2 * SPDX-License-Identifier: BSD-2-Clause-FreeBSD
4 * Copyright (c) 2004 Ruslan Ermilov and Vsevolod Lobko.
5 * Copyright (c) 2014 Yandex LLC
6 * Copyright (c) 2014 Alexander V. Chernikov
8 * Redistribution and use in source and binary forms, with or without
9 * modification, are permitted provided that the following conditions
11 * 1. Redistributions of source code must retain the above copyright
12 * notice, this list of conditions and the following disclaimer.
13 * 2. Redistributions in binary form must reproduce the above copyright
14 * notice, this list of conditions and the following disclaimer in the
15 * documentation and/or other materials provided with the distribution.
17 * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
18 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
19 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
20 * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
21 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
22 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
23 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
24 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
25 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
26 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
30 #include <sys/cdefs.h>
31 __FBSDID("$FreeBSD$");
34 * Lookup table support for ipfw.
36 * This file contains handlers for all generic tables' operations:
37 * add/del/flush entries, list/dump tables etc..
39 * Table data modification is protected by both UH and runtime lock
40 * while reading configuration/data is protected by UH lock.
42 * Lookup algorithms for all table types are located in ip_fw_table_algo.c
47 #include <sys/param.h>
48 #include <sys/systm.h>
49 #include <sys/malloc.h>
50 #include <sys/kernel.h>
52 #include <sys/rwlock.h>
53 #include <sys/rmlock.h>
54 #include <sys/socket.h>
55 #include <sys/socketvar.h>
56 #include <sys/queue.h>
57 #include <net/if.h> /* ip_fw.h requires IFNAMSIZ */
60 #include <netinet/in.h>
61 #include <netinet/ip_var.h> /* struct ipfw_rule_ref */
62 #include <netinet/ip_fw.h>
64 #include <netpfil/ipfw/ip_fw_private.h>
65 #include <netpfil/ipfw/ip_fw_table.h>
68 * Table has the following `type` concepts:
70 * `no.type` represents lookup key type (addr, ifp, uid, etc..)
71 * vmask represents bitmask of table values which are present at the moment.
72 * Special IPFW_VTYPE_LEGACY ( (uint32_t)-1 ) represents old
73 * single-value-for-all approach.
76 struct named_object no;
77 uint8_t tflags; /* type flags */
78 uint8_t locked; /* 1 if locked from changes */
79 uint8_t linked; /* 1 if already linked */
80 uint8_t ochanged; /* used by set swapping */
81 uint8_t vshared; /* 1 if using shared value array */
83 uint32_t count; /* Number of records */
84 uint32_t limit; /* Max number of records */
85 uint32_t vmask; /* bitmask with supported values */
86 uint32_t ocount; /* used by set swapping */
87 uint64_t gencnt; /* generation count */
88 char tablename[64]; /* table name */
89 struct table_algo *ta; /* Callbacks for given algo */
90 void *astate; /* algorithm state */
91 struct table_info ti_copy; /* data to put to table_info */
92 struct namedobj_instance *vi;
95 static int find_table_err(struct namedobj_instance *ni, struct tid_info *ti,
96 struct table_config **tc);
97 static struct table_config *find_table(struct namedobj_instance *ni,
99 static struct table_config *alloc_table_config(struct ip_fw_chain *ch,
100 struct tid_info *ti, struct table_algo *ta, char *adata, uint8_t tflags);
101 static void free_table_config(struct namedobj_instance *ni,
102 struct table_config *tc);
103 static int create_table_internal(struct ip_fw_chain *ch, struct tid_info *ti,
104 char *aname, ipfw_xtable_info *i, uint16_t *pkidx, int ref);
105 static void link_table(struct ip_fw_chain *ch, struct table_config *tc);
106 static void unlink_table(struct ip_fw_chain *ch, struct table_config *tc);
107 static int find_ref_table(struct ip_fw_chain *ch, struct tid_info *ti,
108 struct tentry_info *tei, uint32_t count, int op, struct table_config **ptc);
111 static int export_tables(struct ip_fw_chain *ch, ipfw_obj_lheader *olh,
112 struct sockopt_data *sd);
113 static void export_table_info(struct ip_fw_chain *ch, struct table_config *tc,
114 ipfw_xtable_info *i);
115 static int dump_table_tentry(void *e, void *arg);
116 static int dump_table_xentry(void *e, void *arg);
118 static int swap_tables(struct ip_fw_chain *ch, struct tid_info *a,
121 static int check_table_name(const char *name);
122 static int check_table_space(struct ip_fw_chain *ch, struct tableop_state *ts,
123 struct table_config *tc, struct table_info *ti, uint32_t count);
124 static int destroy_table(struct ip_fw_chain *ch, struct tid_info *ti);
126 static struct table_algo *find_table_algo(struct tables_config *tableconf,
127 struct tid_info *ti, char *name);
129 static void objheader_to_ti(struct _ipfw_obj_header *oh, struct tid_info *ti);
130 static void ntlv_to_ti(struct _ipfw_obj_ntlv *ntlv, struct tid_info *ti);
132 #define CHAIN_TO_NI(chain) (CHAIN_TO_TCFG(chain)->namehash)
133 #define KIDX_TO_TI(ch, k) (&(((struct table_info *)(ch)->tablestate)[k]))
135 #define TA_BUF_SZ 128 /* On-stack buffer for add/delete state */
138 rollback_toperation_state(struct ip_fw_chain *ch, void *object)
140 struct tables_config *tcfg;
143 tcfg = CHAIN_TO_TCFG(ch);
144 TAILQ_FOREACH(os, &tcfg->state_list, next)
145 os->func(object, os);
149 add_toperation_state(struct ip_fw_chain *ch, struct tableop_state *ts)
151 struct tables_config *tcfg;
153 tcfg = CHAIN_TO_TCFG(ch);
154 TAILQ_INSERT_HEAD(&tcfg->state_list, &ts->opstate, next);
158 del_toperation_state(struct ip_fw_chain *ch, struct tableop_state *ts)
160 struct tables_config *tcfg;
162 tcfg = CHAIN_TO_TCFG(ch);
163 TAILQ_REMOVE(&tcfg->state_list, &ts->opstate, next);
167 tc_ref(struct table_config *tc)
174 tc_unref(struct table_config *tc)
180 static struct table_value *
181 get_table_value(struct ip_fw_chain *ch, struct table_config *tc, uint32_t kidx)
183 struct table_value *pval;
185 pval = (struct table_value *)ch->valuestate;
187 return (&pval[kidx]);
192 * Checks if we're able to insert/update entry @tei into table
194 * May alter @tei to indicate insertion error / insert
197 * Returns 0 if operation can be performed/
200 check_table_limit(struct table_config *tc, struct tentry_info *tei)
203 if (tc->limit == 0 || tc->count < tc->limit)
206 if ((tei->flags & TEI_FLAGS_UPDATE) == 0) {
207 /* Notify userland on error cause */
208 tei->flags |= TEI_FLAGS_LIMIT;
213 * We have UPDATE flag set.
214 * Permit updating record (if found),
215 * but restrict adding new one since we've
216 * already hit the limit.
218 tei->flags |= TEI_FLAGS_DONTADD;
224 * Convert algorithm callback return code into
225 * one of pre-defined states known by userland.
228 store_tei_result(struct tentry_info *tei, int op, int error, uint32_t num)
236 if (op == OP_ADD && num != 0)
237 flag = TEI_FLAGS_ADDED;
239 flag = TEI_FLAGS_DELETED;
242 flag = TEI_FLAGS_NOTFOUND;
245 flag = TEI_FLAGS_EXISTS;
248 flag = TEI_FLAGS_ERROR;
255 * Creates and references table with default parameters.
256 * Saves table config, algo and allocated kidx info @ptc, @pta and
257 * @pkidx if non-zero.
258 * Used for table auto-creation to support old binaries.
260 * Returns 0 on success.
263 create_table_compat(struct ip_fw_chain *ch, struct tid_info *ti,
269 memset(&xi, 0, sizeof(xi));
270 /* Set default value mask for legacy clients */
271 xi.vmask = IPFW_VTYPE_LEGACY;
273 error = create_table_internal(ch, ti, NULL, &xi, pkidx, 1);
281 * Find and reference existing table optionally
284 * Saves found table config into @ptc.
285 * Note function may drop/acquire UH_WLOCK.
286 * Returns 0 if table was found/created and referenced
287 * or non-zero return code.
290 find_ref_table(struct ip_fw_chain *ch, struct tid_info *ti,
291 struct tentry_info *tei, uint32_t count, int op,
292 struct table_config **ptc)
294 struct namedobj_instance *ni;
295 struct table_config *tc;
299 IPFW_UH_WLOCK_ASSERT(ch);
301 ni = CHAIN_TO_NI(ch);
303 if ((tc = find_table(ni, ti)) != NULL) {
304 /* check table type */
305 if (tc->no.subtype != ti->type)
311 /* Try to exit early on limit hit */
312 if (op == OP_ADD && count == 1 &&
313 check_table_limit(tc, tei) != 0)
316 /* Reference and return */
325 /* Compatibility mode: create new table for old clients */
326 if ((tei->flags & TEI_FLAGS_COMPAT) == 0)
330 error = create_table_compat(ch, ti, &kidx);
336 tc = (struct table_config *)ipfw_objhash_lookup_kidx(ni, kidx);
337 KASSERT(tc != NULL, ("create_table_compat returned bad idx %d", kidx));
339 /* OK, now we've got referenced table. */
345 * Rolls back already @added to @tc entries using state array @ta_buf_m.
346 * Assume the following layout:
347 * 1) ADD state (ta_buf_m[0] ... t_buf_m[added - 1]) for handling update cases
348 * 2) DEL state (ta_buf_m[count[ ... t_buf_m[count + added - 1])
349 * for storing deleted state
352 rollback_added_entries(struct ip_fw_chain *ch, struct table_config *tc,
353 struct table_info *tinfo, struct tentry_info *tei, caddr_t ta_buf_m,
354 uint32_t count, uint32_t added)
356 struct table_algo *ta;
357 struct tentry_info *ptei;
363 IPFW_UH_WLOCK_ASSERT(ch);
366 ta_buf_sz = ta->ta_buf_size;
368 vv = v + count * ta_buf_sz;
369 for (i = 0; i < added; i++, v += ta_buf_sz, vv += ta_buf_sz) {
371 if ((ptei->flags & TEI_FLAGS_UPDATED) != 0) {
374 * We have old value stored by previous
375 * call in @ptei->value. Do add once again
378 error = ta->add(tc->astate, tinfo, ptei, v, &num);
379 KASSERT(error == 0, ("rollback UPDATE fail"));
380 KASSERT(num == 0, ("rollback UPDATE fail2"));
384 error = ta->prepare_del(ch, ptei, vv);
385 KASSERT(error == 0, ("pre-rollback INSERT failed"));
386 error = ta->del(tc->astate, tinfo, ptei, vv, &num);
387 KASSERT(error == 0, ("rollback INSERT failed"));
393 * Prepares add/del state for all @count entries in @tei.
394 * Uses either stack buffer (@ta_buf) or allocates a new one.
395 * Stores pointer to allocated buffer back to @ta_buf.
397 * Returns 0 on success.
400 prepare_batch_buffer(struct ip_fw_chain *ch, struct table_algo *ta,
401 struct tentry_info *tei, uint32_t count, int op, caddr_t *ta_buf)
404 size_t ta_buf_sz, sz;
405 struct tentry_info *ptei;
409 ta_buf_sz = ta->ta_buf_size;
411 /* Single add/delete, use on-stack buffer */
412 memset(*ta_buf, 0, TA_BUF_SZ);
417 * Multiple adds/deletes, allocate larger buffer
419 * Note we need 2xcount buffer for add case:
420 * we have hold both ADD state
421 * and DELETE state (this may be needed
422 * if we need to rollback all changes)
424 sz = count * ta_buf_sz;
425 ta_buf_m = malloc((op == OP_ADD) ? sz * 2 : sz, M_TEMP,
430 for (i = 0; i < count; i++, v += ta_buf_sz) {
432 error = (op == OP_ADD) ?
433 ta->prepare_add(ch, ptei, v) : ta->prepare_del(ch, ptei, v);
436 * Some syntax error (incorrect mask, or address, or
437 * anything). Return error regardless of atomicity
449 * Flushes allocated state for each @count entries in @tei.
450 * Frees @ta_buf_m if differs from stack buffer @ta_buf.
453 flush_batch_buffer(struct ip_fw_chain *ch, struct table_algo *ta,
454 struct tentry_info *tei, uint32_t count, int rollback,
455 caddr_t ta_buf_m, caddr_t ta_buf)
458 struct tentry_info *ptei;
462 ta_buf_sz = ta->ta_buf_size;
464 /* Run cleaning callback anyway */
466 for (i = 0; i < count; i++, v += ta_buf_sz) {
468 ta->flush_entry(ch, ptei, v);
469 if (ptei->ptv != NULL) {
470 free(ptei->ptv, M_IPFW);
475 /* Clean up "deleted" state in case of rollback */
477 v = ta_buf_m + count * ta_buf_sz;
478 for (i = 0; i < count; i++, v += ta_buf_sz)
479 ta->flush_entry(ch, &tei[i], v);
482 if (ta_buf_m != ta_buf)
483 free(ta_buf_m, M_TEMP);
488 rollback_add_entry(void *object, struct op_state *_state)
490 struct ip_fw_chain *ch;
491 struct tableop_state *ts;
493 ts = (struct tableop_state *)_state;
495 if (ts->tc != object && ts->ch != object)
500 IPFW_UH_WLOCK_ASSERT(ch);
502 /* Call specifid unlockers */
503 rollback_table_values(ts);
505 /* Indicate we've called */
510 * Adds/updates one or more entries in table @ti.
512 * Function may drop/reacquire UH wlock multiple times due to
513 * items alloc, algorithm callbacks (check_space), value linkage
514 * (new values, value storage realloc), etc..
515 * Other processes like other adds (which may involve storage resize),
516 * table swaps (which changes table data and may change algo type),
517 * table modify (which may change value mask) may be executed
518 * simultaneously so we need to deal with it.
520 * The following approach was implemented:
521 * we have per-chain linked list, protected with UH lock.
522 * add_table_entry prepares special on-stack structure wthich is passed
523 * to its descendants. Users add this structure to this list before unlock.
524 * After performing needed operations and acquiring UH lock back, each user
525 * checks if structure has changed. If true, it rolls local state back and
526 * returns without error to the caller.
527 * add_table_entry() on its own checks if structure has changed and restarts
528 * its operation from the beginning (goto restart).
530 * Functions which are modifying fields of interest (currently
531 * resize_shared_value_storage() and swap_tables() )
532 * traverses given list while holding UH lock immediately before
533 * performing their operations calling function provided be list entry
534 * ( currently rollback_add_entry ) which performs rollback for all necessary
535 * state and sets appropriate values in structure indicating rollback
539 * Function references @ti first to ensure table won't
540 * disappear or change its type.
541 * After that, prepare_add callback is called for each @tei entry.
542 * Next, we try to add each entry under UH+WHLOCK
543 * using add() callback.
544 * Finally, we free all state by calling flush_entry callback
547 * Returns 0 on success.
550 add_table_entry(struct ip_fw_chain *ch, struct tid_info *ti,
551 struct tentry_info *tei, uint8_t flags, uint32_t count)
553 struct table_config *tc;
554 struct table_algo *ta;
556 int error, first_error, i, rollback;
557 uint32_t num, numadd;
558 struct tentry_info *ptei;
559 struct tableop_state ts;
560 char ta_buf[TA_BUF_SZ];
563 memset(&ts, 0, sizeof(ts));
568 * Find and reference existing table.
571 if (ts.modified != 0) {
573 flush_batch_buffer(ch, ta, tei, count, rollback,
575 memset(&ts, 0, sizeof(ts));
580 error = find_ref_table(ch, ti, tei, count, OP_ADD, &tc);
587 /* Fill in tablestate */
589 ts.opstate.func = rollback_add_entry;
591 ts.vshared = tc->vshared;
592 ts.vmask = tc->vmask;
597 add_toperation_state(ch, &ts);
600 /* Allocate memory and prepare record(s) */
601 /* Pass stack buffer by default */
603 error = prepare_batch_buffer(ch, ta, tei, count, OP_ADD, &ta_buf_m);
606 del_toperation_state(ch, &ts);
607 /* Drop reference we've used in first search */
610 /* Check prepare_batch_buffer() error */
615 * Check if table swap has happened.
616 * (so table algo might be changed).
617 * Restart operation to achieve consistent behavior.
619 if (ts.modified != 0)
623 * Link all values values to shared/per-table value array.
625 * May release/reacquire UH_WLOCK.
627 error = ipfw_link_table_values(ch, &ts);
630 if (ts.modified != 0)
634 * Ensure we are able to add all entries without additional
635 * memory allocations. May release/reacquire UH_WLOCK.
638 error = check_table_space(ch, &ts, tc, KIDX_TO_TI(ch, kidx), count);
641 if (ts.modified != 0)
644 /* We've got valid table in @tc. Let's try to add data */
653 for (i = 0; i < count; i++, v += ta->ta_buf_size) {
656 /* check limit before adding */
657 if ((error = check_table_limit(tc, ptei)) == 0) {
658 error = ta->add(tc->astate, KIDX_TO_TI(ch, kidx),
660 /* Set status flag to inform userland */
661 store_tei_result(ptei, OP_ADD, error, num);
664 /* Update number of records to ease limit checking */
670 if (first_error == 0)
674 * Some error have happened. Check our atomicity
675 * settings: continue if atomicity is not required,
676 * rollback changes otherwise.
678 if ((flags & IPFW_CTF_ATOMIC) == 0)
681 rollback_added_entries(ch, tc, KIDX_TO_TI(ch, kidx),
682 tei, ta_buf_m, count, i);
690 ipfw_garbage_table_values(ch, tc, tei, count, rollback);
692 /* Permit post-add algorithm grow/rehash. */
694 check_table_space(ch, NULL, tc, KIDX_TO_TI(ch, kidx), 0);
696 /* Return first error to user, if any */
702 flush_batch_buffer(ch, ta, tei, count, rollback, ta_buf_m, ta_buf);
708 * Deletes one or more entries in table @ti.
710 * Returns 0 on success.
713 del_table_entry(struct ip_fw_chain *ch, struct tid_info *ti,
714 struct tentry_info *tei, uint8_t flags, uint32_t count)
716 struct table_config *tc;
717 struct table_algo *ta;
718 struct tentry_info *ptei;
720 int error, first_error, i;
721 uint32_t num, numdel;
722 char ta_buf[TA_BUF_SZ];
726 * Find and reference existing table.
729 error = find_ref_table(ch, ti, tei, count, OP_DEL, &tc);
737 /* Allocate memory and prepare record(s) */
738 /* Pass stack buffer by default */
740 error = prepare_batch_buffer(ch, ta, tei, count, OP_DEL, &ta_buf_m);
746 /* Drop reference we've used in first search */
750 * Check if table algo is still the same.
751 * (changed ta may be the result of table swap).
765 for (i = 0; i < count; i++, v += ta->ta_buf_size) {
768 error = ta->del(tc->astate, KIDX_TO_TI(ch, kidx), ptei, v,
770 /* Save state for userland */
771 store_tei_result(ptei, OP_DEL, error, num);
772 if (error != 0 && first_error == 0)
779 /* Unlink non-used values */
780 ipfw_garbage_table_values(ch, tc, tei, count, 0);
783 /* Run post-del hook to permit shrinking */
784 check_table_space(ch, NULL, tc, KIDX_TO_TI(ch, kidx), 0);
789 /* Return first error to user, if any */
793 flush_batch_buffer(ch, ta, tei, count, 0, ta_buf_m, ta_buf);
799 * Ensure that table @tc has enough space to add @count entries without
800 * need for reallocation.
803 * 0) need_modify() (UH_WLOCK) - checks if @count items can be added w/o resize.
805 * 1) alloc_modify (no locks, M_WAITOK) - alloc new state based on @pflags.
806 * 2) prepare_modifyt (UH_WLOCK) - copy old data into new storage
807 * 3) modify (UH_WLOCK + WLOCK) - switch pointers
808 * 4) flush_modify (UH_WLOCK) - free state, if needed
810 * Returns 0 on success.
813 check_table_space(struct ip_fw_chain *ch, struct tableop_state *ts,
814 struct table_config *tc, struct table_info *ti, uint32_t count)
816 struct table_algo *ta;
818 char ta_buf[TA_BUF_SZ];
821 IPFW_UH_WLOCK_ASSERT(ch);
825 if (ta->need_modify == NULL)
828 /* Acquire reference not to loose @tc between locks/unlocks */
832 * TODO: think about avoiding race between large add/large delete
833 * operation on algorithm which implements shrinking along with
838 if (ta->need_modify(tc->astate, ti, count, &pflags) == 0) {
843 /* We have to shrink/grow table */
845 add_toperation_state(ch, ts);
848 memset(&ta_buf, 0, sizeof(ta_buf));
849 error = ta->prepare_mod(ta_buf, &pflags);
853 del_toperation_state(ch, ts);
858 if (ts != NULL && ts->modified != 0) {
861 * Swap operation has happened
862 * so we're currently operating on other
863 * table data. Stop doing this.
865 ta->flush_mod(ta_buf);
869 /* Check if we still need to alter table */
870 ti = KIDX_TO_TI(ch, tc->no.kidx);
871 if (ta->need_modify(tc->astate, ti, count, &pflags) == 0) {
875 * Other thread has already performed resize.
876 * Flush our state and return.
878 ta->flush_mod(ta_buf);
882 error = ta->fill_mod(tc->astate, ti, ta_buf, &pflags);
884 /* Do actual modification */
886 ta->modify(tc->astate, ti, ta_buf, pflags);
890 /* Anyway, flush data and retry */
891 ta->flush_mod(ta_buf);
899 * Adds or deletes record in table.
901 * Request: [ ip_fw3_opheader ipfw_table_xentry ]
903 * Returns 0 on success
906 manage_table_ent_v0(struct ip_fw_chain *ch, ip_fw3_opheader *op3,
907 struct sockopt_data *sd)
909 ipfw_table_xentry *xent;
910 struct tentry_info tei;
912 struct table_value v;
913 int error, hdrlen, read;
915 hdrlen = offsetof(ipfw_table_xentry, k);
917 /* Check minimum header size */
918 if (sd->valsize < (sizeof(*op3) + hdrlen))
921 read = sizeof(ip_fw3_opheader);
923 /* Check if xentry len field is valid */
924 xent = (ipfw_table_xentry *)(op3 + 1);
925 if (xent->len < hdrlen || xent->len + read > sd->valsize)
928 memset(&tei, 0, sizeof(tei));
929 tei.paddr = &xent->k;
930 tei.masklen = xent->masklen;
931 ipfw_import_table_value_legacy(xent->value, &v);
933 /* Old requests compatibility */
934 tei.flags = TEI_FLAGS_COMPAT;
935 if (xent->type == IPFW_TABLE_ADDR) {
936 if (xent->len - hdrlen == sizeof(in_addr_t))
937 tei.subtype = AF_INET;
939 tei.subtype = AF_INET6;
942 memset(&ti, 0, sizeof(ti));
944 ti.type = xent->type;
946 error = (op3->opcode == IP_FW_TABLE_XADD) ?
947 add_table_entry(ch, &ti, &tei, 0, 1) :
948 del_table_entry(ch, &ti, &tei, 0, 1);
954 * Adds or deletes record in table.
955 * Data layout (v1)(current):
956 * Request: [ ipfw_obj_header
957 * ipfw_obj_ctlv(IPFW_TLV_TBLENT_LIST) [ ipfw_obj_tentry x N ]
960 * Returns 0 on success
963 manage_table_ent_v1(struct ip_fw_chain *ch, ip_fw3_opheader *op3,
964 struct sockopt_data *sd)
966 ipfw_obj_tentry *tent, *ptent;
969 struct tentry_info *ptei, tei, *tei_buf;
971 int error, i, kidx, read;
973 /* Check minimum header size */
974 if (sd->valsize < (sizeof(*oh) + sizeof(*ctlv)))
977 /* Check if passed data is too long */
978 if (sd->valsize != sd->kavail)
981 oh = (ipfw_obj_header *)sd->kbuf;
983 /* Basic length checks for TLVs */
984 if (oh->ntlv.head.length != sizeof(oh->ntlv))
989 ctlv = (ipfw_obj_ctlv *)(oh + 1);
990 if (ctlv->head.length + read != sd->valsize)
993 read += sizeof(*ctlv);
994 tent = (ipfw_obj_tentry *)(ctlv + 1);
995 if (ctlv->count * sizeof(*tent) + read != sd->valsize)
998 if (ctlv->count == 0)
1002 * Mark entire buffer as "read".
1003 * This instructs sopt api write it back
1004 * after function return.
1006 ipfw_get_sopt_header(sd, sd->valsize);
1008 /* Perform basic checks for each entry */
1011 for (i = 0; i < ctlv->count; i++, ptent++) {
1012 if (ptent->head.length != sizeof(*ptent))
1014 if (ptent->idx != kidx)
1018 /* Convert data into kernel request objects */
1019 objheader_to_ti(oh, &ti);
1020 ti.type = oh->ntlv.type;
1023 /* Use on-stack buffer for single add/del */
1024 if (ctlv->count == 1) {
1025 memset(&tei, 0, sizeof(tei));
1028 tei_buf = malloc(ctlv->count * sizeof(tei), M_TEMP,
1033 for (i = 0; i < ctlv->count; i++, ptent++, ptei++) {
1034 ptei->paddr = &ptent->k;
1035 ptei->subtype = ptent->subtype;
1036 ptei->masklen = ptent->masklen;
1037 if (ptent->head.flags & IPFW_TF_UPDATE)
1038 ptei->flags |= TEI_FLAGS_UPDATE;
1040 ipfw_import_table_value_v1(&ptent->v.value);
1041 ptei->pvalue = (struct table_value *)&ptent->v.value;
1044 error = (oh->opheader.opcode == IP_FW_TABLE_XADD) ?
1045 add_table_entry(ch, &ti, tei_buf, ctlv->flags, ctlv->count) :
1046 del_table_entry(ch, &ti, tei_buf, ctlv->flags, ctlv->count);
1048 /* Translate result back to userland */
1051 for (i = 0; i < ctlv->count; i++, ptent++, ptei++) {
1052 if (ptei->flags & TEI_FLAGS_ADDED)
1053 ptent->result = IPFW_TR_ADDED;
1054 else if (ptei->flags & TEI_FLAGS_DELETED)
1055 ptent->result = IPFW_TR_DELETED;
1056 else if (ptei->flags & TEI_FLAGS_UPDATED)
1057 ptent->result = IPFW_TR_UPDATED;
1058 else if (ptei->flags & TEI_FLAGS_LIMIT)
1059 ptent->result = IPFW_TR_LIMIT;
1060 else if (ptei->flags & TEI_FLAGS_ERROR)
1061 ptent->result = IPFW_TR_ERROR;
1062 else if (ptei->flags & TEI_FLAGS_NOTFOUND)
1063 ptent->result = IPFW_TR_NOTFOUND;
1064 else if (ptei->flags & TEI_FLAGS_EXISTS)
1065 ptent->result = IPFW_TR_EXISTS;
1066 ipfw_export_table_value_v1(ptei->pvalue, &ptent->v.value);
1069 if (tei_buf != &tei)
1070 free(tei_buf, M_TEMP);
1076 * Looks up an entry in given table.
1077 * Data layout (v0)(current):
1078 * Request: [ ipfw_obj_header ipfw_obj_tentry ]
1079 * Reply: [ ipfw_obj_header ipfw_obj_tentry ]
1081 * Returns 0 on success
1084 find_table_entry(struct ip_fw_chain *ch, ip_fw3_opheader *op3,
1085 struct sockopt_data *sd)
1087 ipfw_obj_tentry *tent;
1088 ipfw_obj_header *oh;
1090 struct table_config *tc;
1091 struct table_algo *ta;
1092 struct table_info *kti;
1093 struct table_value *pval;
1094 struct namedobj_instance *ni;
1098 /* Check minimum header size */
1099 sz = sizeof(*oh) + sizeof(*tent);
1100 if (sd->valsize != sz)
1103 oh = (struct _ipfw_obj_header *)ipfw_get_sopt_header(sd, sz);
1104 tent = (ipfw_obj_tentry *)(oh + 1);
1106 /* Basic length checks for TLVs */
1107 if (oh->ntlv.head.length != sizeof(oh->ntlv))
1110 objheader_to_ti(oh, &ti);
1111 ti.type = oh->ntlv.type;
1112 ti.uidx = tent->idx;
1115 ni = CHAIN_TO_NI(ch);
1118 * Find existing table and check its type .
1121 if ((tc = find_table(ni, &ti)) == NULL) {
1122 IPFW_UH_RUNLOCK(ch);
1126 /* check table type */
1127 if (tc->no.subtype != ti.type) {
1128 IPFW_UH_RUNLOCK(ch);
1132 kti = KIDX_TO_TI(ch, tc->no.kidx);
1135 if (ta->find_tentry == NULL)
1138 error = ta->find_tentry(tc->astate, kti, tent);
1140 pval = get_table_value(ch, tc, tent->v.kidx);
1141 ipfw_export_table_value_v1(pval, &tent->v.value);
1143 IPFW_UH_RUNLOCK(ch);
1149 * Flushes all entries or destroys given table.
1150 * Data layout (v0)(current):
1151 * Request: [ ipfw_obj_header ]
1153 * Returns 0 on success
1156 flush_table_v0(struct ip_fw_chain *ch, ip_fw3_opheader *op3,
1157 struct sockopt_data *sd)
1160 struct _ipfw_obj_header *oh;
1163 if (sd->valsize != sizeof(*oh))
1166 oh = (struct _ipfw_obj_header *)op3;
1167 objheader_to_ti(oh, &ti);
1169 if (op3->opcode == IP_FW_TABLE_XDESTROY)
1170 error = destroy_table(ch, &ti);
1171 else if (op3->opcode == IP_FW_TABLE_XFLUSH)
1172 error = flush_table(ch, &ti);
1180 restart_flush(void *object, struct op_state *_state)
1182 struct tableop_state *ts;
1184 ts = (struct tableop_state *)_state;
1186 if (ts->tc != object)
1189 /* Indicate we've called */
1194 * Flushes given table.
1196 * Function create new table instance with the same
1197 * parameters, swaps it with old one and
1198 * flushes state without holding runtime WLOCK.
1200 * Returns 0 on success.
1203 flush_table(struct ip_fw_chain *ch, struct tid_info *ti)
1205 struct namedobj_instance *ni;
1206 struct table_config *tc;
1207 struct table_algo *ta;
1208 struct table_info ti_old, ti_new, *tablestate;
1209 void *astate_old, *astate_new;
1210 char algostate[64], *pstate;
1211 struct tableop_state ts;
1217 * Stage 1: save table algorithm.
1218 * Reference found table to ensure it won't disappear.
1221 ni = CHAIN_TO_NI(ch);
1222 if ((tc = find_table(ni, ti)) == NULL) {
1223 IPFW_UH_WUNLOCK(ch);
1228 memset(&ti_new, 0, sizeof(ti_new));
1230 /* Set up swap handler */
1231 memset(&ts, 0, sizeof(ts));
1232 ts.opstate.func = restart_flush;
1236 /* Do not flush readonly tables */
1237 if ((ta->flags & TA_FLAG_READONLY) != 0) {
1238 IPFW_UH_WUNLOCK(ch);
1241 /* Save startup algo parameters */
1242 if (ta->print_config != NULL) {
1243 ta->print_config(tc->astate, KIDX_TO_TI(ch, tc->no.kidx),
1244 algostate, sizeof(algostate));
1248 tflags = tc->tflags;
1250 add_toperation_state(ch, &ts);
1251 IPFW_UH_WUNLOCK(ch);
1254 * Stage 1.5: if this is not the first attempt, destroy previous state
1257 ta->destroy(astate_new, &ti_new);
1262 * Stage 2: allocate new table instance using same algo.
1264 memset(&ti_new, 0, sizeof(struct table_info));
1265 error = ta->init(ch, &astate_new, &ti_new, pstate, tflags);
1268 * Stage 3: swap old state pointers with newly-allocated ones.
1269 * Decrease refcount.
1273 del_toperation_state(ch, &ts);
1276 IPFW_UH_WUNLOCK(ch);
1281 * Restart operation if table swap has happened:
1282 * even if algo may be the same, algo init parameters
1283 * may change. Restart operation instead of doing
1286 if (ts.modified != 0) {
1287 /* Delay destroying data since we're holding UH lock */
1292 ni = CHAIN_TO_NI(ch);
1294 tablestate = (struct table_info *)ch->tablestate;
1297 ti_old = tablestate[kidx];
1298 tablestate[kidx] = ti_new;
1301 astate_old = tc->astate;
1302 tc->astate = astate_new;
1303 tc->ti_copy = ti_new;
1306 /* Notify algo on real @ti address */
1307 if (ta->change_ti != NULL)
1308 ta->change_ti(tc->astate, &tablestate[kidx]);
1311 * Stage 4: unref values.
1313 ipfw_unref_table_values(ch, tc, ta, astate_old, &ti_old);
1314 IPFW_UH_WUNLOCK(ch);
1317 * Stage 5: perform real flush/destroy.
1319 ta->destroy(astate_old, &ti_old);
1326 * Data layout (v0)(current):
1327 * Request: [ ipfw_obj_header ipfw_obj_ntlv ]
1329 * Returns 0 on success
1332 swap_table(struct ip_fw_chain *ch, ip_fw3_opheader *op3,
1333 struct sockopt_data *sd)
1336 struct _ipfw_obj_header *oh;
1337 struct tid_info ti_a, ti_b;
1339 if (sd->valsize != sizeof(*oh) + sizeof(ipfw_obj_ntlv))
1342 oh = (struct _ipfw_obj_header *)op3;
1343 ntlv_to_ti(&oh->ntlv, &ti_a);
1344 ntlv_to_ti((ipfw_obj_ntlv *)(oh + 1), &ti_b);
1346 error = swap_tables(ch, &ti_a, &ti_b);
1352 * Swaps two tables of the same type/valtype.
1354 * Checks if tables are compatible and limits
1355 * permits swap, than actually perform swap.
1357 * Each table consists of 2 different parts:
1359 * @tc (with name, set, kidx) and rule bindings, which is "stable".
1363 * runtime data @ti (ch->tablestate)
1364 * runtime cache in @tc
1365 * algo-specific data (@tc->astate)
1372 * After that we call @ti change handler for each table.
1374 * Note that referencing @tc won't protect tc->ta from change.
1375 * XXX: Do we need to restrict swap between locked tables?
1376 * XXX: Do we need to exchange ftype?
1378 * Returns 0 on success.
1381 swap_tables(struct ip_fw_chain *ch, struct tid_info *a,
1384 struct namedobj_instance *ni;
1385 struct table_config *tc_a, *tc_b;
1386 struct table_algo *ta;
1387 struct table_info ti, *tablestate;
1392 * Stage 1: find both tables and ensure they are of
1396 ni = CHAIN_TO_NI(ch);
1397 if ((tc_a = find_table(ni, a)) == NULL) {
1398 IPFW_UH_WUNLOCK(ch);
1401 if ((tc_b = find_table(ni, b)) == NULL) {
1402 IPFW_UH_WUNLOCK(ch);
1406 /* It is very easy to swap between the same table */
1408 IPFW_UH_WUNLOCK(ch);
1412 /* Check type and value are the same */
1413 if (tc_a->no.subtype!=tc_b->no.subtype || tc_a->tflags!=tc_b->tflags) {
1414 IPFW_UH_WUNLOCK(ch);
1418 /* Check limits before swap */
1419 if ((tc_a->limit != 0 && tc_b->count > tc_a->limit) ||
1420 (tc_b->limit != 0 && tc_a->count > tc_b->limit)) {
1421 IPFW_UH_WUNLOCK(ch);
1425 /* Check if one of the tables is readonly */
1426 if (((tc_a->ta->flags | tc_b->ta->flags) & TA_FLAG_READONLY) != 0) {
1427 IPFW_UH_WUNLOCK(ch);
1431 /* Notify we're going to swap */
1432 rollback_toperation_state(ch, tc_a);
1433 rollback_toperation_state(ch, tc_b);
1435 /* Everything is fine, prepare to swap */
1436 tablestate = (struct table_info *)ch->tablestate;
1437 ti = tablestate[tc_a->no.kidx];
1439 astate = tc_a->astate;
1440 count = tc_a->count;
1444 tablestate[tc_a->no.kidx] = tablestate[tc_b->no.kidx];
1445 tc_a->ta = tc_b->ta;
1446 tc_a->astate = tc_b->astate;
1447 tc_a->count = tc_b->count;
1449 tablestate[tc_b->no.kidx] = ti;
1451 tc_b->astate = astate;
1452 tc_b->count = count;
1455 /* Ensure tc.ti copies are in sync */
1456 tc_a->ti_copy = tablestate[tc_a->no.kidx];
1457 tc_b->ti_copy = tablestate[tc_b->no.kidx];
1459 /* Notify both tables on @ti change */
1460 if (tc_a->ta->change_ti != NULL)
1461 tc_a->ta->change_ti(tc_a->astate, &tablestate[tc_a->no.kidx]);
1462 if (tc_b->ta->change_ti != NULL)
1463 tc_b->ta->change_ti(tc_b->astate, &tablestate[tc_b->no.kidx]);
1465 IPFW_UH_WUNLOCK(ch);
1471 * Destroys table specified by @ti.
1472 * Data layout (v0)(current):
1473 * Request: [ ip_fw3_opheader ]
1475 * Returns 0 on success
1478 destroy_table(struct ip_fw_chain *ch, struct tid_info *ti)
1480 struct namedobj_instance *ni;
1481 struct table_config *tc;
1485 ni = CHAIN_TO_NI(ch);
1486 if ((tc = find_table(ni, ti)) == NULL) {
1487 IPFW_UH_WUNLOCK(ch);
1491 /* Do not permit destroying referenced tables */
1492 if (tc->no.refcnt > 0) {
1493 IPFW_UH_WUNLOCK(ch);
1498 unlink_table(ch, tc);
1501 /* Free obj index */
1502 if (ipfw_objhash_free_idx(ni, tc->no.kidx) != 0)
1503 printf("Error unlinking kidx %d from table %s\n",
1504 tc->no.kidx, tc->tablename);
1506 /* Unref values used in tables while holding UH lock */
1507 ipfw_unref_table_values(ch, tc, tc->ta, tc->astate, &tc->ti_copy);
1508 IPFW_UH_WUNLOCK(ch);
1510 free_table_config(ni, tc);
1516 roundup2p(uint32_t v)
1531 * Grow tables index.
1533 * Returns 0 on success.
1536 ipfw_resize_tables(struct ip_fw_chain *ch, unsigned int ntables)
1538 unsigned int ntables_old, tbl;
1539 struct namedobj_instance *ni;
1540 void *new_idx, *old_tablestate, *tablestate;
1541 struct table_info *ti;
1542 struct table_config *tc;
1545 /* Check new value for validity */
1548 if (ntables > IPFW_TABLES_MAX)
1549 ntables = IPFW_TABLES_MAX;
1550 /* Alight to nearest power of 2 */
1551 ntables = (unsigned int)roundup2p(ntables);
1553 /* Allocate new pointers */
1554 tablestate = malloc(ntables * sizeof(struct table_info),
1555 M_IPFW, M_WAITOK | M_ZERO);
1557 ipfw_objhash_bitmap_alloc(ntables, (void *)&new_idx, &new_blocks);
1561 tbl = (ntables >= V_fw_tables_max) ? V_fw_tables_max : ntables;
1562 ni = CHAIN_TO_NI(ch);
1564 /* Temporary restrict decreasing max_tables */
1565 if (ntables < V_fw_tables_max) {
1568 * FIXME: Check if we really can shrink
1570 IPFW_UH_WUNLOCK(ch);
1574 /* Copy table info/indices */
1575 memcpy(tablestate, ch->tablestate, sizeof(struct table_info) * tbl);
1576 ipfw_objhash_bitmap_merge(ni, &new_idx, &new_blocks);
1580 /* Change pointers */
1581 old_tablestate = ch->tablestate;
1582 ch->tablestate = tablestate;
1583 ipfw_objhash_bitmap_swap(ni, &new_idx, &new_blocks);
1585 ntables_old = V_fw_tables_max;
1586 V_fw_tables_max = ntables;
1590 /* Notify all consumers that their @ti pointer has changed */
1591 ti = (struct table_info *)ch->tablestate;
1592 for (i = 0; i < tbl; i++, ti++) {
1593 if (ti->lookup == NULL)
1595 tc = (struct table_config *)ipfw_objhash_lookup_kidx(ni, i);
1596 if (tc == NULL || tc->ta->change_ti == NULL)
1599 tc->ta->change_ti(tc->astate, ti);
1602 IPFW_UH_WUNLOCK(ch);
1604 /* Free old pointers */
1605 free(old_tablestate, M_IPFW);
1606 ipfw_objhash_bitmap_free(new_idx, new_blocks);
1612 * Lookup table's named object by its @kidx.
1614 struct named_object *
1615 ipfw_objhash_lookup_table_kidx(struct ip_fw_chain *ch, uint16_t kidx)
1618 return (ipfw_objhash_lookup_kidx(CHAIN_TO_NI(ch), kidx));
1622 * Take reference to table specified in @ntlv.
1623 * On success return its @kidx.
1626 ipfw_ref_table(struct ip_fw_chain *ch, ipfw_obj_ntlv *ntlv, uint16_t *kidx)
1629 struct table_config *tc;
1632 IPFW_UH_WLOCK_ASSERT(ch);
1634 ntlv_to_ti(ntlv, &ti);
1635 error = find_table_err(CHAIN_TO_NI(ch), &ti, &tc);
1643 *kidx = tc->no.kidx;
1649 ipfw_unref_table(struct ip_fw_chain *ch, uint16_t kidx)
1652 struct namedobj_instance *ni;
1653 struct named_object *no;
1655 IPFW_UH_WLOCK_ASSERT(ch);
1656 ni = CHAIN_TO_NI(ch);
1657 no = ipfw_objhash_lookup_kidx(ni, kidx);
1658 KASSERT(no != NULL, ("Table with index %d not found", kidx));
1663 * Lookup an arbitrary key @paddr of length @plen in table @tbl.
1664 * Stores found value in @val.
1666 * Returns 1 if key was found.
1669 ipfw_lookup_table(struct ip_fw_chain *ch, uint16_t tbl, uint16_t plen,
1670 void *paddr, uint32_t *val)
1672 struct table_info *ti;
1674 ti = KIDX_TO_TI(ch, tbl);
1676 return (ti->lookup(ti, paddr, plen, val));
1680 * Info/List/dump support for tables.
1685 * High-level 'get' cmds sysctl handlers
1689 * Lists all tables currently available in kernel.
1690 * Data layout (v0)(current):
1691 * Request: [ ipfw_obj_lheader ], size = ipfw_obj_lheader.size
1692 * Reply: [ ipfw_obj_lheader ipfw_xtable_info x N ]
1694 * Returns 0 on success
1697 list_tables(struct ip_fw_chain *ch, ip_fw3_opheader *op3,
1698 struct sockopt_data *sd)
1700 struct _ipfw_obj_lheader *olh;
1703 olh = (struct _ipfw_obj_lheader *)ipfw_get_sopt_header(sd,sizeof(*olh));
1706 if (sd->valsize < olh->size)
1710 error = export_tables(ch, olh, sd);
1711 IPFW_UH_RUNLOCK(ch);
1717 * Store table info to buffer provided by @sd.
1718 * Data layout (v0)(current):
1719 * Request: [ ipfw_obj_header ipfw_xtable_info(empty)]
1720 * Reply: [ ipfw_obj_header ipfw_xtable_info ]
1722 * Returns 0 on success.
1725 describe_table(struct ip_fw_chain *ch, ip_fw3_opheader *op3,
1726 struct sockopt_data *sd)
1728 struct _ipfw_obj_header *oh;
1729 struct table_config *tc;
1733 sz = sizeof(*oh) + sizeof(ipfw_xtable_info);
1734 oh = (struct _ipfw_obj_header *)ipfw_get_sopt_header(sd, sz);
1738 objheader_to_ti(oh, &ti);
1741 if ((tc = find_table(CHAIN_TO_NI(ch), &ti)) == NULL) {
1742 IPFW_UH_RUNLOCK(ch);
1746 export_table_info(ch, tc, (ipfw_xtable_info *)(oh + 1));
1747 IPFW_UH_RUNLOCK(ch);
1753 * Modifies existing table.
1754 * Data layout (v0)(current):
1755 * Request: [ ipfw_obj_header ipfw_xtable_info ]
1757 * Returns 0 on success
1760 modify_table(struct ip_fw_chain *ch, ip_fw3_opheader *op3,
1761 struct sockopt_data *sd)
1763 struct _ipfw_obj_header *oh;
1764 ipfw_xtable_info *i;
1767 struct namedobj_instance *ni;
1768 struct table_config *tc;
1770 if (sd->valsize != sizeof(*oh) + sizeof(ipfw_xtable_info))
1773 oh = (struct _ipfw_obj_header *)sd->kbuf;
1774 i = (ipfw_xtable_info *)(oh + 1);
1777 * Verify user-supplied strings.
1778 * Check for null-terminated/zero-length strings/
1780 tname = oh->ntlv.name;
1781 if (check_table_name(tname) != 0)
1784 objheader_to_ti(oh, &ti);
1788 ni = CHAIN_TO_NI(ch);
1789 if ((tc = find_table(ni, &ti)) == NULL) {
1790 IPFW_UH_WUNLOCK(ch);
1794 /* Do not support any modifications for readonly tables */
1795 if ((tc->ta->flags & TA_FLAG_READONLY) != 0) {
1796 IPFW_UH_WUNLOCK(ch);
1800 if ((i->mflags & IPFW_TMFLAGS_LIMIT) != 0)
1801 tc->limit = i->limit;
1802 if ((i->mflags & IPFW_TMFLAGS_LOCK) != 0)
1803 tc->locked = ((i->flags & IPFW_TGFLAGS_LOCKED) != 0);
1804 IPFW_UH_WUNLOCK(ch);
1810 * Creates new table.
1811 * Data layout (v0)(current):
1812 * Request: [ ipfw_obj_header ipfw_xtable_info ]
1814 * Returns 0 on success
1817 create_table(struct ip_fw_chain *ch, ip_fw3_opheader *op3,
1818 struct sockopt_data *sd)
1820 struct _ipfw_obj_header *oh;
1821 ipfw_xtable_info *i;
1822 char *tname, *aname;
1824 struct namedobj_instance *ni;
1826 if (sd->valsize != sizeof(*oh) + sizeof(ipfw_xtable_info))
1829 oh = (struct _ipfw_obj_header *)sd->kbuf;
1830 i = (ipfw_xtable_info *)(oh + 1);
1833 * Verify user-supplied strings.
1834 * Check for null-terminated/zero-length strings/
1836 tname = oh->ntlv.name;
1837 aname = i->algoname;
1838 if (check_table_name(tname) != 0 ||
1839 strnlen(aname, sizeof(i->algoname)) == sizeof(i->algoname))
1842 if (aname[0] == '\0') {
1843 /* Use default algorithm */
1847 objheader_to_ti(oh, &ti);
1850 ni = CHAIN_TO_NI(ch);
1853 if (find_table(ni, &ti) != NULL) {
1854 IPFW_UH_RUNLOCK(ch);
1857 IPFW_UH_RUNLOCK(ch);
1859 return (create_table_internal(ch, &ti, aname, i, NULL, 0));
1863 * Creates new table based on @ti and @aname.
1865 * Assume @aname to be checked and valid.
1866 * Stores allocated table kidx inside @pkidx (if non-NULL).
1867 * Reference created table if @compat is non-zero.
1869 * Returns 0 on success.
1872 create_table_internal(struct ip_fw_chain *ch, struct tid_info *ti,
1873 char *aname, ipfw_xtable_info *i, uint16_t *pkidx, int compat)
1875 struct namedobj_instance *ni;
1876 struct table_config *tc, *tc_new, *tmp;
1877 struct table_algo *ta;
1880 ni = CHAIN_TO_NI(ch);
1882 ta = find_table_algo(CHAIN_TO_TCFG(ch), ti, aname);
1886 tc = alloc_table_config(ch, ti, ta, aname, i->tflags);
1890 tc->vmask = i->vmask;
1891 tc->limit = i->limit;
1892 if (ta->flags & TA_FLAG_READONLY)
1895 tc->locked = (i->flags & IPFW_TGFLAGS_LOCKED) != 0;
1899 /* Check if table has been already created */
1900 tc_new = find_table(ni, ti);
1901 if (tc_new != NULL) {
1904 * Compat: do not fail if we're
1905 * requesting to create existing table
1906 * which has the same type
1908 if (compat == 0 || tc_new->no.subtype != tc->no.subtype) {
1909 IPFW_UH_WUNLOCK(ch);
1910 free_table_config(ni, tc);
1914 /* Exchange tc and tc_new for proper refcounting & freeing */
1920 if (ipfw_objhash_alloc_idx(ni, &kidx) != 0) {
1921 IPFW_UH_WUNLOCK(ch);
1922 printf("Unable to allocate table index."
1923 " Consider increasing net.inet.ip.fw.tables_max");
1924 free_table_config(ni, tc);
1928 tc->no.etlv = IPFW_TLV_TBL_NAME;
1936 *pkidx = tc->no.kidx;
1938 IPFW_UH_WUNLOCK(ch);
1941 free_table_config(ni, tc_new);
1947 ntlv_to_ti(ipfw_obj_ntlv *ntlv, struct tid_info *ti)
1950 memset(ti, 0, sizeof(struct tid_info));
1951 ti->set = ntlv->set;
1952 ti->uidx = ntlv->idx;
1954 ti->tlen = ntlv->head.length;
1958 objheader_to_ti(struct _ipfw_obj_header *oh, struct tid_info *ti)
1961 ntlv_to_ti(&oh->ntlv, ti);
1964 struct namedobj_instance *
1965 ipfw_get_table_objhash(struct ip_fw_chain *ch)
1968 return (CHAIN_TO_NI(ch));
1972 * Exports basic table info as name TLV.
1973 * Used inside dump_static_rules() to provide info
1974 * about all tables referenced by current ruleset.
1976 * Returns 0 on success.
1979 ipfw_export_table_ntlv(struct ip_fw_chain *ch, uint16_t kidx,
1980 struct sockopt_data *sd)
1982 struct namedobj_instance *ni;
1983 struct named_object *no;
1984 ipfw_obj_ntlv *ntlv;
1986 ni = CHAIN_TO_NI(ch);
1988 no = ipfw_objhash_lookup_kidx(ni, kidx);
1989 KASSERT(no != NULL, ("invalid table kidx passed"));
1991 ntlv = (ipfw_obj_ntlv *)ipfw_get_sopt_space(sd, sizeof(*ntlv));
1995 ntlv->head.type = IPFW_TLV_TBL_NAME;
1996 ntlv->head.length = sizeof(*ntlv);
1997 ntlv->idx = no->kidx;
1998 strlcpy(ntlv->name, no->name, sizeof(ntlv->name));
2004 struct ip_fw_chain *ch;
2005 struct table_info *ti;
2006 struct table_config *tc;
2007 struct sockopt_data *sd;
2012 ipfw_table_entry *ent;
2015 ipfw_obj_tentry tent;
2019 count_ext_entries(void *e, void *arg)
2021 struct dump_args *da;
2023 da = (struct dump_args *)arg;
2030 * Gets number of items from table either using
2031 * internal counter or calling algo callback for
2032 * externally-managed tables.
2034 * Returns number of records.
2037 table_get_count(struct ip_fw_chain *ch, struct table_config *tc)
2039 struct table_info *ti;
2040 struct table_algo *ta;
2041 struct dump_args da;
2043 ti = KIDX_TO_TI(ch, tc->no.kidx);
2046 /* Use internal counter for self-managed tables */
2047 if ((ta->flags & TA_FLAG_READONLY) == 0)
2050 /* Use callback to quickly get number of items */
2051 if ((ta->flags & TA_FLAG_EXTCOUNTER) != 0)
2052 return (ta->get_count(tc->astate, ti));
2054 /* Count number of iterms ourselves */
2055 memset(&da, 0, sizeof(da));
2056 ta->foreach(tc->astate, ti, count_ext_entries, &da);
2062 * Exports table @tc info into standard ipfw_xtable_info format.
2065 export_table_info(struct ip_fw_chain *ch, struct table_config *tc,
2066 ipfw_xtable_info *i)
2068 struct table_info *ti;
2069 struct table_algo *ta;
2071 i->type = tc->no.subtype;
2072 i->tflags = tc->tflags;
2073 i->vmask = tc->vmask;
2074 i->set = tc->no.set;
2075 i->kidx = tc->no.kidx;
2076 i->refcnt = tc->no.refcnt;
2077 i->count = table_get_count(ch, tc);
2078 i->limit = tc->limit;
2079 i->flags |= (tc->locked != 0) ? IPFW_TGFLAGS_LOCKED : 0;
2080 i->size = i->count * sizeof(ipfw_obj_tentry);
2081 i->size += sizeof(ipfw_obj_header) + sizeof(ipfw_xtable_info);
2082 strlcpy(i->tablename, tc->tablename, sizeof(i->tablename));
2083 ti = KIDX_TO_TI(ch, tc->no.kidx);
2085 if (ta->print_config != NULL) {
2086 /* Use algo function to print table config to string */
2087 ta->print_config(tc->astate, ti, i->algoname,
2088 sizeof(i->algoname));
2090 strlcpy(i->algoname, ta->name, sizeof(i->algoname));
2091 /* Dump algo-specific data, if possible */
2092 if (ta->dump_tinfo != NULL) {
2093 ta->dump_tinfo(tc->astate, ti, &i->ta_info);
2094 i->ta_info.flags |= IPFW_TATFLAGS_DATA;
2098 struct dump_table_args {
2099 struct ip_fw_chain *ch;
2100 struct sockopt_data *sd;
2104 export_table_internal(struct namedobj_instance *ni, struct named_object *no,
2107 ipfw_xtable_info *i;
2108 struct dump_table_args *dta;
2110 dta = (struct dump_table_args *)arg;
2112 i = (ipfw_xtable_info *)ipfw_get_sopt_space(dta->sd, sizeof(*i));
2113 KASSERT(i != NULL, ("previously checked buffer is not enough"));
2115 export_table_info(dta->ch, (struct table_config *)no, i);
2120 * Export all tables as ipfw_xtable_info structures to
2121 * storage provided by @sd.
2123 * If supplied buffer is too small, fills in required size
2124 * and returns ENOMEM.
2125 * Returns 0 on success.
2128 export_tables(struct ip_fw_chain *ch, ipfw_obj_lheader *olh,
2129 struct sockopt_data *sd)
2133 struct dump_table_args dta;
2135 count = ipfw_objhash_count(CHAIN_TO_NI(ch));
2136 size = count * sizeof(ipfw_xtable_info) + sizeof(ipfw_obj_lheader);
2138 /* Fill in header regadless of buffer size */
2140 olh->objsize = sizeof(ipfw_xtable_info);
2142 if (size > olh->size) {
2152 ipfw_objhash_foreach(CHAIN_TO_NI(ch), export_table_internal, &dta);
2158 * Dumps all table data
2159 * Data layout (v1)(current):
2160 * Request: [ ipfw_obj_header ], size = ipfw_xtable_info.size
2161 * Reply: [ ipfw_obj_header ipfw_xtable_info ipfw_obj_tentry x N ]
2163 * Returns 0 on success
2166 dump_table_v1(struct ip_fw_chain *ch, ip_fw3_opheader *op3,
2167 struct sockopt_data *sd)
2169 struct _ipfw_obj_header *oh;
2170 ipfw_xtable_info *i;
2172 struct table_config *tc;
2173 struct table_algo *ta;
2174 struct dump_args da;
2177 sz = sizeof(ipfw_obj_header) + sizeof(ipfw_xtable_info);
2178 oh = (struct _ipfw_obj_header *)ipfw_get_sopt_header(sd, sz);
2182 i = (ipfw_xtable_info *)(oh + 1);
2183 objheader_to_ti(oh, &ti);
2186 if ((tc = find_table(CHAIN_TO_NI(ch), &ti)) == NULL) {
2187 IPFW_UH_RUNLOCK(ch);
2190 export_table_info(ch, tc, i);
2192 if (sd->valsize < i->size) {
2195 * Submitted buffer size is not enough.
2196 * WE've already filled in @i structure with
2197 * relevant table info including size, so we
2198 * can return. Buffer will be flushed automatically.
2200 IPFW_UH_RUNLOCK(ch);
2205 * Do the actual dump in eXtended format
2207 memset(&da, 0, sizeof(da));
2209 da.ti = KIDX_TO_TI(ch, tc->no.kidx);
2215 ta->foreach(tc->astate, da.ti, dump_table_tentry, &da);
2216 IPFW_UH_RUNLOCK(ch);
2222 * Dumps all table data
2223 * Data layout (version 0)(legacy):
2224 * Request: [ ipfw_xtable ], size = IP_FW_TABLE_XGETSIZE()
2225 * Reply: [ ipfw_xtable ipfw_table_xentry x N ]
2227 * Returns 0 on success
2230 dump_table_v0(struct ip_fw_chain *ch, ip_fw3_opheader *op3,
2231 struct sockopt_data *sd)
2235 struct table_config *tc;
2236 struct table_algo *ta;
2237 struct dump_args da;
2240 xtbl = (ipfw_xtable *)ipfw_get_sopt_header(sd, sizeof(ipfw_xtable));
2244 memset(&ti, 0, sizeof(ti));
2245 ti.uidx = xtbl->tbl;
2248 if ((tc = find_table(CHAIN_TO_NI(ch), &ti)) == NULL) {
2249 IPFW_UH_RUNLOCK(ch);
2252 count = table_get_count(ch, tc);
2253 sz = count * sizeof(ipfw_table_xentry) + sizeof(ipfw_xtable);
2257 xtbl->type = tc->no.subtype;
2258 xtbl->tbl = ti.uidx;
2260 if (sd->valsize < sz) {
2263 * Submitted buffer size is not enough.
2264 * WE've already filled in @i structure with
2265 * relevant table info including size, so we
2266 * can return. Buffer will be flushed automatically.
2268 IPFW_UH_RUNLOCK(ch);
2272 /* Do the actual dump in eXtended format */
2273 memset(&da, 0, sizeof(da));
2275 da.ti = KIDX_TO_TI(ch, tc->no.kidx);
2281 ta->foreach(tc->astate, da.ti, dump_table_xentry, &da);
2282 IPFW_UH_RUNLOCK(ch);
2288 * Legacy function to retrieve number of items in table.
2291 get_table_size(struct ip_fw_chain *ch, ip_fw3_opheader *op3,
2292 struct sockopt_data *sd)
2299 sz = sizeof(*op3) + sizeof(uint32_t);
2300 op3 = (ip_fw3_opheader *)ipfw_get_sopt_header(sd, sz);
2304 tbl = (uint32_t *)(op3 + 1);
2305 memset(&ti, 0, sizeof(ti));
2308 error = ipfw_count_xtable(ch, &ti, tbl);
2309 IPFW_UH_RUNLOCK(ch);
2314 * Legacy IP_FW_TABLE_GETSIZE handler
2317 ipfw_count_table(struct ip_fw_chain *ch, struct tid_info *ti, uint32_t *cnt)
2319 struct table_config *tc;
2321 if ((tc = find_table(CHAIN_TO_NI(ch), ti)) == NULL)
2323 *cnt = table_get_count(ch, tc);
2328 * Legacy IP_FW_TABLE_XGETSIZE handler
2331 ipfw_count_xtable(struct ip_fw_chain *ch, struct tid_info *ti, uint32_t *cnt)
2333 struct table_config *tc;
2336 if ((tc = find_table(CHAIN_TO_NI(ch), ti)) == NULL) {
2338 return (0); /* 'table all list' requires success */
2341 count = table_get_count(ch, tc);
2342 *cnt = count * sizeof(ipfw_table_xentry);
2344 *cnt += sizeof(ipfw_xtable);
2349 dump_table_entry(void *e, void *arg)
2351 struct dump_args *da;
2352 struct table_config *tc;
2353 struct table_algo *ta;
2354 ipfw_table_entry *ent;
2355 struct table_value *pval;
2358 da = (struct dump_args *)arg;
2363 /* Out of memory, returning */
2364 if (da->cnt == da->size)
2367 ent->tbl = da->uidx;
2370 error = ta->dump_tentry(tc->astate, da->ti, e, &da->tent);
2374 ent->addr = da->tent.k.addr.s_addr;
2375 ent->masklen = da->tent.masklen;
2376 pval = get_table_value(da->ch, da->tc, da->tent.v.kidx);
2377 ent->value = ipfw_export_table_value_legacy(pval);
2383 * Dumps table in pre-8.1 legacy format.
2386 ipfw_dump_table_legacy(struct ip_fw_chain *ch, struct tid_info *ti,
2389 struct table_config *tc;
2390 struct table_algo *ta;
2391 struct dump_args da;
2395 if ((tc = find_table(CHAIN_TO_NI(ch), ti)) == NULL)
2396 return (0); /* XXX: We should return ESRCH */
2400 /* This dump format supports IPv4 only */
2401 if (tc->no.subtype != IPFW_TABLE_ADDR)
2404 memset(&da, 0, sizeof(da));
2406 da.ti = KIDX_TO_TI(ch, tc->no.kidx);
2408 da.ent = &tbl->ent[0];
2409 da.size = tbl->size;
2412 ta->foreach(tc->astate, da.ti, dump_table_entry, &da);
2419 * Dumps table entry in eXtended format (v1)(current).
2422 dump_table_tentry(void *e, void *arg)
2424 struct dump_args *da;
2425 struct table_config *tc;
2426 struct table_algo *ta;
2427 struct table_value *pval;
2428 ipfw_obj_tentry *tent;
2431 da = (struct dump_args *)arg;
2436 tent = (ipfw_obj_tentry *)ipfw_get_sopt_space(da->sd, sizeof(*tent));
2437 /* Out of memory, returning */
2442 tent->head.length = sizeof(ipfw_obj_tentry);
2443 tent->idx = da->uidx;
2445 error = ta->dump_tentry(tc->astate, da->ti, e, tent);
2449 pval = get_table_value(da->ch, da->tc, tent->v.kidx);
2450 ipfw_export_table_value_v1(pval, &tent->v.value);
2456 * Dumps table entry in eXtended format (v0).
2459 dump_table_xentry(void *e, void *arg)
2461 struct dump_args *da;
2462 struct table_config *tc;
2463 struct table_algo *ta;
2464 ipfw_table_xentry *xent;
2465 ipfw_obj_tentry *tent;
2466 struct table_value *pval;
2469 da = (struct dump_args *)arg;
2474 xent = (ipfw_table_xentry *)ipfw_get_sopt_space(da->sd, sizeof(*xent));
2475 /* Out of memory, returning */
2478 xent->len = sizeof(ipfw_table_xentry);
2479 xent->tbl = da->uidx;
2481 memset(&da->tent, 0, sizeof(da->tent));
2483 error = ta->dump_tentry(tc->astate, da->ti, e, tent);
2487 /* Convert current format to previous one */
2488 xent->masklen = tent->masklen;
2489 pval = get_table_value(da->ch, da->tc, da->tent.v.kidx);
2490 xent->value = ipfw_export_table_value_legacy(pval);
2491 /* Apply some hacks */
2492 if (tc->no.subtype == IPFW_TABLE_ADDR && tent->subtype == AF_INET) {
2493 xent->k.addr6.s6_addr32[3] = tent->k.addr.s_addr;
2494 xent->flags = IPFW_TCF_INET;
2496 memcpy(&xent->k, &tent->k, sizeof(xent->k));
2502 * Helper function to export table algo data
2503 * to tentry format before calling user function.
2505 * Returns 0 on success.
2508 prepare_table_tentry(void *e, void *arg)
2510 struct dump_args *da;
2511 struct table_config *tc;
2512 struct table_algo *ta;
2515 da = (struct dump_args *)arg;
2520 error = ta->dump_tentry(tc->astate, da->ti, e, &da->tent);
2524 da->f(&da->tent, da->farg);
2530 * Allow external consumers to read table entries in standard format.
2533 ipfw_foreach_table_tentry(struct ip_fw_chain *ch, uint16_t kidx,
2534 ta_foreach_f *f, void *arg)
2536 struct namedobj_instance *ni;
2537 struct table_config *tc;
2538 struct table_algo *ta;
2539 struct dump_args da;
2541 ni = CHAIN_TO_NI(ch);
2543 tc = (struct table_config *)ipfw_objhash_lookup_kidx(ni, kidx);
2549 memset(&da, 0, sizeof(da));
2551 da.ti = KIDX_TO_TI(ch, tc->no.kidx);
2556 ta->foreach(tc->astate, da.ti, prepare_table_tentry, &da);
2566 * Finds algorithm by index, table type or supplied name.
2568 * Returns pointer to algo or NULL.
2570 static struct table_algo *
2571 find_table_algo(struct tables_config *tcfg, struct tid_info *ti, char *name)
2574 struct table_algo *ta;
2576 if (ti->type > IPFW_TABLE_MAXTYPE)
2579 /* Search by index */
2580 if (ti->atype != 0) {
2581 if (ti->atype > tcfg->algo_count)
2583 return (tcfg->algo[ti->atype]);
2587 /* Return default algorithm for given type if set */
2588 return (tcfg->def_algo[ti->type]);
2591 /* Search by name */
2592 /* TODO: better search */
2593 for (i = 1; i <= tcfg->algo_count; i++) {
2597 * One can supply additional algorithm
2598 * parameters so we compare only the first word
2600 * 'addr:chash hsize=32'
2604 l = strlen(ta->name);
2605 if (strncmp(name, ta->name, l) != 0)
2607 if (name[l] != '\0' && name[l] != ' ')
2609 /* Check if we're requesting proper table type */
2610 if (ti->type != 0 && ti->type != ta->type)
2619 * Register new table algo @ta.
2620 * Stores algo id inside @idx.
2622 * Returns 0 on success.
2625 ipfw_add_table_algo(struct ip_fw_chain *ch, struct table_algo *ta, size_t size,
2628 struct tables_config *tcfg;
2629 struct table_algo *ta_new;
2632 if (size > sizeof(struct table_algo))
2635 /* Check for the required on-stack size for add/del */
2636 sz = roundup2(ta->ta_buf_size, sizeof(void *));
2640 KASSERT(ta->type <= IPFW_TABLE_MAXTYPE,("Increase IPFW_TABLE_MAXTYPE"));
2642 /* Copy algorithm data to stable storage. */
2643 ta_new = malloc(sizeof(struct table_algo), M_IPFW, M_WAITOK | M_ZERO);
2644 memcpy(ta_new, ta, size);
2646 tcfg = CHAIN_TO_TCFG(ch);
2648 KASSERT(tcfg->algo_count < 255, ("Increase algo array size"));
2650 tcfg->algo[++tcfg->algo_count] = ta_new;
2651 ta_new->idx = tcfg->algo_count;
2653 /* Set algorithm as default one for given type */
2654 if ((ta_new->flags & TA_FLAG_DEFAULT) != 0 &&
2655 tcfg->def_algo[ta_new->type] == NULL)
2656 tcfg->def_algo[ta_new->type] = ta_new;
2664 * Unregisters table algo using @idx as id.
2665 * XXX: It is NOT safe to call this function in any place
2666 * other than ipfw instance destroy handler.
2669 ipfw_del_table_algo(struct ip_fw_chain *ch, int idx)
2671 struct tables_config *tcfg;
2672 struct table_algo *ta;
2674 tcfg = CHAIN_TO_TCFG(ch);
2676 KASSERT(idx <= tcfg->algo_count, ("algo idx %d out of range 1..%d",
2677 idx, tcfg->algo_count));
2679 ta = tcfg->algo[idx];
2680 KASSERT(ta != NULL, ("algo idx %d is NULL", idx));
2682 if (tcfg->def_algo[ta->type] == ta)
2683 tcfg->def_algo[ta->type] = NULL;
2689 * Lists all table algorithms currently available.
2690 * Data layout (v0)(current):
2691 * Request: [ ipfw_obj_lheader ], size = ipfw_obj_lheader.size
2692 * Reply: [ ipfw_obj_lheader ipfw_ta_info x N ]
2694 * Returns 0 on success
2697 list_table_algo(struct ip_fw_chain *ch, ip_fw3_opheader *op3,
2698 struct sockopt_data *sd)
2700 struct _ipfw_obj_lheader *olh;
2701 struct tables_config *tcfg;
2703 struct table_algo *ta;
2704 uint32_t count, n, size;
2706 olh = (struct _ipfw_obj_lheader *)ipfw_get_sopt_header(sd,sizeof(*olh));
2709 if (sd->valsize < olh->size)
2713 tcfg = CHAIN_TO_TCFG(ch);
2714 count = tcfg->algo_count;
2715 size = count * sizeof(ipfw_ta_info) + sizeof(ipfw_obj_lheader);
2717 /* Fill in header regadless of buffer size */
2719 olh->objsize = sizeof(ipfw_ta_info);
2721 if (size > olh->size) {
2723 IPFW_UH_RUNLOCK(ch);
2728 for (n = 1; n <= count; n++) {
2729 i = (ipfw_ta_info *)ipfw_get_sopt_space(sd, sizeof(*i));
2730 KASSERT(i != NULL, ("previously checked buffer is not enough"));
2732 strlcpy(i->algoname, ta->name, sizeof(i->algoname));
2734 i->refcnt = ta->refcnt;
2737 IPFW_UH_RUNLOCK(ch);
2743 classify_srcdst(ipfw_insn *cmd, uint16_t *puidx, uint8_t *ptype)
2745 /* Basic IPv4/IPv6 or u32 lookups */
2747 /* Assume ADDR by default */
2748 *ptype = IPFW_TABLE_ADDR;
2751 if (F_LEN(cmd) > F_INSN_SIZE(ipfw_insn_u32)) {
2753 * generic lookup. The key must be
2754 * in 32bit big-endian format.
2756 v = ((ipfw_insn_u32 *)cmd)->d[1];
2765 *ptype = IPFW_TABLE_NUMBER;
2769 *ptype = IPFW_TABLE_NUMBER;
2773 *ptype = IPFW_TABLE_NUMBER;
2777 *ptype = IPFW_TABLE_NUMBER;
2786 classify_via(ipfw_insn *cmd, uint16_t *puidx, uint8_t *ptype)
2788 ipfw_insn_if *cmdif;
2790 /* Interface table, possibly */
2791 cmdif = (ipfw_insn_if *)cmd;
2792 if (cmdif->name[0] != '\1')
2795 *ptype = IPFW_TABLE_INTERFACE;
2796 *puidx = cmdif->p.kidx;
2802 classify_flow(ipfw_insn *cmd, uint16_t *puidx, uint8_t *ptype)
2806 *ptype = IPFW_TABLE_FLOW;
2812 update_arg1(ipfw_insn *cmd, uint16_t idx)
2819 update_via(ipfw_insn *cmd, uint16_t idx)
2821 ipfw_insn_if *cmdif;
2823 cmdif = (ipfw_insn_if *)cmd;
2824 cmdif->p.kidx = idx;
2828 table_findbyname(struct ip_fw_chain *ch, struct tid_info *ti,
2829 struct named_object **pno)
2831 struct table_config *tc;
2834 IPFW_UH_WLOCK_ASSERT(ch);
2836 error = find_table_err(CHAIN_TO_NI(ch), ti, &tc);
2844 /* XXX: sets-sets! */
2845 static struct named_object *
2846 table_findbykidx(struct ip_fw_chain *ch, uint16_t idx)
2848 struct namedobj_instance *ni;
2849 struct table_config *tc;
2851 IPFW_UH_WLOCK_ASSERT(ch);
2852 ni = CHAIN_TO_NI(ch);
2853 tc = (struct table_config *)ipfw_objhash_lookup_kidx(ni, idx);
2854 KASSERT(tc != NULL, ("Table with index %d not found", idx));
2860 table_manage_sets(struct ip_fw_chain *ch, uint16_t set, uint8_t new_set,
2861 enum ipfw_sets_cmd cmd)
2869 * Always return success, the real action and decision
2870 * should make table_manage_sets_all().
2876 * NOTE: we need to use ipfw_objhash_del/ipfw_objhash_add
2877 * if set number will be used in hash function. Currently
2878 * we can just use generic handler that replaces set value.
2880 if (V_fw_tables_sets == 0)
2885 * Return EOPNOTSUPP for COUNT_ONE when per-set sysctl is
2886 * disabled. This allow skip table's opcodes from additional
2887 * checks when specific rules moved to another set.
2889 if (V_fw_tables_sets == 0)
2890 return (EOPNOTSUPP);
2892 /* Use generic sets handler when per-set sysctl is enabled. */
2893 return (ipfw_obj_manage_sets(CHAIN_TO_NI(ch), IPFW_TLV_TBL_NAME,
2894 set, new_set, cmd));
2898 * We register several opcode rewriters for lookup tables.
2899 * All tables opcodes have the same ETLV type, but different subtype.
2900 * To avoid invoking sets handler several times for XXX_ALL commands,
2901 * we use separate manage_sets handler. O_RECV has the lowest value,
2902 * so it should be called first.
2905 table_manage_sets_all(struct ip_fw_chain *ch, uint16_t set, uint8_t new_set,
2906 enum ipfw_sets_cmd cmd)
2913 * Return success for TEST_ALL, since nothing prevents
2914 * move rules from one set to another. All tables are
2915 * accessible from all sets when per-set tables sysctl
2919 if (V_fw_tables_sets == 0)
2923 return (table_manage_sets(ch, set, new_set, cmd));
2925 /* Use generic sets handler when per-set sysctl is enabled. */
2926 return (ipfw_obj_manage_sets(CHAIN_TO_NI(ch), IPFW_TLV_TBL_NAME,
2927 set, new_set, cmd));
2930 static struct opcode_obj_rewrite opcodes[] = {
2932 .opcode = O_IP_SRC_LOOKUP,
2933 .etlv = IPFW_TLV_TBL_NAME,
2934 .classifier = classify_srcdst,
2935 .update = update_arg1,
2936 .find_byname = table_findbyname,
2937 .find_bykidx = table_findbykidx,
2938 .create_object = create_table_compat,
2939 .manage_sets = table_manage_sets,
2942 .opcode = O_IP_DST_LOOKUP,
2943 .etlv = IPFW_TLV_TBL_NAME,
2944 .classifier = classify_srcdst,
2945 .update = update_arg1,
2946 .find_byname = table_findbyname,
2947 .find_bykidx = table_findbykidx,
2948 .create_object = create_table_compat,
2949 .manage_sets = table_manage_sets,
2952 .opcode = O_IP_FLOW_LOOKUP,
2953 .etlv = IPFW_TLV_TBL_NAME,
2954 .classifier = classify_flow,
2955 .update = update_arg1,
2956 .find_byname = table_findbyname,
2957 .find_bykidx = table_findbykidx,
2958 .create_object = create_table_compat,
2959 .manage_sets = table_manage_sets,
2963 .etlv = IPFW_TLV_TBL_NAME,
2964 .classifier = classify_via,
2965 .update = update_via,
2966 .find_byname = table_findbyname,
2967 .find_bykidx = table_findbykidx,
2968 .create_object = create_table_compat,
2969 .manage_sets = table_manage_sets,
2973 .etlv = IPFW_TLV_TBL_NAME,
2974 .classifier = classify_via,
2975 .update = update_via,
2976 .find_byname = table_findbyname,
2977 .find_bykidx = table_findbykidx,
2978 .create_object = create_table_compat,
2979 .manage_sets = table_manage_sets_all,
2983 .etlv = IPFW_TLV_TBL_NAME,
2984 .classifier = classify_via,
2985 .update = update_via,
2986 .find_byname = table_findbyname,
2987 .find_bykidx = table_findbykidx,
2988 .create_object = create_table_compat,
2989 .manage_sets = table_manage_sets,
2994 test_sets_cb(struct namedobj_instance *ni __unused, struct named_object *no,
2998 /* Check that there aren't any tables in not default set */
3005 * Switch between "set 0" and "rule's set" table binding,
3006 * Check all ruleset bindings and permits changing
3007 * IFF each binding has both rule AND table in default set (set 0).
3009 * Returns 0 on success.
3012 ipfw_switch_tables_namespace(struct ip_fw_chain *ch, unsigned int sets)
3014 struct opcode_obj_rewrite *rw;
3015 struct namedobj_instance *ni;
3016 struct named_object *no;
3025 if (V_fw_tables_sets == sets) {
3026 IPFW_UH_WUNLOCK(ch);
3029 ni = CHAIN_TO_NI(ch);
3032 * Prevent disabling sets support if we have some tables
3033 * in not default sets.
3035 if (ipfw_objhash_foreach_type(ni, test_sets_cb,
3036 NULL, IPFW_TLV_TBL_NAME) != 0) {
3037 IPFW_UH_WUNLOCK(ch);
3042 * Scan all rules and examine tables opcodes.
3044 for (i = 0; i < ch->n_rules; i++) {
3050 for ( ; l > 0 ; l -= cmdlen, cmd += cmdlen) {
3051 cmdlen = F_LEN(cmd);
3052 /* Check only tables opcodes */
3053 for (kidx = 0, rw = opcodes;
3054 rw < opcodes + nitems(opcodes); rw++) {
3055 if (rw->opcode != cmd->opcode)
3057 if (rw->classifier(cmd, &kidx, &subtype) == 0)
3062 no = ipfw_objhash_lookup_kidx(ni, kidx);
3063 /* Check if both table object and rule has the set 0 */
3064 if (no->set != 0 || rule->set != 0) {
3065 IPFW_UH_WUNLOCK(ch);
3071 V_fw_tables_sets = sets;
3072 IPFW_UH_WUNLOCK(ch);
3077 * Checks table name for validity.
3078 * Enforce basic length checks, the rest
3079 * should be done in userland.
3081 * Returns 0 if name is considered valid.
3084 check_table_name(const char *name)
3088 * TODO: do some more complicated checks
3090 return (ipfw_check_object_name_generic(name));
3094 * Finds table config based on either legacy index
3096 * Note @ti structure contains unchecked data from userland.
3098 * Returns 0 in success and fills in @tc with found config
3101 find_table_err(struct namedobj_instance *ni, struct tid_info *ti,
3102 struct table_config **tc)
3104 char *name, bname[16];
3105 struct named_object *no;
3106 ipfw_obj_ntlv *ntlv;
3109 if (ti->tlvs != NULL) {
3110 ntlv = ipfw_find_name_tlv_type(ti->tlvs, ti->tlen, ti->uidx,
3117 * Use set provided by @ti instead of @ntlv one.
3118 * This is needed due to different sets behavior
3119 * controlled by V_fw_tables_sets.
3121 set = (V_fw_tables_sets != 0) ? ti->set : 0;
3123 snprintf(bname, sizeof(bname), "%d", ti->uidx);
3128 no = ipfw_objhash_lookup_name(ni, set, name);
3129 *tc = (struct table_config *)no;
3135 * Finds table config based on either legacy index
3137 * Note @ti structure contains unchecked data from userland.
3139 * Returns pointer to table_config or NULL.
3141 static struct table_config *
3142 find_table(struct namedobj_instance *ni, struct tid_info *ti)
3144 struct table_config *tc;
3146 if (find_table_err(ni, ti, &tc) != 0)
3153 * Allocate new table config structure using
3154 * specified @algo and @aname.
3156 * Returns pointer to config or NULL.
3158 static struct table_config *
3159 alloc_table_config(struct ip_fw_chain *ch, struct tid_info *ti,
3160 struct table_algo *ta, char *aname, uint8_t tflags)
3162 char *name, bname[16];
3163 struct table_config *tc;
3165 ipfw_obj_ntlv *ntlv;
3168 if (ti->tlvs != NULL) {
3169 ntlv = ipfw_find_name_tlv_type(ti->tlvs, ti->tlen, ti->uidx,
3176 /* Compat part: convert number to string representation */
3177 snprintf(bname, sizeof(bname), "%d", ti->uidx);
3182 tc = malloc(sizeof(struct table_config), M_IPFW, M_WAITOK | M_ZERO);
3183 tc->no.name = tc->tablename;
3184 tc->no.subtype = ta->type;
3186 tc->tflags = tflags;
3188 strlcpy(tc->tablename, name, sizeof(tc->tablename));
3189 /* Set "shared" value type by default */
3192 /* Preallocate data structures for new tables */
3193 error = ta->init(ch, &tc->astate, &tc->ti_copy, aname, tflags);
3203 * Destroys table state and config.
3206 free_table_config(struct namedobj_instance *ni, struct table_config *tc)
3209 KASSERT(tc->linked == 0, ("free() on linked config"));
3210 /* UH lock MUST NOT be held */
3213 * We're using ta without any locking/referencing.
3214 * TODO: fix this if we're going to use unloadable algos.
3216 tc->ta->destroy(tc->astate, &tc->ti_copy);
3221 * Links @tc to @chain table named instance.
3222 * Sets appropriate type/states in @chain table info.
3225 link_table(struct ip_fw_chain *ch, struct table_config *tc)
3227 struct namedobj_instance *ni;
3228 struct table_info *ti;
3231 IPFW_UH_WLOCK_ASSERT(ch);
3233 ni = CHAIN_TO_NI(ch);
3236 ipfw_objhash_add(ni, &tc->no);
3238 ti = KIDX_TO_TI(ch, kidx);
3241 /* Notify algo on real @ti address */
3242 if (tc->ta->change_ti != NULL)
3243 tc->ta->change_ti(tc->astate, ti);
3250 * Unlinks @tc from @chain table named instance.
3251 * Zeroes states in @chain and stores them in @tc.
3254 unlink_table(struct ip_fw_chain *ch, struct table_config *tc)
3256 struct namedobj_instance *ni;
3257 struct table_info *ti;
3260 IPFW_UH_WLOCK_ASSERT(ch);
3261 IPFW_WLOCK_ASSERT(ch);
3263 ni = CHAIN_TO_NI(ch);
3266 /* Clear state. @ti copy is already saved inside @tc */
3267 ipfw_objhash_del(ni, &tc->no);
3268 ti = KIDX_TO_TI(ch, kidx);
3269 memset(ti, 0, sizeof(struct table_info));
3273 /* Notify algo on real @ti address */
3274 if (tc->ta->change_ti != NULL)
3275 tc->ta->change_ti(tc->astate, NULL);
3278 static struct ipfw_sopt_handler scodes[] = {
3279 { IP_FW_TABLE_XCREATE, 0, HDIR_SET, create_table },
3280 { IP_FW_TABLE_XDESTROY, 0, HDIR_SET, flush_table_v0 },
3281 { IP_FW_TABLE_XFLUSH, 0, HDIR_SET, flush_table_v0 },
3282 { IP_FW_TABLE_XMODIFY, 0, HDIR_BOTH, modify_table },
3283 { IP_FW_TABLE_XINFO, 0, HDIR_GET, describe_table },
3284 { IP_FW_TABLES_XLIST, 0, HDIR_GET, list_tables },
3285 { IP_FW_TABLE_XLIST, 0, HDIR_GET, dump_table_v0 },
3286 { IP_FW_TABLE_XLIST, 1, HDIR_GET, dump_table_v1 },
3287 { IP_FW_TABLE_XADD, 0, HDIR_BOTH, manage_table_ent_v0 },
3288 { IP_FW_TABLE_XADD, 1, HDIR_BOTH, manage_table_ent_v1 },
3289 { IP_FW_TABLE_XDEL, 0, HDIR_BOTH, manage_table_ent_v0 },
3290 { IP_FW_TABLE_XDEL, 1, HDIR_BOTH, manage_table_ent_v1 },
3291 { IP_FW_TABLE_XFIND, 0, HDIR_GET, find_table_entry },
3292 { IP_FW_TABLE_XSWAP, 0, HDIR_SET, swap_table },
3293 { IP_FW_TABLES_ALIST, 0, HDIR_GET, list_table_algo },
3294 { IP_FW_TABLE_XGETSIZE, 0, HDIR_GET, get_table_size },
3298 destroy_table_locked(struct namedobj_instance *ni, struct named_object *no,
3302 unlink_table((struct ip_fw_chain *)arg, (struct table_config *)no);
3303 if (ipfw_objhash_free_idx(ni, no->kidx) != 0)
3304 printf("Error unlinking kidx %d from table %s\n",
3305 no->kidx, no->name);
3306 free_table_config(ni, (struct table_config *)no);
3311 * Shuts tables module down.
3314 ipfw_destroy_tables(struct ip_fw_chain *ch, int last)
3317 IPFW_DEL_SOPT_HANDLER(last, scodes);
3318 IPFW_DEL_OBJ_REWRITER(last, opcodes);
3320 /* Remove all tables from working set */
3323 ipfw_objhash_foreach(CHAIN_TO_NI(ch), destroy_table_locked, ch);
3325 IPFW_UH_WUNLOCK(ch);
3327 /* Free pointers itself */
3328 free(ch->tablestate, M_IPFW);
3330 ipfw_table_value_destroy(ch, last);
3331 ipfw_table_algo_destroy(ch);
3333 ipfw_objhash_destroy(CHAIN_TO_NI(ch));
3334 free(CHAIN_TO_TCFG(ch), M_IPFW);
3338 * Starts tables module.
3341 ipfw_init_tables(struct ip_fw_chain *ch, int first)
3343 struct tables_config *tcfg;
3345 /* Allocate pointers */
3346 ch->tablestate = malloc(V_fw_tables_max * sizeof(struct table_info),
3347 M_IPFW, M_WAITOK | M_ZERO);
3349 tcfg = malloc(sizeof(struct tables_config), M_IPFW, M_WAITOK | M_ZERO);
3350 tcfg->namehash = ipfw_objhash_create(V_fw_tables_max);
3353 ipfw_table_value_init(ch, first);
3354 ipfw_table_algo_init(ch);
3356 IPFW_ADD_OBJ_REWRITER(first, opcodes);
3357 IPFW_ADD_SOPT_HANDLER(first, scodes);