net/npf/npf_ctl.c

1.1  rmind /*	$NetBSD: npf_ctl.c,v 1.1 2010/08/22 18:56:22 rmind Exp $	*/
1.1  rmind
1.1  rmind /*-
1.1  rmind  * Copyright (c) 2009-2010 The NetBSD Foundation, Inc.
1.1  rmind  * All rights reserved.
1.1  rmind  *
1.1  rmind  * This material is based upon work partially supported by The
1.1  rmind  * NetBSD Foundation under a contract with Mindaugas Rasiukevicius.
1.1  rmind  *
1.1  rmind  * Redistribution and use in source and binary forms, with or without
1.1  rmind  * modification, are permitted provided that the following conditions
1.1  rmind  * are met:
1.1  rmind  * 1. Redistributions of source code must retain the above copyright
1.1  rmind  *    notice, this list of conditions and the following disclaimer.
1.1  rmind  * 2. Redistributions in binary form must reproduce the above copyright
1.1  rmind  *    notice, this list of conditions and the following disclaimer in the
1.1  rmind  *    documentation and/or other materials provided with the distribution.
1.1  rmind  *
1.1  rmind  * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
1.1  rmind  * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
1.1  rmind  * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
1.1  rmind  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
1.1  rmind  * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
1.1  rmind  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
1.1  rmind  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
1.1  rmind  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
1.1  rmind  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
1.1  rmind  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
1.1  rmind  * POSSIBILITY OF SUCH DAMAGE.
1.1  rmind  */
1.1  rmind
1.1  rmind /*
1.1  rmind  * NPF device control.
1.1  rmind  *
1.1  rmind  * Implementation of (re)loading, construction of tables and rules.
1.1  rmind  * NPF proplib(9) dictionary consumer.
1.1  rmind  *
1.1  rmind  * TODO:
1.1  rmind  * - Consider implementing 'sync' functionality.
1.1  rmind  */
1.1  rmind
1.1  rmind #ifdef _KERNEL
1.1  rmind #include <sys/cdefs.h>
1.1  rmind __KERNEL_RCSID(0, "$NetBSD: npf_ctl.c,v 1.1 2010/08/22 18:56:22 rmind Exp $");
1.1  rmind
1.1  rmind #include <sys/param.h>
1.1  rmind #include <sys/conf.h>
1.1  rmind #include <sys/kernel.h>
1.1  rmind #endif
1.1  rmind
1.1  rmind #include <prop/proplib.h>
1.1  rmind
1.1  rmind #include "npf_ncode.h"
1.1  rmind #include "npf_impl.h"
1.1  rmind
1.1  rmind /*
1.1  rmind  * npfctl_switch: enable or disable packet inspection.
1.1  rmind  */
1.1  rmind int
1.1  rmind npfctl_switch(void *data)
1.1  rmind {
1.1  rmind 	const bool onoff = *(int *)data ? true : false;
1.1  rmind 	int error;
1.1  rmind
1.1  rmind 	if (onoff) {
1.1  rmind 		/* Enable: add pfil hooks. */
1.1  rmind 		error = npf_register_pfil();
1.1  rmind 	} else {
1.1  rmind 		/* Disable: remove pfil hooks. */
1.1  rmind 		npf_unregister_pfil();
1.1  rmind 		error = 0;
1.1  rmind 	}
1.1  rmind 	return error;
1.1  rmind }
1.1  rmind
1.1  rmind static int
1.1  rmind npf_mk_tables(npf_tableset_t *tblset, prop_array_t tables)
1.1  rmind {
1.1  rmind 	prop_object_iterator_t it;
1.1  rmind 	prop_dictionary_t tbldict;
1.1  rmind 	prop_object_t obj;
1.1  rmind 	int error = 0;
1.1  rmind
1.1  rmind 	/* Tables - array. */
1.1  rmind 	if (prop_object_type(tables) != PROP_TYPE_ARRAY)
1.1  rmind 		return EINVAL;
1.1  rmind
1.1  rmind 	it = prop_array_iterator(tables);
1.1  rmind 	if (it == NULL)
1.1  rmind 		return ENOMEM;
1.1  rmind
1.1  rmind 	while ((tbldict = prop_object_iterator_next(it)) != NULL) {
1.1  rmind 		prop_dictionary_t ent;
1.1  rmind 		prop_object_iterator_t eit;
1.1  rmind 		prop_array_t entries;
1.1  rmind 		npf_table_t *t;
1.1  rmind 		u_int tid;
1.1  rmind 		int type;
1.1  rmind
1.1  rmind 		/* Table - dictionary. */
1.1  rmind 		if (prop_object_type(tbldict) != PROP_TYPE_DICTIONARY) {
1.1  rmind 			error = EINVAL;
1.1  rmind 			break;
1.1  rmind 		}
1.1  rmind
1.1  rmind 		/* Table ID and type. */
1.1  rmind 		obj = prop_dictionary_get(tbldict, "id");
1.1  rmind 		tid = (u_int)prop_number_integer_value(obj);
1.1  rmind 		obj = prop_dictionary_get(tbldict, "type");
1.1  rmind 		type = (int)prop_number_integer_value(obj);
1.1  rmind 		/* Validate them. */
1.1  rmind 		error = npf_table_check(tblset, tid, type);
1.1  rmind 		if (error)
1.1  rmind 			break;
1.1  rmind
1.1  rmind 		/* Create and insert the table. */
1.1  rmind 		t = npf_table_create(tid, type, 1024);	/* XXX */
1.1  rmind 		if (t == NULL) {
1.1  rmind 			error = ENOMEM;
1.1  rmind 			break;
1.1  rmind 		}
1.1  rmind 		error = npf_tableset_insert(tblset, t);
1.1  rmind 		KASSERT(error == 0);
1.1  rmind
1.1  rmind 		/* Entries. */
1.1  rmind 		entries = prop_dictionary_get(tbldict, "entries");
1.1  rmind 		if (prop_object_type(entries) != PROP_TYPE_ARRAY) {
1.1  rmind 			error = EINVAL;
1.1  rmind 			break;
1.1  rmind 		}
1.1  rmind 		eit = prop_array_iterator(entries);
1.1  rmind 		if (eit == NULL) {
1.1  rmind 			error = ENOMEM;
1.1  rmind 			break;
1.1  rmind 		}
1.1  rmind 		while ((ent = prop_object_iterator_next(eit)) != NULL) {
1.1  rmind 			in_addr_t addr, mask;	/* XXX: IPv6 */
1.1  rmind
1.1  rmind 			/* Address. */
1.1  rmind 			obj = prop_dictionary_get(ent, "addr");
1.1  rmind 			addr = (in_addr_t)prop_number_integer_value(obj);
1.1  rmind 			/* Mask. */
1.1  rmind 			obj = prop_dictionary_get(ent, "mask");
1.1  rmind 			mask = (in_addr_t)prop_number_integer_value(obj);
1.1  rmind 			/* Add a table entry. */
1.1  rmind 			error = npf_table_add_v4cidr(tblset, tid, addr, mask);
1.1  rmind 			if (error)
1.1  rmind 				break;
1.1  rmind 		}
1.1  rmind 		prop_object_iterator_release(eit);
1.1  rmind 		if (error)
1.1  rmind 			break;
1.1  rmind 	}
1.1  rmind 	prop_object_iterator_release(it);
1.1  rmind 	/*
1.1  rmind 	 * Note: in a case of error, caller will free entire tableset.
1.1  rmind 	 */
1.1  rmind 	return error;
1.1  rmind }
1.1  rmind
1.1  rmind static void *
1.1  rmind npf_mk_ncode(const void *ncptr, size_t nc_size)
1.1  rmind {
1.1  rmind 	int npf_err, errat;
1.1  rmind 	void *nc;
1.1  rmind
1.1  rmind 	/*
1.1  rmind 	 * Allocate and copy n-code.
1.1  rmind 	 *
1.1  rmind 	 * XXX: Inefficient; consider extending proplib(9) to provide
1.1  rmind 	 * interface for custom allocator and avoid copy.
1.1  rmind 	 */
1.1  rmind 	nc = npf_ncode_alloc(nc_size);
1.1  rmind 	if (nc == NULL) {
1.1  rmind 		return NULL;
1.1  rmind 	}
1.1  rmind 	memcpy(nc, ncptr, nc_size);
1.1  rmind 	npf_err = npf_ncode_validate(nc, nc_size, &errat);
1.1  rmind 	if (npf_err) {
1.1  rmind 		npf_ncode_free(nc, nc_size);
1.1  rmind 		/* TODO: return error details via proplib */
1.1  rmind 		return NULL;
1.1  rmind 	}
1.1  rmind 	return nc;
1.1  rmind }
1.1  rmind
1.1  rmind static int
1.1  rmind npf_mk_singlerule(prop_dictionary_t rldict,
1.1  rmind     npf_ruleset_t *rlset, npf_rule_t **parent)
1.1  rmind {
1.1  rmind 	npf_rule_t *rl;
1.1  rmind 	prop_object_t obj;
1.1  rmind 	int attr, ifidx;
1.1  rmind 	pri_t pri;
1.1  rmind 	size_t nc_size;
1.1  rmind 	void *nc;
1.1  rmind
1.1  rmind 	/* Rule - dictionary. */
1.1  rmind 	if (prop_object_type(rldict) != PROP_TYPE_DICTIONARY)
1.1  rmind 		return EINVAL;
1.1  rmind
1.1  rmind 	/* Attributes (integer). */
1.1  rmind 	obj = prop_dictionary_get(rldict, "attributes");
1.1  rmind 	attr = prop_number_integer_value(obj);
1.1  rmind
1.1  rmind 	/* Priority (integer). */
1.1  rmind 	obj = prop_dictionary_get(rldict, "priority");
1.1  rmind 	pri = prop_number_integer_value(obj);
1.1  rmind
1.1  rmind 	/* Interface ID (integer). */
1.1  rmind 	obj = prop_dictionary_get(rldict, "interface");
1.1  rmind 	ifidx = prop_number_integer_value(obj);
1.1  rmind
1.1  rmind 	/* N-code (binary data). */
1.1  rmind 	obj = prop_dictionary_get(rldict, "ncode");
1.1  rmind 	if (obj) {
1.1  rmind 		const void *ncptr;
1.1  rmind
1.1  rmind 		/* Perform n-code validation. */
1.1  rmind 		nc_size = prop_data_size(obj);
1.1  rmind 		ncptr = prop_data_data_nocopy(obj);
1.1  rmind 		if (ncptr == NULL || nc_size > NPF_NCODE_LIMIT) {
1.1  rmind 			return EINVAL;
1.1  rmind 		}
1.1  rmind 		nc = npf_mk_ncode(ncptr, nc_size);
1.1  rmind 		if (nc == NULL) {
1.1  rmind 			return EINVAL;
1.1  rmind 		}
1.1  rmind 	} else {
1.1  rmind 		/* No n-code. */
1.1  rmind 		nc = NULL;
1.1  rmind 		nc_size = 0;
1.1  rmind 	}
1.1  rmind
1.1  rmind 	/* Allocate and setup NPF rule. */
1.1  rmind 	rl = npf_rule_alloc(attr, pri, ifidx, nc, nc_size);
1.1  rmind 	if (rl == NULL) {
1.1  rmind 		if (nc) {
1.1  rmind 			npf_ncode_free(nc, nc_size);	/* XXX */
1.1  rmind 		}
1.1  rmind 		return ENOMEM;
1.1  rmind 	}
1.1  rmind 	npf_ruleset_insert(rlset, rl);
1.1  rmind 	if (parent) {
1.1  rmind 		*parent = rl;
1.1  rmind 	}
1.1  rmind 	return 0;
1.1  rmind }
1.1  rmind
1.1  rmind static int
1.1  rmind npf_mk_rules(npf_ruleset_t *rlset, prop_array_t rules)
1.1  rmind {
1.1  rmind 	prop_object_iterator_t it;
1.1  rmind 	prop_dictionary_t rldict;
1.1  rmind 	int error;
1.1  rmind
1.1  rmind 	/* Ruleset - array. */
1.1  rmind 	if (prop_object_type(rules) != PROP_TYPE_ARRAY)
1.1  rmind 		return EINVAL;
1.1  rmind
1.1  rmind 	it = prop_array_iterator(rules);
1.1  rmind 	if (it == NULL)
1.1  rmind 		return ENOMEM;
1.1  rmind
1.1  rmind 	error = 0;
1.1  rmind 	while ((rldict = prop_object_iterator_next(it)) != NULL) {
1.1  rmind 		prop_object_iterator_t sit;
1.1  rmind 		prop_array_t subrules;
1.1  rmind 		prop_dictionary_t srldict;
1.1  rmind 		npf_rule_t *myrl;
1.1  rmind
1.1  rmind 		/* Generate a single rule. */
1.1  rmind 		error = npf_mk_singlerule(rldict, rlset, &myrl);
1.1  rmind 		if (error)
1.1  rmind 			break;
1.1  rmind
1.1  rmind 		/* Check for subrules. */
1.1  rmind 		subrules = prop_dictionary_get(rldict, "subrules");
1.1  rmind 		if (subrules == NULL) {
1.1  rmind 			/* No subrules, next.. */
1.1  rmind 			continue;
1.1  rmind 		}
1.1  rmind 		/* Generate subrules, if any. */
1.1  rmind 		if (prop_object_type(subrules) != PROP_TYPE_ARRAY) {
1.1  rmind 			error = EINVAL;
1.1  rmind 			break;
1.1  rmind 		}
1.1  rmind 		sit = prop_array_iterator(subrules);
1.1  rmind 		if (sit == NULL) {
1.1  rmind 			error = ENOMEM;
1.1  rmind 			break;
1.1  rmind 		}
1.1  rmind 		while ((srldict = prop_object_iterator_next(sit)) != NULL) {
1.1  rmind 			/* For subrule, pass ruleset pointer of parent. */
1.1  rmind 			error = npf_mk_singlerule(srldict,
1.1  rmind 			    npf_rule_subset(myrl), NULL);
1.1  rmind 			if (error)
1.1  rmind 				break;
1.1  rmind 		}
1.1  rmind 		prop_object_iterator_release(sit);
1.1  rmind 		if (error)
1.1  rmind 			break;
1.1  rmind 	}
1.1  rmind 	prop_object_iterator_release(it);
1.1  rmind 	/*
1.1  rmind 	 * Note: in a case of error, caller will free entire ruleset.
1.1  rmind 	 */
1.1  rmind 	return error;
1.1  rmind }
1.1  rmind
1.1  rmind static int
1.1  rmind npf_mk_natlist(npf_ruleset_t *nset, prop_array_t natlist)
1.1  rmind {
1.1  rmind 	prop_object_iterator_t it;
1.1  rmind 	prop_dictionary_t natdict;
1.1  rmind 	int error;
1.1  rmind
1.1  rmind 	/* NAT policies - array. */
1.1  rmind 	if (prop_object_type(natlist) != PROP_TYPE_ARRAY)
1.1  rmind 		return EINVAL;
1.1  rmind
1.1  rmind 	it = prop_array_iterator(natlist);
1.1  rmind 	if (it == NULL)
1.1  rmind 		return ENOMEM;
1.1  rmind
1.1  rmind 	error = 0;
1.1  rmind 	while ((natdict = prop_object_iterator_next(it)) != NULL) {
1.1  rmind 		prop_object_t obj;
1.1  rmind 		npf_natpolicy_t *np;
1.1  rmind 		npf_rule_t *rl;
1.1  rmind 		in_addr_t gip;
1.1  rmind
1.1  rmind 		/* NAT policy - dictionary. */
1.1  rmind 		if (prop_object_type(natdict) != PROP_TYPE_DICTIONARY) {
1.1  rmind 			error = EINVAL;
1.1  rmind 			break;
1.1  rmind 		}
1.1  rmind
1.1  rmind 		/* Gateway IP. */
1.1  rmind 		obj = prop_dictionary_get(natdict, "gateway_ip");
1.1  rmind 		gip = (in_addr_t)prop_number_integer_value(obj);
1.1  rmind
1.1  rmind 		/*
1.1  rmind 		 * NAT policies are standard rules, plus additional
1.1  rmind 		 * information for translation.  Make a rule.
1.1  rmind 		 */
1.1  rmind 		error = npf_mk_singlerule(natdict, nset, &rl);
1.1  rmind 		if (error)
1.1  rmind 			break;
1.1  rmind
1.1  rmind 		/* Allocate a new NAT policy and assign to the rule. */
1.1  rmind 		np = npf_nat_newpolicy(gip);
1.1  rmind 		if (np == NULL) {
1.1  rmind 			error = ENOMEM;
1.1  rmind 			break;
1.1  rmind 		}
1.1  rmind 		npf_rule_setnat(rl, np);
1.1  rmind 	}
1.1  rmind 	prop_object_iterator_release(it);
1.1  rmind 	/*
1.1  rmind 	 * Note: in a case of error, caller will free entire NAT ruleset
1.1  rmind 	 * with assigned NAT policies.
1.1  rmind 	 */
1.1  rmind 	return error;
1.1  rmind }
1.1  rmind
1.1  rmind /*
1.1  rmind  * npfctl_reload: store passed data i.e. update settings, create passed
1.1  rmind  * tables, rules and atomically activate all them.
1.1  rmind  */
1.1  rmind int
1.1  rmind npfctl_reload(u_long cmd, void *data)
1.1  rmind {
1.1  rmind 	const struct plistref *pref = data;
1.1  rmind 	npf_tableset_t *tblset = NULL;
1.1  rmind 	npf_ruleset_t *rlset = NULL;
1.1  rmind 	npf_ruleset_t *nset = NULL;
1.1  rmind 	prop_dictionary_t dict;
1.1  rmind 	prop_array_t natlist, tables, rules;
1.1  rmind 	prop_object_t ver;
1.1  rmind 	int error;
1.1  rmind
1.1  rmind 	/* Retrieve the dictionary. */
1.1  rmind #ifdef _KERNEL
1.1  rmind 	error = prop_dictionary_copyin_ioctl(pref, cmd, &dict);
1.1  rmind 	if (error)
1.1  rmind 		return error;
1.1  rmind #else
1.1  rmind 	dict = prop_dictionary_internalize_from_file(data);
1.1  rmind 	if (dict == NULL)
1.1  rmind 		return EINVAL;
1.1  rmind #endif
1.1  rmind 	/* Version. */
1.1  rmind 	ver = prop_dictionary_get(dict, "version");
1.1  rmind 	if (ver == NULL || prop_number_integer_value(ver) != NPF_VERSION) {
1.1  rmind 		error = EINVAL;
1.1  rmind 		goto fail;
1.1  rmind 	}
1.1  rmind
1.1  rmind 	/* XXX: Hard way for now. */
1.1  rmind 	(void)npf_session_tracking(false);
1.1  rmind
1.1  rmind 	/* NAT policies. */
1.1  rmind 	nset = npf_ruleset_create();
1.1  rmind 	natlist = prop_dictionary_get(dict, "nat");
1.1  rmind 	error = npf_mk_natlist(nset, natlist);
1.1  rmind 	if (error)
1.1  rmind 		goto fail;
1.1  rmind
1.1  rmind 	/* Tables. */
1.1  rmind 	tblset = npf_tableset_create();
1.1  rmind 	tables = prop_dictionary_get(dict, "tables");
1.1  rmind 	error = npf_mk_tables(tblset, tables);
1.1  rmind 	if (error)
1.1  rmind 		goto fail;
1.1  rmind
1.1  rmind 	/* Rules. */
1.1  rmind 	rlset = npf_ruleset_create();
1.1  rmind 	rules = prop_dictionary_get(dict, "rules");
1.1  rmind 	error = npf_mk_rules(rlset, rules);
1.1  rmind 	if (error)
1.1  rmind 		goto fail;
1.1  rmind
1.1  rmind 	/* Flush and reload NAT policies. */
1.1  rmind 	npf_nat_reload(nset);
1.1  rmind
1.1  rmind 	/*
1.1  rmind 	 * Finally, reload the ruleset.  It will also reload the tableset.
1.1  rmind 	 * Operation will be performed as a single transaction.
1.1  rmind 	 */
1.1  rmind 	npf_ruleset_reload(rlset, tblset);
1.1  rmind
1.1  rmind 	(void)npf_session_tracking(true);
1.1  rmind
1.1  rmind 	/* Done.  Since data is consumed now, we shall not destroy it. */
1.1  rmind 	tblset = NULL;
1.1  rmind 	rlset = NULL;
1.1  rmind 	nset = NULL;
1.1  rmind fail:
1.1  rmind 	prop_object_release(dict);
1.1  rmind 	/*
1.1  rmind 	 * Note: destroy rulesets first, to drop references to the tableset.
1.1  rmind 	 */
1.1  rmind 	KASSERT(error == 0 || (nset || rlset || tblset));
1.1  rmind 	if (nset) {
1.1  rmind 		npf_ruleset_destroy(nset);
1.1  rmind 	}
1.1  rmind 	if (rlset) {
1.1  rmind 		npf_ruleset_destroy(rlset);
1.1  rmind 	}
1.1  rmind 	if (tblset) {
1.1  rmind 		npf_tableset_destroy(tblset);
1.1  rmind 	}
1.1  rmind 	return error;
1.1  rmind }
1.1  rmind
1.1  rmind /*
1.1  rmind  * npf_table_ctl: add, remove or query entries in the specified table.
1.1  rmind  *
1.1  rmind  * For maximum performance, interface is avoiding proplib(3)'s overhead.
1.1  rmind  */
1.1  rmind int
1.1  rmind npfctl_table(void *data)
1.1  rmind {
1.1  rmind 	npf_ioctl_table_t *nct = data;
1.1  rmind 	int error;
1.1  rmind
1.1  rmind 	switch (nct->nct_action) {
1.1  rmind 	case NPF_IOCTL_TBLENT_ADD:
1.1  rmind 		error = npf_table_add_v4cidr(NULL, nct->nct_tid,
1.1  rmind 		    nct->nct_addr, nct->nct_mask);
1.1  rmind 		break;
1.1  rmind 	case NPF_IOCTL_TBLENT_REM:
1.1  rmind 		error = npf_table_rem_v4cidr(NULL, nct->nct_tid,
1.1  rmind 		    nct->nct_addr, nct->nct_mask);
1.1  rmind 		break;
1.1  rmind 	default:
1.1  rmind 		/* XXX */
1.1  rmind 		error = npf_table_match_v4addr(nct->nct_tid, nct->nct_addr);
1.1  rmind 		if (error) {
1.1  rmind 			error = EINVAL;
1.1  rmind 		}
1.1  rmind 	}
1.1  rmind 	return error;
1.1  rmind }