_addr_wrap *addr) { nvlist_t *nvl = nvlist_create(0); nvlist_add_number(nvl, "type", addr->type); nvlist_add_number(nvl, "iflags", addr->iflags); if (addr->type == PF_ADDR_DYNIFTL) nvlist_add_string(nvl, "ifname", addr->v.ifname); if (addr->type == PF_ADDR_TABLE) nvlist_add_string(nvl, "tblname", addr->v.tblname); pfctl_nv_add_addr(nvl, "addr", &addr->v.a.addr); pfctl_nv_add_addr(nvl, "mask", &addr->v.a.mask); nvlist_add_nvlist(nvparent, name, nvl); nvlist_destroy(nvl); } static void pf_nvaddr_wrap_to_addr_wrap(const nvlist_t *nvl, struct pf_addr_wrap *addr) { bzero(addr, sizeof(*addr)); addr->type = nvlist_get_number(nvl, "type"); addr->iflags = nvlist_get_number(nvl, "iflags"); if (addr->type == PF_ADDR_DYNIFTL) { strlcpy(addr->v.ifname, nvlist_get_string(nvl, "ifname"), IFNAMSIZ); addr->p.dyncnt = nvlist_get_number(nvl, "dyncnt"); } if (addr->type == PF_ADDR_TABLE) { strlcpy(addr->v.tblname, nvlist_get_string(nvl, "tblname"), PF_TABLE_NAME_SIZE); addr->p.tblcnt = nvlist_get_number(nvl, "tblcnt"); } pf_nvaddr_to_addr(nvlist_get_nvlist(nvl, "addr"), &addr->v.a.addr); pf_nvaddr_to_addr(nvlist_get_nvlist(nvl, "mask"), &addr->v.a.mask); } static void pfctl_nv_add_rule_addr(nvlist_t *nvparent, const char *name, const struct pf_rule_addr *addr) { uint64_t ports[2]; nvlist_t *nvl = nvlist_create(0); pfctl_nv_add_addr_wrap(nvl, "addr", &addr->addr); ports[0] = addr->port[0]; ports[1] = addr->port[1]; nvlist_add_number_array(nvl, "port", ports, 2); nvlist_add_number(nvl, "neg", addr->neg); nvlist_add_number(nvl, "port_op", addr->port_op); nvlist_add_nvlist(nvparent, name, nvl); nvlist_destroy(nvl); } static void pf_nvrule_addr_to_rule_addr(const nvlist_t *nvl, struct pf_rule_addr *addr) { pf_nvaddr_wrap_to_addr_wrap(nvlist_get_nvlist(nvl, "addr"), &addr->addr); pf_nvuint_16_array(nvl, "port", 2, addr->port, NULL); addr->neg = nvlist_get_number(nvl, "neg"); addr->port_op = nvlist_get_number(nvl, "port_op"); } static void pf_nvmape_to_mape(const nvlist_t *nvl, struct pf_mape_portset *mape) { mape->offset = nvlist_get_number(nvl, "offset"); mape->psidlen = nvlist_get_number(nvl, "psidlen"); mape->psid = nvlist_get_number(nvl, "psid"); } static void pf_nvpool_to_pool(const nvlist_t *nvl, struct pfctl_pool *pool) { size_t len; const void *data; data = nvlist_get_binary(nvl, "key", &len); assert(len == sizeof(pool->key)); memcpy(&pool->key, data, len); pf_nvaddr_to_addr(nvlist_get_nvlist(nvl, "counter"), &pool->counter); pool->tblidx = nvlist_get_number(nvl, "tblidx"); pf_nvuint_16_array(nvl, "proxy_port", 2, pool->proxy_port, NULL); pool->opts = nvlist_get_number(nvl, "opts"); if (nvlist_exists_nvlist(nvl, "mape")) pf_nvmape_to_mape(nvlist_get_nvlist(nvl, "mape"), &pool->mape); } static void pf_nvrule_uid_to_rule_uid(const nvlist_t *nvl, struct pf_rule_uid *uid) { pf_nvuint_32_array(nvl, "uid", 2, uid->uid, NULL); uid->op = nvlist_get_number(nvl, "op"); } static void pf_nvdivert_to_divert(const nvlist_t *nvl, struct pfctl_rule *rule) { pf_nvaddr_to_addr(nvlist_get_nvlist(nvl, "addr"), &rule->divert.addr); rule->divert.port = nvlist_get_number(nvl, "port"); } static void pf_nvrule_to_rule(const nvlist_t *nvl, struct pfctl_rule *rule) { const uint64_t *skip; const char *const *labels; size_t skipcount, labelcount; rule->nr = nvlist_get_number(nvl, "nr"); pf_nvrule_addr_to_rule_addr(nvlist_get_nvlist(nvl, "src"), &rule->src); pf_nvrule_addr_to_rule_addr(nvlist_get_nvlist(nvl, "dst"), &rule->dst); skip = nvlist_get_number_array(nvl, "skip", &skipcount); assert(skip); assert(skipcount == PF_SKIP_COUNT); for (int i = 0; i < PF_SKIP_COUNT; i++) rule->skip[i].nr = skip[i]; labels = nvlist_get_string_array(nvl, "labels", &labelcount); assert(labelcount <= PF_RULE_MAX_LABEL_COUNT); for (size_t i = 0; i < labelcount; i++) strlcpy(rule->label[i], labels[i], PF_RULE_LABEL_SIZE); rule->ridentifier = nvlist_get_number(nvl, "ridentifier"); strlcpy(rule->ifname, nvlist_get_string(nvl, "ifname"), IFNAMSIZ); strlcpy(rule->qname, nvlist_get_string(nvl, "qname"), PF_QNAME_SIZE); strlcpy(rule->pqname, nvlist_get_string(nvl, "pqname"), PF_QNAME_SIZE); strlcpy(rule->tagname, nvlist_get_string(nvl, "tagname"), PF_TAG_NAME_SIZE); strlcpy(rule->match_tagname, nvlist_get_string(nvl, "match_tagname"), PF_TAG_NAME_SIZE); strlcpy(rule->overload_tblname, nvlist_get_string(nvl, "overload_tblname"), PF_TABLE_NAME_SIZE); pf_nvpool_to_pool(nvlist_get_nvlist(nvl, "rpool"), &rule->rpool); rule->evaluations = nvlist_get_number(nvl, "evaluations"); pf_nvuint_64_array(nvl, "packets", 2, rule->packets, NULL); pf_nvuint_64_array(nvl, "bytes", 2, rule->bytes, NULL); if (nvlist_exists_number(nvl, "timestamp")) { rule->last_active_timestamp = nvlist_get_number(nvl, "timestamp"); } rule->os_fingerprint = nvlist_get_number(nvl, "os_fingerprint"); rule->rtableid = nvlist_get_number(nvl, "rtableid"); pf_nvuint_32_array(nvl, "timeout", PFTM_MAX, rule->timeout, NULL); rule->max_states = nvlist_get_number(nvl, "max_states"); rule->max_src_nodes = nvlist_get_number(nvl, "max_src_nodes"); rule->max_src_states = nvlist_get_number(nvl, "max_src_states"); rule->max_src_conn = nvlist_get_number(nvl, "max_src_conn"); rule->max_src_conn_rate.limit = nvlist_get_number(nvl, "max_src_conn_rate.limit"); rule->max_src_conn_rate.seconds = nvlist_get_number(nvl, "max_src_conn_rate.seconds"); rule->qid = nvlist_get_number(nvl, "qid"); rule->pqid = nvlist_get_number(nvl, "pqid"); rule->dnpipe = nvlist_get_number(nvl, "dnpipe"); rule->dnrpipe = nvlist_get_number(nvl, "dnrpipe"); rule->free_flags = nvlist_get_number(nvl, "dnflags"); rule->prob = nvlist_get_number(nvl, "prob"); rule->cuid = nvlist_get_number(nvl, "cuid"); rule->cpid = nvlist_get_number(nvl, "cpid"); rule->return_icmp = nvlist_get_number(nvl, "return_icmp"); rule->return_icmp6 = nvlist_get_number(nvl, "return_icmp6"); rule->max_mss = nvlist_get_number(nvl, "max_mss"); rule->scrub_flags = nvlist_get_number(nvl, "scrub_flags"); pf_nvrule_uid_to_rule_uid(nvlist_get_nvlist(nvl, "uid"), &rule->uid); pf_nvrule_uid_to_rule_uid(nvlist_get_nvlist(nvl, "gid"), (struct pf_rule_uid *)&rule->gid); rule->rule_flag = nvlist_get_number(nvl, "rule_flag"); rule->action = nvlist_get_number(nvl, "action"); rule->direction = nvlist_get_number(nvl, "direction"); rule->log = nvlist_get_number(nvl, "log"); rule->logif = nvlist_get_number(nvl, "logif"); rule->quick = nvlist_get_number(nvl, "quick"); rule->ifnot = nvlist_get_number(nvl, "ifnot"); rule->match_tag_not = nvlist_get_number(nvl, "match_tag_not"); rule->natpass = nvlist_get_number(nvl, "natpass"); rule->keep_state = nvlist_get_number(nvl, "keep_state"); rule->af = nvlist_get_number(nvl, "af"); rule->proto = nvlist_get_number(nvl, "proto"); rule->type = nvlist_get_number(nvl, "type"); rule->code = nvlist_get_number(nvl, "code"); rule->flags = nvlist_get_number(nvl, "flags"); rule->flagset = nvlist_get_number(nvl, "flagset"); rule->min_ttl = nvlist_get_number(nvl, "min_ttl"); rule->allow_opts = nvlist_get_number(nvl, "allow_opts"); rule->rt = nvlist_get_number(nvl, "rt"); rule->return_ttl = nvlist_get_number(nvl, "return_ttl"); rule->tos = nvlist_get_number(nvl, "tos"); rule->set_tos = nvlist_get_number(nvl, "set_tos"); rule->anchor_relative = nvlist_get_number(nvl, "anchor_relative"); rule->anchor_wildcard = nvlist_get_number(nvl, "anchor_wildcard"); rule->flush = nvlist_get_number(nvl, "flush"); rule->prio = nvlist_get_number(nvl, "prio"); pf_nvuint_8_array(nvl, "set_prio", 2, rule->set_prio, NULL); pf_nvdivert_to_divert(nvlist_get_nvlist(nvl, "divert"), rule); rule->states_cur = nvlist_get_number(nvl, "states_cur"); rule->states_tot = nvlist_get_number(nvl, "states_tot"); rule->src_nodes = nvlist_get_number(nvl, "src_nodes"); } static void pfctl_nveth_addr_to_eth_addr(const nvlist_t *nvl, struct pfctl_eth_addr *addr) { static const u_int8_t EMPTY_MAC[ETHER_ADDR_LEN] = { 0 }; size_t len; const void *data; data = nvlist_get_binary(nvl, "addr", &len); assert(len == sizeof(addr->addr)); memcpy(addr->addr, data, sizeof(addr->addr)); data = nvlist_get_binary(nvl, "mask", &len); assert(len == sizeof(addr->mask)); memcpy(addr->mask, data, sizeof(addr->mask)); addr->neg = nvlist_get_bool(nvl, "neg"); /* To make checks for 'is this address set?' easier. */ addr->isset = memcmp(addr->addr, EMPTY_MAC, ETHER_ADDR_LEN) != 0; } static nvlist_t * pfctl_eth_addr_to_nveth_addr(const struct pfctl_eth_addr *addr) { nvlist_t *nvl; nvl = nvlist_create(0); if (nvl == NULL) return (NULL); nvlist_add_bool(nvl, "neg", addr->neg); nvlist_add_binary(nvl, "addr", &addr->addr, ETHER_ADDR_LEN); nvlist_add_binary(nvl, "mask", &addr->mask, ETHER_ADDR_LEN); return (nvl); } static void pfctl_nveth_rule_to_eth_rule(const nvlist_t *nvl, struct pfctl_eth_rule *rule) { const char *const *labels; size_t labelcount, i; rule->nr = nvlist_get_number(nvl, "nr"); rule->quick = nvlist_get_bool(nvl, "quick"); strlcpy(rule->ifname, nvlist_get_string(nvl, "ifname"), IFNAMSIZ); rule->ifnot = nvlist_get_bool(nvl, "ifnot"); rule->direction = nvlist_get_number(nvl, "direction"); rule->proto = nvlist_get_number(nvl, "proto"); strlcpy(rule->match_tagname, nvlist_get_string(nvl, "match_tagname"), PF_TAG_NAME_SIZE); rule->match_tag = nvlist_get_number(nvl, "match_tag"); rule->match_tag_not = nvlist_get_bool(nvl, "match_tag_not"); labels = nvlist_get_string_array(nvl, "labels", &labelcount); assert(labelcount <= PF_RULE_MAX_LABEL_COUNT); for (i = 0; i < labelcount; i++) strlcpy(rule->label[i], labels[i], PF_RULE_LABEL_SIZE); rule->ridentifier = nvlist_get_number(nvl, "ridentifier"); pfctl_nveth_addr_to_eth_addr(nvlist_get_nvlist(nvl, "src"), &rule->src); pfctl_nveth_addr_to_eth_addr(nvlist_get_nvlist(nvl, "dst"), &rule->dst); pf_nvrule_addr_to_rule_addr(nvlist_get_nvlist(nvl, "ipsrc"), &rule->ipsrc); pf_nvrule_addr_to_rule_addr(nvlist_get_nvlist(nvl, "ipdst"), &rule->ipdst); rule->evaluations = nvlist_get_number(nvl, "evaluations"); rule->packets[0] = nvlist_get_number(nvl, "packets-in"); rule->packets[1] = nvlist_get_number(nvl, "packets-out"); rule->bytes[0] = nvlist_get_number(nvl, "bytes-in"); rule->bytes[1] = nvlist_get_number(nvl, "bytes-out"); if (nvlist_exists_number(nvl, "timestamp")) { rule->last_active_timestamp = nvlist_get_number(nvl, "timestamp"); } strlcpy(rule->qname, nvlist_get_string(nvl, "qname"), PF_QNAME_SIZE); strlcpy(rule->tagname, nvlist_get_string(nvl, "tagname"), PF_TAG_NAME_SIZE); rule->dnpipe = nvlist_get_number(nvl, "dnpipe"); rule->dnflags = nvlist_get_number(nvl, "dnflags"); rule->anchor_relative = nvlist_get_number(nvl, "anchor_relative"); rule->anchor_wildcard = nvlist_get_number(nvl, "anchor_wildcard"); strlcpy(rule->bridge_to, nvlist_get_string(nvl, "bridge_to"), IFNAMSIZ); rule->action = nvlist_get_number(nvl, "action"); } int pfctl_get_eth_rulesets_info(int dev, struct pfctl_eth_rulesets_info *ri, const char *path) { nvlist_t *nvl; int ret; bzero(ri, sizeof(*ri)); nvl = nvlist_create(0); nvlist_add_string(nvl, "path", path); if ((ret = pfctl_do_ioctl(dev, DIOCGETETHRULESETS, 256, &nvl)) != 0) goto out; ri->nr = nvlist_get_number(nvl, "nr"); out: nvlist_destroy(nvl); return (ret); } int pfctl_get_eth_ruleset(int dev, const char *path, int nr, struct pfctl_eth_ruleset_info *ri) { nvlist_t *nvl; int ret; bzero(ri, sizeof(*ri)); nvl = nvlist_create(0); nvlist_add_string(nvl, "path", path); nvlist_add_number(nvl, "nr", nr); if ((ret = pfctl_do_ioctl(dev, DIOCGETETHRULESET, 1024, &nvl)) != 0) goto out; ri->nr = nvlist_get_number(nvl, "nr"); strlcpy(ri->path, nvlist_get_string(nvl, "path"), MAXPATHLEN); strlcpy(ri->name, nvlist_get_string(nvl, "name"), PF_ANCHOR_NAME_SIZE); out: nvlist_destroy(nvl); return (ret); } int pfctl_get_eth_rules_info(int dev, struct pfctl_eth_rules_info *rules, const char *path) { nvlist_t *nvl; int ret; bzero(rules, sizeof(*rules)); nvl = nvlist_create(0); nvlist_add_string(nvl, "anchor", path); if ((ret = pfctl_do_ioctl(dev, DIOCGETETHRULES, 1024, &nvl)) != 0) goto out; rules->nr = nvlist_get_number(nvl, "nr"); rules->ticket = nvlist_get_number(nvl, "ticket"); out: nvlist_destroy(nvl); return (ret); } int pfctl_get_eth_rule(int dev, uint32_t nr, uint32_t ticket, const char *path, struct pfctl_eth_rule *rule, bool clear, char *anchor_call) { nvlist_t *nvl; int ret; nvl = nvlist_create(0); nvlist_add_string(nvl, "anchor", path); nvlist_add_number(nvl, "ticket", ticket); nvlist_add_number(nvl, "nr", nr); nvlist_add_bool(nvl, "clear", clear); if ((ret = pfctl_do_ioctl(dev, DIOCGETETHRULE, 4096, &nvl)) != 0) goto out; pfctl_nveth_rule_to_eth_rule(nvl, rule); if (anchor_call) strlcpy(anchor_call, nvlist_get_string(nvl, "anchor_call"), MAXPATHLEN); out: nvlist_destroy(nvl); return (ret); } int pfctl_add_eth_rule(int dev, const struct pfctl_eth_rule *r, const char *anchor, const char *anchor_call, uint32_t ticket) { struct pfioc_nv nv; nvlist_t *nvl, *addr; void *packed; int error = 0; size_t labelcount, size; nvl = nvlist_create(0); nvlist_add_number(nvl, "ticket", ticket); nvlist_add_string(nvl, "anchor", anchor); nvlist_add_string(nvl, "anchor_call", anchor_call); nvlist_add_number(nvl, "nr", r->nr); nvlist_add_bool(nvl, "quick", r->quick); nvlist_add_string(nvl, "ifname", r->ifname); nvlist_add_bool(nvl, "ifnot", r->ifnot); nvlist_add_number(nvl, "direction", r->direction); nvlist_add_number(nvl, "proto", r->proto); nvlist_add_string(nvl, "match_tagname", r->match_tagname); nvlist_add_bool(nvl, "match_tag_not", r->match_tag_not); addr = pfctl_eth_addr_to_nveth_addr(&r->src); if (addr == NULL) { nvlist_destroy(nvl); return (ENOMEM); } nvlist_add_nvlist(nvl, "src", addr); nvlist_destroy(addr); addr = pfctl_eth_addr_to_nveth_addr(&r->dst); if (addr == NULL) { nvlist_destroy(nvl); return (ENOMEM); } nvlist_add_nvlist(nvl, "dst", addr); nvlist_destroy(addr); pfctl_nv_add_rule_addr(nvl, "ipsrc", &r->ipsrc); pfctl_nv_add_rule_addr(nvl, "ipdst", &r->ipdst); labelcount = 0; while (labelcount < PF_RULE_MAX_LABEL_COUNT && r->label[labelcount][0] != 0) { nvlist_append_string_array(nvl, "labels", r->label[labelcount]); labelcount++; } nvlist_add_number(nvl, "ridentifier", r->ridentifier); nvlist_add_string(nvl, "qname", r->qname); nvlist_add_string(nvl, "tagname", r->tagname); nvlist_add_number(nvl, "dnpipe", r->dnpipe); nvlist_add_number(nvl, "dnflags", r->dnflags); nvlist_add_string(nvl, "bridge_to", r->bridge_to); nvlist_add_number(nvl, "action", r->action); packed = nvlist_pack(nvl, &size); if (packed == NULL) { nvlist_destroy(nvl); return (ENOMEM); } nv.len = size; nv.size = size; nv.data = packed; if (ioctl(dev, DIOCADDETHRULE, &nv) != 0) error = errno; free(packed); nvlist_destroy(nvl); return (error); } static void snl_add_msg_attr_addr_wrap(struct snl_writer *nw, uint32_t type, const struct pf_addr_wrap *addr) { int off; off = snl_add_msg_attr_nested(nw, type); snl_add_msg_attr_ip6(nw, PF_AT_ADDR, &addr->v.a.addr.v6); snl_add_msg_attr_ip6(nw, PF_AT_MASK, &addr->v.a.mask.v6); if (addr->type == PF_ADDR_DYNIFTL) snl_add_msg_attr_string(nw, PF_AT_IFNAME, addr->v.ifname); if (addr->type == PF_ADDR_TABLE) snl_add_msg_attr_string(nw, PF_AT_TABLENAME, addr->v.tblname); snl_add_msg_attr_u8(nw, PF_AT_TYPE, addr->type); snl_add_msg_attr_u8(nw, PF_AT_IFLAGS, addr->iflags); snl_end_attr_nested(nw, off); } static void snl_add_msg_attr_rule_addr(struct snl_writer *nw, uint32_t type, const struct pf_rule_addr *addr) { int off; off = snl_add_msg_attr_nested(nw, type); snl_add_msg_attr_addr_wrap(nw, PF_RAT_ADDR, &addr->addr); snl_add_msg_attr_u16(nw, PF_RAT_SRC_PORT, addr->port[0]); snl_add_msg_attr_u16(nw, PF_RAT_DST_PORT, addr->port[1]); snl_add_msg_attr_u8(nw, PF_RAT_NEG, addr->neg); snl_add_msg_attr_u8(nw, PF_RAT_OP, addr->port_op); snl_end_attr_nested(nw, off); } static void snl_add_msg_attr_rule_labels(struct snl_writer *nw, uint32_t type, const char labels[PF_RULE_MAX_LABEL_COUNT][PF_RULE_LABEL_SIZE]) { int off, i = 0; off = snl_add_msg_attr_nested(nw, type); while (i < PF_RULE_MAX_LABEL_COUNT && labels[i][0] != 0) { snl_add_msg_attr_string(nw, PF_LT_LABEL, labels[i]); i++; } snl_end_attr_nested(nw, off); } static void snl_add_msg_attr_mape(struct snl_writer *nw, uint32_t type, const struct pf_mape_portset *me) { int off; off = snl_add_msg_attr_nested(nw, type); snl_add_msg_attr_u8(nw, PF_MET_OFFSET, me->offset); snl_add_msg_attr_u8(nw, PF_MET_PSID_LEN, me->psidlen); snl_add_msg_attr_u16(nw, PF_MET_PSID, me->psid); snl_end_attr_nested(nw, off); } static void snl_add_msg_attr_rpool(struct snl_writer *nw, uint32_t type, const struct pfctl_pool *pool) { int off; off = snl_add_msg_attr_nested(nw, type); snl_add_msg_attr(nw, PF_PT_KEY, sizeof(pool->key), &pool->key); snl_add_msg_attr_ip6(nw, PF_PT_COUNTER, &pool->counter.v6); snl_add_msg_attr_u32(nw, PF_PT_TBLIDX, pool->tblidx); snl_add_msg_attr_u16(nw, PF_PT_PROXY_SRC_PORT, pool->proxy_port[0]); snl_add_msg_attr_u16(nw, PF_PT_PROXY_DST_PORT, pool->proxy_port[1]); snl_add_msg_attr_u8(nw, PF_PT_OPTS, pool->opts); snl_add_msg_attr_mape(nw, PF_PT_MAPE, &pool->mape); snl_end_attr_nested(nw, off); } static void snl_add_msg_attr_timeouts(struct snl_writer *nw, uint32_t type, const uint32_t *timeouts) { int off; off = snl_add_msg_attr_nested(nw, type); for (int i = 0; i < PFTM_MAX; i++) snl_add_msg_attr_u32(nw, PF_TT_TIMEOUT, timeouts[i]); snl_end_attr_nested(nw, off); } static void snl_add_msg_attr_uid(struct snl_writer *nw, uint32_t type, const struct pf_rule_uid *uid) { int off; off = snl_add_msg_attr_nested(nw, type); snl_add_msg_attr_u32(nw, PF_RUT_UID_LOW, uid->uid[0]); snl_add_msg_attr_u32(nw, PF_RUT_UID_HIGH, uid->uid[1]); snl_add_msg_attr_u8(nw, PF_RUT_OP, uid->op); snl_end_attr_nested(nw, off); } static void snl_add_msg_attr_pf_rule(struct snl_writer *nw, uint32_t type, const struct pfctl_rule *r) { int off; off = snl_add_msg_attr_nested(nw, type); snl_add_msg_attr_rule_addr(nw, PF_RT_SRC, &r->src); snl_add_msg_attr_rule_addr(nw, PF_RT_DST, &r->dst); snl_add_msg_attr_rule_labels(nw, PF_RT_LABELS, r->label); snl_add_msg_attr_u32(nw, PF_RT_RIDENTIFIER, r->ridentifier); snl_add_msg_attr_string(nw, PF_RT_IFNAME, r->ifname); snl_add_msg_attr_string(nw, PF_RT_QNAME, r->qname); snl_add_msg_attr_string(nw, PF_RT_PQNAME, r->pqname); snl_add_msg_attr_string(nw, PF_RT_TAGNAME, r->tagname); snl_add_msg_attr_string(nw, PF_RT_MATCH_TAGNAME, r->match_tagname); snl_add_msg_attr_string(nw, PF_RT_OVERLOAD_TBLNAME, r->overload_tblname); snl_add_msg_attr_rpool(nw, PF_RT_RPOOL, &r->rpool); snl_add_msg_attr_u32(nw, PF_RT_OS_FINGERPRINT, r->os_fingerprint); snl_add_msg_attr_u32(nw, PF_RT_RTABLEID, r->rtableid); snl_add_msg_attr_timeouts(nw, PF_RT_TIMEOUT, r->timeout); snl_add_msg_attr_u32(nw, PF_RT_MAX_STATES, r->max_states); snl_add_msg_attr_u32(nw, PF_RT_MAX_SRC_NODES, r->max_src_nodes); snl_add_msg_attr_u32(nw, PF_RT_MAX_SRC_STATES, r->max_src_states); snl_add_msg_attr_u32(nw, PF_RT_MAX_SRC_CONN_RATE_LIMIT, r->max_src_conn_rate.limit); snl_add_msg_attr_u32(nw, PF_RT_MAX_SRC_CONN_RATE_SECS, r->max_src_conn_rate.seconds); snl_add_msg_attr_u16(nw, PF_RT_DNPIPE, r->dnpipe); snl_add_msg_attr_u16(nw, PF_RT_DNRPIPE, r->dnrpipe); snl_add_msg_attr_u32(nw, PF_RT_DNFLAGS, r->free_flags); snl_add_msg_attr_u32(nw, PF_RT_NR, r->nr); snl_add_msg_attr_u32(nw, PF_RT_PROB, r->prob); snl_add_msg_attr_u32(nw, PF_RT_CUID, r->cuid); snl_add_msg_attr_u32(nw, PF_RT_CPID, r->cpid); snl_add_msg_attr_u16(nw, PF_RT_RETURN_ICMP, r->return_icmp); snl_add_msg_attr_u16(nw, PF_RT_RETURN_ICMP6, r->return_icmp6); snl_add_msg_attr_u16(nw, PF_RT_MAX_MSS, r->max_mss); snl_add_msg_attr_u16(nw, PF_RT_SCRUB_FLAGS, r->scrub_flags); snl_add_msg_attr_uid(nw, PF_RT_UID, &r->uid); snl_add_msg_attr_uid(nw, PF_RT_GID, (const struct pf_rule_uid *)&r->gid); snl_add_msg_attr_u32(nw, PF_RT_RULE_FLAG, r->rule_flag); snl_add_msg_attr_u8(nw, PF_RT_ACTION, r->action); snl_add_msg_attr_u8(nw, PF_RT_DIRECTION, r->direction); snl_add_msg_attr_u8(nw, PF_RT_LOG, r->log); snl_add_msg_attr_u8(nw, PF_RT_LOGIF, r->logif); snl_add_msg_attr_u8(nw, PF_RT_QUICK, r->quick); snl_add_msg_attr_u8(nw, PF_RT_IF_NOT, r->ifnot); snl_add_msg_attr_u8(nw, PF_RT_MATCH_TAG_NOT, r->match_tag_not); snl_add_msg_attr_u8(nw, PF_RT_NATPASS, r->natpass); snl_add_msg_attr_u8(nw, PF_RT_KEEP_STATE, r->keep_state); snl_add_msg_attr_u8(nw, PF_RT_AF, r->af); snl_add_msg_attr_u8(nw, PF_RT_PROTO, r->proto); snl_add_msg_attr_u8(nw, PF_RT_TYPE, r->type); snl_add_msg_attr_u8(nw, PF_RT_CODE, r->code); snl_add_msg_attr_u8(nw, PF_RT_FLAGS, r->flags); snl_add_msg_attr_u8(nw, PF_RT_FLAGSET, r->flagset); snl_add_msg_attr_u8(nw, PF_RT_MIN_TTL, r->min_ttl); snl_add_msg_attr_u8(nw, PF_RT_ALLOW_OPTS, r->allow_opts); snl_add_msg_attr_u8(nw, PF_RT_RT, r->rt); snl_add_msg_attr_u8(nw, PF_RT_RETURN_TTL, r->return_ttl); snl_add_msg_attr_u8(nw, PF_RT_TOS, r->tos); snl_add_msg_attr_u8(nw, PF_RT_SET_TOS, r->set_tos); snl_add_msg_attr_u8(nw, PF_RT_ANCHOR_RELATIVE, r->anchor_relative); snl_add_msg_attr_u8(nw, PF_RT_ANCHOR_WILDCARD, r->anchor_wildcard); snl_add_msg_attr_u8(nw, PF_RT_FLUSH, r->flush); snl_add_msg_attr_u8(nw, PF_RT_PRIO, r->prio); snl_add_msg_attr_u8(nw, PF_RT_SET_PRIO, r->set_prio[0]); snl_add_msg_attr_u8(nw, PF_RT_SET_PRIO_REPLY, r->set_prio[1]); snl_add_msg_attr_ip6(nw, PF_RT_DIVERT_ADDRESS, &r->divert.addr.v6); snl_add_msg_attr_u16(nw, PF_RT_DIVERT_PORT, r->divert.port); snl_end_attr_nested(nw, off); } int pfctl_add_rule(int dev __unused, const struct pfctl_rule *r, const char *anchor, const char *anchor_call, uint32_t ticket, uint32_t pool_ticket) { struct pfctl_handle *h; int ret; h = pfctl_open(PF_DEVICE); if (h == NULL) return (ENODEV); ret = pfctl_add_rule_h(h, r, anchor, anchor_call, ticket, pool_ticket); pfctl_close(h); return (ret); } int pfctl_add_rule_h(struct pfctl_handle *h, const struct pfctl_rule *r, const char *anchor, const char *anchor_call, uint32_t ticket, uint32_t pool_ticket) { struct snl_writer nw; struct snl_errmsg_data e = {}; struct nlmsghdr *hdr; uint32_t seq_id; int family_id; family_id = snl_get_genl_family(&h->ss, PFNL_FAMILY_NAME); if (family_id == 0) return (ENOTSUP); snl_init_writer(&h->ss, &nw); hdr = snl_create_genl_msg_request(&nw, family_id, PFNL_CMD_ADDRULE); hdr->nlmsg_flags |= NLM_F_DUMP; snl_add_msg_attr_u32(&nw, PF_ART_TICKET, ticket); snl_add_msg_attr_u32(&nw, PF_ART_POOL_TICKET, pool_ticket); snl_add_msg_attr_string(&nw, PF_ART_ANCHOR, anchor); snl_add_msg_attr_string(&nw, PF_ART_ANCHOR_CALL, anchor_call); snl_add_msg_attr_pf_rule(&nw, PF_ART_RULE, r); if ((hdr = snl_finalize_msg(&nw)) == NULL) return (ENXIO); seq_id = hdr->nlmsg_seq; if (! snl_send_message(&h->ss, hdr)) return (ENXIO); while ((hdr = snl_read_reply_multi(&h->ss, seq_id, &e)) != NULL) { } return (e.error); } #define _IN(_field) offsetof(struct genlmsghdr, _field) #define _OUT(_field) offsetof(struct pfctl_rules_info, _field) static struct snl_attr_parser ap_getrules[] = { { .type = PF_GR_NR, .off = _OUT(nr), .cb = snl_attr_get_uint32 }, { .type = PF_GR_TICKET, .off = _OUT(ticket), .cb = snl_attr_get_uint32 }, }; static struct snl_field_parser fp_getrules[] = { }; #undef _IN #undef _OUT SNL_DECLARE_PARSER(getrules_parser, struct genlmsghdr, fp_getrules, ap_getrules); int pfctl_get_rules_info_h(struct pfctl_handle *h, struct pfctl_rules_info *rules, uint32_t ruleset, const char *path) { struct snl_errmsg_data e = {}; struct nlmsghdr *hdr; struct snl_writer nw; uint32_t seq_id; int family_id; family_id = snl_get_genl_family(&h->ss, PFNL_FAMILY_NAME); if (family_id == 0) return (ENOTSUP); snl_init_writer(&h->ss, &nw); hdr = snl_create_genl_msg_request(&nw, family_id, PFNL_CMD_GETRULES); hdr->nlmsg_flags |= NLM_F_DUMP; snl_add_msg_attr_string(&nw, PF_GR_ANCHOR, path); snl_add_msg_attr_u8(&nw, PF_GR_ACTION, ruleset); hdr = snl_finalize_msg(&nw); if (hdr == NULL) return (ENOMEM); seq_id = hdr->nlmsg_seq; if (! snl_send_message(&h->ss, hdr)) return (ENXIO); while ((hdr = snl_read_reply_multi(&h->ss, seq_id, &e)) != NULL) { if (! snl_parse_nlmsg(&h->ss, hdr, &getrules_parser, rules)) continue; } return (e.error); } int pfctl_get_rules_info(int dev __unused, struct pfctl_rules_info *rules, uint32_t ruleset, const char *path) { struct pfctl_handle *h; int error; h = pfctl_open(PF_DEVICE); if (h == NULL) return (ENOTSUP); error = pfctl_get_rules_info_h(h, rules, ruleset, path); pfctl_close(h); return (error); } int pfctl_get_rule_h(struct pfctl_handle *h, uint32_t nr, uint32_t ticket, const char *anchor, uint32_t ruleset, struct pfctl_rule *rule, char *anchor_call) { return (pfctl_get_clear_rule_h(h, nr, ticket, anchor, ruleset, rule, anchor_call, false)); } int pfctl_get_rule(int dev, uint32_t nr, uint32_t ticket, const char *anchor, uint32_t ruleset, struct pfctl_rule *rule, char *anchor_call) { return (pfctl_get_clear_rule(dev, nr, ticket, anchor, ruleset, rule, anchor_call, false)); } #define _OUT(_field) offsetof(struct pf_addr_wrap, _field) static const struct snl_attr_parser ap_addr_wrap[] = { { .type = PF_AT_ADDR, .off = _OUT(v.a.addr), .cb = snl_attr_get_in6_addr }, { .type = PF_AT_MASK, .off = _OUT(v.a.mask), .cb = snl_attr_get_in6_addr }, { .type = PF_AT_IFNAME, .off = _OUT(v.ifname), .arg = (void *)IFNAMSIZ,.cb = snl_attr_copy_string }, { .type = PF_AT_TABLENAME, .off = _OUT(v.tblname), .arg = (void *)PF_TABLE_NAME_SIZE, .cb = snl_attr_copy_string }, { .type = PF_AT_TYPE, .off = _OUT(type), .cb = snl_attr_get_uint8 }, { .type = PF_AT_IFLAGS, .off = _OUT(iflags), .cb = snl_attr_get_uint8 }, { .type = PF_AT_TBLCNT, .off = _OUT(p.tblcnt), .cb = snl_attr_get_uint32 }, { .type = PF_AT_DYNCNT, .off = _OUT(p.dyncnt), .cb = snl_attr_get_uint32 }, }; SNL_DECLARE_ATTR_PARSER(addr_wrap_parser, ap_addr_wrap); #undef _OUT #define _OUT(_field) offsetof(struct pf_rule_addr, _field) static struct snl_attr_parser ap_rule_addr[] = { { .type = PF_RAT_ADDR, .off = _OUT(addr), .arg = &addr_wrap_parser, .cb = snl_attr_get_nested }, { .type = PF_RAT_SRC_PORT, .off = _OUT(port[0]), .cb = snl_attr_get_uint16 }, { .type = PF_RAT_DST_PORT, .off = _OUT(port[1]), .cb = snl_attr_get_uint16 }, { .type = PF_RAT_NEG, .off = _OUT(neg), .cb = snl_attr_get_uint8 }, { .type = PF_RAT_OP, .off = _OUT(port_op), .cb = snl_attr_get_uint8 }, }; #undef _OUT SNL_DECLARE_ATTR_PARSER(rule_addr_parser, ap_rule_addr); struct snl_parsed_labels { char labels[PF_RULE_MAX_LABEL_COUNT][PF_RULE_LABEL_SIZE]; uint32_t i; }; static bool snl_attr_get_pf_rule_labels(struct snl_state *ss, struct nlattr *nla, const void *arg __unused, void *target) { struct snl_parsed_labels *l = (struct snl_parsed_labels *)target; bool ret; if (l->i >= PF_RULE_MAX_LABEL_COUNT) return (E2BIG); ret = snl_attr_copy_string(ss, nla, (void *)PF_RULE_LABEL_SIZE, l->labels[l->i]); if (ret) l->i++; return (ret); } #define _OUT(_field) offsetof(struct nl_parsed_labels, _field) static const struct snl_attr_parser ap_labels[] = { { .type = PF_LT_LABEL, .off = 0, .cb = snl_attr_get_pf_rule_labels }, }; SNL_DECLARE_ATTR_PARSER(rule_labels_parser, ap_labels); #undef _OUT static bool snl_attr_get_nested_pf_rule_labels(struct snl_state *ss, struct nlattr *nla, const void *arg __unused, void *target) { struct snl_parsed_labels parsed_labels = { }; bool error; /* Assumes target points to the beginning of the structure */ error = snl_parse_header(ss, NLA_DATA(nla), NLA_DATA_LEN(nla), &rule_labels_parser, &parsed_labels); if (! error) return (error); memcpy(target, parsed_labels.labels, sizeof(parsed_labels.labels)); return (true); } #define _OUT(_field) offsetof(struct pf_mape_portset, _field) static const struct snl_attr_parser ap_mape_portset[] = { { .type = PF_MET_OFFSET, .off = _OUT(offset), .cb = snl_attr_get_uint8 }, { .type = PF_MET_PSID_LEN, .off = _OUT(psidlen), .cb = snl_attr_get_uint8 }, {. type = PF_MET_PSID, .off = _OUT(psid), .cb = snl_attr_get_uint16 }, }; SNL_DECLARE_ATTR_PARSER(mape_portset_parser, ap_mape_portset); #undef _OUT #define _OUT(_field) offsetof(struct pfctl_pool, _field) static const struct snl_attr_parser ap_pool[] = { { .type = PF_PT_KEY, .off = _OUT(key), .arg = (void *)sizeof(struct pf_poolhashkey), .cb = snl_attr_get_bytes }, { .type = PF_PT_COUNTER, .off = _OUT(counter), .cb = snl_attr_get_in6_addr }, { .type = PF_PT_TBLIDX, .off = _OUT(tblidx), .cb = snl_attr_get_uint32 }, { .type = PF_PT_PROXY_SRC_PORT, .off = _OUT(proxy_port[0]), .cb = snl_attr_get_uint16 }, { .type = PF_PT_PROXY_DST_PORT, .off = _OUT(proxy_port[1]), .cb = snl_attr_get_uint16 }, { .type = PF_PT_OPTS, .off = _OUT(opts), .cb = snl_attr_get_uint8 }, { .type = PF_PT_MAPE, .off = _OUT(mape), .arg = &mape_portset_parser, .cb = snl_attr_get_nested }, }; SNL_DECLARE_ATTR_PARSER(pool_parser, ap_pool); #undef _OUT struct nl_parsed_timeouts { uint32_t timeouts[PFTM_MAX]; uint32_t i; }; static bool snl_attr_get_pf_timeout(struct snl_state *ss, struct nlattr *nla, const void *arg __unused, void *target) { struct nl_parsed_timeouts *t = (struct nl_parsed_timeouts *)target; bool ret; if (t->i >= PFTM_MAX) return (E2BIG); ret = snl_attr_get_uint32(ss, nla, NULL, &t->timeouts[t->i]); if (ret) t->i++; return (ret); } #define _OUT(_field) offsetof(struct nl_parsed_timeout, _field) static const struct snl_attr_parser ap_timeouts[] = { { .type = PF_TT_TIMEOUT, .off = 0, .cb = snl_attr_get_pf_timeout }, }; SNL_DECLARE_ATTR_PARSER(timeout_parser, ap_timeouts); #undef _OUT static bool snl_attr_get_nested_timeouts(struct snl_state *ss, struct nlattr *nla, const void *arg __unused, void *target) { struct nl_parsed_timeouts parsed_timeouts = { }; bool error; /* Assumes target points to the beginning of the structure */ error = snl_parse_header(ss, NLA_DATA(nla), NLA_DATA_LEN(nla), &timeout_parser, &parsed_timeouts); if (! error) return (error); memcpy(target, parsed_timeouts.timeouts, sizeof(parsed_timeouts.timeouts)); return (true); } #define _OUT(_field) offsetof(struct pf_rule_uid, _field) static const struct snl_attr_parser ap_rule_uid[] = { { .type = PF_RUT_UID_LOW, .off = _OUT(uid[0]), .cb = snl_attr_get_uint32 }, { .type = PF_RUT_UID_HIGH, .off = _OUT(uid[1]), .cb = snl_attr_get_uint32 }, { .type = PF_RUT_OP, .off = _OUT(op), .cb = snl_attr_get_uint8 }, }; SNL_DECLARE_ATTR_PARSER(rule_uid_parser, ap_rule_uid); #undef _OUT struct pfctl_nl_get_rule { struct pfctl_rule r; char anchor_call[MAXPATHLEN]; }; #define _OUT(_field) offsetof(struct pfctl_nl_get_rule, _field) static struct snl_attr_parser ap_getrule[] = { { .type = PF_RT_SRC, .off = _OUT(r.src), .arg = &rule_addr_parser,.cb = snl_attr_get_nested }, { .type = PF_RT_DST, .off = _OUT(r.dst), .arg = &rule_addr_parser,.cb = snl_attr_get_nested }, { .type = PF_RT_RIDENTIFIER, .off = _OUT(r.ridentifier), .cb = snl_attr_get_uint32 }, { .type = PF_RT_LABELS, .off = _OUT(r.label), .arg = &rule_labels_parser,.cb = snl_attr_get_nested_pf_rule_labels }, { .type = PF_RT_IFNAME, .off = _OUT(r.ifname), .arg = (void *)IFNAMSIZ, .cb = snl_attr_copy_string }, { .type = PF_RT_QNAME, .off = _OUT(r.qname), .arg = (void *)PF_QNAME_SIZE, .cb = snl_attr_copy_string }, { .type = PF_RT_PQNAME, .off = _OUT(r.pqname), .arg = (void *)PF_QNAME_SIZE, .cb = snl_attr_copy_string }, { .type = PF_RT_TAGNAME, .off = _OUT(r.tagname), .arg = (void *)PF_TAG_NAME_SIZE, .cb = snl_attr_copy_string }, { .type = PF_RT_MATCH_TAGNAME, .off = _OUT(r.match_tagname), .arg = (void *)PF_TAG_NAME_SIZE, .cb = snl_attr_copy_string }, { .type = PF_RT_OVERLOAD_TBLNAME, .off = _OUT(r.overload_tblname), .arg = (void *)PF_TABLE_NAME_SIZE, .cb = snl_attr_copy_string }, { .type = PF_RT_RPOOL, .off = _OUT(r.rpool), .arg = &pool_parser, .cb = snl_attr_get_nested }, { .type = PF_RT_OS_FINGERPRINT, .off = _OUT(r.os_fingerprint), .cb = snl_attr_get_uint32 }, { .type = PF_RT_RTABLEID, .off = _OUT(r.rtableid), .cb = snl_attr_get_uint32 }, { .type = PF_RT_TIMEOUT, .off = _OUT(r.timeout), .arg = &timeout_parser, .cb = snl_attr_get_nested_timeouts }, { .type = PF_RT_MAX_STATES, .off = _OUT(r.max_states), .cb = snl_attr_get_uint32 }, { .type = PF_RT_MAX_SRC_NODES, .off = _OUT(r.max_src_nodes), .cb = snl_attr_get_uint32 }, { .type = PF_RT_MAX_SRC_STATES, .off = _OUT(r.max_src_states), .cb = snl_attr_get_uint32 }, { .type = PF_RT_MAX_SRC_CONN_RATE_LIMIT, .off = _OUT(r.max_src_conn_rate.limit), .cb = snl_attr_get_uint32 }, { .type = PF_RT_MAX_SRC_CONN_RATE_SECS, .off = _OUT(r.max_src_conn_rate.seconds), .cb = snl_attr_get_uint32 }, { .type = PF_RT_DNPIPE, .off = _OUT(r.dnpipe), .cb = snl_attr_get_uint16 }, { .type = PF_RT_DNRPIPE, .off = _OUT(r.dnrpipe), .cb = snl_attr_get_uint16 }, { .type = PF_RT_DNFLAGS, .off = _OUT(r.free_flags), .cb = snl_attr_get_uint32 }, { .type = PF_RT_NR, .off = _OUT(r.nr), .cb = snl_attr_get_uint32 }, { .type = PF_RT_PROB, .off = _OUT(r.prob), .cb = snl_attr_get_uint32 }, { .type = PF_RT_CUID, .off = _OUT(r.cuid), .cb = snl_attr_get_uint32 }, {. type = PF_RT_CPID, .off = _OUT(r.cpid), .cb = snl_attr_get_uint32 }, { .type = PF_RT_RETURN_ICMP, .off = _OUT(r.return_icmp), .cb = snl_attr_get_uint16 }, { .type = PF_RT_RETURN_ICMP6, .off = _OUT(r.return_icmp6), .cb = snl_attr_get_uint16 }, { .type = PF_RT_MAX_MSS, .off = _OUT(r.max_mss), .cb = snl_attr_get_uint16 }, { .type = PF_RT_SCRUB_FLAGS, .off = _OUT(r.scrub_flags), .cb = snl_attr_get_uint16 }, { .type = PF_RT_UID, .off = _OUT(r.uid), .arg = &rule_uid_parser, .cb = snl_attr_get_nested }, { .type = PF_RT_GID, .off = _OUT(r.gid), .arg = &rule_uid_parser, .cb = snl_attr_get_nested }, { .type = PF_RT_RULE_FLAG, .off = _OUT(r.rule_flag), .cb = snl_attr_get_uint32 }, { .type = PF_RT_ACTION, .off = _OUT(r.action), .cb = snl_attr_get_uint8 }, { .type = PF_RT_DIRECTION, .off = _OUT(r.direction), .cb = snl_attr_get_uint8 }, { .type = PF_RT_LOG, .off = _OUT(r.log), .cb = snl_attr_get_uint8 }, { .type = PF_RT_LOGIF, .off = _OUT(r.logif), .cb = snl_attr_get_uint8 }, { .type = PF_RT_QUICK, .off = _OUT(r.quick), .cb = snl_attr_get_uint8 }, { .type = PF_RT_IF_NOT, .off = _OUT(r.ifnot), .cb = snl_attr_get_uint8 }, { .type = PF_RT_MATCH_TAG_NOT, .off = _OUT(r.match_tag_not), .cb = snl_attr_get_uint8 }, { .type = PF_RT_NATPASS, .off = _OUT(r.natpass), .cb = snl_attr_get_uint8 }, { .type = PF_RT_KEEP_STATE, .off = _OUT(r.keep_state), .cb = snl_attr_get_uint8 }, { .type = PF_RT_AF, .off = _OUT(r.af), .cb = snl_attr_get_uint8 }, { .type = PF_RT_PROTO, .off = _OUT(r.proto), .cb = snl_attr_get_uint8 }, { .type = PF_RT_TYPE, .off = _OUT(r.type), .cb = snl_attr_get_uint8 }, { .type = PF_RT_CODE, .off = _OUT(r.code), .cb = snl_attr_get_uint8 }, { .type = PF_RT_FLAGS, .off = _OUT(r.flags), .cb = snl_attr_get_uint8 }, { .type = PF_RT_FLAGSET, .off = _OUT(r.flagset), .cb = snl_attr_get_uint8 }, { .type = PF_RT_MIN_TTL, .off = _OUT(r.min_ttl), .cb = snl_attr_get_uint8 }, { .type = PF_RT_ALLOW_OPTS, .off = _OUT(r.allow_opts), .cb = snl_attr_get_uint8 }, { .type = PF_RT_RT, .off = _OUT(r.rt), .cb = snl_attr_get_uint8 }, { .type = PF_RT_RETURN_TTL, .off = _OUT(r.return_ttl), .cb = snl_attr_get_uint8 }, { .type = PF_RT_TOS, .off = _OUT(r.tos), .cb = snl_attr_get_uint8 }, { .type = PF_RT_SET_TOS, .off = _OUT(r.set_tos), .cb = snl_attr_get_uint8 }, { .type = PF_RT_ANCHOR_RELATIVE, .off = _OUT(r.anchor_relative), .cb = snl_attr_get_uint8 }, { .type = PF_RT_ANCHOR_WILDCARD, .off = _OUT(r.anchor_wildcard), .cb = snl_attr_get_uint8 }, { .type = PF_RT_FLUSH, .off = _OUT(r.flush), .cb = snl_attr_get_uint8 }, { .type = PF_RT_PRIO, .off = _OUT(r.prio), .cb = snl_attr_get_uint8 }, { .type = PF_RT_SET_PRIO, .off = _OUT(r.set_prio[0]), .cb = snl_attr_get_uint8 }, { .type = PF_RT_SET_PRIO_REPLY, .off = _OUT(r.set_prio[1]), .cb = snl_attr_get_uint8 }, { .type = PF_RT_DIVERT_ADDRESS, .off = _OUT(r.divert.addr), .cb = snl_attr_get_in6_addr }, { .type = PF_RT_DIVERT_PORT, .off = _OUT(r.divert.port), .cb = snl_attr_get_uint16 }, { .type = PF_RT_PACKETS_IN, .off = _OUT(r.packets[0]), .cb = snl_attr_get_uint64 }, { .type = PF_RT_PACKETS_OUT, .off = _OUT(r.packets[1]), .cb = snl_attr_get_uint64 }, { .type = PF_RT_BYTES_IN, .off = _OUT(r.bytes[0]), .cb = snl_attr_get_uint64 }, { .type = PF_RT_BYTES_OUT, .off = _OUT(r.bytes[1]), .cb = snl_attr_get_uint64 }, { .type = PF_RT_EVALUATIONS, .off = _OUT(r.evaluations), .cb = snl_attr_get_uint64 }, { .type = PF_RT_TIMESTAMP, .off = _OUT(r.last_active_timestamp), .cb = snl_attr_get_uint64 }, { .type = PF_RT_STATES_CUR, .off = _OUT(r.states_cur), .cb = snl_attr_get_uint64 }, { .type = PF_RT_STATES_TOTAL, .off = _OUT(r.states_tot), .cb = snl_attr_get_uint64 }, { .type = PF_RT_SRC_NODES, .off = _OUT(r.src_nodes), .cb = snl_attr_get_uint64 }, { .type = PF_RT_ANCHOR_CALL, .off = _OUT(anchor_call), .arg = (void*)MAXPATHLEN, .cb = snl_attr_copy_string }, }; static struct snl_field_parser fp_getrule[] = {}; #undef _OUT SNL_DECLARE_PARSER(getrule_parser, struct genlmsghdr, fp_getrule, ap_getrule); int pfctl_get_clear_rule_h(struct pfctl_handle *h, uint32_t nr, uint32_t ticket, const char *anchor, uint32_t ruleset, struct pfctl_rule *rule, char *anchor_call, bool clear) { struct pfctl_nl_get_rule attrs = {}; struct snl_errmsg_data e = {}; struct nlmsghdr *hdr; struct snl_writer nw; uint32_t seq_id; int family_id; family_id = snl_get_genl_family(&h->ss, PFNL_FAMILY_NAME); if (family_id == 0) return (ENOTSUP); snl_init_writer(&h->ss, &nw); hdr = snl_create_genl_msg_request(&nw, family_id, PFNL_CMD_GETRULE); hdr->nlmsg_flags |= NLM_F_DUMP; snl_add_msg_attr_string(&nw, PF_GR_ANCHOR, anchor); snl_add_msg_attr_u8(&nw, PF_GR_ACTION, ruleset); snl_add_msg_attr_u32(&nw, PF_GR_NR, nr); snl_add_msg_attr_u32(&nw, PF_GR_TICKET, ticket); snl_add_msg_attr_u8(&nw, PF_GR_CLEAR, clear); hdr = snl_finalize_msg(&nw); if (hdr == NULL) return (ENOMEM); seq_id = hdr->nlmsg_seq; if (! snl_send_message(&h->ss, hdr)) return (ENXIO); while ((hdr = snl_read_reply_multi(&h->ss, seq_id, &e)) != NULL) { if (! snl_parse_nlmsg(&h->ss, hdr, &getrule_parser, &attrs)) continue; } memcpy(rule, &attrs.r, sizeof(attrs.r)); strlcpy(anchor_call, attrs.anchor_call, MAXPATHLEN); return (e.error); } int pfctl_get_clear_rule(int dev, uint32_t nr, uint32_t ticket, const char *anchor, uint32_t ruleset, struct pfctl_rule *rule, char *anchor_call, bool clear) { nvlist_t *nvl; int ret; nvl = nvlist_create(0); if (nvl == 0) return (ENOMEM); nvlist_add_number(nvl, "nr", nr); nvlist_add_number(nvl, "ticket", ticket); nvlist_add_string(nvl, "anchor", anchor); nvlist_add_number(nvl, "ruleset", ruleset); if (clear) nvlist_add_bool(nvl, "clear_counter", true); if ((ret = pfctl_do_ioctl(dev, DIOCGETRULENV, 8192, &nvl)) != 0) goto out; pf_nvrule_to_rule(nvlist_get_nvlist(nvl, "rule"), rule); if (anchor_call) strlcpy(anchor_call, nvlist_get_string(nvl, "anchor_call"), MAXPATHLEN); out: nvlist_destroy(nvl); return (ret); } int pfctl_set_keepcounters(int dev, bool keep) { struct pfioc_nv nv; nvlist_t *nvl; int ret; nvl = nvlist_create(0); nvlist_add_bool(nvl, "keep_counters", keep); nv.data = nvlist_pack(nvl, &nv.len); nv.size = nv.len; nvlist_destroy(nvl); ret = ioctl(dev, DIOCKEEPCOUNTERS, &nv); free(nv.data); return (ret); } struct pfctl_creator { uint32_t id; }; #define _IN(_field) offsetof(struct genlmsghdr, _field) #define _OUT(_field) offsetof(struct pfctl_creator, _field) static struct snl_attr_parser ap_creators[] = { { .type = PF_ST_CREATORID, .off = _OUT(id), .cb = snl_attr_get_uint32 }, }; static struct snl_field_parser fp_creators[] = { }; #undef _IN #undef _OUT SNL_DECLARE_PARSER(creator_parser, struct genlmsghdr, fp_creators, ap_creators); static int pfctl_get_creators_nl(struct snl_state *ss, uint32_t *creators, size_t *len) { int family_id = snl_get_genl_family(ss, PFNL_FAMILY_NAME); size_t i = 0; struct nlmsghdr *hdr; struct snl_writer nw; if (family_id == 0) return (ENOTSUP); snl_init_writer(ss, &nw); hdr = snl_create_genl_msg_request(&nw, family_id, PFNL_CMD_GETCREATORS); hdr->nlmsg_flags |= NLM_F_DUMP; hdr = snl_finalize_msg(&nw); if (hdr == NULL) return (ENOMEM); uint32_t seq_id = hdr->nlmsg_seq; snl_send_message(ss, hdr); struct snl_errmsg_data e = {}; while ((hdr = snl_read_reply_multi(ss, seq_id, &e)) != NULL) { struct pfctl_creator c; bzero(&c, sizeof(c)); if (!snl_parse_nlmsg(ss, hdr, &creator_parser, &c)) continue; creators[i] = c.id; i++; if (i > *len) return (E2BIG); } *len = i; return (0); } int pfctl_get_creatorids(struct pfctl_handle *h, uint32_t *creators, size_t *len) { int error; error = pfctl_get_creators_nl(&h->ss, creators, len); return (error); } static inline bool snl_attr_get_pfaddr(struct snl_state *ss __unused, struct nlattr *nla, const void *arg __unused, void *target) { memcpy(target, NLA_DATA(nla), NLA_DATA_LEN(nla)); return (true); } static inline bool snl_attr_store_ifname(struct snl_state *ss __unused, struct nlattr *nla, const void *arg __unused, void *target) { size_t maxlen = NLA_DATA_LEN(nla); if (strnlen((char *)NLA_DATA(nla), maxlen) < maxlen) { strlcpy(target, (char *)NLA_DATA(nla), maxlen); return (true); } return (false); } #define _OUT(_field) offsetof(struct pfctl_state_peer, _field) static const struct snl_attr_parser nla_p_speer[] = { { .type = PF_STP_SEQLO, .off = _OUT(seqlo), .cb = snl_attr_get_uint32 }, { .type = PF_STP_SEQHI, .off = _OUT(seqhi), .cb = snl_attr_get_uint32 }, { .type = PF_STP_SEQDIFF, .off = _OUT(seqdiff), .cb = snl_attr_get_uint32 }, { .type = PF_STP_STATE, .off = _OUT(state), .cb = snl_attr_get_uint8 }, { .type = PF_STP_WSCALE, .off = _OUT(wscale), .cb = snl_attr_get_uint8 }, }; SNL_DECLARE_ATTR_PARSER(speer_parser, nla_p_speer); #undef _OUT #define _OUT(_field) offsetof(struct pf_state_key_export, _field) static const struct snl_attr_parser nla_p_skey[] = { { .type = PF_STK_ADDR0, .off = _OUT(addr[0]), .cb = snl_attr_get_pfaddr }, { .type = PF_STK_ADDR1, .off = _OUT(addr[1]), .cb = snl_attr_get_pfaddr }, { .type = PF_STK_PORT0, .off = _OUT(port[0]), .cb = snl_attr_get_uint16 }, { .type = PF_STK_PORT1, .off = _OUT(port[1]), .cb = snl_attr_get_uint16 }, }; SNL_DECLARE_ATTR_PARSER(skey_parser, nla_p_skey); #undef _OUT #define _IN(_field) offsetof(struct genlmsghdr, _field) #define _OUT(_field) offsetof(struct pfctl_state, _field) static struct snl_attr_parser ap_state[] = { { .type = PF_ST_ID, .off = _OUT(id), .cb = snl_attr_get_uint64 }, { .type = PF_ST_CREATORID, .off = _OUT(creatorid), .cb = snl_attr_get_uint32 }, { .type = PF_ST_IFNAME, .off = _OUT(ifname), .cb = snl_attr_store_ifname }, { .type = PF_ST_ORIG_IFNAME, .off = _OUT(orig_ifname), .cb = snl_attr_store_ifname }, { .type = PF_ST_KEY_WIRE, .off = _OUT(key[0]), .arg = &skey_parser, .cb = snl_attr_get_nested }, { .type = PF_ST_KEY_STACK, .off = _OUT(key[1]), .arg = &skey_parser, .cb = snl_attr_get_nested }, { .type = PF_ST_PEER_SRC, .off = _OUT(src), .arg = &speer_parser, .cb = snl_attr_get_nested }, { .type = PF_ST_PEER_DST, .off = _OUT(dst), .arg = &speer_parser, .cb = snl_attr_get_nested }, { .type = PF_ST_RT_ADDR, .off = _OUT(rt_addr), .cb = snl_attr_get_pfaddr }, { .type = PF_ST_RULE, .off = _OUT(rule), .cb = snl_attr_get_uint32 }, { .type = PF_ST_ANCHOR, .off = _OUT(anchor), .cb = snl_attr_get_uint32 }, { .type = PF_ST_NAT_RULE, .off = _OUT(nat_rule), .cb = snl_attr_get_uint32 }, { .type = PF_ST_CREATION, .off = _OUT(creation), .cb = snl_attr_get_uint32 }, { .type = PF_ST_EXPIRE, .off = _OUT(expire), .cb = snl_attr_get_uint32 }, { .type = PF_ST_PACKETS0, .off = _OUT(packets[0]), .cb = snl_attr_get_uint64 }, { .type = PF_ST_PACKETS1, .off = _OUT(packets[1]), .cb = snl_attr_get_uint64 }, { .type = PF_ST_BYTES0, .off = _OUT(bytes[0]), .cb = snl_attr_get_uint64 }, { .type = PF_ST_BYTES1, .off = _OUT(bytes[1]), .cb = snl_attr_get_uint64 }, { .type = PF_ST_AF, .off = _OUT(key[0].af), .cb = snl_attr_get_uint8 }, { .type = PF_ST_PROTO, .off = _OUT(key[0].proto), .cb = snl_attr_get_uint8 }, { .type = PF_ST_DIRECTION, .off = _OUT(direction), .cb = snl_attr_get_uint8 }, { .type = PF_ST_LOG, .off = _OUT(log), .cb = snl_attr_get_uint8 }, { .type = PF_ST_STATE_FLAGS, .off = _OUT(state_flags), .cb = snl_attr_get_uint16 }, { .type = PF_ST_SYNC_FLAGS, .off = _OUT(sync_flags), .cb = snl_attr_get_uint8 }, { .type = PF_ST_RTABLEID, .off = _OUT(rtableid), .cb = snl_attr_get_int32 }, { .type = PF_ST_MIN_TTL, .off = _OUT(min_ttl), .cb = snl_attr_get_uint8 }, { .type = PF_ST_MAX_MSS, .off = _OUT(max_mss), .cb = snl_attr_get_uint16 }, { .type = PF_ST_DNPIPE, .off = _OUT(dnpipe), .cb = snl_attr_get_uint16 }, { .type = PF_ST_DNRPIPE, .off = _OUT(dnrpipe), .cb = snl_attr_get_uint16 }, { .type = PF_ST_RT, .off = _OUT(rt), .cb = snl_attr_get_uint8 }, { .type = PF_ST_RT_IFNAME, .off = _OUT(rt_ifname), .cb = snl_attr_store_ifname }, }; static struct snl_field_parser fp_state[] = { }; #undef _IN #undef _OUT SNL_DECLARE_PARSER(state_parser, struct genlmsghdr, fp_state, ap_state); static const struct snl_hdr_parser *all_parsers[] = { &state_parser, &skey_parser, &speer_parser, &creator_parser, &getrules_parser }; static int pfctl_get_states_nl(struct pfctl_state_filter *filter, struct snl_state *ss, pfctl_get_state_fn f, void *arg) { SNL_VERIFY_PARSERS(all_parsers); int family_id = snl_get_genl_family(ss, PFNL_FAMILY_NAME); int ret; struct nlmsghdr *hdr; struct snl_writer nw; if (family_id == 0) return (ENOTSUP); snl_init_writer(ss, &nw); hdr = snl_create_genl_msg_request(&nw, family_id, PFNL_CMD_GETSTATES); hdr->nlmsg_flags |= NLM_F_DUMP; snl_add_msg_attr_string(&nw, PF_ST_IFNAME, filter->ifname); snl_add_msg_attr_u16(&nw, PF_ST_PROTO, filter->proto); snl_add_msg_attr_u8(&nw, PF_ST_AF, filter->af); snl_add_msg_attr_ip6(&nw, PF_ST_FILTER_ADDR, &filter->addr.v6); snl_add_msg_attr_ip6(&nw, PF_ST_FILTER_MASK, &filter->mask.v6); hdr = snl_finalize_msg(&nw); if (hdr == NULL) return (ENOMEM); uint32_t seq_id = hdr->nlmsg_seq; snl_send_message(ss, hdr); struct snl_errmsg_data e = {}; while ((hdr = snl_read_reply_multi(ss, seq_id, &e)) != NULL) { struct pfctl_state s; bzero(&s, sizeof(s)); if (!snl_parse_nlmsg(ss, hdr, &state_parser, &s)) continue; s.key[1].af = s.key[0].af; s.key[1].proto = s.key[0].proto; ret = f(&s, arg); if (ret != 0) return (ret); } return (0); } int pfctl_get_states_iter(pfctl_get_state_fn f, void *arg) { struct pfctl_state_filter filter = {}; return (pfctl_get_filtered_states_iter(&filter, f, arg)); } int pfctl_get_filtered_states_iter(struct pfctl_state_filter *filter, pfctl_get_state_fn f, void *arg) { struct snl_state ss = {}; int error; snl_init(&ss, NETLINK_GENERIC); error = pfctl_get_states_nl(filter, &ss, f, arg); snl_free(&ss); return (error); } static int pfctl_append_states(struct pfctl_state *s, void *arg) { struct pfctl_state *new; struct pfctl_states *states = (struct pfctl_states *)arg; new = malloc(sizeof(*s)); if (new == NULL) return (ENOMEM); memcpy(new, s, sizeof(*s)); TAILQ_INSERT_TAIL(&states->states, new, entry); return (0); } int pfctl_get_states(int dev __unused, struct pfctl_states *states) { int ret; bzero(states, sizeof(*states)); TAILQ_INIT(&states->states); ret = pfctl_get_states_iter(pfctl_append_states, states); if (ret != 0) { pfctl_free_states(states); return (ret); } return (0); } void pfctl_free_states(struct pfctl_states *states) { struct pfctl_state *s, *tmp; TAILQ_FOREACH_SAFE(s, &states->states, entry, tmp) { free(s); } bzero(states, sizeof(*states)); } struct pfctl_nl_clear_states { uint32_t killed; }; #define _OUT(_field) offsetof(struct pfctl_nl_clear_states, _field) static struct snl_attr_parser ap_clear_states[] = { { .type = PF_CS_KILLED, .off = _OUT(killed), .cb = snl_attr_get_uint32 }, }; static struct snl_field_parser fp_clear_states[] = {}; #undef _OUT SNL_DECLARE_PARSER(clear_states_parser, struct genlmsghdr, fp_clear_states, ap_clear_states); static int _pfctl_clear_states_h(struct pfctl_handle *h, const struct pfctl_kill *kill, unsigned int *killed, int cmd) { struct snl_writer nw; struct snl_errmsg_data e = {}; struct pfctl_nl_clear_states attrs = {}; struct nlmsghdr *hdr; uint32_t seq_id; int family_id; family_id = snl_get_genl_family(&h->ss, PFNL_FAMILY_NAME); if (family_id == 0) return (ENOTSUP); snl_init_writer(&h->ss, &nw); hdr = snl_create_genl_msg_request(&nw, family_id, cmd); hdr->nlmsg_flags |= NLM_F_DUMP; snl_add_msg_attr_u64(&nw, PF_CS_CMP_ID, kill->cmp.id); snl_add_msg_attr_u32(&nw, PF_CS_CMP_CREATORID, htonl(kill->cmp.creatorid)); snl_add_msg_attr_u8(&nw, PF_CS_CMP_DIR, kill->cmp.direction); snl_add_msg_attr_u8(&nw, PF_CS_AF, kill->af); snl_add_msg_attr_u8(&nw, PF_CS_PROTO, kill->proto); snl_add_msg_attr_rule_addr(&nw, PF_CS_SRC, &kill->src); snl_add_msg_attr_rule_addr(&nw, PF_CS_DST, &kill->dst); snl_add_msg_attr_rule_addr(&nw, PF_CS_RT_ADDR, &kill->rt_addr); snl_add_msg_attr_string(&nw, PF_CS_IFNAME, kill->ifname); snl_add_msg_attr_string(&nw, PF_CS_LABEL, kill->label); snl_add_msg_attr_bool(&nw, PF_CS_KILL_MATCH, kill->kill_match); snl_add_msg_attr_bool(&nw, PF_CS_NAT, kill->nat); if ((hdr = snl_finalize_msg(&nw)) == NULL) return (ENXIO); seq_id = hdr->nlmsg_seq; if (! snl_send_message(&h->ss, hdr)) return (ENXIO); while ((hdr = snl_read_reply_multi(&h->ss, seq_id, &e)) != NULL) { if (! snl_parse_nlmsg(&h->ss, hdr, &clear_states_parser, &attrs)) continue; } if (killed) *killed = attrs.killed; return (e.error); } int pfctl_clear_states_h(struct pfctl_handle *h, const struct pfctl_kill *kill, unsigned int *killed) { return(_pfctl_clear_states_h(h, kill, killed, PFNL_CMD_CLRSTATES)); } int pfctl_kill_states_h(struct pfctl_handle *h, const struct pfctl_kill *kill, unsigned int *killed) { return(_pfctl_clear_states_h(h, kill, killed, PFNL_CMD_KILLSTATES)); } static int _pfctl_clear_states(int dev __unused, const struct pfctl_kill *kill, unsigned int *killed, uint64_t cmd) { struct pfctl_handle *h; int ret; h = pfctl_open(PF_DEVICE); if (h == NULL) return (ENODEV); ret = _pfctl_clear_states_h(h, kill, killed, cmd); pfctl_close(h); return (ret); } int pfctl_clear_states(int dev __unused, const struct pfctl_kill *kill, unsigned int *killed) { return (_pfctl_clear_states(dev, kill, killed, PFNL_CMD_CLRSTATES)); } int pfctl_kill_states(int dev __unused, const struct pfctl_kill *kill, unsigned int *killed) { return (_pfctl_clear_states(dev, kill, killed, PFNL_CMD_KILLSTATES)); } int pfctl_clear_rules(int dev, const char *anchorname) { struct pfioc_trans trans; struct pfioc_trans_e transe[2]; int ret; bzero(&trans, sizeof(trans)); bzero(&transe, sizeof(transe)); transe[0].rs_num = PF_RULESET_SCRUB; if (strlcpy(transe[0].anchor, anchorname, sizeof(transe[0].anchor)) >= sizeof(transe[0].anchor)) return (E2BIG); transe[1].rs_num = PF_RULESET_FILTER; if (strlcpy(transe[1].anchor, anchorname, sizeof(transe[1].anchor)) >= sizeof(transe[1].anchor)) return (E2BIG); trans.size = 2; trans.esize = sizeof(transe[0]); trans.array = transe; ret = ioctl(dev, DIOCXBEGIN, &trans); if (ret != 0) return (ret); return ioctl(dev, DIOCXCOMMIT, &trans); } int pfctl_clear_nat(int dev, const char *anchorname) { struct pfioc_trans trans; struct pfioc_trans_e transe[3]; int ret; bzero(&trans, sizeof(trans)); bzero(&transe, sizeof(transe)); transe[0].rs_num = PF_RULESET_NAT; if (strlcpy(transe[0].anchor, anchorname, sizeof(transe[0].anchor)) >= sizeof(transe[0].anchor)) return (E2BIG); transe[1].rs_num = PF_RULESET_BINAT; if (strlcpy(transe[1].anchor, anchorname, sizeof(transe[1].anchor)) >= sizeof(transe[0].anchor)) return (E2BIG); transe[2].rs_num = PF_RULESET_RDR; if (strlcpy(transe[2].anchor, anchorname, sizeof(transe[2].anchor)) >= sizeof(transe[2].anchor)) return (E2BIG); trans.size = 3; trans.esize = sizeof(transe[0]); trans.array = transe; ret = ioctl(dev, DIOCXBEGIN, &trans); if (ret != 0) return (ret); return ioctl(dev, DIOCXCOMMIT, &trans); } int pfctl_clear_eth_rules(int dev, const char *anchorname) { struct pfioc_trans trans; struct pfioc_trans_e transe; int ret; bzero(&trans, sizeof(trans)); bzero(&transe, sizeof(transe)); transe.rs_num = PF_RULESET_ETH; if (strlcpy(transe.anchor, anchorname, sizeof(transe.anchor)) >= sizeof(transe.anchor)) return (E2BIG); trans.size = 1; trans.esize = sizeof(transe); trans.array = &transe; ret = ioctl(dev, DIOCXBEGIN, &trans); if (ret != 0) return (ret); return ioctl(dev, DIOCXCOMMIT, &trans); } static int _pfctl_get_limit(int dev, const int index, uint *limit) { struct pfioc_limit pl; bzero(&pl, sizeof(pl)); pl.index = index; if (ioctl(dev, DIOCGETLIMIT, &pl) == -1) return (errno); *limit = pl.limit; return (0); } int pfctl_set_syncookies(int dev, const struct pfctl_syncookies *s) { struct pfioc_nv nv; nvlist_t *nvl; int ret; uint state_limit; uint64_t lim, hi, lo; ret = _pfctl_get_limit(dev, PF_LIMIT_STATES, &state_limit); if (ret != 0) return (ret); lim = state_limit; hi = lim * s->highwater / 100; lo = lim * s->lowwater / 100; if (lo == hi) hi++; nvl = nvlist_create(0); nvlist_add_bool(nvl, "enabled", s->mode != PFCTL_SYNCOOKIES_NEVER); nvlist_add_bool(nvl, "adaptive", s->mode == PFCTL_SYNCOOKIES_ADAPTIVE); nvlist_add_number(nvl, "highwater", hi); nvlist_add_number(nvl, "lowwater", lo); nv.data = nvlist_pack(nvl, &nv.len); nv.size = nv.len; nvlist_destroy(nvl); nvl = NULL; ret = ioctl(dev, DIOCSETSYNCOOKIES, &nv); free(nv.data); return (ret); } int pfctl_get_syncookies(int dev, struct pfctl_syncookies *s) { nvlist_t *nvl; int ret; uint state_limit; bool enabled, adaptive; ret = _pfctl_get_limit(dev, PF_LIMIT_STATES, &state_limit); if (ret != 0) return (ret); bzero(s, sizeof(*s)); nvl = nvlist_create(0); if ((ret = pfctl_do_ioctl(dev, DIOCGETSYNCOOKIES, 256, &nvl)) != 0) { ret = errno; goto out; } enabled = nvlist_get_bool(nvl, "enabled"); adaptive = nvlist_get_bool(nvl, "adaptive"); if (enabled) { if (adaptive) s->mode = PFCTL_SYNCOOKIES_ADAPTIVE; else s->mode = PFCTL_SYNCOOKIES_ALWAYS; } else { s->mode = PFCTL_SYNCOOKIES_NEVER; } s->highwater = nvlist_get_number(nvl, "highwater") * 100 / state_limit; s->lowwater = nvlist_get_number(nvl, "lowwater") * 100 / state_limit; s->halfopen_states = nvlist_get_number(nvl, "halfopen_states"); out: nvlist_destroy(nvl); return (ret); } int pfctl_table_add_addrs(int dev, struct pfr_table *tbl, struct pfr_addr *addr, int size, int *nadd, int flags) { struct pfioc_table io; if (tbl == NULL || size < 0 || (size && addr == NULL)) { return (EINVAL); } bzero(&io, sizeof io); io.pfrio_flags = flags; io.pfrio_table = *tbl; io.pfrio_buffer = addr; io.pfrio_esize = sizeof(*addr); io.pfrio_size = size; if (ioctl(dev, DIOCRADDADDRS, &io)) return (errno); if (nadd != NULL) *nadd = io.pfrio_nadd; return (0); } int pfctl_table_del_addrs(int dev, struct pfr_table *tbl, struct pfr_addr *addr, int size, int *ndel, int flags) { struct pfioc_table io; if (tbl == NULL || size < 0 || (size && addr == NULL)) { return (EINVAL); } bzero(&io, sizeof io); io.pfrio_flags = flags; io.pfrio_table = *tbl; io.pfrio_buffer = addr; io.pfrio_esize = sizeof(*addr); io.pfrio_size = size; if (ioctl(dev, DIOCRDELADDRS, &io)) return (errno); if (ndel != NULL) *ndel = io.pfrio_ndel; return (0); } int pfctl_table_set_addrs(int dev, struct pfr_table *tbl, struct pfr_addr *addr, int size, int *size2, int *nadd, int *ndel, int *nchange, int flags) { struct pfioc_table io; if (tbl == NULL || size < 0 || (size && addr == NULL)) { return (EINVAL); } bzero(&io, sizeof io); io.pfrio_flags = flags; io.pfrio_table = *tbl; io.pfrio_buffer = addr; io.pfrio_esize = sizeof(*addr); io.pfrio_size = size; io.pfrio_size2 = (size2 != NULL) ? *size2 : 0; if (ioctl(dev, DIOCRSETADDRS, &io)) return (-1); if (nadd != NULL) *nadd = io.pfrio_nadd; if (ndel != NULL) *ndel = io.pfrio_ndel; if (nchange != NULL) *nchange = io.pfrio_nchange; if (size2 != NULL) *size2 = io.pfrio_size2; return (0); } int pfctl_table_get_addrs(int dev, struct pfr_table *tbl, struct pfr_addr *addr, int *size, int flags) { struct pfioc_table io; if (tbl == NULL || size == NULL || *size < 0 || (*size && addr == NULL)) { return (EINVAL); } bzero(&io, sizeof io); io.pfrio_flags = flags; io.pfrio_table = *tbl; io.pfrio_buffer = addr; io.pfrio_esize = sizeof(*addr); io.pfrio_size = *size; if (ioctl(dev, DIOCRGETADDRS, &io)) return (-1); *size = io.pfrio_size; return (0); } int pfctl_set_statusif(struct pfctl_handle *h, const char *ifname) { struct snl_writer nw; struct snl_errmsg_data e = {}; struct nlmsghdr *hdr; uint32_t seq_id; int family_id; family_id = snl_get_genl_family(&h->ss, PFNL_FAMILY_NAME); if (family_id == 0) return (ENOTSUP); snl_init_writer(&h->ss, &nw); hdr = snl_create_genl_msg_request(&nw, family_id, PFNL_CMD_SET_STATUSIF); snl_add_msg_attr_string(&nw, PF_SS_IFNAME, ifname); if ((hdr = snl_finalize_msg(&nw)) == NULL) return (ENXIO); seq_id = hdr->nlmsg_seq; if (! snl_send_message(&h->ss, hdr)) return (ENXIO); while ((hdr = snl_read_reply_multi(&h->ss, seq_id, &e)) != NULL) { } return (e.error); } #define _IN(_field) offsetof(struct genlmsghdr, _field) #define _OUT(_field) offsetof(struct pfctl_natlook, _field) static struct snl_attr_parser ap_natlook[] = { { .type = PF_NL_SRC_ADDR, .off = _OUT(saddr), .cb = snl_attr_get_in6_addr }, { .type = PF_NL_DST_ADDR, .off = _OUT(daddr), .cb = snl_attr_get_in6_addr }, { .type = PF_NL_SRC_PORT, .off = _OUT(sport), .cb = snl_attr_get_uint16 }, { .type = PF_NL_DST_PORT, .off = _OUT(dport), .cb = snl_attr_get_uint16 }, }; static struct snl_field_parser fp_natlook[] = {}; #undef _IN #undef _OUT SNL_DECLARE_PARSER(natlook_parser, struct genlmsghdr, fp_natlook, ap_natlook); int pfctl_natlook(struct pfctl_handle *h, const struct pfctl_natlook_key *k, struct pfctl_natlook *r) { struct snl_writer nw; struct snl_errmsg_data e = {}; struct nlmsghdr *hdr; uint32_t seq_id; int family_id; family_id = snl_get_genl_family(&h->ss, PFNL_FAMILY_NAME); if (family_id == 0) return (ENOTSUP); snl_init_writer(&h->ss, &nw); hdr = snl_create_genl_msg_request(&nw, family_id, PFNL_CMD_NATLOOK); hdr->nlmsg_flags |= NLM_F_DUMP; snl_add_msg_attr_u8(&nw, PF_NL_AF, k->af); snl_add_msg_attr_u8(&nw, PF_NL_DIRECTION, k->direction); snl_add_msg_attr_u8(&nw, PF_NL_PROTO, k->proto); snl_add_msg_attr_ip6(&nw, PF_NL_SRC_ADDR, &k->saddr.v6); snl_add_msg_attr_ip6(&nw, PF_NL_DST_ADDR, &k->daddr.v6); snl_add_msg_attr_u16(&nw, PF_NL_SRC_PORT, k->sport); snl_add_msg_attr_u16(&nw, PF_NL_DST_PORT, k->dport); if ((hdr = snl_finalize_msg(&nw)) == NULL) return (ENXIO); seq_id = hdr->nlmsg_seq; if (! snl_send_message(&h->ss, hdr)) return (ENXIO); while ((hdr = snl_read_reply_multi(&h->ss, seq_id, &e)) != NULL) { if (! snl_parse_nlmsg(&h->ss, hdr, &natlook_parser, r)) continue; } return (e.error); } int pfctl_set_debug(struct pfctl_handle *h, uint32_t level) { struct snl_writer nw; struct snl_errmsg_data e = {}; struct nlmsghdr *hdr; uint32_t seq_id; int family_id; family_id = snl_get_genl_family(&h->ss, PFNL_FAMILY_NAME); if (family_id == 0) return (ENOTSUP); snl_init_writer(&h->ss, &nw); hdr = snl_create_genl_msg_request(&nw, family_id, PFNL_CMD_SET_DEBUG); snl_add_msg_attr_u32(&nw, PF_SD_LEVEL, level); if ((hdr = snl_finalize_msg(&nw)) == NULL) return (ENXIO); seq_id = hdr->nlmsg_seq; if (! snl_send_message(&h->ss, hdr)) return (ENXIO); while ((hdr = snl_read_reply_multi(&h->ss, seq_id, &e)) != NULL) { } return (e.error); } int pfctl_set_timeout(struct pfctl_handle *h, uint32_t timeout, uint32_t seconds) { struct snl_writer nw; struct snl_errmsg_data e = {}; struct nlmsghdr *hdr; uint32_t seq_id; int family_id; family_id = snl_get_genl_family(&h->ss, PFNL_FAMILY_NAME); if (family_id == 0) return (ENOTSUP); snl_init_writer(&h->ss, &nw); hdr = snl_create_genl_msg_request(&nw, family_id, PFNL_CMD_SET_TIMEOUT); snl_add_msg_attr_u32(&nw, PF_TO_TIMEOUT, timeout); snl_add_msg_attr_u32(&nw, PF_TO_SECONDS, seconds); if ((hdr = snl_finalize_msg(&nw)) == NULL) return (ENXIO); seq_id = hdr->nlmsg_seq; if (! snl_send_message(&h->ss, hdr)) return (ENXIO); while ((hdr = snl_read_reply_multi(&h->ss, seq_id, &e)) != NULL) { } return (e.error); } struct pfctl_nl_timeout { uint32_t seconds; }; #define _OUT(_field) offsetof(struct pfctl_nl_timeout, _field) static struct snl_attr_parser ap_get_timeout[] = { { .type = PF_TO_SECONDS, .off = _OUT(seconds), .cb = snl_attr_get_uint32 }, }; static struct snl_field_parser fp_get_timeout[] = {}; #undef _OUT SNL_DECLARE_PARSER(get_timeout_parser, struct genlmsghdr, fp_get_timeout, ap_get_timeout); int pfctl_get_timeout(struct pfctl_handle *h, uint32_t timeout, uint32_t *seconds) { struct snl_writer nw; struct pfctl_nl_timeout to = {}; struct snl_errmsg_data e = {}; struct nlmsghdr *hdr; uint32_t seq_id; int family_id; family_id = snl_get_genl_family(&h->ss, PFNL_FAMILY_NAME); if (family_id == 0) return (ENOTSUP); snl_init_writer(&h->ss, &nw); hdr = snl_create_genl_msg_request(&nw, family_id, PFNL_CMD_GET_TIMEOUT); hdr->nlmsg_flags |= NLM_F_DUMP; snl_add_msg_attr_u32(&nw, PF_TO_TIMEOUT, timeout); if ((hdr = snl_finalize_msg(&nw)) == NULL) return (ENXIO); seq_id = hdr->nlmsg_seq; if (! snl_send_message(&h->ss, hdr)) return (ENXIO); while ((hdr = snl_read_reply_multi(&h->ss, seq_id, &e)) != NULL) { if (! snl_parse_nlmsg(&h->ss, hdr, &get_timeout_parser, &to)) continue; } if (seconds != NULL) *seconds = to.seconds; return (e.error); } int pfctl_set_limit(struct pfctl_handle *h, const int index, const uint limit) { struct snl_writer nw; struct snl_errmsg_data e = {}; struct nlmsghdr *hdr; uint32_t seq_id; int family_id; family_id = snl_get_genl_family(&h->ss, PFNL_FAMILY_NAME); if (family_id == 0) return (ENOTSUP); snl_init_writer(&h->ss, &nw); hdr = snl_create_genl_msg_request(&nw, family_id, PFNL_CMD_SET_LIMIT); snl_add_msg_attr_u32(&nw, PF_LI_INDEX, index); snl_add_msg_attr_u32(&nw, PF_LI_LIMIT, limit); if ((hdr = snl_finalize_msg(&nw)) == NULL) return (ENXIO); seq_id = hdr->nlmsg_seq; if (! snl_send_message(&h->ss, hdr)) return (ENXIO); while ((hdr = snl_read_reply_multi(&h->ss, seq_id, &e)) != NULL) { } return (e.error); } struct pfctl_nl_limit { unsigned int limit; }; #define _OUT(_field) offsetof(struct pfctl_nl_limit, _field) static struct snl_attr_parser ap_get_limit[] = { { .type = PF_LI_LIMIT, .off = _OUT(limit), .cb = snl_attr_get_uint32 }, }; static struct snl_field_parser fp_get_limit[] = {}; #undef _OUT SNL_DECLARE_PARSER(get_limit_parser, struct genlmsghdr, fp_get_limit, ap_get_limit); int pfctl_get_limit(struct pfctl_handle *h, const int index, uint *limit) { struct snl_writer nw; struct pfctl_nl_limit li = {}; struct snl_errmsg_data e = {}; struct nlmsghdr *hdr; uint32_t seq_id; int family_id; family_id = snl_get_genl_family(&h->ss, PFNL_FAMILY_NAME); if (family_id == 0) return (ENOTSUP); snl_init_writer(&h->ss, &nw); hdr = snl_create_genl_msg_request(&nw, family_id, PFNL_CMD_GET_LIMIT); hdr->nlmsg_flags |= NLM_F_DUMP; snl_add_msg_attr_u32(&nw, PF_LI_INDEX, index); if ((hdr = snl_finalize_msg(&nw)) == NULL) return (ENXIO); seq_id = hdr->nlmsg_seq; if (! snl_send_message(&h->ss, hdr)) return (ENXIO); while ((hdr = snl_read_reply_multi(&h->ss, seq_id, &e)) != NULL) { if (! snl_parse_nlmsg(&h->ss, hdr, &get_limit_parser, &li)) continue; } if (limit != NULL) *limit = li.limit; return (e.error); } struct pfctl_nl_begin_addrs { uint32_t ticket; }; #define _OUT(_field) offsetof(struct pfctl_nl_begin_addrs, _field) static struct snl_attr_parser ap_begin_addrs[] = { { .type = PF_BA_TICKET, .off = _OUT(ticket), .cb = snl_attr_get_uint32 }, }; static struct snl_field_parser fp_begin_addrs[] = {}; #undef _OUT SNL_DECLARE_PARSER(begin_addrs_parser, struct genlmsghdr, fp_begin_addrs, ap_begin_addrs); int pfctl_begin_addrs(struct pfctl_handle *h, uint32_t *ticket) { struct snl_writer nw; struct pfctl_nl_begin_addrs attrs = {}; struct snl_errmsg_data e = {}; struct nlmsghdr *hdr; uint32_t seq_id; int family_id; family_id = snl_get_genl_family(&h->ss, PFNL_FAMILY_NAME); if (family_id == 0) return (ENOTSUP); snl_init_writer(&h->ss, &nw); hdr = snl_create_genl_msg_request(&nw, family_id, PFNL_CMD_BEGIN_ADDRS); hdr->nlmsg_flags |= NLM_F_DUMP; if ((hdr = snl_finalize_msg(&nw)) == NULL) return (ENXIO); seq_id = hdr->nlmsg_seq; if (! snl_send_message(&h->ss, hdr)) return (ENXIO); while ((hdr = snl_read_reply_multi(&h->ss, seq_id, &e)) != NULL) { if (! snl_parse_nlmsg(&h->ss, hdr, &begin_addrs_parser, &attrs)) continue; } if (ticket != NULL) *ticket = attrs.ticket; return (e.error); }