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546 lines
16 KiB
C
546 lines
16 KiB
C
/* Copyright (c) 1998-2024 Free Software Foundation, Inc.
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This file is part of the GNU C Library.
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This program is free software; you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published
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by the Free Software Foundation; version 2 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program; if not, see <https://www.gnu.org/licenses/>. */
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#include <assert.h>
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#include <atomic.h>
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#include <errno.h>
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#include <error.h>
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#include <inttypes.h>
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#include <limits.h>
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#include <stdlib.h>
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#include <string.h>
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#include <libintl.h>
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#include <arpa/inet.h>
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#include <sys/mman.h>
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#include <sys/param.h>
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#include <sys/stat.h>
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#include <sys/uio.h>
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#include <nss.h>
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#include "nscd.h"
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#include "dbg_log.h"
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/* Wrapper functions with error checking for standard functions. */
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extern void *xcalloc (size_t n, size_t s);
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/* Number of times a value is reloaded without being used. UINT_MAX
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means unlimited. */
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unsigned int reload_count = DEFAULT_RELOAD_LIMIT;
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static time_t (*const readdfcts[LASTREQ]) (struct database_dyn *,
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struct hashentry *,
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struct datahead *) =
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{
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[GETPWBYNAME] = readdpwbyname,
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[GETPWBYUID] = readdpwbyuid,
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[GETGRBYNAME] = readdgrbyname,
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[GETGRBYGID] = readdgrbygid,
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[GETHOSTBYNAME] = readdhstbyname,
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[GETHOSTBYNAMEv6] = readdhstbynamev6,
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[GETHOSTBYADDR] = readdhstbyaddr,
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[GETHOSTBYADDRv6] = readdhstbyaddrv6,
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[GETAI] = readdhstai,
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[INITGROUPS] = readdinitgroups,
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[GETSERVBYNAME] = readdservbyname,
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[GETSERVBYPORT] = readdservbyport,
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[GETNETGRENT] = readdgetnetgrent,
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[INNETGR] = readdinnetgr
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};
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/* Search the cache for a matching entry and return it when found. If
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this fails search the negative cache and return (void *) -1 if this
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search was successful. Otherwise return NULL.
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This function must be called with the read-lock held. */
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struct datahead *
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cache_search (request_type type, const void *key, size_t len,
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struct database_dyn *table, uid_t owner)
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{
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unsigned long int hash = __nss_hash (key, len) % table->head->module;
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unsigned long int nsearched = 0;
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struct datahead *result = NULL;
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ref_t work = table->head->array[hash];
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while (work != ENDREF)
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{
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++nsearched;
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struct hashentry *here = (struct hashentry *) (table->data + work);
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if (type == here->type && len == here->len
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&& memcmp (key, table->data + here->key, len) == 0
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&& here->owner == owner)
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{
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/* We found the entry. Increment the appropriate counter. */
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struct datahead *dh
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= (struct datahead *) (table->data + here->packet);
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/* See whether we must ignore the entry. */
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if (dh->usable)
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{
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/* We do not synchronize the memory here. The statistics
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data is not crucial, we synchronize only once in a while
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in the cleanup threads. */
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if (dh->notfound)
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++table->head->neghit;
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else
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{
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++table->head->poshit;
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if (dh->nreloads != 0)
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dh->nreloads = 0;
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}
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result = dh;
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break;
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}
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}
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work = here->next;
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}
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if (nsearched > table->head->maxnsearched)
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table->head->maxnsearched = nsearched;
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return result;
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}
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/* Add a new entry to the cache. The return value is zero if the function
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call was successful.
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This function must be called with the read-lock held.
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We modify the table but we nevertheless only acquire a read-lock.
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This is ok since we use operations which would be safe even without
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locking, given that the `prune_cache' function never runs. Using
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the readlock reduces the chance of conflicts. */
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int
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cache_add (int type, const void *key, size_t len, struct datahead *packet,
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bool first, struct database_dyn *table,
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uid_t owner, bool prune_wakeup)
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{
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if (__glibc_unlikely (debug_level >= 2))
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{
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const char *str;
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char buf[INET6_ADDRSTRLEN + 1];
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if (type == GETHOSTBYADDR || type == GETHOSTBYADDRv6)
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str = inet_ntop (type == GETHOSTBYADDR ? AF_INET : AF_INET6,
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key, buf, sizeof (buf));
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else
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str = key;
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dbg_log (_("add new entry \"%s\" of type %s for %s to cache%s"),
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str, serv2str[type], dbnames[table - dbs],
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first ? _(" (first)") : "");
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}
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unsigned long int hash = __nss_hash (key, len) % table->head->module;
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struct hashentry *newp;
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newp = mempool_alloc (table, sizeof (struct hashentry), 0);
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/* If we cannot allocate memory, just do not do anything. */
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if (newp == NULL)
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{
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/* If necessary mark the entry as unusable so that lookups will
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not use it. */
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if (first)
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packet->usable = false;
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return -1;
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}
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newp->type = type;
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newp->first = first;
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newp->len = len;
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newp->key = (char *) key - table->data;
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assert (newp->key + newp->len <= table->head->first_free);
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newp->owner = owner;
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newp->packet = (char *) packet - table->data;
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assert ((newp->packet & BLOCK_ALIGN_M1) == 0);
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/* Put the new entry in the first position. */
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/* TODO Review concurrency. Use atomic_exchange_release. */
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newp->next = atomic_load_relaxed (&table->head->array[hash]);
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while (!atomic_compare_exchange_weak_release (&table->head->array[hash],
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(ref_t *) &newp->next,
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(ref_t) ((char *) newp
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- table->data)));
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/* Update the statistics. */
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if (packet->notfound)
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++table->head->negmiss;
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else if (first)
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++table->head->posmiss;
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/* We depend on this value being correct and at least as high as the
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real number of entries. */
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atomic_fetch_add_relaxed (&table->head->nentries, 1);
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/* It does not matter that we are not loading the just increment
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value, this is just for statistics. */
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unsigned long int nentries = table->head->nentries;
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if (nentries > table->head->maxnentries)
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table->head->maxnentries = nentries;
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if (table->persistent)
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// XXX async OK?
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msync ((void *) table->head,
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(char *) &table->head->array[hash] - (char *) table->head
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+ sizeof (ref_t), MS_ASYNC);
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/* We do not have to worry about the pruning thread if we are
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re-adding the data since this is done by the pruning thread. We
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also do not have to do anything in case this is not the first
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time the data is entered since different data heads all have the
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same timeout. */
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if (first && prune_wakeup)
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{
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/* Perhaps the prune thread for the table is not running in a long
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time. Wake it if necessary. */
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pthread_mutex_lock (&table->prune_lock);
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time_t next_wakeup = table->wakeup_time;
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bool do_wakeup = false;
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if (next_wakeup > packet->timeout + CACHE_PRUNE_INTERVAL)
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{
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table->wakeup_time = packet->timeout;
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do_wakeup = true;
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}
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pthread_mutex_unlock (&table->prune_lock);
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if (do_wakeup)
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pthread_cond_signal (&table->prune_cond);
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}
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return 0;
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}
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/* Walk through the table and remove all entries which lifetime ended.
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We have a problem here. To actually remove the entries we must get
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the write-lock. But since we want to keep the time we have the
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lock as short as possible we cannot simply acquire the lock when we
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start looking for timedout entries.
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Therefore we do it in two stages: first we look for entries which
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must be invalidated and remember them. Then we get the lock and
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actually remove them. This is complicated by the way we have to
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free the data structures since some hash table entries share the same
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data. */
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time_t
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prune_cache (struct database_dyn *table, time_t now, int fd)
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{
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size_t cnt = table->head->module;
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/* If this table is not actually used don't do anything. */
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if (cnt == 0)
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{
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if (fd != -1)
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{
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/* Reply to the INVALIDATE initiator. */
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int32_t resp = 0;
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writeall (fd, &resp, sizeof (resp));
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}
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/* No need to do this again anytime soon. */
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return 24 * 60 * 60;
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}
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/* If we check for the modification of the underlying file we invalidate
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the entries also in this case. */
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if (table->check_file && now != LONG_MAX)
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{
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struct traced_file *runp = table->traced_files;
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while (runp != NULL)
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{
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#ifdef HAVE_INOTIFY
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if (runp->inotify_descr[TRACED_FILE] == -1)
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#endif
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{
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struct stat64 st;
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if (stat64 (runp->fname, &st) < 0)
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{
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/* Print a diagnostic that the traced file was missing.
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We must not disable tracing since the file might return
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shortly and we want to reload it at the next pruning.
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Disabling tracing here would go against the configuration
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as specified by the user via check-files. */
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char buf[128];
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dbg_log (_("checking for monitored file `%s': %s"),
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runp->fname, strerror_r (errno, buf, sizeof (buf)));
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}
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else
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{
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/* This must be `!=` to catch cases where users turn the
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clocks back and we still want to detect any time difference
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in mtime. */
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if (st.st_mtime != runp->mtime)
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{
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dbg_log (_("monitored file `%s` changed (mtime)"),
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runp->fname);
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/* The file changed. Invalidate all entries. */
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now = LONG_MAX;
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runp->mtime = st.st_mtime;
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#ifdef HAVE_INOTIFY
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/* Attempt to install a watch on the file. */
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install_watches (runp);
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#endif
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}
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}
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}
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runp = runp->next;
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}
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}
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/* We run through the table and find values which are not valid anymore.
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Note that for the initial step, finding the entries to be removed,
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we don't need to get any lock. It is at all timed assured that the
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linked lists are set up correctly and that no second thread prunes
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the cache. */
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bool *mark;
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size_t memory_needed = cnt * sizeof (bool);
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bool mark_use_alloca;
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if (__glibc_likely (memory_needed <= MAX_STACK_USE))
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{
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mark = alloca (cnt * sizeof (bool));
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memset (mark, '\0', memory_needed);
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mark_use_alloca = true;
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}
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else
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{
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mark = xcalloc (1, memory_needed);
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mark_use_alloca = false;
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}
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size_t first = cnt + 1;
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size_t last = 0;
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char *const data = table->data;
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bool any = false;
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if (__glibc_unlikely (debug_level > 2))
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dbg_log (_("pruning %s cache; time %ld"),
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dbnames[table - dbs], (long int) now);
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#define NO_TIMEOUT LONG_MAX
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time_t next_timeout = NO_TIMEOUT;
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do
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{
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ref_t run = table->head->array[--cnt];
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while (run != ENDREF)
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{
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struct hashentry *runp = (struct hashentry *) (data + run);
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struct datahead *dh = (struct datahead *) (data + runp->packet);
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/* Some debug support. */
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if (__glibc_unlikely (debug_level > 2))
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{
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char buf[INET6_ADDRSTRLEN];
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const char *str;
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if (runp->type == GETHOSTBYADDR || runp->type == GETHOSTBYADDRv6)
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{
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inet_ntop (runp->type == GETHOSTBYADDR ? AF_INET : AF_INET6,
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data + runp->key, buf, sizeof (buf));
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str = buf;
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}
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else
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str = data + runp->key;
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dbg_log (_("considering %s entry \"%s\", timeout %" PRIu64),
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serv2str[runp->type], str, dh->timeout);
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}
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/* Check whether the entry timed out. Timed out entries
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will be revalidated. For unusable records, it is still
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necessary to record that the bucket needs to be scanned
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again below. */
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if (dh->timeout < now || !dh->usable)
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{
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/* This hash bucket could contain entries which need to
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be looked at. */
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mark[cnt] = true;
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first = MIN (first, cnt);
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last = MAX (last, cnt);
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/* We only have to look at the data of the first entries
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since the count information is kept in the data part
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which is shared. */
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if (runp->first && dh->usable)
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{
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/* At this point there are two choices: we reload the
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value or we discard it. Do not change NRELOADS if
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we never not reload the record. */
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if ((reload_count != UINT_MAX
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&& __builtin_expect (dh->nreloads >= reload_count, 0))
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/* We always remove negative entries. */
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|| dh->notfound
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/* Discard everything if the user explicitly
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requests it. */
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|| now == LONG_MAX)
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{
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/* Remove the value. */
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dh->usable = false;
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}
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else
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{
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/* Reload the value. We do this only for the
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initially used key, not the additionally
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added derived value. */
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assert (runp->type < LASTREQ
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&& readdfcts[runp->type] != NULL);
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time_t timeout = readdfcts[runp->type] (table, runp, dh);
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next_timeout = MIN (next_timeout, timeout);
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}
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}
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/* If the entry has been replaced, we might need cleanup. */
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any |= !dh->usable;
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}
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else
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/* Entry has not timed out and is usable. */
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next_timeout = MIN (next_timeout, dh->timeout);
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run = runp->next;
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}
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}
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while (cnt > 0);
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if (__glibc_unlikely (fd != -1))
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{
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/* Reply to the INVALIDATE initiator that the cache has been
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invalidated. */
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int32_t resp = 0;
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writeall (fd, &resp, sizeof (resp));
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}
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if (first <= last)
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{
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struct hashentry *head = NULL;
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/* Now we have to get the write lock since we are about to modify
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the table. */
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if (__glibc_unlikely (pthread_rwlock_trywrlock (&table->lock) != 0))
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{
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++table->head->wrlockdelayed;
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pthread_rwlock_wrlock (&table->lock);
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}
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/* Now we start modifying the data. Make sure all readers of the
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data are aware of this and temporarily don't use the data. */
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atomic_fetch_add_relaxed (&table->head->gc_cycle, 1);
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assert ((table->head->gc_cycle & 1) == 1);
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while (first <= last)
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{
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if (mark[first])
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{
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ref_t *old = &table->head->array[first];
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ref_t run = table->head->array[first];
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assert (run != ENDREF);
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do
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{
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struct hashentry *runp = (struct hashentry *) (data + run);
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struct datahead *dh
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= (struct datahead *) (data + runp->packet);
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if (! dh->usable)
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{
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/* We need the list only for debugging but it is
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more costly to avoid creating the list than
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doing it. */
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runp->dellist = head;
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head = runp;
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/* No need for an atomic operation, we have the
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write lock. */
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--table->head->nentries;
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run = *old = runp->next;
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}
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else
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{
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old = &runp->next;
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run = runp->next;
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}
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}
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while (run != ENDREF);
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}
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++first;
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}
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/* Now we are done modifying the data. */
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atomic_fetch_add_relaxed (&table->head->gc_cycle, 1);
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assert ((table->head->gc_cycle & 1) == 0);
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/* It's all done. */
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pthread_rwlock_unlock (&table->lock);
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/* Make sure the data is saved to disk. */
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if (table->persistent)
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msync (table->head,
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data + table->head->first_free - (char *) table->head,
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MS_ASYNC);
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/* One extra pass if we do debugging. */
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if (__glibc_unlikely (debug_level > 0))
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{
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struct hashentry *runp = head;
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while (runp != NULL)
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{
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char buf[INET6_ADDRSTRLEN];
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const char *str;
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if (runp->type == GETHOSTBYADDR || runp->type == GETHOSTBYADDRv6)
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{
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inet_ntop (runp->type == GETHOSTBYADDR ? AF_INET : AF_INET6,
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data + runp->key, buf, sizeof (buf));
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str = buf;
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}
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else
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str = data + runp->key;
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dbg_log ("remove %s entry \"%s\"", serv2str[runp->type], str);
|
|
|
|
runp = runp->dellist;
|
|
}
|
|
}
|
|
}
|
|
|
|
if (__glibc_unlikely (! mark_use_alloca))
|
|
free (mark);
|
|
|
|
/* Run garbage collection if any entry has been removed or replaced. */
|
|
if (any)
|
|
gc (table);
|
|
|
|
/* If there is no entry in the database and we therefore have no new
|
|
timeout value, tell the caller to wake up in 24 hours. */
|
|
return next_timeout == NO_TIMEOUT ? 24 * 60 * 60 : next_timeout - now;
|
|
}
|