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NetBSD/sys/net/npf/npf_conf.c
rmind b899bfd96f Major NPF improvements (merge from upstream): 
- Switch to the C11-style atomic primitives using atomic_loadstore(9).

- npfkern: introduce the 'state.key.interface' and 'state.key.direction'
  settings.  Users can now choose whether the connection state should be
  strictly per-interface or global at the configuration level.  Keep NAT
  logic to be always per-interface, though.

- npfkern: rewrite the G/C worker logic and make it self-tuning.

- npfkern and libnpf: multiple bug fixes; add param exporting; introduce
  more parameters.  Remove npf_nvlist_{copyin,copyout}() functions and
  refactor npfctl_load_nvlist() with others; add npfctl_run_op() to have
  a single entry point for operations.  Introduce npf_flow_t and clean up
  some code.

- npfctl: lots of fixes for the 'npfctl show' logic; make 'npfctl list'
  more informative; misc usability improvements and more user-friendly
  error messages.

- Amend and improve the manual pages.
2020-05-30 14:16:56 +00:00

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/*-
* Copyright (c) 2013-2020 The NetBSD Foundation, Inc.
* All rights reserved.
*
* This material is based upon work partially supported by The
* NetBSD Foundation under a contract with Mindaugas Rasiukevicius.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
* ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
* TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
* PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
* BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*/
/*
* NPF configuration loading mechanism.
*
* The main operations on the configuration are the following:
* 1) Read access, primarily from the npf_packet_handler() function.
* 2) Write access on a particular set, mainly rule or table updates.
* 3) Deletion of the configuration after the reload operation.
*
* Synchronization
*
* For the (1) case, EBR is used to allow concurrent access to
* the configuration set (ruleset, etc). It guarantees that the
* configuration will not be destroyed while accessing it.
*
* For the cases (2) and (3), mutual exclusion (npf_t::config_lock)
* is used with, when necessary, the writer-side barrier of EBR.
*/
#ifdef _KERNEL
#include <sys/cdefs.h>
__KERNEL_RCSID(0, "$NetBSD: npf_conf.c,v 1.17 2020/05/30 14:16:56 rmind Exp $");
#include <sys/param.h>
#include <sys/types.h>
#include <sys/atomic.h>
#include <sys/kmem.h>
#include <sys/mutex.h>
#endif
#include "npf_impl.h"
#include "npf_conn.h"
void
npf_config_init(npf_t *npf)
{
npf_config_t *nc;
mutex_init(&npf->config_lock, MUTEX_DEFAULT, IPL_SOFTNET);
nc = npf_config_create();
/*
* Load an empty configuration.
*/
nc->ruleset = npf_ruleset_create(0);
nc->nat_ruleset = npf_ruleset_create(0);
nc->rule_procs = npf_rprocset_create();
nc->tableset = npf_tableset_create(0);
nc->default_pass = true;
npf_config_load(npf, nc, NULL, true);
KASSERT(npf->config != NULL);
}
npf_config_t *
npf_config_create(void)
{
return kmem_zalloc(sizeof(npf_config_t), KM_SLEEP);
}
void
npf_config_destroy(npf_config_t *nc)
{
/*
* Note: the rulesets must be destroyed first, in order to drop
* any references to the tableset.
*/
if (nc->ruleset) {
npf_ruleset_destroy(nc->ruleset);
}
if (nc->nat_ruleset) {
npf_ruleset_destroy(nc->nat_ruleset);
}
if (nc->rule_procs) {
npf_rprocset_destroy(nc->rule_procs);
}
if (nc->tableset) {
npf_tableset_destroy(nc->tableset);
}
kmem_free(nc, sizeof(npf_config_t));
}
void
npf_config_fini(npf_t *npf)
{
npf_conndb_t *cd = npf_conndb_create();
/* Flush the connections. */
mutex_enter(&npf->config_lock);
npf_conn_tracking(npf, false);
npf_ebr_full_sync(npf->ebr);
npf_conn_load(npf, cd, false);
npf_ifmap_flush(npf);
mutex_exit(&npf->config_lock);
npf_config_destroy(npf->config);
mutex_destroy(&npf->config_lock);
}
/*
* npf_config_load: the main routine performing configuration load.
* Performs the necessary synchronization and destroys the old config.
*/
void
npf_config_load(npf_t *npf, npf_config_t *nc, npf_conndb_t *conns, bool flush)
{
const bool load = conns != NULL;
npf_config_t *onc;
nc->default_pass = flush;
/*
* Acquire the lock and perform the first phase:
* - Scan and use existing dynamic tables, reload only static.
* - Scan and use matching NAT policies to preserve the connections.
*/
mutex_enter(&npf->config_lock);
if ((onc = atomic_load_relaxed(&npf->config)) != NULL) {
npf_ruleset_reload(npf, nc->ruleset, onc->ruleset, load);
npf_tableset_reload(npf, nc->tableset, onc->tableset);
npf_ruleset_reload(npf, nc->nat_ruleset, onc->nat_ruleset, load);
}
/*
* Set the new config and release the lock.
*/
membar_sync();
atomic_store_relaxed(&npf->config, nc);
if (onc == NULL) {
/* Initial load, done. */
npf_ifmap_flush(npf);
npf_conn_load(npf, conns, !flush);
mutex_exit(&npf->config_lock);
goto done;
}
/*
* If we are going to flush the connections or load the new ones,
* then disable the connection tracking for the grace period.
*/
if (flush || conns) {
npf_conn_tracking(npf, false);
}
/* Synchronise: drain all references. */
npf_ebr_full_sync(npf->ebr);
if (flush) {
npf_portmap_flush(npf->portmap);
npf_ifmap_flush(npf);
}
/*
* G/C the existing connections and, if passed, load the new ones.
* If not flushing - enable the connection tracking.
*/
npf_conn_load(npf, conns, !flush);
mutex_exit(&npf->config_lock);
/* Finally, it is safe to destroy the old config. */
npf_config_destroy(onc);
done:
/* Sync all interface address tables (can be done asynchronously). */
npf_ifaddr_syncall(npf);
}
/*
* Writer-side exclusive locking.
*/
npf_config_t *
npf_config_enter(npf_t *npf)
{
mutex_enter(&npf->config_lock);
return npf->config;
}
void
npf_config_exit(npf_t *npf)
{
mutex_exit(&npf->config_lock);
}
bool
npf_config_locked_p(npf_t *npf)
{
return mutex_owned(&npf->config_lock);
}
void
npf_config_sync(npf_t *npf)
{
KASSERT(npf_config_locked_p(npf));
npf_ebr_full_sync(npf->ebr);
}
/*
* Reader-side synchronization routines.
*/
int
npf_config_read_enter(npf_t *npf)
{
/* Note: issues an acquire fence. */
return npf_ebr_enter(npf->ebr);
}
void
npf_config_read_exit(npf_t *npf, int s)
{
/* Note: issues a release fence. */
npf_ebr_exit(npf->ebr, s);
}
/*
* Accessors.
*/
npf_ruleset_t *
npf_config_ruleset(npf_t *npf)
{
npf_config_t *config = atomic_load_relaxed(&npf->config);
KASSERT(npf_config_locked_p(npf) || npf_ebr_incrit_p(npf->ebr));
return config->ruleset;
}
npf_ruleset_t *
npf_config_natset(npf_t *npf)
{
npf_config_t *config = atomic_load_relaxed(&npf->config);
KASSERT(npf_config_locked_p(npf) || npf_ebr_incrit_p(npf->ebr));
return config->nat_ruleset;
}
npf_tableset_t *
npf_config_tableset(npf_t *npf)
{
npf_config_t *config = atomic_load_relaxed(&npf->config);
KASSERT(npf_config_locked_p(npf) || npf_ebr_incrit_p(npf->ebr));
return config->tableset;
}
bool
npf_default_pass(npf_t *npf)
{
npf_config_t *config = atomic_load_relaxed(&npf->config);
KASSERT(npf_config_locked_p(npf) || npf_ebr_incrit_p(npf->ebr));
return config->default_pass;
}
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