sbin/ifconfig/parse.c

1.18  christos /*	$NetBSD: parse.c,v 1.18 2013/07/17 15:42:03 christos Exp $	*/
 1.2    dyoung
 1.2    dyoung /*-
 1.7    dyoung  * Copyright (c) 2008 David Young.  All rights reserved.
 1.2    dyoung  *
 1.2    dyoung  * Redistribution and use in source and binary forms, with or without
 1.2    dyoung  * modification, are permitted provided that the following conditions
 1.2    dyoung  * are met:
 1.2    dyoung  * 1. Redistributions of source code must retain the above copyright
 1.2    dyoung  *    notice, this list of conditions and the following disclaimer.
 1.2    dyoung  * 2. Redistributions in binary form must reproduce the above copyright
 1.2    dyoung  *    notice, this list of conditions and the following disclaimer in the
 1.2    dyoung  *    documentation and/or other materials provided with the distribution.
 1.2    dyoung  *
 1.2    dyoung  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
 1.2    dyoung  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
 1.2    dyoung  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
 1.2    dyoung  * ARE DISCLAIMED.  IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
 1.2    dyoung  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
 1.2    dyoung  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
 1.2    dyoung  * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
 1.2    dyoung  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
 1.2    dyoung  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
 1.2    dyoung  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
 1.2    dyoung  * SUCH DAMAGE.
 1.2    dyoung  */
 1.2    dyoung
 1.9    dyoung #include <sys/cdefs.h>
 1.9    dyoung #ifndef lint
1.18  christos __RCSID("$NetBSD: parse.c,v 1.18 2013/07/17 15:42:03 christos Exp $");
 1.9    dyoung #endif /* not lint */
 1.9    dyoung
 1.1    dyoung #include <err.h>
 1.1    dyoung #include <errno.h>
 1.1    dyoung #include <limits.h>
 1.1    dyoung #include <netdb.h>
 1.1    dyoung #include <stddef.h>
 1.1    dyoung #include <stdio.h>
 1.1    dyoung #include <stdlib.h>
 1.1    dyoung #include <string.h>
 1.1    dyoung
 1.1    dyoung #include <arpa/inet.h>
 1.1    dyoung #include <sys/param.h>
 1.1    dyoung #include <net/if.h>
 1.6    dyoung #include <net/if_dl.h>
 1.1    dyoung #include <netatalk/at.h>
 1.1    dyoung
 1.1    dyoung #include "env.h"
 1.1    dyoung #include "parse.h"
 1.1    dyoung #include "util.h"
 1.1    dyoung
1.18  christos #ifdef DEBUG
1.18  christos #define dbg_warnx(__fmt, ...)	warnx(__fmt, __VA_ARGS__)
1.18  christos #else
 1.1    dyoung #define dbg_warnx(__fmt, ...)	/* empty */
1.18  christos #endif
 1.1    dyoung
 1.1    dyoung static int parser_default_init(struct parser *);
 1.1    dyoung static int pbranch_init(struct parser *);
 1.1    dyoung static int pkw_init(struct parser *);
 1.1    dyoung
 1.1    dyoung static int pterm_match(const struct parser *, const struct match *,
 1.1    dyoung     struct match *, int, const char *);
 1.1    dyoung
 1.1    dyoung static int paddr_match(const struct parser *, const struct match *,
 1.1    dyoung     struct match *, int, const char *);
 1.1    dyoung
 1.1    dyoung static int pbranch_match(const struct parser *, const struct match *,
 1.1    dyoung     struct match *, int, const char *);
 1.1    dyoung
 1.1    dyoung static int piface_match(const struct parser *, const struct match *,
 1.1    dyoung     struct match *, int, const char *);
 1.1    dyoung
 1.1    dyoung static int pstr_match(const struct parser *, const struct match *,
 1.1    dyoung     struct match *, int, const char *);
 1.1    dyoung
 1.1    dyoung static int pinteger_match(const struct parser *, const struct match *,
 1.1    dyoung     struct match *, int, const char *);
 1.1    dyoung
 1.1    dyoung static int pkw_match(const struct parser *, const struct match *,
 1.1    dyoung     struct match *, int, const char *);
 1.1    dyoung
 1.1    dyoung const struct parser_methods pterm_methods = {
 1.1    dyoung 	  .pm_match = pterm_match
 1.1    dyoung 	, .pm_init = NULL
 1.1    dyoung };
 1.1    dyoung
 1.1    dyoung const struct parser_methods pstr_methods = {
 1.1    dyoung 	  .pm_match = pstr_match
 1.1    dyoung 	, .pm_init = parser_default_init
 1.1    dyoung };
 1.1    dyoung
 1.1    dyoung const struct parser_methods pinteger_methods = {
 1.1    dyoung 	  .pm_match = pinteger_match
 1.1    dyoung 	, .pm_init = parser_default_init
 1.1    dyoung };
 1.1    dyoung
 1.1    dyoung const struct parser_methods paddr_methods = {
 1.1    dyoung 	  .pm_match = paddr_match
 1.1    dyoung 	, .pm_init = parser_default_init
 1.1    dyoung };
 1.1    dyoung
 1.1    dyoung const struct parser_methods piface_methods = {
 1.1    dyoung 	  .pm_match = piface_match
 1.1    dyoung 	, .pm_init = parser_default_init
 1.1    dyoung };
 1.1    dyoung
 1.1    dyoung const struct parser_methods pbranch_methods = {
 1.1    dyoung 	  .pm_match = pbranch_match
 1.1    dyoung 	, .pm_init = pbranch_init
 1.1    dyoung };
 1.1    dyoung
 1.1    dyoung const struct parser_methods pkw_methods = {
 1.1    dyoung 	  .pm_match = pkw_match
 1.1    dyoung 	, .pm_init = pkw_init
 1.1    dyoung };
 1.1    dyoung
 1.1    dyoung static int
 1.1    dyoung match_setenv(const struct match *im, struct match *om, const char *key,
 1.1    dyoung     prop_object_t o)
 1.1    dyoung {
 1.1    dyoung 	if (im == NULL)
 1.1    dyoung 		om->m_env = prop_dictionary_create();
 1.1    dyoung 	else
 1.1    dyoung 		om->m_env = prop_dictionary_copy(im->m_env);
 1.1    dyoung
 1.1    dyoung 	if (om->m_env == NULL)
 1.1    dyoung 		goto delobj;
 1.1    dyoung
 1.1    dyoung 	if (key != NULL && !prop_dictionary_set(om->m_env, key, o))
 1.1    dyoung 		goto deldict;
 1.1    dyoung
 1.1    dyoung 	if (o != NULL)
 1.1    dyoung 		prop_object_release((prop_object_t)o);
 1.1    dyoung
 1.1    dyoung 	return 0;
 1.1    dyoung deldict:
 1.1    dyoung 	prop_object_release((prop_object_t)om->m_env);
 1.1    dyoung 	om->m_env = NULL;
 1.1    dyoung delobj:
 1.1    dyoung 	prop_object_release((prop_object_t)o);
 1.1    dyoung 	errno = ENOMEM;
 1.1    dyoung 	return -1;
 1.1    dyoung }
 1.1    dyoung
 1.1    dyoung int
 1.1    dyoung pstr_match(const struct parser *p, const struct match *im, struct match *om,
 1.1    dyoung     int argidx, const char *arg)
 1.1    dyoung {
 1.1    dyoung 	prop_object_t o;
 1.1    dyoung 	const struct pstr *ps = (const struct pstr *)p;
 1.1    dyoung 	uint8_t buf[128];
 1.1    dyoung 	int len;
 1.1    dyoung
 1.5    dyoung 	if (arg == NULL) {
 1.5    dyoung 		errno = EINVAL;
 1.5    dyoung 		return -1;
 1.5    dyoung 	}
 1.5    dyoung
 1.1    dyoung 	len = (int)sizeof(buf);
1.16    dyoung 	if (get_string(arg, NULL, buf, &len, ps->ps_hexok) == NULL) {
 1.1    dyoung 		errno = EINVAL;
 1.1    dyoung 		return -1;
 1.1    dyoung 	}
 1.1    dyoung
 1.1    dyoung 	o = (prop_object_t)prop_data_create_data(buf, len);
 1.1    dyoung
 1.1    dyoung 	if (o == NULL) {
 1.1    dyoung 		errno = ENOMEM;
 1.1    dyoung 		return -1;
 1.1    dyoung 	}
 1.1    dyoung
 1.1    dyoung 	if (match_setenv(im, om, ps->ps_key, o) == -1)
 1.1    dyoung 		return -1;
 1.1    dyoung
 1.1    dyoung 	om->m_argidx = argidx;
 1.1    dyoung 	om->m_parser = p;
 1.1    dyoung 	om->m_nextparser = p->p_nextparser;
 1.1    dyoung
 1.1    dyoung 	return 0;
 1.1    dyoung }
 1.1    dyoung
 1.1    dyoung int
 1.1    dyoung pinteger_match(const struct parser *p, const struct match *im, struct match *om,
 1.1    dyoung     int argidx, const char *arg)
 1.1    dyoung {
 1.1    dyoung 	prop_object_t o;
 1.1    dyoung 	const struct pinteger *pi = (const struct pinteger *)p;
 1.1    dyoung 	char *end;
 1.1    dyoung 	int64_t val;
 1.5    dyoung
 1.5    dyoung 	if (arg == NULL) {
 1.5    dyoung 		errno = EINVAL;
 1.5    dyoung 		return -1;
 1.5    dyoung 	}
 1.5    dyoung
 1.1    dyoung 	val = strtoimax(arg, &end, pi->pi_base);
 1.1    dyoung 	if ((val == INTMAX_MIN || val == INTMAX_MAX) && errno == ERANGE)
 1.1    dyoung 		return -1;
 1.1    dyoung
 1.1    dyoung 	if (*end != '\0') {
 1.1    dyoung 		errno = EINVAL;
 1.1    dyoung 		return -1;
 1.1    dyoung 	}
 1.1    dyoung
 1.1    dyoung 	if (val < pi->pi_min || val > pi->pi_max) {
 1.1    dyoung 		errno = ERANGE;
 1.1    dyoung 		return -1;
 1.1    dyoung 	}
 1.1    dyoung
 1.1    dyoung 	o = (prop_object_t)prop_number_create_integer(val);
 1.1    dyoung
 1.1    dyoung 	if (o == NULL) {
 1.1    dyoung 		errno = ENOMEM;
 1.1    dyoung 		return -1;
 1.1    dyoung 	}
 1.1    dyoung
 1.1    dyoung 	if (match_setenv(im, om, pi->pi_key, o) == -1)
 1.1    dyoung 		return -1;
 1.1    dyoung
 1.1    dyoung 	om->m_argidx = argidx;
 1.1    dyoung 	om->m_parser = p;
 1.1    dyoung 	om->m_nextparser = p->p_nextparser;
 1.1    dyoung
 1.1    dyoung 	return 0;
 1.1    dyoung }
 1.1    dyoung
 1.1    dyoung static int
 1.6    dyoung parse_linkaddr(const char *addr, struct sockaddr_storage *ss)
 1.6    dyoung {
 1.6    dyoung 	static const size_t maxlen =
 1.6    dyoung 	    sizeof(*ss) - offsetof(struct sockaddr_dl, sdl_data[0]);
 1.6    dyoung 	enum {
 1.6    dyoung 		LLADDR_S_INITIAL = 0,
 1.7    dyoung 		LLADDR_S_ONE_OCTET = 1,
 1.7    dyoung 		LLADDR_S_TWO_OCTETS = 2,
 1.7    dyoung 		LLADDR_S_COLON = 3
 1.6    dyoung 	} state = LLADDR_S_INITIAL;
 1.6    dyoung 	uint8_t octet = 0, val;
 1.6    dyoung 	struct sockaddr_dl *sdl;
 1.6    dyoung 	const char *p;
1.13     lukem 	size_t i;
 1.6    dyoung
 1.6    dyoung 	memset(ss, 0, sizeof(*ss));
 1.6    dyoung 	ss->ss_family = AF_LINK;
 1.6    dyoung 	sdl = (struct sockaddr_dl *)ss;
 1.6    dyoung
 1.6    dyoung 	for (i = 0, p = addr; i < maxlen; p++) {
 1.7    dyoung 		dbg_warnx("%s.%d: *p == %c, state %d", __func__, __LINE__, *p,
 1.7    dyoung 		    state);
 1.6    dyoung 		if (*p == '\0') {
 1.7    dyoung 			dbg_warnx("%s.%d", __func__, __LINE__);
 1.6    dyoung 			if (state != LLADDR_S_ONE_OCTET &&
 1.6    dyoung 			    state != LLADDR_S_TWO_OCTETS)
 1.6    dyoung 				return -1;
 1.7    dyoung 			dbg_warnx("%s.%d", __func__, __LINE__);
 1.6    dyoung 			sdl->sdl_data[i++] = octet;
1.15    plunky 			sdl->sdl_len = offsetof(struct sockaddr_dl, sdl_data)
1.15    plunky 			    + i * sizeof(sdl->sdl_data[0]);
 1.7    dyoung 			sdl->sdl_alen = i;
 1.6    dyoung 			return 0;
 1.6    dyoung 		}
 1.6    dyoung 		if (*p == ':') {
 1.7    dyoung 			dbg_warnx("%s.%d", __func__, __LINE__);
 1.6    dyoung 			if (state != LLADDR_S_ONE_OCTET &&
 1.6    dyoung 			    state != LLADDR_S_TWO_OCTETS)
 1.6    dyoung 				return -1;
 1.7    dyoung 			dbg_warnx("%s.%d", __func__, __LINE__);
 1.6    dyoung 			sdl->sdl_data[i++] = octet;
 1.6    dyoung 			state = LLADDR_S_COLON;
 1.7    dyoung 			continue;
 1.6    dyoung 		}
 1.6    dyoung 		if ('a' <= *p && *p <= 'f')
 1.6    dyoung 			val = 10 + *p - 'a';
 1.6    dyoung 		else if ('A' <= *p && *p <= 'F')
 1.6    dyoung 			val = 10 + *p - 'A';
 1.6    dyoung 		else if ('0' <= *p && *p <= '9')
 1.6    dyoung 			val = *p - '0';
 1.6    dyoung 		else
 1.6    dyoung 			return -1;
 1.6    dyoung
 1.7    dyoung 		dbg_warnx("%s.%d", __func__, __LINE__);
 1.6    dyoung 		if (state == LLADDR_S_ONE_OCTET) {
 1.6    dyoung 			state = LLADDR_S_TWO_OCTETS;
 1.6    dyoung 			octet <<= 4;
 1.6    dyoung 			octet |= val;
 1.6    dyoung 		} else if (state != LLADDR_S_INITIAL && state != LLADDR_S_COLON)
 1.6    dyoung 			return -1;
 1.6    dyoung 		else {
 1.6    dyoung 			state = LLADDR_S_ONE_OCTET;
 1.6    dyoung 			octet = val;
 1.6    dyoung 		}
 1.7    dyoung 		dbg_warnx("%s.%d", __func__, __LINE__);
 1.6    dyoung 	}
 1.6    dyoung 	return -1;
 1.6    dyoung }
 1.6    dyoung
 1.6    dyoung static int
 1.1    dyoung paddr_match(const struct parser *p, const struct match *im, struct match *om,
 1.1    dyoung     int argidx, const char *arg0)
 1.1    dyoung {
 1.1    dyoung 	unsigned int net, node;
 1.1    dyoung 	int nread;
 1.1    dyoung 	union {
 1.1    dyoung 		struct sockaddr sa;
 1.1    dyoung 		struct sockaddr_at sat;
 1.1    dyoung 		struct sockaddr_in sin;
 1.6    dyoung 		struct sockaddr_storage ss;
 1.1    dyoung 	} u;
 1.1    dyoung 	const struct paddr *pa = (const struct paddr *)p;
 1.1    dyoung 	prop_data_t d;
 1.1    dyoung 	prop_object_t o;
 1.3    dyoung 	int64_t af0;
 1.1    dyoung 	int af, rc;
 1.1    dyoung 	struct paddr_prefix *pfx, *mask;
 1.1    dyoung 	const struct sockaddr *sa = NULL;
 1.1    dyoung 	struct addrinfo hints, *result = NULL;
 1.1    dyoung 	char *arg, *end, *plen = NULL, *servname0;
 1.1    dyoung 	const char *servname;
 1.4    dyoung 	long prefixlen = -1;
 1.1    dyoung 	size_t len;
 1.1    dyoung
 1.5    dyoung 	if (arg0 == NULL) {
 1.5    dyoung 		errno = EINVAL;
 1.1    dyoung 		return -1;
 1.5    dyoung 	}
 1.1    dyoung
 1.1    dyoung 	if (pa->pa_activator != NULL &&
 1.1    dyoung 	    prop_dictionary_get(im->m_env, pa->pa_activator) == NULL)
 1.1    dyoung 		return -1;
 1.1    dyoung
 1.1    dyoung 	if (pa->pa_deactivator != NULL &&
 1.1    dyoung 	    prop_dictionary_get(im->m_env, pa->pa_deactivator) != NULL)
 1.1    dyoung 		return -1;
 1.1    dyoung
 1.3    dyoung 	if (!prop_dictionary_get_int64(im->m_env, "af", &af0))
 1.3    dyoung 		af = AF_UNSPEC;
 1.3    dyoung 	else
 1.3    dyoung 		af = af0;
 1.1    dyoung
1.11    dyoung 	memset(&u, 0, sizeof(u));
1.11    dyoung
 1.1    dyoung 	switch (af) {
 1.1    dyoung 	case AF_UNSPEC:
 1.1    dyoung 	case AF_INET:
 1.1    dyoung 	case AF_INET6:
 1.1    dyoung 		if ((arg = strdup(arg0)) == NULL)
 1.1    dyoung 			return -1;
 1.1    dyoung
 1.1    dyoung 		servname0 = arg;
 1.1    dyoung 		(void)strsep(&servname0, ",");
 1.1    dyoung 		servname = (servname0 == NULL) ? "0" : servname0;
 1.1    dyoung
 1.1    dyoung 		if (pa->pa_maskkey == NULL)
 1.1    dyoung 			;
 1.1    dyoung 		else if ((plen = strrchr(arg, '/')) != NULL)
 1.1    dyoung 			*plen++ = '\0';
 1.1    dyoung
 1.1    dyoung 		memset(&hints, 0, sizeof(hints));
 1.1    dyoung
 1.1    dyoung 		hints.ai_flags = AI_NUMERICHOST | AI_PASSIVE;
 1.1    dyoung 		hints.ai_family = af;
 1.1    dyoung 		hints.ai_socktype = SOCK_DGRAM;
 1.1    dyoung
 1.1    dyoung 		for (;;) {
 1.1    dyoung 			rc = getaddrinfo(arg, servname, &hints, &result);
 1.1    dyoung 			if (rc == 0) {
 1.1    dyoung 				if (result->ai_next == NULL)
 1.1    dyoung 					sa = result->ai_addr;
 1.1    dyoung 				else
 1.1    dyoung 					errno = EMLINK;
 1.1    dyoung 				break;
 1.1    dyoung 			} else if ((hints.ai_flags & AI_NUMERICHOST) != 0 &&
 1.1    dyoung 			    (af == AF_INET || af == AF_UNSPEC) &&
 1.1    dyoung 			    inet_aton(arg, &u.sin.sin_addr) == 1) {
 1.1    dyoung 				u.sin.sin_family = AF_INET;
 1.1    dyoung 				u.sin.sin_len = sizeof(u.sin);
 1.1    dyoung 				sa = &u.sa;
 1.1    dyoung 				break;
 1.1    dyoung 			} else if ((hints.ai_flags & AI_NUMERICHOST) == 0 ||
 1.1    dyoung 				 rc != EAI_NONAME) {
 1.1    dyoung 				errno = ENOENT;
 1.1    dyoung 				break;
 1.1    dyoung 			}
 1.1    dyoung 			hints.ai_flags &= ~AI_NUMERICHOST;
 1.1    dyoung 		}
 1.1    dyoung
 1.1    dyoung
 1.1    dyoung 		if (plen == NULL)
 1.4    dyoung 			prefixlen = -1;
 1.1    dyoung 		else {
 1.1    dyoung 			prefixlen = strtol(plen, &end, 10);
 1.1    dyoung 			if (end != NULL && *end != '\0')
 1.1    dyoung 				sa = NULL;
 1.4    dyoung 			if (prefixlen < 0 || prefixlen >= UINT8_MAX) {
 1.4    dyoung 				errno = ERANGE;
 1.4    dyoung 				sa = NULL;
 1.4    dyoung 			}
 1.1    dyoung 		}
 1.1    dyoung
 1.1    dyoung 		free(arg);
 1.1    dyoung 		if (sa != NULL || af != AF_UNSPEC)
 1.1    dyoung 			break;
 1.1    dyoung 		/*FALLTHROUGH*/
 1.1    dyoung 	case AF_APPLETALK:
 1.1    dyoung 		if (sscanf(arg0, "%u.%u%n", &net, &node, &nread) == 2 &&
 1.1    dyoung 		    net != 0 && net <= 0xffff && node != 0 && node <= 0xfe &&
 1.1    dyoung 		    arg0[nread] == '\0') {
 1.1    dyoung 			u.sat.sat_family = AF_APPLETALK;
 1.1    dyoung 			u.sat.sat_len = sizeof(u.sat);
 1.1    dyoung 			u.sat.sat_addr.s_net = htons(net);
 1.1    dyoung 			u.sat.sat_addr.s_node = node;
 1.1    dyoung 			sa = &u.sa;
 1.1    dyoung 		}
 1.8    dyoung 		break;
 1.6    dyoung 	case AF_LINK:
 1.6    dyoung 		if (parse_linkaddr(arg0, &u.ss) == -1)
 1.6    dyoung 			sa = NULL;
 1.6    dyoung 		else
 1.6    dyoung 			sa = &u.sa;
 1.6    dyoung 		break;
 1.1    dyoung 	}
 1.1    dyoung
 1.1    dyoung 	if (sa == NULL)
 1.1    dyoung 		return -1;
 1.1    dyoung
 1.1    dyoung 	len = offsetof(struct paddr_prefix, pfx_addr) + sa->sa_len;
 1.1    dyoung
 1.1    dyoung 	if ((pfx = malloc(len)) == NULL)
 1.1    dyoung 		return -1;
 1.1    dyoung
 1.1    dyoung #if 0
 1.1    dyoung 	{
 1.1    dyoung 		int i;
 1.1    dyoung
 1.1    dyoung 		for (i = 0; i < sa->sa_len; i++)
 1.1    dyoung 			printf(" %02x", ((const uint8_t *)sa)[i]);
 1.1    dyoung 		printf("\n");
 1.1    dyoung 	}
 1.1    dyoung #endif
 1.1    dyoung
 1.4    dyoung 	pfx->pfx_len = (int16_t)prefixlen;
 1.1    dyoung 	memcpy(&pfx->pfx_addr, sa, sa->sa_len);
 1.1    dyoung 	af = sa->sa_family;
 1.1    dyoung
 1.1    dyoung 	if (result != NULL)
 1.1    dyoung 		freeaddrinfo(result);
 1.1    dyoung
 1.1    dyoung 	o = (prop_object_t)prop_data_create_data(pfx, len);
 1.1    dyoung
 1.1    dyoung 	free(pfx);
 1.1    dyoung
 1.1    dyoung 	if (o == NULL)
 1.1    dyoung 		return -1;
 1.1    dyoung
 1.1    dyoung 	if (match_setenv(im, om, pa->pa_addrkey, o) == -1)
 1.1    dyoung 		return -1;
 1.1    dyoung
 1.1    dyoung 	if (pa->pa_maskkey != NULL && plen != NULL) {
 1.1    dyoung 		size_t masklen;
 1.1    dyoung
 1.1    dyoung 		if ((mask = prefixlen_to_mask(af, prefixlen)) == NULL) {
 1.1    dyoung 			err(EXIT_FAILURE, "%s: prefixlen_to_mask(%d, %ld)",
 1.1    dyoung 			    __func__, af, prefixlen);
 1.1    dyoung 			return -1;
 1.1    dyoung 		}
 1.1    dyoung
1.12    dyoung 		masklen = paddr_prefix_size(mask);
 1.1    dyoung
 1.1    dyoung 		d = prop_data_create_data(mask, masklen);
 1.1    dyoung 		free(mask);
 1.1    dyoung
 1.1    dyoung 		if (d == NULL) {
 1.1    dyoung 			err(EXIT_FAILURE, "%s: prop_data_create_data",
 1.1    dyoung 			    __func__);
 1.1    dyoung 			return -1;
 1.1    dyoung 		}
 1.1    dyoung
 1.1    dyoung 		rc = prop_dictionary_set(om->m_env, pa->pa_maskkey,
 1.1    dyoung 		    (prop_object_t)d) ? 0 : -1;
 1.1    dyoung
 1.1    dyoung 		prop_object_release((prop_object_t)d);
 1.1    dyoung
 1.1    dyoung 		if (rc != 0) {
 1.1    dyoung 			err(EXIT_FAILURE, "%s: prop_dictionary_set", __func__);
 1.1    dyoung 			return rc;
 1.1    dyoung 		}
 1.1    dyoung 	}
 1.1    dyoung
 1.1    dyoung 	om->m_argidx = argidx;
 1.1    dyoung 	om->m_parser = p;
 1.1    dyoung 	om->m_nextparser = p->p_nextparser;
 1.1    dyoung 	return 0;
 1.1    dyoung }
 1.1    dyoung
 1.1    dyoung static int
 1.1    dyoung pterm_match(const struct parser *p, const struct match *im,
 1.1    dyoung     struct match *om, int argidx, const char *arg)
 1.1    dyoung {
 1.1    dyoung 	const struct pterm *pt = (const struct pterm *)p;
 1.1    dyoung 	prop_bool_t b;
 1.1    dyoung
 1.1    dyoung 	if (arg != NULL) {
 1.1    dyoung 		errno = EINVAL;
 1.1    dyoung 		return -1;
 1.1    dyoung 	}
 1.1    dyoung 	b = prop_bool_create(true);
 1.1    dyoung
 1.1    dyoung 	if (match_setenv(im, om, pt->pt_key, (prop_object_t)b) == -1)
 1.1    dyoung 		return -1;
 1.1    dyoung
 1.1    dyoung 	om->m_argidx = argidx;
 1.1    dyoung 	om->m_parser = p;
 1.1    dyoung 	om->m_nextparser = NULL;
 1.1    dyoung 	return 0;
 1.1    dyoung }
 1.1    dyoung
 1.1    dyoung static int
 1.1    dyoung piface_match(const struct parser *p, const struct match *im,
 1.1    dyoung     struct match *om, int argidx, const char *arg)
 1.1    dyoung {
 1.1    dyoung 	const struct piface *pif = (const struct piface *)p;
 1.1    dyoung 	prop_object_t o;
 1.1    dyoung
 1.1    dyoung 	if (arg == NULL || strlen(arg) > IFNAMSIZ) {
 1.1    dyoung 		errno = EINVAL;
 1.1    dyoung 		return -1;
 1.1    dyoung 	}
 1.1    dyoung
 1.1    dyoung 	if ((o = (prop_object_t)prop_string_create_cstring(arg)) == NULL) {
 1.1    dyoung 		errno = ENOMEM;
 1.1    dyoung 		return -1;
 1.1    dyoung 	}
 1.1    dyoung
 1.1    dyoung 	if (match_setenv(im, om, pif->pif_key, o) == -1)
 1.1    dyoung 		return -1;
 1.1    dyoung
 1.1    dyoung 	om->m_argidx = argidx;
 1.1    dyoung 	om->m_parser = p;
 1.1    dyoung 	om->m_nextparser = p->p_nextparser;
 1.1    dyoung 	return 0;
 1.1    dyoung }
 1.1    dyoung
 1.1    dyoung static void
 1.1    dyoung match_cleanup(struct match *dst)
 1.1    dyoung {
 1.1    dyoung 	if (dst->m_env != NULL)
 1.1    dyoung 		prop_object_release((prop_object_t)dst->m_env);
 1.1    dyoung 	memset(dst, 0, sizeof(*dst));
 1.1    dyoung }
 1.1    dyoung
 1.1    dyoung static void
 1.1    dyoung match_copy(struct match *dst, const struct match *src)
 1.1    dyoung {
 1.1    dyoung 	match_cleanup(dst);
 1.1    dyoung
 1.1    dyoung 	prop_object_retain((prop_object_t)src->m_env);
 1.1    dyoung 	*dst = *src;
 1.1    dyoung }
 1.1    dyoung
 1.1    dyoung static int
 1.1    dyoung pbranch_match(const struct parser *p, const struct match *im,
 1.1    dyoung     struct match *om, int argidx, const char *arg)
 1.1    dyoung {
 1.1    dyoung 	const struct parser *nextp;
 1.1    dyoung 	struct branch *b;
 1.1    dyoung 	const struct pbranch *pb = (const struct pbranch *)p;
 1.1    dyoung 	struct match tmpm;
 1.1    dyoung 	int nforbid = 0, nmatch = 0, rc;
 1.1    dyoung 	parser_match_t matchfunc;
 1.1    dyoung
 1.1    dyoung 	memset(&tmpm, 0, sizeof(tmpm));
 1.1    dyoung
 1.1    dyoung 	SIMPLEQ_FOREACH(b, &pb->pb_branches, b_next) {
 1.1    dyoung 		nextp = b->b_nextparser;
1.18  christos 		dbg_warnx("%s: b->b_nextparser %p [%s]", __func__,
1.18  christos 		    nextp, nextp ? nextp->p_name : "(null)");
 1.1    dyoung 		if (nextp == NULL) {
 1.1    dyoung 			if (arg == NULL) {
 1.1    dyoung 				nmatch++;
 1.1    dyoung 				match_setenv(im, om, NULL, NULL);
 1.1    dyoung 				om->m_nextparser = NULL;
 1.1    dyoung 				om->m_parser = p;
 1.1    dyoung 				om->m_argidx = argidx;
 1.1    dyoung 			}
 1.1    dyoung 			continue;
 1.1    dyoung 		}
 1.1    dyoung 		matchfunc = nextp->p_methods->pm_match;
 1.1    dyoung 		rc = (*matchfunc)(nextp, im, &tmpm, argidx, arg);
 1.1    dyoung 		if (rc == 0) {
 1.1    dyoung 			match_copy(om, &tmpm);
 1.1    dyoung 			match_cleanup(&tmpm);
 1.1    dyoung 			nmatch++;
 1.1    dyoung 			dbg_warnx("%s: branch %s ok", __func__, nextp->p_name);
 1.1    dyoung 			if (pb->pb_match_first)
 1.1    dyoung 				break;
 1.1    dyoung 		} else if (rc == 1) {
 1.1    dyoung 			nforbid++;
 1.1    dyoung 			if (pb->pb_match_first)
 1.1    dyoung 				break;
 1.1    dyoung 		} else {
 1.1    dyoung 			dbg_warnx("%s: fail branch %s", __func__,
 1.1    dyoung 			    nextp->p_name);
 1.1    dyoung 		}
 1.1    dyoung 	}
 1.1    dyoung 	switch (nmatch) {
 1.1    dyoung 	case 0:
 1.1    dyoung 		errno = ENOENT;
 1.1    dyoung 		return (nforbid == 0) ? -1 : 1;
 1.1    dyoung 	case 1:
 1.1    dyoung 		dbg_warnx("%s: branch ok", __func__);
 1.1    dyoung 		return 0;
 1.1    dyoung 	default:
 1.1    dyoung 		match_cleanup(om);
 1.1    dyoung 		errno = EMLINK;
 1.1    dyoung 		return -1;
 1.1    dyoung 	}
 1.1    dyoung }
 1.1    dyoung
 1.1    dyoung static int
 1.1    dyoung pkw_match(const struct parser *p, const struct match *im,
 1.1    dyoung     struct match *om, int argidx, const char *arg)
 1.1    dyoung {
 1.1    dyoung 	prop_object_t o = NULL;
 1.1    dyoung 	struct kwinst *k;
 1.1    dyoung 	union kwval *u = NULL;
 1.1    dyoung 	const struct pkw *pk = (const struct pkw *)p;
 1.1    dyoung
 1.1    dyoung 	if (arg == NULL) {
 1.1    dyoung 		errno = EINVAL;
 1.1    dyoung 		return -1;
 1.1    dyoung 	}
 1.1    dyoung
 1.1    dyoung 	SIMPLEQ_FOREACH(k, &pk->pk_keywords, k_next) {
 1.1    dyoung 		if (k->k_act != NULL &&
 1.1    dyoung 		    prop_dictionary_get(im->m_env, k->k_act) == NULL)
 1.1    dyoung 			continue;
 1.1    dyoung
 1.1    dyoung 		if (k->k_neg && arg[0] == '-' &&
 1.1    dyoung 		    strcmp(k->k_word, arg + 1) == 0)
 1.1    dyoung 			u = &k->k_negu;
 1.1    dyoung 		else if (strcmp(k->k_word, arg) == 0)
 1.1    dyoung 			u = &k->k_u;
 1.1    dyoung 		else
 1.1    dyoung 			continue;
 1.1    dyoung
 1.1    dyoung 		if (k->k_altdeact != NULL &&
 1.1    dyoung 		    prop_dictionary_get(im->m_env, k->k_altdeact) != NULL)
 1.1    dyoung 			return 1;
 1.1    dyoung
 1.1    dyoung 		if (k->k_deact != NULL &&
 1.1    dyoung 		    prop_dictionary_get(im->m_env, k->k_deact) != NULL)
 1.1    dyoung 			return 1;
 1.1    dyoung 		break;
 1.1    dyoung 	}
 1.1    dyoung 	if (k == NULL) {
 1.1    dyoung 		errno = ENOENT;
 1.1    dyoung 		return -1;
 1.1    dyoung 	}
 1.1    dyoung 	switch (k->k_type) {
 1.1    dyoung 	case KW_T_NONE:
 1.1    dyoung 		break;
 1.1    dyoung 	case KW_T_BOOL:
 1.1    dyoung 		o = (prop_object_t)prop_bool_create(u->u_bool);
 1.1    dyoung 		if (o == NULL)
 1.1    dyoung 			goto err;
 1.1    dyoung 		break;
 1.8    dyoung 	case KW_T_INT:
 1.8    dyoung 		o = (prop_object_t)prop_number_create_integer(u->u_sint);
 1.8    dyoung 		if (o == NULL)
 1.8    dyoung 			goto err;
 1.8    dyoung 		break;
 1.8    dyoung 	case KW_T_UINT:
 1.8    dyoung 		o = (prop_object_t)prop_number_create_unsigned_integer(
 1.8    dyoung 		    u->u_uint);
 1.1    dyoung 		if (o == NULL)
 1.1    dyoung 			goto err;
 1.1    dyoung 		break;
 1.1    dyoung 	case KW_T_OBJ:
 1.1    dyoung 		o = u->u_obj;
 1.1    dyoung 		break;
 1.1    dyoung 	case KW_T_STR:
1.14    dyoung 		o = (prop_object_t)prop_string_create_cstring_nocopy(u->u_str);
 1.1    dyoung 		if (o == NULL)
 1.1    dyoung 			goto err;
 1.1    dyoung 		break;
 1.1    dyoung 	default:
 1.1    dyoung 		errx(EXIT_FAILURE, "unknown keyword type %d", k->k_type);
 1.1    dyoung 	}
 1.1    dyoung
 1.1    dyoung 	if (match_setenv(im, om, (o == NULL) ? NULL : k->k_key, o) == -1)
 1.1    dyoung 		return -1;
 1.1    dyoung
 1.1    dyoung 	om->m_argidx = argidx;
 1.1    dyoung 	om->m_parser = p;
 1.1    dyoung 	om->m_nextparser = k->k_nextparser;
 1.1    dyoung 	om->m_exec = k->k_exec;
 1.1    dyoung 	return 0;
 1.1    dyoung err:
 1.1    dyoung 	errno = ENOMEM;
 1.1    dyoung 	return -1;
 1.1    dyoung }
 1.1    dyoung
 1.1    dyoung struct paddr *
 1.1    dyoung paddr_create(const char *name, parser_exec_t pexec, const char *addrkey,
 1.1    dyoung     const char *maskkey, struct parser *next)
 1.1    dyoung {
 1.1    dyoung 	struct paddr *pa;
 1.1    dyoung
 1.1    dyoung 	if ((pa = calloc(sizeof(*pa), 1)) == NULL)
 1.1    dyoung 		return NULL;
 1.1    dyoung
 1.1    dyoung 	pa->pa_parser.p_methods = &paddr_methods;
 1.1    dyoung 	pa->pa_parser.p_exec = pexec;
 1.1    dyoung 	pa->pa_parser.p_name = name;
 1.1    dyoung 	pa->pa_parser.p_nextparser = next;
 1.1    dyoung
 1.1    dyoung 	pa->pa_addrkey = addrkey;
 1.1    dyoung 	pa->pa_maskkey = maskkey;
 1.1    dyoung
 1.1    dyoung 	return pa;
 1.1    dyoung }
 1.1    dyoung
 1.1    dyoung struct piface *
 1.1    dyoung piface_create(const char *name, parser_exec_t pexec, const char *defkey,
 1.1    dyoung     struct parser *defnext)
 1.1    dyoung {
 1.1    dyoung 	struct piface *pif;
 1.1    dyoung
 1.1    dyoung 	if ((pif = calloc(sizeof(*pif), 1)) == NULL)
 1.1    dyoung 		return NULL;
 1.1    dyoung
 1.1    dyoung 	pif->pif_parser.p_methods = &piface_methods;
 1.1    dyoung 	pif->pif_parser.p_exec = pexec;
 1.1    dyoung 	pif->pif_parser.p_name = name;
 1.1    dyoung 	pif->pif_parser.p_nextparser = defnext;
 1.1    dyoung
 1.1    dyoung 	pif->pif_key = defkey;
 1.1    dyoung
 1.1    dyoung 	return pif;
 1.1    dyoung }
 1.1    dyoung
 1.1    dyoung int
 1.9    dyoung pbranch_addbranch(struct pbranch *pb, struct parser *p)
 1.9    dyoung {
 1.9    dyoung 	struct branch *b;
 1.9    dyoung
 1.9    dyoung 	if ((b = malloc(sizeof(*b))) == NULL)
 1.9    dyoung 		return -1;
 1.9    dyoung 	b->b_nextparser = p;
 1.9    dyoung 	SIMPLEQ_INSERT_HEAD(&pb->pb_branches, b, b_next);
 1.9    dyoung 	pb->pb_parser.p_initialized = false;
 1.9    dyoung 	return parser_init(&pb->pb_parser);
 1.9    dyoung }
 1.9    dyoung
 1.9    dyoung int
 1.1    dyoung pbranch_setbranches(struct pbranch *pb, const struct branch *brs, size_t nbr)
 1.1    dyoung {
 1.1    dyoung 	struct branch *b;
1.13     lukem 	size_t i;
 1.1    dyoung
 1.1    dyoung 	dbg_warnx("%s: nbr %zu", __func__, nbr);
 1.1    dyoung
 1.1    dyoung 	while ((b = SIMPLEQ_FIRST(&pb->pb_branches)) != NULL) {
 1.1    dyoung 		SIMPLEQ_REMOVE_HEAD(&pb->pb_branches, b_next);
 1.1    dyoung 		free(b);
 1.1    dyoung 	}
 1.1    dyoung
 1.1    dyoung 	for (i = 0; i < nbr; i++) {
 1.1    dyoung 		if ((b = malloc(sizeof(*b))) == NULL)
 1.1    dyoung 			goto err;
 1.1    dyoung 		*b = brs[i];
1.18  christos 		dbg_warnx("%s: b->b_nextparser %p [%s]", __func__,
1.18  christos 		    b->b_nextparser, b->b_nextparser ? b->b_nextparser->p_name
1.18  christos 		    : "(null)");
 1.1    dyoung 		SIMPLEQ_INSERT_TAIL(&pb->pb_branches, b, b_next);
 1.1    dyoung 	}
 1.1    dyoung
 1.1    dyoung 	return 0;
 1.1    dyoung err:
 1.1    dyoung 	while ((b = SIMPLEQ_FIRST(&pb->pb_branches)) != NULL) {
 1.1    dyoung 		SIMPLEQ_REMOVE_HEAD(&pb->pb_branches, b_next);
 1.1    dyoung 		free(b);
 1.1    dyoung 	}
 1.1    dyoung 	return -1;
 1.1    dyoung }
 1.1    dyoung
 1.1    dyoung static int
 1.1    dyoung pbranch_init(struct parser *p)
 1.1    dyoung {
 1.1    dyoung 	struct branch *b;
 1.1    dyoung 	struct pbranch *pb = (struct pbranch *)p;
 1.1    dyoung 	struct parser *np;
 1.1    dyoung
 1.9    dyoung 	if (pb->pb_nbrinit == 0)
 1.9    dyoung 		;
 1.9    dyoung 	else if (pbranch_setbranches(pb, pb->pb_brinit, pb->pb_nbrinit) == -1)
 1.9    dyoung 		return -1;
 1.1    dyoung
 1.9    dyoung 	pb->pb_nbrinit = 0;
 1.1    dyoung
 1.1    dyoung 	SIMPLEQ_FOREACH(b, &pb->pb_branches, b_next) {
 1.1    dyoung 		np = b->b_nextparser;
 1.1    dyoung 		if (np != NULL && parser_init(np) == -1)
 1.1    dyoung 			return -1;
 1.1    dyoung 	}
 1.1    dyoung 	return 0;
 1.1    dyoung }
 1.1    dyoung
 1.1    dyoung struct pbranch *
 1.1    dyoung pbranch_create(const char *name, const struct branch *brs, size_t nbr,
 1.1    dyoung     bool match_first)
 1.1    dyoung {
 1.1    dyoung 	struct pbranch *pb;
 1.1    dyoung
 1.1    dyoung 	dbg_warnx("%s: nbr %zu", __func__, nbr);
 1.1    dyoung
 1.1    dyoung 	if ((pb = calloc(1, sizeof(*pb))) == NULL)
 1.1    dyoung 		return NULL;
 1.1    dyoung
 1.1    dyoung 	pb->pb_parser.p_methods = &pbranch_methods;
 1.1    dyoung 	pb->pb_parser.p_name = name;
 1.1    dyoung
 1.1    dyoung 	SIMPLEQ_INIT(&pb->pb_branches);
 1.1    dyoung
 1.1    dyoung 	if (pbranch_setbranches(pb, brs, nbr) == -1)
 1.1    dyoung 		goto post_pb_err;
 1.1    dyoung
 1.1    dyoung 	pb->pb_match_first = match_first;
 1.1    dyoung 	return pb;
 1.1    dyoung post_pb_err:
 1.1    dyoung 	free(pb);
 1.1    dyoung 	return NULL;
 1.1    dyoung }
 1.1    dyoung
 1.1    dyoung static int
 1.1    dyoung parser_default_init(struct parser *p)
 1.1    dyoung {
 1.1    dyoung 	struct parser *np;
 1.1    dyoung
 1.1    dyoung 	np = p->p_nextparser;
 1.1    dyoung 	if (np != NULL && parser_init(np) == -1)
 1.1    dyoung 		return -1;
 1.1    dyoung
 1.1    dyoung 	return 0;
 1.1    dyoung }
 1.1    dyoung
 1.1    dyoung static int
 1.1    dyoung pkw_setwords(struct pkw *pk, parser_exec_t defexec, const char *defkey,
 1.1    dyoung     const struct kwinst *kws, size_t nkw, struct parser *defnext)
 1.1    dyoung {
 1.1    dyoung 	struct kwinst *k;
1.13     lukem 	size_t i;
 1.1    dyoung
 1.1    dyoung 	for (i = 0; i < nkw; i++) {
 1.9    dyoung 		if (kws[i].k_word == NULL)
 1.9    dyoung 			continue;
 1.1    dyoung 		if ((k = malloc(sizeof(*k))) == NULL)
 1.1    dyoung 			goto post_pk_err;
 1.1    dyoung 		*k = kws[i];
 1.1    dyoung 		if (k->k_nextparser == NULL)
 1.1    dyoung 			k->k_nextparser = defnext;
 1.1    dyoung 		if (k->k_key == NULL)
 1.1    dyoung 			k->k_key = defkey;
 1.1    dyoung 		if (k->k_exec == NULL)
 1.1    dyoung 			k->k_exec = defexec;
 1.1    dyoung 		SIMPLEQ_INSERT_TAIL(&pk->pk_keywords, k, k_next);
 1.1    dyoung 	}
 1.1    dyoung 	return 0;
 1.1    dyoung
 1.1    dyoung post_pk_err:
 1.1    dyoung 	while ((k = SIMPLEQ_FIRST(&pk->pk_keywords)) != NULL) {
 1.1    dyoung 		SIMPLEQ_REMOVE_HEAD(&pk->pk_keywords, k_next);
 1.1    dyoung 		free(k);
 1.1    dyoung 	}
 1.1    dyoung 	return -1;
 1.1    dyoung }
 1.1    dyoung
 1.1    dyoung static int
 1.1    dyoung pkw_init(struct parser *p)
 1.1    dyoung {
 1.1    dyoung 	struct kwinst *k;
 1.1    dyoung 	struct pkw *pk = (struct pkw *)p;
 1.1    dyoung 	struct parser *np;
 1.1    dyoung
 1.9    dyoung 	if (pk->pk_nkwinit == 0)
 1.9    dyoung 		;
 1.9    dyoung 	else if (pkw_setwords(pk, pk->pk_execinit, pk->pk_keyinit,
 1.9    dyoung 	    pk->pk_kwinit, pk->pk_nkwinit, pk->pk_nextinit) == -1)
 1.1    dyoung 		return -1;
 1.9    dyoung
 1.9    dyoung 	pk->pk_nkwinit = 0;
 1.9    dyoung
 1.1    dyoung 	SIMPLEQ_FOREACH(k, &pk->pk_keywords, k_next) {
 1.1    dyoung 		np = k->k_nextparser;
 1.1    dyoung 		if (np != NULL && parser_init(np) == -1)
 1.1    dyoung 			return -1;
 1.1    dyoung 	}
 1.1    dyoung 	return 0;
 1.1    dyoung }
 1.1    dyoung
 1.1    dyoung struct pkw *
 1.1    dyoung pkw_create(const char *name, parser_exec_t defexec, const char *defkey,
 1.1    dyoung     const struct kwinst *kws, size_t nkw, struct parser *defnext)
 1.1    dyoung {
 1.1    dyoung 	struct pkw *pk;
 1.1    dyoung
 1.1    dyoung 	if ((pk = calloc(1, sizeof(*pk))) == NULL)
 1.1    dyoung 		return NULL;
 1.1    dyoung
 1.1    dyoung 	pk->pk_parser.p_methods = &pkw_methods;
 1.1    dyoung 	pk->pk_parser.p_exec = defexec;
 1.1    dyoung 	pk->pk_parser.p_name = name;
 1.1    dyoung
 1.1    dyoung 	SIMPLEQ_INIT(&pk->pk_keywords);
 1.1    dyoung
 1.1    dyoung 	if (pkw_setwords(pk, defexec, defkey, kws, nkw, defnext) == -1)
 1.1    dyoung 		goto err;
 1.1    dyoung
 1.1    dyoung 	return pk;
 1.1    dyoung err:
 1.1    dyoung 	free(pk);
 1.1    dyoung 	return NULL;
 1.1    dyoung }
 1.1    dyoung
 1.1    dyoung int
 1.1    dyoung parse(int argc, char **argv, const struct parser *p0, struct match *matches,
 1.1    dyoung     size_t *nmatch, int *narg)
 1.1    dyoung {
 1.1    dyoung 	int i, rc = 0;
 1.1    dyoung 	struct match *lastm = NULL, *m = matches;
 1.1    dyoung 	const struct parser *p = p0;
 1.1    dyoung
 1.1    dyoung 	for (i = 0; i < argc && p != NULL; i++) {
1.13     lukem 		if ((size_t)(m - matches) >= *nmatch) {
 1.1    dyoung 			errno = EFBIG;
 1.1    dyoung 			rc = -1;
 1.1    dyoung 			break;
 1.1    dyoung 		}
 1.1    dyoung 		rc = (*p->p_methods->pm_match)(p, lastm, m, i, argv[i]);
 1.1    dyoung 		if (rc != 0)
 1.1    dyoung 			goto out;
 1.1    dyoung 		p = m->m_nextparser;
 1.1    dyoung 		lastm = m++;
 1.1    dyoung 	}
1.13     lukem 	for (; (size_t)(m - matches) < *nmatch && p != NULL; ) {
 1.1    dyoung 		rc = (*p->p_methods->pm_match)(p, lastm, m, i, NULL);
 1.1    dyoung 		if (rc != 0)
 1.1    dyoung 			break;
 1.1    dyoung 		p = m->m_nextparser;
 1.1    dyoung 		lastm = m++;
 1.1    dyoung 	}
 1.1    dyoung out:
 1.1    dyoung 	*nmatch = m - matches;
 1.1    dyoung 	*narg = i;
 1.1    dyoung 	return rc;
 1.1    dyoung }
 1.1    dyoung
 1.1    dyoung int
1.10    dyoung matches_exec(const struct match *matches, prop_dictionary_t oenv, size_t nmatch)
 1.1    dyoung {
1.13     lukem 	size_t i;
1.13     lukem 	int rc = 0;
 1.1    dyoung 	const struct match *m;
 1.1    dyoung 	parser_exec_t pexec;
 1.1    dyoung 	prop_dictionary_t d;
 1.1    dyoung
 1.1    dyoung 	for (i = 0; i < nmatch; i++) {
 1.1    dyoung 		m = &matches[i];
1.13     lukem 		dbg_warnx("%s.%d: i %zu", __func__, __LINE__, i);
 1.1    dyoung 		pexec = (m->m_parser->p_exec != NULL)
 1.1    dyoung 		    ? m->m_parser->p_exec : m->m_exec;
 1.1    dyoung 		if (pexec == NULL)
 1.1    dyoung 			continue;
 1.1    dyoung 		dbg_warnx("%s.%d: m->m_parser->p_name %s", __func__, __LINE__,
 1.1    dyoung 		    m->m_parser->p_name);
1.10    dyoung 		d = prop_dictionary_augment(m->m_env, oenv);
1.10    dyoung 		rc = (*pexec)(d, oenv);
 1.1    dyoung 		prop_object_release((prop_object_t)d);
 1.1    dyoung 		if (rc == -1)
 1.1    dyoung 			break;
 1.1    dyoung 	}
 1.1    dyoung 	return rc;
 1.1    dyoung }
 1.9    dyoung
 1.9    dyoung int
 1.9    dyoung parser_init(struct parser *p)
 1.9    dyoung {
 1.9    dyoung 	if (p->p_initialized)
 1.9    dyoung 		return 0;
 1.9    dyoung 	p->p_initialized = true;
 1.9    dyoung 	if (p->p_methods->pm_init == NULL)
 1.9    dyoung 		return 0;
 1.9    dyoung 	return (*p->p_methods->pm_init)(p);
 1.9    dyoung }