/*- * Copyright (c) 2014 Yandex LLC * Copyright (c) 2014 Alexander V. Chernikov * * 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 AUTHOR 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 AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ #include __FBSDID("$FreeBSD: head/sys/netpfil/ipfw/ip_fw_table_value.c 272940 2014-10-11 15:04:50Z melifaro $"); /* * Multi-field value support for ipfw tables. * * This file contains necessary functions to convert * large multi-field values into u32 indices suitable to be fed * to various table algorithms. Other machinery like proper refcounting, * internal structures resizing are also kept here. */ #include "opt_ipfw.h" #include #include #include #include #include #include #include #include #include #include #include #include /* ip_fw.h requires IFNAMSIZ */ #include #include /* struct ipfw_rule_ref */ #include #include #include static uint32_t hash_table_value(struct namedobj_instance *ni, void *key, uint32_t kopt); static int cmp_table_value(struct named_object *no, void *key, uint32_t kopt); static int list_table_values(struct ip_fw_chain *ch, ip_fw3_opheader *op3, struct sockopt_data *sd); static struct ipfw_sopt_handler scodes[] = { { IP_FW_TABLE_VLIST, 0, HDIR_GET, list_table_values }, }; #define CHAIN_TO_VI(chain) (CHAIN_TO_TCFG(chain)->valhash) struct table_val_link { struct named_object no; struct table_value *pval; /* Pointer to real table value */ }; #define VALDATA_START_SIZE 64 /* Allocate 64-items array by default */ struct vdump_args { struct ip_fw_chain *ch; struct sockopt_data *sd; struct table_value *pval; int error; }; static uint32_t hash_table_value(struct namedobj_instance *ni, void *key, uint32_t kopt) { return (hash32_buf(key, 56, 0)); } static int cmp_table_value(struct named_object *no, void *key, uint32_t kopt) { return (memcmp(((struct table_val_link *)no)->pval, key, 56)); } static void mask_table_value(struct table_value *src, struct table_value *dst, uint32_t mask) { #define _MCPY(f, b) if ((mask & (b)) != 0) { dst->f = src->f; } memset(dst, 0, sizeof(*dst)); _MCPY(tag, IPFW_VTYPE_TAG); _MCPY(pipe, IPFW_VTYPE_PIPE); _MCPY(divert, IPFW_VTYPE_DIVERT); _MCPY(skipto, IPFW_VTYPE_SKIPTO); _MCPY(netgraph, IPFW_VTYPE_NETGRAPH); _MCPY(fib, IPFW_VTYPE_FIB); _MCPY(nat, IPFW_VTYPE_NAT); _MCPY(dscp, IPFW_VTYPE_DSCP); _MCPY(nh4, IPFW_VTYPE_NH4); _MCPY(nh6, IPFW_VTYPE_NH6); #undef _MCPY } static void get_value_ptrs(struct ip_fw_chain *ch, struct table_config *tc, int vshared, struct table_value **ptv, struct namedobj_instance **pvi) { struct table_value *pval; struct namedobj_instance *vi; if (vshared != 0) { pval = (struct table_value *)ch->valuestate; vi = CHAIN_TO_VI(ch); } else { pval = NULL; vi = NULL; //pval = (struct table_value *)&tc->ti.data; } if (ptv != NULL) *ptv = pval; if (pvi != NULL) *pvi = vi; } /* * Update pointers to real vaues after @pval change. */ static void update_tvalue(struct namedobj_instance *ni, struct named_object *no, void *arg) { struct vdump_args *da; struct table_val_link *ptv; struct table_value *pval; da = (struct vdump_args *)arg; ptv = (struct table_val_link *)no; pval = da->pval; ptv->pval = &pval[ptv->no.kidx]; } /* * Grows value storage shared among all tables. * Drops/reacquires UH locks. * Notifies other running adds on @ch shared storage resize. * Note function does not guarantee that free space * will be available after invocation, so one caller needs * to roll cycle himself. * * Returns 0 if case of no errors. */ static int resize_shared_value_storage(struct ip_fw_chain *ch) { struct tables_config *tcfg; struct namedobj_instance *vi; struct table_value *pval, *valuestate, *old_valuestate; void *new_idx; struct vdump_args da; int new_blocks; int val_size, val_size_old; IPFW_UH_WLOCK_ASSERT(ch); valuestate = NULL; new_idx = NULL; pval = (struct table_value *)ch->valuestate; vi = CHAIN_TO_VI(ch); tcfg = CHAIN_TO_TCFG(ch); val_size = tcfg->val_size * 2; if (val_size == (1 << 30)) return (ENOSPC); IPFW_UH_WUNLOCK(ch); valuestate = malloc(sizeof(struct table_value) * val_size, M_IPFW, M_WAITOK | M_ZERO); ipfw_objhash_bitmap_alloc(val_size, (void *)&new_idx, &new_blocks); IPFW_UH_WLOCK(ch); /* * Check if we still need to resize */ if (tcfg->val_size >= val_size) goto done; /* Update pointers and notify everyone we're changing @ch */ pval = (struct table_value *)ch->valuestate; rollback_toperation_state(ch, ch); /* Good. Let's merge */ memcpy(valuestate, pval, sizeof(struct table_value) * tcfg->val_size); ipfw_objhash_bitmap_merge(CHAIN_TO_VI(ch), &new_idx, &new_blocks); IPFW_WLOCK(ch); /* Change pointers */ old_valuestate = ch->valuestate; ch->valuestate = valuestate; valuestate = old_valuestate; ipfw_objhash_bitmap_swap(CHAIN_TO_VI(ch), &new_idx, &new_blocks); val_size_old = tcfg->val_size; tcfg->val_size = val_size; val_size = val_size_old; IPFW_WUNLOCK(ch); /* Update pointers to reflect resize */ memset(&da, 0, sizeof(da)); da.pval = (struct table_value *)ch->valuestate; ipfw_objhash_foreach(vi, update_tvalue, &da); done: free(valuestate, M_IPFW); ipfw_objhash_bitmap_free(new_idx, new_blocks); return (0); } /* * Drops reference for table value with index @kidx, stored in @pval and * @vi. Frees value if it has no references. */ static void unref_table_value(struct namedobj_instance *vi, struct table_value *pval, uint32_t kidx) { struct table_val_link *ptvl; KASSERT(pval[kidx].refcnt > 0, ("Refcount is 0 on kidx %d", kidx)); if (--pval[kidx].refcnt > 0) return; /* Last reference, delete item */ ptvl = (struct table_val_link *)ipfw_objhash_lookup_kidx(vi, kidx); KASSERT(ptvl != NULL, ("lookup on value kidx %d failed", kidx)); ipfw_objhash_del(vi, &ptvl->no); ipfw_objhash_free_idx(vi, kidx); free(ptvl, M_IPFW); } struct flush_args { struct ip_fw_chain *ch; struct table_algo *ta; struct table_info *ti; void *astate; ipfw_obj_tentry tent; }; static int unref_table_value_cb(void *e, void *arg) { struct flush_args *fa; struct ip_fw_chain *ch; struct table_algo *ta; ipfw_obj_tentry *tent; int error; fa = (struct flush_args *)arg; ta = fa->ta; memset(&fa->tent, 0, sizeof(fa->tent)); tent = &fa->tent; error = ta->dump_tentry(fa->astate, fa->ti, e, tent); if (error != 0) return (error); ch = fa->ch; unref_table_value(CHAIN_TO_VI(ch), (struct table_value *)ch->valuestate, tent->v.kidx); return (0); } /* * Drop references for each value used in @tc. */ void ipfw_unref_table_values(struct ip_fw_chain *ch, struct table_config *tc, struct table_algo *ta, void *astate, struct table_info *ti) { struct flush_args fa; IPFW_UH_WLOCK_ASSERT(ch); memset(&fa, 0, sizeof(fa)); fa.ch = ch; fa.ta = ta; fa.astate = astate; fa.ti = ti; ta->foreach(astate, ti, unref_table_value_cb, &fa); } /* * Table operation state handler. * Called when we are going to change something in @tc which * may lead to inconsistencies in on-going table data addition. * * Here we rollback all already committed state (table values, currently) * and set "modified" field to non-zero value to indicate * that we need to restart original operation. */ void rollback_table_values(struct tableop_state *ts) { struct ip_fw_chain *ch; struct table_value *pval; struct tentry_info *ptei; struct namedobj_instance *vi; int i; ch = ts->ch; IPFW_UH_WLOCK_ASSERT(ch); /* Get current table value pointer */ get_value_ptrs(ch, ts->tc, ts->vshared, &pval, &vi); for (i = 0; i < ts->count; i++) { ptei = &ts->tei[i]; if (ptei->value == 0) continue; unref_table_value(vi, pval, ptei->value); } } /* * Allocate new value index in either shared or per-table array. * Function may drop/reacquire UH lock. * * Returns 0 on success. */ static int alloc_table_vidx(struct ip_fw_chain *ch, struct tableop_state *ts, struct namedobj_instance *vi, uint16_t *pvidx) { int error, vlimit; uint16_t vidx; IPFW_UH_WLOCK_ASSERT(ch); error = ipfw_objhash_alloc_idx(vi, &vidx); if (error != 0) { /* * We need to resize array. This involves * lock/unlock, so we need to check "modified" * state. */ ts->opstate.func(ts->tc, &ts->opstate); error = resize_shared_value_storage(ch); return (error); /* ts->modified should be set, we will restart */ } vlimit = ts->ta->vlimit; if (vlimit != 0 && vidx >= vlimit) { /* * Algorithm is not able to store given index. * We have to rollback state, start using * per-table value array or return error * if we're already using it. * * TODO: do not rollback state if * atomicity is not required. */ if (ts->vshared != 0) { /* shared -> per-table */ return (ENOSPC); /* TODO: proper error */ } /* per-table. Fail for now. */ return (ENOSPC); /* TODO: proper error */ } *pvidx = vidx; return (0); } /* * Drops value reference for unused values (updates, deletes, partially * successful adds or rollbacks). */ void ipfw_garbage_table_values(struct ip_fw_chain *ch, struct table_config *tc, struct tentry_info *tei, uint32_t count, int rollback) { int i; struct tentry_info *ptei; struct table_value *pval; struct namedobj_instance *vi; /* * We have two slightly different ADD cases here: * either (1) we are successful / partially successful, * in that case we need * * to ignore ADDED entries values * * rollback every other values (either UPDATED since * old value has been stored there, or some failure like * EXISTS or LIMIT or simply "ignored" case. * * (2): atomic rollback of partially successful operation * in that case we simply need to unref all entries. * * DELETE case is simpler: no atomic support there, so * we simply unref all non-zero values. */ /* * Get current table value pointers. * XXX: Properly read vshared */ get_value_ptrs(ch, tc, 1, &pval, &vi); for (i = 0; i < count; i++) { ptei = &tei[i]; if (ptei->value == 0) { /* * We may be deleting non-existing record. * Skip. */ continue; } if ((ptei->flags & TEI_FLAGS_ADDED) != 0 && rollback == 0) { ptei->value = 0; continue; } unref_table_value(vi, pval, ptei->value); ptei->value = 0; } } /* * Main function used to link values of entries going to be added, * to the index. Since we may perform many UH locks drops/acquires, * handle changes by checking tablestate "modified" field. * * Success: return 0. */ int ipfw_link_table_values(struct ip_fw_chain *ch, struct tableop_state *ts) { int error, i, found; struct namedobj_instance *vi; struct table_config *tc; struct tentry_info *tei, *ptei; uint32_t count, vlimit; uint16_t vidx; struct table_val_link *ptv; struct table_value tval, *pval; /* * Stage 1: reference all existing values and * save their indices. */ IPFW_UH_WLOCK_ASSERT(ch); get_value_ptrs(ch, ts->tc, ts->vshared, &pval, &vi); error = 0; found = 0; vlimit = ts->ta->vlimit; vidx = 0; tc = ts->tc; tei = ts->tei; count = ts->count; for (i = 0; i < count; i++) { ptei = &tei[i]; ptei->value = 0; /* Ensure value is always 0 in the beginnig */ mask_table_value(ptei->pvalue, &tval, ts->vmask); ptv = (struct table_val_link *)ipfw_objhash_lookup_name(vi, 0, (char *)&tval); if (ptv == NULL) continue; /* Deal with vlimit later */ if (vlimit > 0 && vlimit <= ptv->no.kidx) continue; /* Value found. Bump refcount */ ptv->pval->refcnt++; ptei->value = ptv->no.kidx; found++; } if (ts->count == found) { /* We've found all values , no need ts create new ones */ return (0); } /* * we have added some state here, let's attach operation * state ts the list ts be able ts rollback if necessary. */ add_toperation_state(ch, ts); /* Ensure table won't disappear */ tc_ref(tc); IPFW_UH_WUNLOCK(ch); /* * Stage 2: allocate objects for non-existing values. */ for (i = 0; i < count; i++) { ptei = &tei[i]; if (ptei->value != 0) continue; if (ptei->ptv != NULL) continue; ptei->ptv = malloc(sizeof(struct table_val_link), M_IPFW, M_WAITOK | M_ZERO); } /* * Stage 3: allocate index numbers for new values * and link them to index. */ IPFW_UH_WLOCK(ch); tc_unref(tc); del_toperation_state(ch, ts); if (ts->modified != 0) { /* * In general, we should free all state/indexes here * and return. However, we keep allocated state instead * to ensure we achieve some progress on each restart. */ return (0); } KASSERT(pval == ch->valuestate, ("resize_storage() notify failure")); /* Let's try to link values */ for (i = 0; i < count; i++) { ptei = &tei[i]; if (ptei->value != 0) { /* * We may be here after several process restarts, * so we need to update all fields that might * have changed. */ ptv = (struct table_val_link *)ptei->ptv; ptv->pval = &pval[i]; continue; } /* Check if record has appeared */ mask_table_value(ptei->pvalue, &tval, ts->vmask); ptv = (struct table_val_link *)ipfw_objhash_lookup_name(vi, 0, (char *)&tval); if (ptv != NULL) { ptv->pval->refcnt++; ptei->value = ptv->no.kidx; continue; } /* May perform UH unlock/lock */ error = alloc_table_vidx(ch, ts, vi, &vidx); if (error != 0) { ts->opstate.func(ts->tc, &ts->opstate); return (error); } /* value storage resize has happened, return */ if (ts->modified != 0) return (0); /* Finally, we have allocated valid index, let's add entry */ ptei->value = vidx; ptv = (struct table_val_link *)ptei->ptv; ptei->ptv = NULL; ptv->no.kidx = vidx; ptv->no.name = (char *)&pval[vidx]; ptv->pval = &pval[vidx]; memcpy(ptv->pval, &tval, sizeof(struct table_value)); pval[vidx].refcnt = 1; ipfw_objhash_add(vi, &ptv->no); } return (0); } /* * Compability function used to import data from old * IP_FW_TABLE_ADD / IP_FW_TABLE_XADD opcodes. */ void ipfw_import_table_value_legacy(uint32_t value, struct table_value *v) { memset(v, 0, sizeof(*v)); v->tag = value; v->pipe = value; v->divert = value; v->skipto = value; v->netgraph = value; v->fib = value; v->nat = value; v->nh4 = value; /* host format */ v->dscp = value; v->limit = value; } /* * Export data to legacy table dumps opcodes. */ uint32_t ipfw_export_table_value_legacy(struct table_value *v) { /* * TODO: provide more compatibility depending on * vmask value. */ return (v->tag); } /* * Imports table value from current userland format. * Saves value in kernel format to the same place. */ void ipfw_import_table_value_v1(ipfw_table_value *iv) { struct table_value v; memset(&v, 0, sizeof(v)); v.tag = iv->tag; v.pipe = iv->pipe; v.divert = iv->divert; v.skipto = iv->skipto; v.netgraph = iv->netgraph; v.fib = iv->fib; v.nat = iv->nat; v.dscp = iv->dscp; v.nh4 = iv->nh4; v.nh6 = iv->nh6; v.limit = iv->limit; memcpy(iv, &v, sizeof(ipfw_table_value)); } /* * Export real table value @v to current userland format. * Note that @v and @piv may point to the same memory. */ void ipfw_export_table_value_v1(struct table_value *v, ipfw_table_value *piv) { ipfw_table_value iv; memset(&iv, 0, sizeof(iv)); iv.tag = v->tag; iv.pipe = v->pipe; iv.divert = v->divert; iv.skipto = v->skipto; iv.netgraph = v->netgraph; iv.fib = v->fib; iv.nat = v->nat; iv.dscp = v->dscp; iv.limit = v->limit; iv.nh4 = v->nh4; iv.nh6 = v->nh6; memcpy(piv, &iv, sizeof(iv)); } /* * Exports real value data into ipfw_table_value structure. * Utilizes "spare1" field to store kernel index. */ static void dump_tvalue(struct namedobj_instance *ni, struct named_object *no, void *arg) { struct vdump_args *da; struct table_val_link *ptv; struct table_value *v; da = (struct vdump_args *)arg; ptv = (struct table_val_link *)no; v = (struct table_value *)ipfw_get_sopt_space(da->sd, sizeof(*v)); /* Out of memory, returning */ if (v == NULL) { da->error = ENOMEM; return; } memcpy(v, ptv->pval, sizeof(*v)); v->spare1 = ptv->no.kidx; } /* * Dumps all shared/table value data * Data layout (v1)(current): * Request: [ ipfw_obj_lheader ], size = ipfw_obj_lheader.size * Reply: [ ipfw_obj_lheader ipfw_table_value x N ] * * Returns 0 on success */ static int list_table_values(struct ip_fw_chain *ch, ip_fw3_opheader *op3, struct sockopt_data *sd) { struct _ipfw_obj_lheader *olh; struct namedobj_instance *vi; struct vdump_args da; uint32_t count, size; olh = (struct _ipfw_obj_lheader *)ipfw_get_sopt_header(sd,sizeof(*olh)); if (olh == NULL) return (EINVAL); if (sd->valsize < olh->size) return (EINVAL); IPFW_UH_RLOCK(ch); vi = CHAIN_TO_VI(ch); count = ipfw_objhash_count(vi); size = count * sizeof(ipfw_table_value) + sizeof(ipfw_obj_lheader); /* Fill in header regadless of buffer size */ olh->count = count; olh->objsize = sizeof(ipfw_table_value); if (size > olh->size) { olh->size = size; IPFW_UH_RUNLOCK(ch); return (ENOMEM); } olh->size = size; /* * Do the actual value dump */ memset(&da, 0, sizeof(da)); da.ch = ch; da.sd = sd; ipfw_objhash_foreach(vi, dump_tvalue, &da); IPFW_UH_RUNLOCK(ch); return (0); } void ipfw_table_value_init(struct ip_fw_chain *ch, int first) { struct tables_config *tcfg; ch->valuestate = malloc(VALDATA_START_SIZE * sizeof(struct table_value), M_IPFW, M_WAITOK | M_ZERO); tcfg = ch->tblcfg; tcfg->val_size = VALDATA_START_SIZE; tcfg->valhash = ipfw_objhash_create(tcfg->val_size); ipfw_objhash_set_funcs(tcfg->valhash, hash_table_value, cmp_table_value); IPFW_ADD_SOPT_HANDLER(first, scodes); } static void destroy_value(struct namedobj_instance *ni, struct named_object *no, void *arg) { free(no, M_IPFW); } void ipfw_table_value_destroy(struct ip_fw_chain *ch, int last) { IPFW_DEL_SOPT_HANDLER(last, scodes); free(ch->valuestate, M_IPFW); ipfw_objhash_foreach(CHAIN_TO_VI(ch), destroy_value, ch); ipfw_objhash_destroy(CHAIN_TO_VI(ch)); }