/* $NetBSD: npf_ctl.c,v 1.48.2.1 2017/11/17 20:43:11 snj Exp $ */ /*- * Copyright (c) 2009-2014 The NetBSD Foundation, Inc. * All rights reserved. * * This material is based upon work partially supported by The * NetBSD Foundation under a contract with Mindaugas Rasiukevicius. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. 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 NETBSD FOUNDATION, INC. 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 FOUNDATION 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. */ /* * NPF device control. * * Implementation of (re)loading, construction of tables and rules. * NPF proplib(9) dictionary consumer. */ #ifdef _KERNEL #include __KERNEL_RCSID(0, "$NetBSD: npf_ctl.c,v 1.48.2.1 2017/11/17 20:43:11 snj Exp $"); #include #include #include #include #include #endif #include "npf_impl.h" #include "npf_conn.h" #define NPF_ERR_DEBUG(e) \ prop_dictionary_set_cstring_nocopy((e), "source-file", __FILE__); \ prop_dictionary_set_uint32((e), "source-line", __LINE__); #ifdef _KERNEL /* * npfctl_switch: enable or disable packet inspection. */ int npfctl_switch(void *data) { const bool onoff = *(int *)data ? true : false; int error; if (onoff) { /* Enable: add pfil hooks. */ error = npf_pfil_register(false); } else { /* Disable: remove pfil hooks. */ npf_pfil_unregister(false); error = 0; } return error; } #endif static int __noinline npf_mk_table_entries(npf_table_t *t, prop_array_t entries) { prop_object_iterator_t eit; prop_dictionary_t ent; int error = 0; if (prop_object_type(entries) != PROP_TYPE_ARRAY) { return EINVAL; } eit = prop_array_iterator(entries); while ((ent = prop_object_iterator_next(eit)) != NULL) { const npf_addr_t *addr; npf_netmask_t mask; int alen; /* Get address and mask. Add a table entry. */ prop_object_t obj = prop_dictionary_get(ent, "addr"); addr = (const npf_addr_t *)prop_data_data_nocopy(obj); prop_dictionary_get_uint8(ent, "mask", &mask); alen = prop_data_size(obj); error = npf_table_insert(t, alen, addr, mask); if (error) break; } prop_object_iterator_release(eit); return error; } static int __noinline npf_mk_tables(npf_t *npf, npf_tableset_t *tblset, prop_array_t tables, prop_dictionary_t errdict) { prop_object_iterator_t it; prop_dictionary_t tbldict; int error = 0; /* Tables - array. */ if (prop_object_type(tables) != PROP_TYPE_ARRAY) { NPF_ERR_DEBUG(errdict); return EINVAL; } it = prop_array_iterator(tables); while ((tbldict = prop_object_iterator_next(it)) != NULL) { const char *name; npf_table_t *t; uint64_t tid; int type; /* Table - dictionary. */ if (prop_object_type(tbldict) != PROP_TYPE_DICTIONARY) { NPF_ERR_DEBUG(errdict); error = EINVAL; break; } /* Table name, ID and type. Validate them. */ if (!prop_dictionary_get_cstring_nocopy(tbldict, "name", &name)) { NPF_ERR_DEBUG(errdict); error = EINVAL; break; } prop_dictionary_get_uint64(tbldict, "id", &tid); prop_dictionary_get_int32(tbldict, "type", &type); error = npf_table_check(tblset, name, (u_int)tid, type); if (error) { NPF_ERR_DEBUG(errdict); break; } /* Get the entries or binary data. */ prop_array_t ents = prop_dictionary_get(tbldict, "entries"); prop_object_t obj = prop_dictionary_get(tbldict, "data"); void *blob = prop_data_data(obj); size_t size = prop_data_size(obj); if (type == NPF_TABLE_CDB && (blob == NULL || size == 0)) { NPF_ERR_DEBUG(errdict); error = EINVAL; break; } /* Create and insert the table. */ t = npf_table_create(name, (u_int)tid, type, blob, size); if (t == NULL) { NPF_ERR_DEBUG(errdict); error = ENOMEM; break; } error = npf_tableset_insert(tblset, t); KASSERT(error == 0); if (ents && (error = npf_mk_table_entries(t, ents)) != 0) { NPF_ERR_DEBUG(errdict); break; } } prop_object_iterator_release(it); /* * Note: in a case of error, caller will free the tableset. */ return error; } static npf_rproc_t * npf_mk_singlerproc(npf_t *npf, prop_dictionary_t rpdict) { prop_object_iterator_t it; prop_dictionary_t extdict; prop_array_t extlist; npf_rproc_t *rp; extlist = prop_dictionary_get(rpdict, "extcalls"); if (prop_object_type(extlist) != PROP_TYPE_ARRAY) { return NULL; } rp = npf_rproc_create(rpdict); if (rp == NULL) { return NULL; } it = prop_array_iterator(extlist); while ((extdict = prop_object_iterator_next(it)) != NULL) { const char *name; if (!prop_dictionary_get_cstring_nocopy(extdict, "name", &name) || npf_ext_construct(npf, name, rp, extdict)) { npf_rproc_release(rp); rp = NULL; break; } } prop_object_iterator_release(it); return rp; } static int __noinline npf_mk_rprocs(npf_t *npf, npf_rprocset_t *rpset, prop_array_t rprocs, prop_dictionary_t errdict) { prop_object_iterator_t it; prop_dictionary_t rpdict; int error = 0; it = prop_array_iterator(rprocs); while ((rpdict = prop_object_iterator_next(it)) != NULL) { npf_rproc_t *rp; if ((rp = npf_mk_singlerproc(npf, rpdict)) == NULL) { NPF_ERR_DEBUG(errdict); error = EINVAL; break; } npf_rprocset_insert(rpset, rp); } prop_object_iterator_release(it); return error; } static npf_alg_t * npf_mk_singlealg(npf_t *npf, prop_dictionary_t aldict) { const char *name; if (!prop_dictionary_get_cstring_nocopy(aldict, "name", &name)) return NULL; return npf_alg_construct(npf, name); } static int __noinline npf_mk_algs(npf_t *npf, prop_array_t alglist, prop_dictionary_t errdict) { prop_object_iterator_t it; prop_dictionary_t nadict; int error = 0; it = prop_array_iterator(alglist); while ((nadict = prop_object_iterator_next(it)) != NULL) { if (npf_mk_singlealg(npf, nadict) == NULL) { NPF_ERR_DEBUG(errdict); error = EINVAL; break; } } prop_object_iterator_release(it); return error; } static int __noinline npf_mk_code(prop_object_t obj, int type, void **code, size_t *csize, prop_dictionary_t errdict) { const void *cptr; size_t clen; void *bc; if (type != NPF_CODE_BPF) { return ENOTSUP; } cptr = prop_data_data_nocopy(obj); if (cptr == NULL || (clen = prop_data_size(obj)) == 0) { NPF_ERR_DEBUG(errdict); return EINVAL; } if (!npf_bpf_validate(cptr, clen)) { NPF_ERR_DEBUG(errdict); return EINVAL; } bc = kmem_alloc(clen, KM_SLEEP); memcpy(bc, cptr, clen); *code = bc; *csize = clen; return 0; } static int __noinline npf_mk_singlerule(npf_t *npf, prop_dictionary_t rldict, npf_rprocset_t *rpset, npf_rule_t **rlret, prop_dictionary_t errdict) { npf_rule_t *rl; const char *rname; prop_object_t obj; int p, error = 0; /* Rule - dictionary. */ if (prop_object_type(rldict) != PROP_TYPE_DICTIONARY) { NPF_ERR_DEBUG(errdict); return EINVAL; } if ((rl = npf_rule_alloc(npf, rldict)) == NULL) { NPF_ERR_DEBUG(errdict); return EINVAL; } /* Assign rule procedure, if any. */ if (prop_dictionary_get_cstring_nocopy(rldict, "rproc", &rname)) { npf_rproc_t *rp; if (rpset == NULL) { error = EINVAL; goto err; } if ((rp = npf_rprocset_lookup(rpset, rname)) == NULL) { NPF_ERR_DEBUG(errdict); error = EINVAL; goto err; } npf_rule_setrproc(rl, rp); } /* Filter code (binary data). */ if ((obj = prop_dictionary_get(rldict, "code")) != NULL) { int type; size_t len; void *code; prop_dictionary_get_int32(rldict, "code-type", &type); error = npf_mk_code(obj, type, &code, &len, errdict); if (error) { goto err; } npf_rule_setcode(rl, type, code, len); } *rlret = rl; return 0; err: npf_rule_free(rl); prop_dictionary_get_int32(rldict, "prio", &p); /* XXX */ prop_dictionary_set_int64(errdict, "id", p); return error; } static int __noinline npf_mk_rules(npf_t *npf, npf_ruleset_t *rlset, prop_array_t rules, npf_rprocset_t *rpset, prop_dictionary_t errdict) { prop_object_iterator_t it; prop_dictionary_t rldict; int error; if (prop_object_type(rules) != PROP_TYPE_ARRAY) { NPF_ERR_DEBUG(errdict); return EINVAL; } error = 0; it = prop_array_iterator(rules); while ((rldict = prop_object_iterator_next(it)) != NULL) { npf_rule_t *rl = NULL; /* Generate a single rule. */ error = npf_mk_singlerule(npf, rldict, rpset, &rl, errdict); if (error) { break; } npf_ruleset_insert(rlset, rl); } prop_object_iterator_release(it); /* * Note: in a case of error, caller will free the ruleset. */ return error; } static int __noinline npf_mk_natlist(npf_t *npf, npf_ruleset_t *nset, prop_array_t natlist, prop_dictionary_t errdict) { prop_object_iterator_t it; prop_dictionary_t natdict; int error; /* NAT policies - array. */ if (prop_object_type(natlist) != PROP_TYPE_ARRAY) { NPF_ERR_DEBUG(errdict); return EINVAL; } error = 0; it = prop_array_iterator(natlist); while ((natdict = prop_object_iterator_next(it)) != NULL) { npf_rule_t *rl = NULL; npf_natpolicy_t *np; /* NAT policy - dictionary. */ if (prop_object_type(natdict) != PROP_TYPE_DICTIONARY) { NPF_ERR_DEBUG(errdict); error = EINVAL; break; } /* * NAT policies are standard rules, plus additional * information for translation. Make a rule. */ error = npf_mk_singlerule(npf, natdict, NULL, &rl, errdict); if (error) { break; } npf_ruleset_insert(nset, rl); /* If rule is named, it is a group with NAT policies. */ if (prop_dictionary_get(natdict, "name") && prop_dictionary_get(natdict, "subrules")) { continue; } /* Allocate a new NAT policy and assign to the rule. */ np = npf_nat_newpolicy(npf, natdict, nset); if (np == NULL) { NPF_ERR_DEBUG(errdict); error = ENOMEM; break; } npf_rule_setnat(rl, np); } prop_object_iterator_release(it); /* * Note: in a case of error, caller will free entire NAT ruleset * with assigned NAT policies. */ return error; } /* * npf_mk_connlist: import a list of connections and load them. */ static int __noinline npf_mk_connlist(npf_t *npf, prop_array_t conlist, npf_ruleset_t *natlist, npf_conndb_t **conndb, prop_dictionary_t errdict) { prop_dictionary_t condict; prop_object_iterator_t it; npf_conndb_t *cd; int error = 0; /* Connection list - array */ if (prop_object_type(conlist) != PROP_TYPE_ARRAY) { NPF_ERR_DEBUG(errdict); return EINVAL; } /* Create a connection database. */ cd = npf_conndb_create(); it = prop_array_iterator(conlist); while ((condict = prop_object_iterator_next(it)) != NULL) { /* Connection - dictionary. */ if (prop_object_type(condict) != PROP_TYPE_DICTIONARY) { NPF_ERR_DEBUG(errdict); error = EINVAL; break; } /* Construct and insert the connection. */ error = npf_conn_import(npf, cd, condict, natlist); if (error) { NPF_ERR_DEBUG(errdict); break; } } prop_object_iterator_release(it); if (error) { npf_conn_gc(npf, cd, true, false); npf_conndb_destroy(cd); } else { *conndb = cd; } return error; } #if defined(_NPF_TESTING) || defined(_NPF_STANDALONE) int npfctl_testing; #endif /* * npfctl_load: store passed data i.e. update settings, create passed * tables, rules and atomically activate all them. */ int npfctl_load(npf_t *npf, u_long cmd, void *data) { struct plistref *pref = data; prop_dictionary_t npf_dict, errdict; prop_array_t alglist, natlist, tables, rprocs, rules, conlist; npf_tableset_t *tblset = NULL; npf_rprocset_t *rpset = NULL; npf_ruleset_t *rlset = NULL; npf_ruleset_t *nset = NULL; npf_conndb_t *conndb = NULL; uint32_t ver = 0; size_t nitems; bool flush; int error; /* Retrieve the dictionary. */ #if defined(_NPF_TESTING) || defined(_NPF_STANDALONE) if (npfctl_testing) npf_dict = (prop_dictionary_t)pref; else #endif { error = prop_dictionary_copyin_ioctl_size(pref, cmd, &npf_dict, 4 * 1024 * 1024); if (error) return error; } /* Dictionary for error reporting and version check. */ errdict = prop_dictionary_create(); prop_dictionary_get_uint32(npf_dict, "version", &ver); if (ver != NPF_VERSION) { error = EPROGMISMATCH; goto fail; } /* ALGs. */ alglist = prop_dictionary_get(npf_dict, "algs"); error = npf_mk_algs(npf, alglist, errdict); if (error) { goto fail; } /* NAT policies. */ natlist = prop_dictionary_get(npf_dict, "nat"); if ((nitems = prop_array_count(natlist)) > NPF_MAX_RULES) { error = E2BIG; goto fail; } nset = npf_ruleset_create(nitems); error = npf_mk_natlist(npf, nset, natlist, errdict); if (error) { goto fail; } /* Tables. */ tables = prop_dictionary_get(npf_dict, "tables"); if ((nitems = prop_array_count(tables)) > NPF_MAX_TABLES) { error = E2BIG; goto fail; } tblset = npf_tableset_create(nitems); error = npf_mk_tables(npf, tblset, tables, errdict); if (error) { goto fail; } /* Rule procedures. */ rprocs = prop_dictionary_get(npf_dict, "rprocs"); if ((nitems = prop_array_count(rprocs)) > NPF_MAX_RPROCS) { error = E2BIG; goto fail; } rpset = npf_rprocset_create(); error = npf_mk_rprocs(npf, rpset, rprocs, errdict); if (error) { goto fail; } /* Rules. */ rules = prop_dictionary_get(npf_dict, "rules"); if ((nitems = prop_array_count(rules)) > NPF_MAX_RULES) { error = E2BIG; goto fail; } rlset = npf_ruleset_create(nitems); error = npf_mk_rules(npf, rlset, rules, rpset, errdict); if (error) { goto fail; } /* Connections (if loading any). */ if ((conlist = prop_dictionary_get(npf_dict, "conn-list")) != NULL) { error = npf_mk_connlist(npf, conlist, nset, &conndb, errdict); if (error) { goto fail; } } flush = false; prop_dictionary_get_bool(npf_dict, "flush", &flush); /* * Finally - perform the load. */ npf_config_load(npf, rlset, tblset, nset, rpset, conndb, flush); /* Done. Since data is consumed now, we shall not destroy it. */ tblset = NULL; rpset = NULL; rlset = NULL; nset = NULL; fail: /* * Note: destroy rulesets first, to drop references to the tableset. */ if (nset) { npf_ruleset_destroy(nset); } if (rlset) { npf_ruleset_destroy(rlset); } if (rpset) { npf_rprocset_destroy(rpset); } if (tblset) { npf_tableset_destroy(tblset); } #if defined(_NPF_TESTING) || defined(_NPF_STANDALONE) /* Free only if allocated by prop_dictionary_copyin_ioctl_size. */ if (!npfctl_testing) #endif prop_object_release(npf_dict); /* * - _NPF_STANDALONE doesn't require to set prop. * - For _NPF_TESTING, if npfctl_testing, setting prop isn't needed, * otherwise it's needed. */ #ifndef _NPF_STANDALONE #ifdef _NPF_TESTING if (!npfctl_testing) { #endif /* Error report. */ prop_dictionary_set_int32(errdict, "errno", error); prop_dictionary_copyout_ioctl(pref, cmd, errdict); error = 0; #ifdef _NPF_TESTING } #endif #endif /* _NPF_STANDALONE */ prop_object_release(errdict); return error; } /* * npfctl_save: export the config dictionary as it was submitted, * including the current snapshot of the connections. Additionally, * indicate whether the ruleset is currently active. */ int npfctl_save(npf_t *npf, u_long cmd, void *data) { struct plistref *pref = data; prop_array_t rulelist, natlist, tables, rprocs, conlist; prop_dictionary_t npf_dict = NULL; int error; rulelist = prop_array_create(); natlist = prop_array_create(); tables = prop_array_create(); rprocs = prop_array_create(); conlist = prop_array_create(); /* * Serialise the connections and NAT policies. */ npf_config_enter(npf); error = npf_conndb_export(npf, conlist); if (error) { goto out; } error = npf_ruleset_export(npf, npf_config_ruleset(npf), rulelist); if (error) { goto out; } error = npf_ruleset_export(npf, npf_config_natset(npf), natlist); if (error) { goto out; } error = npf_tableset_export(npf, npf_config_tableset(npf), tables); if (error) { goto out; } error = npf_rprocset_export(npf_config_rprocs(npf), rprocs); if (error) { goto out; } prop_array_t alglist = npf_alg_export(npf); npf_dict = prop_dictionary_create(); prop_dictionary_set_uint32(npf_dict, "version", NPF_VERSION); prop_dictionary_set_and_rel(npf_dict, "algs", alglist); prop_dictionary_set_and_rel(npf_dict, "rules", rulelist); prop_dictionary_set_and_rel(npf_dict, "nat", natlist); prop_dictionary_set_and_rel(npf_dict, "tables", tables); prop_dictionary_set_and_rel(npf_dict, "rprocs", rprocs); prop_dictionary_set_and_rel(npf_dict, "conn-list", conlist); #if !defined(_NPF_STANDALONE) prop_dictionary_set_bool(npf_dict, "active", npf_pfil_registered_p()); error = prop_dictionary_copyout_ioctl(pref, cmd, npf_dict); #else prop_dictionary_set_bool(npf_dict, "active", true); /* Userspace: just copy the pointer of the dictionary. */ CTASSERT(sizeof(prop_dictionary_t) == sizeof(void *)); memcpy(data, npf_dict, sizeof(void *)); #endif out: npf_config_exit(npf); if (!npf_dict) { prop_object_release(rulelist); prop_object_release(natlist); prop_object_release(tables); prop_object_release(rprocs); prop_object_release(conlist); } else { #if !defined(_NPF_STANDALONE) prop_object_release(npf_dict); #endif } return error; } /* * npfctl_conn_lookup: lookup a connection in the list of connections */ int npfctl_conn_lookup(npf_t *npf, u_long cmd, void *data) { struct plistref *pref = data; prop_dictionary_t conn_data, conn_result; int error; #if !defined(_NPF_STANDALONE) error = prop_dictionary_copyin_ioctl(pref, cmd, &conn_data); if (error) { return error; } #else conn_data = (prop_dictionary_t)pref; #endif error = npf_conn_find(npf, conn_data, &conn_result); if (error) { goto out; } #if !defined(_NPF_STANDALONE) prop_dictionary_copyout_ioctl(pref, cmd, conn_result); prop_object_release(conn_result); #else CTASSERT(sizeof(prop_dictionary_t) == sizeof(void *)); memcpy(data, conn_result, sizeof(void *)); #endif out: prop_object_release(conn_data); return error; } /* * npfctl_rule: add or remove dynamic rules in the specified ruleset. */ int npfctl_rule(npf_t *npf, u_long cmd, void *data) { struct plistref *pref = data; prop_dictionary_t npf_rule, retdict = NULL; npf_ruleset_t *rlset; npf_rule_t *rl = NULL; const char *ruleset_name; uint32_t rcmd = 0; int error = 0; #if !defined(_NPF_STANDALONE) error = prop_dictionary_copyin_ioctl(pref, cmd, &npf_rule); if (error) { return error; } #else npf_rule = (prop_dictionary_t)pref; #endif prop_dictionary_get_uint32(npf_rule, "command", &rcmd); if (!prop_dictionary_get_cstring_nocopy(npf_rule, "ruleset-name", &ruleset_name)) { error = EINVAL; goto out; } if (rcmd == NPF_CMD_RULE_ADD) { retdict = prop_dictionary_create(); if (npf_mk_singlerule(npf, npf_rule, NULL, &rl, retdict) != 0) { error = EINVAL; goto out; } } npf_config_enter(npf); rlset = npf_config_ruleset(npf); switch (rcmd) { case NPF_CMD_RULE_ADD: { if ((error = npf_ruleset_add(rlset, ruleset_name, rl)) == 0) { /* Success. */ uint64_t id = npf_rule_getid(rl); prop_dictionary_set_uint64(retdict, "id", id); rl = NULL; } break; } case NPF_CMD_RULE_REMOVE: { uint64_t id; if (!prop_dictionary_get_uint64(npf_rule, "id", &id)) { error = EINVAL; break; } error = npf_ruleset_remove(rlset, ruleset_name, id); break; } case NPF_CMD_RULE_REMKEY: { prop_object_t obj = prop_dictionary_get(npf_rule, "key"); const void *key = prop_data_data_nocopy(obj); size_t len = prop_data_size(obj); if (len == 0 || len > NPF_RULE_MAXKEYLEN) { error = EINVAL; break; } error = npf_ruleset_remkey(rlset, ruleset_name, key, len); break; } case NPF_CMD_RULE_LIST: { retdict = npf_ruleset_list(npf, rlset, ruleset_name); if (!retdict) { error = ESRCH; } break; } case NPF_CMD_RULE_FLUSH: { error = npf_ruleset_flush(rlset, ruleset_name); break; } default: error = EINVAL; break; } /* Destroy any removed rules. */ if (!error && rcmd != NPF_CMD_RULE_ADD && rcmd != NPF_CMD_RULE_LIST) { npf_config_sync(npf); npf_ruleset_gc(rlset); } npf_config_exit(npf); if (rl) { KASSERT(error); npf_rule_free(rl); } out: if (retdict) { prop_object_release(npf_rule); #if !defined(_NPF_STANDALONE) prop_dictionary_copyout_ioctl(pref, cmd, retdict); prop_object_release(retdict); #else CTASSERT(sizeof(prop_dictionary_t) == sizeof(void *)); memcpy(data, npf_rule, sizeof(void *)); #endif } return error; } /* * npfctl_table: add, remove or query entries in the specified table. * * For maximum performance, interface is avoiding proplib(3)'s overhead. */ int npfctl_table(npf_t *npf, void *data) { const npf_ioctl_table_t *nct = data; char tname[NPF_TABLE_MAXNAMELEN]; npf_tableset_t *ts; npf_table_t *t; int s, error; error = copyinstr(nct->nct_name, tname, sizeof(tname), NULL); if (error) { return error; } s = npf_config_read_enter(); /* XXX */ ts = npf_config_tableset(npf); if ((t = npf_tableset_getbyname(ts, tname)) == NULL) { npf_config_read_exit(s); return EINVAL; } switch (nct->nct_cmd) { case NPF_CMD_TABLE_LOOKUP: error = npf_table_lookup(t, nct->nct_data.ent.alen, &nct->nct_data.ent.addr); break; case NPF_CMD_TABLE_ADD: error = npf_table_insert(t, nct->nct_data.ent.alen, &nct->nct_data.ent.addr, nct->nct_data.ent.mask); break; case NPF_CMD_TABLE_REMOVE: error = npf_table_remove(t, nct->nct_data.ent.alen, &nct->nct_data.ent.addr, nct->nct_data.ent.mask); break; case NPF_CMD_TABLE_LIST: error = npf_table_list(t, nct->nct_data.buf.buf, nct->nct_data.buf.len); break; case NPF_CMD_TABLE_FLUSH: error = npf_table_flush(t); break; default: error = EINVAL; break; } npf_config_read_exit(s); return error; }