/* $NetBSD: npf.c,v 1.19 2013/03/20 00:29:46 christos Exp $ */ /*- * Copyright (c) 2010-2013 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. */ #include __KERNEL_RCSID(0, "$NetBSD: npf.c,v 1.19 2013/03/20 00:29:46 christos Exp $"); #include #include #include #include #include #include #include #include #include #include #define _NPF_PRIVATE #include "npf.h" struct nl_config { /* Rules, translations, tables, procedures. */ prop_dictionary_t ncf_dict; prop_array_t ncf_alg_list; prop_array_t ncf_rules_list; prop_array_t ncf_rproc_list; prop_array_t ncf_table_list; prop_array_t ncf_nat_list; /* Debug information. */ prop_dictionary_t ncf_debug; /* Error report. */ prop_dictionary_t ncf_err; /* Custom file to externalise property-list. */ const char * ncf_plist; bool ncf_flush; }; struct nl_rule { prop_dictionary_t nrl_dict; }; struct nl_rproc { prop_dictionary_t nrp_dict; }; struct nl_table { prop_dictionary_t ntl_dict; }; struct nl_alg { prop_dictionary_t nal_dict; }; struct nl_ext { const char * nxt_name; prop_dictionary_t nxt_dict; }; static prop_array_t _npf_ruleset_transform(prop_array_t); /* * CONFIGURATION INTERFACE. */ nl_config_t * npf_config_create(void) { nl_config_t *ncf; ncf = calloc(1, sizeof(*ncf)); if (ncf == NULL) { return NULL; } ncf->ncf_alg_list = prop_array_create(); ncf->ncf_rules_list = prop_array_create(); ncf->ncf_rproc_list = prop_array_create(); ncf->ncf_table_list = prop_array_create(); ncf->ncf_nat_list = prop_array_create(); ncf->ncf_plist = NULL; ncf->ncf_flush = false; return ncf; } int npf_config_submit(nl_config_t *ncf, int fd) { const char *plist = ncf->ncf_plist; prop_dictionary_t npf_dict; prop_array_t rlset; int error = 0; npf_dict = prop_dictionary_create(); if (npf_dict == NULL) { return ENOMEM; } prop_dictionary_set_uint32(npf_dict, "version", NPF_VERSION); rlset = _npf_ruleset_transform(ncf->ncf_rules_list); if (rlset == NULL) { prop_object_release(npf_dict); return ENOMEM; } prop_dictionary_set(npf_dict, "rules", rlset); prop_object_release(rlset); prop_dictionary_set(npf_dict, "algs", ncf->ncf_alg_list); prop_dictionary_set(npf_dict, "rprocs", ncf->ncf_rproc_list); prop_dictionary_set(npf_dict, "tables", ncf->ncf_table_list); prop_dictionary_set(npf_dict, "translation", ncf->ncf_nat_list); prop_dictionary_set_bool(npf_dict, "flush", ncf->ncf_flush); if (ncf->ncf_debug) { prop_dictionary_set(npf_dict, "debug", ncf->ncf_debug); } if (plist) { if (!prop_dictionary_externalize_to_file(npf_dict, plist)) { error = errno; } prop_object_release(npf_dict); return error; } error = prop_dictionary_sendrecv_ioctl(npf_dict, fd, IOC_NPF_RELOAD, &ncf->ncf_err); if (error) { prop_object_release(npf_dict); assert(ncf->ncf_err == NULL); return error; } prop_dictionary_get_int32(ncf->ncf_err, "errno", &error); prop_object_release(npf_dict); return error; } nl_config_t * npf_config_retrieve(int fd, bool *active, bool *loaded) { prop_dictionary_t npf_dict; nl_config_t *ncf; int error; error = prop_dictionary_recv_ioctl(fd, IOC_NPF_GETCONF, &npf_dict); if (error) { return NULL; } ncf = calloc(1, sizeof(*ncf)); if (ncf == NULL) { prop_object_release(npf_dict); return NULL; } ncf->ncf_dict = npf_dict; ncf->ncf_alg_list = prop_dictionary_get(npf_dict, "algs"); ncf->ncf_rules_list = prop_dictionary_get(npf_dict, "rules"); ncf->ncf_rproc_list = prop_dictionary_get(npf_dict, "rprocs"); ncf->ncf_table_list = prop_dictionary_get(npf_dict, "tables"); ncf->ncf_nat_list = prop_dictionary_get(npf_dict, "translation"); prop_dictionary_get_bool(npf_dict, "active", active); *loaded = (ncf->ncf_rules_list != NULL); return ncf; } int npf_config_flush(int fd) { nl_config_t *ncf; int error; ncf = npf_config_create(); if (ncf == NULL) { return ENOMEM; } ncf->ncf_flush = true; error = npf_config_submit(ncf, fd); npf_config_destroy(ncf); return error; } void _npf_config_error(nl_config_t *ncf, nl_error_t *ne) { memset(ne, 0, sizeof(*ne)); prop_dictionary_get_int32(ncf->ncf_err, "id", &ne->ne_id); prop_dictionary_get_cstring(ncf->ncf_err, "source-file", &ne->ne_source_file); prop_dictionary_get_uint32(ncf->ncf_err, "source-line", &ne->ne_source_line); prop_dictionary_get_int32(ncf->ncf_err, "code-error", &ne->ne_ncode_error); prop_dictionary_get_int32(ncf->ncf_err, "code-errat", &ne->ne_ncode_errat); } void npf_config_destroy(nl_config_t *ncf) { if (!ncf->ncf_dict) { prop_object_release(ncf->ncf_alg_list); prop_object_release(ncf->ncf_rules_list); prop_object_release(ncf->ncf_rproc_list); prop_object_release(ncf->ncf_table_list); prop_object_release(ncf->ncf_nat_list); } if (ncf->ncf_err) { prop_object_release(ncf->ncf_err); } if (ncf->ncf_debug) { prop_object_release(ncf->ncf_debug); } free(ncf); } void _npf_config_setsubmit(nl_config_t *ncf, const char *plist_file) { ncf->ncf_plist = plist_file; } static bool _npf_prop_array_lookup(prop_array_t array, const char *key, const char *name) { prop_dictionary_t dict; prop_object_iterator_t it; it = prop_array_iterator(array); while ((dict = prop_object_iterator_next(it)) != NULL) { const char *lname; prop_dictionary_get_cstring_nocopy(dict, key, &lname); if (strcmp(name, lname) == 0) break; } prop_object_iterator_release(it); return dict ? true : false; } /* * DYNAMIC RULESET INTERFACE. */ int npf_ruleset_add(int fd, const char *rname, nl_rule_t *rl, uint64_t *id) { prop_dictionary_t rldict = rl->nrl_dict; prop_dictionary_t ret; int error; prop_dictionary_set_cstring(rldict, "ruleset-name", rname); prop_dictionary_set_uint32(rldict, "command", NPF_CMD_RULE_ADD); error = prop_dictionary_sendrecv_ioctl(rldict, fd, IOC_NPF_RULE, &ret); if (!error) { prop_dictionary_get_uint64(ret, "id", id); } return error; } int npf_ruleset_remove(int fd, const char *rname, uint64_t id) { prop_dictionary_t rldict; rldict = prop_dictionary_create(); if (rldict == NULL) { return ENOMEM; } prop_dictionary_set_cstring(rldict, "ruleset-name", rname); prop_dictionary_set_uint32(rldict, "command", NPF_CMD_RULE_REMOVE); prop_dictionary_set_uint64(rldict, "id", id); return prop_dictionary_send_ioctl(rldict, fd, IOC_NPF_RULE); } int npf_ruleset_remkey(int fd, const char *rname, const void *key, size_t len) { prop_dictionary_t rldict; prop_data_t keyobj; rldict = prop_dictionary_create(); if (rldict == NULL) { return ENOMEM; } prop_dictionary_set_cstring(rldict, "ruleset-name", rname); prop_dictionary_set_uint32(rldict, "command", NPF_CMD_RULE_REMKEY); keyobj = prop_data_create_data(key, len); if (keyobj == NULL) { prop_object_release(rldict); return ENOMEM; } prop_dictionary_set(rldict, "key", keyobj); prop_object_release(keyobj); return prop_dictionary_send_ioctl(rldict, fd, IOC_NPF_RULE); } int npf_ruleset_flush(int fd, const char *rname) { prop_dictionary_t rldict; rldict = prop_dictionary_create(); if (rldict == NULL) { return ENOMEM; } prop_dictionary_set_cstring(rldict, "ruleset-name", rname); prop_dictionary_set_uint32(rldict, "command", NPF_CMD_RULE_FLUSH); return prop_dictionary_send_ioctl(rldict, fd, IOC_NPF_RULE); } /* * _npf_ruleset_transform: transform the ruleset representing nested * rules with lists into an array. */ static void _npf_ruleset_transform1(prop_array_t rlset, prop_array_t rules) { prop_object_iterator_t it; prop_dictionary_t rldict; prop_array_t subrlset; it = prop_array_iterator(rules); while ((rldict = prop_object_iterator_next(it)) != NULL) { unsigned idx; /* Add rules to the array (reference is retained). */ prop_array_add(rlset, rldict); subrlset = prop_dictionary_get(rldict, "subrules"); if (subrlset) { /* Process subrules recursively. */ _npf_ruleset_transform1(rlset, subrlset); /* Add the skip-to position. */ idx = prop_array_count(rlset); prop_dictionary_set_uint32(rldict, "skip-to", idx); prop_dictionary_remove(rldict, "subrules"); } } prop_object_iterator_release(it); } static prop_array_t _npf_ruleset_transform(prop_array_t rlset) { prop_array_t nrlset; nrlset = prop_array_create(); _npf_ruleset_transform1(nrlset, rlset); return nrlset; } /* * NPF EXTENSION INTERFACE. */ nl_ext_t * npf_ext_construct(const char *name) { nl_ext_t *ext; ext = malloc(sizeof(*ext)); if (ext == NULL) { return NULL; } ext->nxt_name = strdup(name); if (ext->nxt_name == NULL) { free(ext); return NULL; } ext->nxt_dict = prop_dictionary_create(); return ext; } void npf_ext_param_u32(nl_ext_t *ext, const char *key, uint32_t val) { prop_dictionary_t extdict = ext->nxt_dict; prop_dictionary_set_uint32(extdict, key, val); } void npf_ext_param_bool(nl_ext_t *ext, const char *key, bool val) { prop_dictionary_t extdict = ext->nxt_dict; prop_dictionary_set_bool(extdict, key, val); } /* * RULE INTERFACE. */ nl_rule_t * npf_rule_create(const char *name, uint32_t attr, u_int if_idx) { prop_dictionary_t rldict; nl_rule_t *rl; rl = malloc(sizeof(*rl)); if (rl == NULL) { return NULL; } rldict = prop_dictionary_create(); if (rldict == NULL) { free(rl); return NULL; } if (name) { prop_dictionary_set_cstring(rldict, "name", name); } prop_dictionary_set_uint32(rldict, "attributes", attr); if (if_idx) { prop_dictionary_set_uint32(rldict, "interface", if_idx); } rl->nrl_dict = rldict; return rl; } int npf_rule_setcode(nl_rule_t *rl, int type, const void *code, size_t len) { prop_dictionary_t rldict = rl->nrl_dict; prop_data_t cdata; switch (type) { case NPF_CODE_NC: case NPF_CODE_BPF: break; default: return ENOTSUP; } prop_dictionary_set_uint32(rldict, "code-type", type); if ((cdata = prop_data_create_data(code, len)) == NULL) { return ENOMEM; } prop_dictionary_set(rldict, "code", cdata); prop_object_release(cdata); return 0; } int npf_rule_setkey(nl_rule_t *rl, const void *key, size_t len) { prop_dictionary_t rldict = rl->nrl_dict; prop_data_t kdata; if ((kdata = prop_data_create_data(key, len)) == NULL) { return ENOMEM; } prop_dictionary_set(rldict, "key", kdata); prop_object_release(kdata); return 0; } int npf_rule_setprio(nl_rule_t *rl, pri_t pri) { prop_dictionary_t rldict = rl->nrl_dict; prop_dictionary_set_int32(rldict, "priority", pri); return 0; } int npf_rule_setproc(nl_rule_t *rl, const char *name) { prop_dictionary_t rldict = rl->nrl_dict; prop_dictionary_set_cstring(rldict, "rproc", name); return 0; } void * npf_rule_export(nl_rule_t *rl, size_t *length) { prop_dictionary_t rldict = rl->nrl_dict; void *xml; if ((xml = prop_dictionary_externalize(rldict)) == NULL) { return NULL; } *length = strlen(xml); return xml; } bool npf_rule_exists_p(nl_config_t *ncf, const char *name) { return _npf_prop_array_lookup(ncf->ncf_rules_list, "name", name); } int npf_rule_insert(nl_config_t *ncf, nl_rule_t *parent, nl_rule_t *rl) { prop_dictionary_t rldict = rl->nrl_dict; prop_array_t rlset; if (parent) { prop_dictionary_t pdict = parent->nrl_dict; rlset = prop_dictionary_get(pdict, "subrules"); if (rlset == NULL) { rlset = prop_array_create(); prop_dictionary_set(pdict, "subrules", rlset); prop_object_release(rlset); } } else { rlset = ncf->ncf_rules_list; } prop_array_add(rlset, rldict); return 0; } static int _npf_rule_foreach1(prop_array_t rules, nl_rule_callback_t func) { prop_dictionary_t rldict; prop_object_iterator_t it; unsigned reduce[16], n; unsigned nlevel; if (!rules || prop_object_type(rules) != PROP_TYPE_ARRAY) { return ENOENT; } it = prop_array_iterator(rules); if (it == NULL) { return ENOMEM; } nlevel = 0; reduce[nlevel] = 0; n = 0; while ((rldict = prop_object_iterator_next(it)) != NULL) { nl_rule_t nrl = { .nrl_dict = rldict }; uint32_t skipto = 0; prop_dictionary_get_uint32(rldict, "skip-to", &skipto); (*func)(&nrl, nlevel); if (skipto) { nlevel++; reduce[nlevel] = skipto; } if (reduce[nlevel] == ++n) { assert(nlevel > 0); nlevel--; } } prop_object_iterator_release(it); return 0; } int _npf_rule_foreach(nl_config_t *ncf, nl_rule_callback_t func) { return _npf_rule_foreach1(ncf->ncf_rules_list, func); } int _npf_ruleset_list(int fd, const char *rname, nl_config_t *ncf) { prop_dictionary_t rldict, ret; int error; rldict = prop_dictionary_create(); if (rldict == NULL) { return ENOMEM; } prop_dictionary_set_cstring(rldict, "ruleset-name", rname); prop_dictionary_set_uint32(rldict, "command", NPF_CMD_RULE_LIST); error = prop_dictionary_sendrecv_ioctl(rldict, fd, IOC_NPF_RULE, &ret); if (!error) { prop_array_t rules; rules = prop_dictionary_get(ret, "rules"); if (rules == NULL) { return EINVAL; } prop_object_release(ncf->ncf_rules_list); ncf->ncf_rules_list = rules; } return error; } pri_t _npf_rule_getinfo(nl_rule_t *nrl, const char **rname, uint32_t *attr, u_int *if_idx) { prop_dictionary_t rldict = nrl->nrl_dict; pri_t prio; prop_dictionary_get_cstring_nocopy(rldict, "name", rname); prop_dictionary_get_uint32(rldict, "attributes", attr); prop_dictionary_get_int32(rldict, "priority", &prio); prop_dictionary_get_uint32(rldict, "interface", if_idx); return prio; } const void * _npf_rule_ncode(nl_rule_t *nrl, size_t *size) { prop_dictionary_t rldict = nrl->nrl_dict; prop_object_t obj = prop_dictionary_get(rldict, "code"); *size = prop_data_size(obj); return prop_data_data_nocopy(obj); } const char * _npf_rule_rproc(nl_rule_t *nrl) { prop_dictionary_t rldict = nrl->nrl_dict; const char *rpname = NULL; prop_dictionary_get_cstring_nocopy(rldict, "rproc", &rpname); return rpname; } void npf_rule_destroy(nl_rule_t *rl) { prop_object_release(rl->nrl_dict); free(rl); } /* * RULE PROCEDURE INTERFACE. */ nl_rproc_t * npf_rproc_create(const char *name) { prop_dictionary_t rpdict; prop_array_t extcalls; nl_rproc_t *nrp; nrp = malloc(sizeof(nl_rproc_t)); if (nrp == NULL) { return NULL; } rpdict = prop_dictionary_create(); if (rpdict == NULL) { free(nrp); return NULL; } prop_dictionary_set_cstring(rpdict, "name", name); extcalls = prop_array_create(); if (extcalls == NULL) { prop_object_release(rpdict); free(nrp); return NULL; } prop_dictionary_set(rpdict, "extcalls", extcalls); prop_object_release(extcalls); nrp->nrp_dict = rpdict; return nrp; } int npf_rproc_extcall(nl_rproc_t *rp, nl_ext_t *ext) { prop_dictionary_t rpdict = rp->nrp_dict; prop_dictionary_t extdict = ext->nxt_dict; prop_array_t extcalls; extcalls = prop_dictionary_get(rpdict, "extcalls"); if (_npf_prop_array_lookup(extcalls, "name", ext->nxt_name)) { return EEXIST; } prop_dictionary_set_cstring(extdict, "name", ext->nxt_name); prop_array_add(extcalls, extdict); return 0; } bool npf_rproc_exists_p(nl_config_t *ncf, const char *name) { return _npf_prop_array_lookup(ncf->ncf_rproc_list, "name", name); } int npf_rproc_insert(nl_config_t *ncf, nl_rproc_t *rp) { prop_dictionary_t rpdict = rp->nrp_dict; const char *name; if (!prop_dictionary_get_cstring_nocopy(rpdict, "name", &name)) { return EINVAL; } if (npf_rproc_exists_p(ncf, name)) { return EEXIST; } prop_array_add(ncf->ncf_rproc_list, rpdict); return 0; } /* * TRANSLATION INTERFACE. */ nl_nat_t * npf_nat_create(int type, u_int flags, u_int if_idx, npf_addr_t *addr, int af, in_port_t port) { nl_rule_t *rl; prop_dictionary_t rldict; prop_data_t addrdat; uint32_t attr; size_t sz; if (af == AF_INET) { sz = sizeof(struct in_addr); } else if (af == AF_INET6) { sz = sizeof(struct in6_addr); } else { return NULL; } attr = NPF_RULE_PASS | NPF_RULE_FINAL | (type == NPF_NATOUT ? NPF_RULE_OUT : NPF_RULE_IN); /* Create a rule for NAT policy. Next, will add translation data. */ rl = npf_rule_create(NULL, attr, if_idx); if (rl == NULL) { return NULL; } rldict = rl->nrl_dict; /* Translation type and flags. */ prop_dictionary_set_int32(rldict, "type", type); prop_dictionary_set_uint32(rldict, "flags", flags); /* Translation IP. */ addrdat = prop_data_create_data(addr, sz); if (addrdat == NULL) { npf_rule_destroy(rl); return NULL; } prop_dictionary_set(rldict, "translation-ip", addrdat); prop_object_release(addrdat); /* Translation port (for redirect case). */ prop_dictionary_set_uint16(rldict, "translation-port", port); return (nl_nat_t *)rl; } int npf_nat_insert(nl_config_t *ncf, nl_nat_t *nt, pri_t pri __unused) { prop_dictionary_t rldict = nt->nrl_dict; prop_dictionary_set_int32(rldict, "priority", NPF_PRI_LAST); prop_array_add(ncf->ncf_nat_list, rldict); return 0; } int _npf_nat_foreach(nl_config_t *ncf, nl_rule_callback_t func) { return _npf_rule_foreach1(ncf->ncf_nat_list, func); } void _npf_nat_getinfo(nl_nat_t *nt, int *type, u_int *flags, npf_addr_t *addr, size_t *alen, in_port_t *port) { prop_dictionary_t rldict = nt->nrl_dict; prop_dictionary_get_int32(rldict, "type", type); prop_dictionary_get_uint32(rldict, "flags", flags); prop_object_t obj = prop_dictionary_get(rldict, "translation-ip"); *alen = prop_data_size(obj); memcpy(addr, prop_data_data_nocopy(obj), *alen); prop_dictionary_get_uint16(rldict, "translation-port", port); } /* * TABLE INTERFACE. */ nl_table_t * npf_table_create(u_int id, int type) { prop_dictionary_t tldict; prop_array_t tblents; nl_table_t *tl; tl = malloc(sizeof(*tl)); if (tl == NULL) { return NULL; } tldict = prop_dictionary_create(); if (tldict == NULL) { free(tl); return NULL; } prop_dictionary_set_uint32(tldict, "id", id); prop_dictionary_set_int32(tldict, "type", type); tblents = prop_array_create(); if (tblents == NULL) { prop_object_release(tldict); free(tl); return NULL; } prop_dictionary_set(tldict, "entries", tblents); prop_object_release(tblents); tl->ntl_dict = tldict; return tl; } int npf_table_add_entry(nl_table_t *tl, int af, const npf_addr_t *addr, const npf_netmask_t mask) { prop_dictionary_t tldict = tl->ntl_dict, entdict; prop_array_t tblents; prop_data_t addrdata; unsigned alen; /* Create the table entry. */ entdict = prop_dictionary_create(); if (entdict == NULL) { return ENOMEM; } switch (af) { case AF_INET: alen = sizeof(struct in_addr); break; case AF_INET6: alen = sizeof(struct in6_addr); break; default: return EINVAL; } addrdata = prop_data_create_data(addr, alen); prop_dictionary_set(entdict, "addr", addrdata); prop_dictionary_set_uint8(entdict, "mask", mask); prop_object_release(addrdata); tblents = prop_dictionary_get(tldict, "entries"); prop_array_add(tblents, entdict); prop_object_release(entdict); return 0; } bool npf_table_exists_p(nl_config_t *ncf, u_int tid) { prop_dictionary_t tldict; prop_object_iterator_t it; it = prop_array_iterator(ncf->ncf_table_list); while ((tldict = prop_object_iterator_next(it)) != NULL) { u_int i; if (prop_dictionary_get_uint32(tldict, "id", &i) && tid == i) break; } prop_object_iterator_release(it); return tldict ? true : false; } int npf_table_insert(nl_config_t *ncf, nl_table_t *tl) { prop_dictionary_t tldict = tl->ntl_dict; u_int tid; if (!prop_dictionary_get_uint32(tldict, "id", &tid)) { return EINVAL; } if (npf_table_exists_p(ncf, tid)) { return EEXIST; } prop_array_add(ncf->ncf_table_list, tldict); return 0; } void npf_table_destroy(nl_table_t *tl) { prop_object_release(tl->ntl_dict); free(tl); } void _npf_table_foreach(nl_config_t *ncf, nl_table_callback_t func) { prop_dictionary_t tldict; prop_object_iterator_t it; it = prop_array_iterator(ncf->ncf_table_list); while ((tldict = prop_object_iterator_next(it)) != NULL) { u_int id; int type; prop_dictionary_get_uint32(tldict, "id", &id); prop_dictionary_get_int32(tldict, "type", &type); (*func)(id, type); } prop_object_iterator_release(it); } /* * ALG INTERFACE. */ int _npf_alg_load(nl_config_t *ncf, const char *name) { prop_dictionary_t al_dict; if (_npf_prop_array_lookup(ncf->ncf_alg_list, "name", name)) return EEXIST; al_dict = prop_dictionary_create(); prop_dictionary_set_cstring(al_dict, "name", name); prop_array_add(ncf->ncf_alg_list, al_dict); prop_object_release(al_dict); return 0; } int _npf_alg_unload(nl_config_t *ncf, const char *name) { if (!_npf_prop_array_lookup(ncf->ncf_alg_list, "name", name)) return ENOENT; // Not yet: prop_array_add(ncf->ncf_alg_list, al_dict); return ENOTSUP; } /* * MISC. */ int npf_sessions_recv(int fd, const char *fpath) { prop_dictionary_t sdict; int error; error = prop_dictionary_recv_ioctl(fd, IOC_NPF_SESSIONS_SAVE, &sdict); if (error) { return error; } if (!prop_dictionary_externalize_to_file(sdict, fpath)) { error = errno; } prop_object_release(sdict); return error; } int npf_sessions_send(int fd, const char *fpath) { prop_dictionary_t sdict; int error; if (fpath) { sdict = prop_dictionary_internalize_from_file(fpath); if (sdict == NULL) { return errno; } } else { /* Empty: will flush the sessions. */ prop_array_t selist = prop_array_create(); sdict = prop_dictionary_create(); prop_dictionary_set(sdict, "session-list", selist); prop_object_release(selist); } error = prop_dictionary_send_ioctl(sdict, fd, IOC_NPF_SESSIONS_LOAD); prop_object_release(sdict); return error; } static prop_dictionary_t _npf_debug_initonce(nl_config_t *ncf) { if (!ncf->ncf_debug) { prop_array_t iflist = prop_array_create(); ncf->ncf_debug = prop_dictionary_create(); prop_dictionary_set(ncf->ncf_debug, "interfaces", iflist); prop_object_release(iflist); } return ncf->ncf_debug; } void _npf_debug_addif(nl_config_t *ncf, struct ifaddrs *ifa, u_int if_idx) { prop_dictionary_t ifdict, dbg = _npf_debug_initonce(ncf); prop_array_t iflist = prop_dictionary_get(dbg, "interfaces"); if (_npf_prop_array_lookup(iflist, "name", ifa->ifa_name)) { return; } ifdict = prop_dictionary_create(); prop_dictionary_set_cstring(ifdict, "name", ifa->ifa_name); prop_dictionary_set_uint32(ifdict, "flags", ifa->ifa_flags); if (!if_idx) { if_idx = if_nametoindex(ifa->ifa_name); } prop_dictionary_set_uint32(ifdict, "idx", if_idx); const struct sockaddr *sa = ifa->ifa_addr; npf_addr_t addr; size_t alen = 0; switch (sa ? sa->sa_family : -1) { case AF_INET: { const struct sockaddr_in *sin = (const void *)sa; alen = sizeof(sin->sin_addr); memcpy(&addr, &sin->sin_addr, alen); break; } case AF_INET6: { const struct sockaddr_in6 *sin6 = (const void *)sa; alen = sizeof(sin6->sin6_addr); memcpy(&addr, &sin6->sin6_addr, alen); break; } default: break; } if (alen) { prop_data_t addrdata = prop_data_create_data(&addr, alen); prop_dictionary_set(ifdict, "addr", addrdata); prop_object_release(addrdata); } prop_array_add(iflist, ifdict); prop_object_release(ifdict); }