NetBSD/lib/libnpf/npf.c

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/* $NetBSD: npf.c,v 1.13 2012/09/16 13:47:42 rmind Exp $ */
/*-
* Copyright (c) 2010-2012 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 <sys/cdefs.h>
__KERNEL_RCSID(0, "$NetBSD: npf.c,v 1.13 2012/09/16 13:47:42 rmind Exp $");
#include <sys/types.h>
#include <netinet/in_systm.h>
#include <netinet/in.h>
#include <net/if.h>
#include <prop/proplib.h>
#include <stdlib.h>
#include <string.h>
#include <assert.h>
#include <errno.h>
#include <err.h>
#define _NPF_PRIVATE
#include "npf.h"
struct nl_config {
/* Rules, translations, tables, procedures. */
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prop_dictionary_t ncf_dict;
prop_array_t ncf_rules_list;
prop_array_t ncf_rproc_list;
prop_array_t ncf_table_list;
prop_array_t ncf_nat_list;
/* Priority counters. */
pri_t ncf_rule_pri;
pri_t ncf_nat_pri;
/* Debug information. */
prop_dictionary_t ncf_debug;
/* Error report. */
prop_dictionary_t ncf_err;
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/* 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_ext {
const char * nxt_name;
prop_dictionary_t nxt_dict;
};
/*
* 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_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_rule_pri = 1;
ncf->ncf_nat_pri = 1;
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ncf->ncf_plist = NULL;
ncf->ncf_flush = false;
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return ncf;
}
int
npf_config_submit(nl_config_t *ncf, int fd)
{
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const char *plist = ncf->ncf_plist;
prop_dictionary_t npf_dict;
int error = 0;
npf_dict = prop_dictionary_create();
if (npf_dict == NULL) {
return ENOMEM;
}
if (ncf->ncf_debug) {
prop_dictionary_set(npf_dict, "debug", ncf->ncf_debug);
}
prop_dictionary_set(npf_dict, "rules", ncf->ncf_rules_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);
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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;
}
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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_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,
"ncode-error", &ne->ne_ncode_error);
prop_dictionary_get_int32(ncf->ncf_err,
"ncode-errat", &ne->ne_ncode_errat);
}
void
npf_config_destroy(nl_config_t *ncf)
{
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if (ncf->ncf_dict == NULL) {
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);
} else {
prop_object_release(ncf->ncf_dict);
}
if (ncf->ncf_err) {
prop_object_release(ncf->ncf_err);
}
if (ncf->ncf_debug) {
prop_object_release(ncf->ncf_debug);
}
free(ncf);
}
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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;
}
/*
* 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 sz)
{
prop_dictionary_t rldict = rl->nrl_dict;
prop_data_t cdata;
if (type != NPF_CODE_NCODE) {
return ENOTSUP;
}
cdata = prop_data_create_data(code, sz);
if (cdata == NULL) {
return ENOMEM;
}
prop_dictionary_set(rldict, "ncode", cdata);
prop_object_release(cdata);
return 0;
}
int
npf_rule_setproc(nl_config_t *ncf, nl_rule_t *rl, const char *name)
{
prop_dictionary_t rldict = rl->nrl_dict;
if (!npf_rproc_exists_p(ncf, name)) {
return ENOENT;
}
prop_dictionary_set_cstring(rldict, "rproc", name);
return 0;
}
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, pri_t pri)
{
prop_dictionary_t rldict = rl->nrl_dict;
prop_array_t rlset;
if (pri == NPF_PRI_NEXT) {
pri = ncf->ncf_rule_pri++;
} else if (ncf) {
ncf->ncf_rule_pri = pri + 1;
}
prop_dictionary_set_int32(rldict, "priority", pri);
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;
}
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static int
_npf_rule_foreach1(prop_array_t rules, unsigned nlevel, nl_rule_callback_t func)
{
prop_dictionary_t rldict;
prop_object_iterator_t it;
if (!rules || prop_object_type(rules) != PROP_TYPE_ARRAY) {
return ENOENT;
}
it = prop_array_iterator(rules);
if (it == NULL) {
return ENOMEM;
}
while ((rldict = prop_object_iterator_next(it)) != NULL) {
prop_array_t subrules;
nl_rule_t nrl;
nrl.nrl_dict = rldict;
(*func)(&nrl, nlevel);
subrules = prop_dictionary_get(rldict, "subrules");
(void)_npf_rule_foreach1(subrules, nlevel + 1, func);
prop_object_release(subrules);
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}
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, 0, func);
}
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, "ncode");
*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 |
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(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)
{
prop_dictionary_t rldict = nt->nrl_dict;
if (pri == NPF_PRI_NEXT) {
pri = ncf->ncf_nat_pri++;
} else {
ncf->ncf_nat_pri = pri + 1;
}
prop_dictionary_set_int32(rldict, "priority", pri);
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, 0, 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, const int alen,
const npf_addr_t *addr, const npf_netmask_t mask)
{
prop_dictionary_t tldict = tl->ntl_dict, entdict;
prop_array_t tblents;
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prop_data_t addrdata;
/* Create the table entry. */
entdict = prop_dictionary_create();
if (entdict == NULL) {
return ENOMEM;
}
addrdata = prop_data_create_data(addr, alen);
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prop_dictionary_set(entdict, "addr", addrdata);
prop_dictionary_set_uint8(entdict, "mask", mask);
prop_object_release(addrdata);
/* Insert the entry. */
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);
}
/*
* MISC.
*/
int
npf_update_rule(int fd, const char *rname __unused, nl_rule_t *rl)
{
prop_dictionary_t rldict = rl->nrl_dict, errdict = NULL;
int error;
error = prop_dictionary_sendrecv_ioctl(rldict, fd,
IOC_NPF_UPDATE_RULE, &errdict);
if (errdict) {
prop_object_release(errdict);
}
return error;
}
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);
}