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04277e02d7
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701 lines
23 KiB
C
701 lines
23 KiB
C
/* Extended resolver state separate from struct __res_state.
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Copyright (C) 2017-2019 Free Software Foundation, Inc.
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This file is part of the GNU C Library.
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The GNU C Library is free software; you can redistribute it and/or
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modify it under the terms of the GNU Lesser General Public
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License as published by the Free Software Foundation; either
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version 2.1 of the License, or (at your option) any later version.
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The GNU C Library 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 GNU
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Lesser General Public License for more details.
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You should have received a copy of the GNU Lesser General Public
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License along with the GNU C Library; if not, see
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<http://www.gnu.org/licenses/>. */
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#include <resolv_conf.h>
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#include <alloc_buffer.h>
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#include <assert.h>
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#include <libc-lock.h>
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#include <resolv-internal.h>
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#include <sys/stat.h>
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#include <libc-symbols.h>
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/* _res._u._ext.__glibc_extension_index is used as an index into a
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struct resolv_conf_array object. The intent of this construction
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is to make reasonably sure that even if struct __res_state objects
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are copied around and patched by applications, we can still detect
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accesses to stale extended resolver state. The array elements are
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either struct resolv_conf * pointers (if the LSB is cleared) or
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free list entries (if the LSB is set). The free list is used to
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speed up finding available entries in the array. */
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#define DYNARRAY_STRUCT resolv_conf_array
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#define DYNARRAY_ELEMENT uintptr_t
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#define DYNARRAY_PREFIX resolv_conf_array_
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#define DYNARRAY_INITIAL_SIZE 0
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#include <malloc/dynarray-skeleton.c>
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/* A magic constant for XORing the extension index
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(_res._u._ext.__glibc_extension_index). This makes it less likely
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that a valid index is created by accident. In particular, a zero
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value leads to an invalid index. */
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#define INDEX_MAGIC 0x26a8fa5e48af8061ULL
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/* Global resolv.conf-related state. */
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struct resolv_conf_global
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{
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/* struct __res_state objects contain the extension index
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(_res._u._ext.__glibc_extension_index ^ INDEX_MAGIC), which
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refers to an element of this array. When a struct resolv_conf
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object (extended resolver state) is associated with a struct
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__res_state object (legacy resolver state), its reference count
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is increased and added to this array. Conversely, if the
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extended state is detached from the basic state (during
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reinitialization or deallocation), the index is decremented, and
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the array element is overwritten with NULL. */
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struct resolv_conf_array array;
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/* Start of the free list in the array. Zero if the free list is
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empty. Otherwise, free_list_start >> 1 is the first element of
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the free list (and the free list entries all have their LSB set
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and are shifted one to the left). */
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uintptr_t free_list_start;
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/* Cached current configuration object for /etc/resolv.conf. */
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struct resolv_conf *conf_current;
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/* These properties of /etc/resolv.conf are used to check if the
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configuration needs reloading. */
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struct timespec conf_mtime;
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struct timespec conf_ctime;
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off64_t conf_size;
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ino64_t conf_ino;
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};
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/* Lazily allocated storage for struct resolv_conf_global. */
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static struct resolv_conf_global *global;
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/* The lock synchronizes access to global and *global. It also
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protects the __refcount member of struct resolv_conf. */
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__libc_lock_define_initialized (static, lock);
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/* Ensure that GLOBAL is allocated and lock it. Return NULL if
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memory allocation failes. */
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static struct resolv_conf_global *
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get_locked_global (void)
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{
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__libc_lock_lock (lock);
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/* Use relaxed MO through because of load outside the lock in
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__resolv_conf_detach. */
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struct resolv_conf_global *global_copy = atomic_load_relaxed (&global);
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if (global_copy == NULL)
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{
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global_copy = calloc (1, sizeof (*global));
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if (global_copy == NULL)
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return NULL;
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atomic_store_relaxed (&global, global_copy);
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resolv_conf_array_init (&global_copy->array);
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}
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return global_copy;
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}
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/* Relinquish the lock acquired by get_locked_global. */
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static void
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put_locked_global (struct resolv_conf_global *global_copy)
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{
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__libc_lock_unlock (lock);
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}
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/* Decrement the reference counter. The caller must acquire the lock
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around the function call. */
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static void
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conf_decrement (struct resolv_conf *conf)
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{
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assert (conf->__refcount > 0);
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if (--conf->__refcount == 0)
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free (conf);
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}
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struct resolv_conf *
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__resolv_conf_get_current (void)
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{
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struct stat64 st;
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if (stat64 (_PATH_RESCONF, &st) != 0)
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{
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switch (errno)
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{
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case EACCES:
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case EISDIR:
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case ELOOP:
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case ENOENT:
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case ENOTDIR:
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case EPERM:
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/* Ignore errors due to file system contents. */
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memset (&st, 0, sizeof (st));
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break;
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default:
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/* Other errors are fatal. */
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return NULL;
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}
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}
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struct resolv_conf_global *global_copy = get_locked_global ();
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if (global_copy == NULL)
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return NULL;
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struct resolv_conf *conf;
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if (global_copy->conf_current != NULL
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&& (global_copy->conf_mtime.tv_sec == st.st_mtim.tv_sec
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&& global_copy->conf_mtime.tv_nsec == st.st_mtim.tv_nsec
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&& global_copy->conf_ctime.tv_sec == st.st_ctim.tv_sec
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&& global_copy->conf_ctime.tv_nsec == st.st_ctim.tv_nsec
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&& global_copy->conf_ino == st.st_ino
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&& global_copy->conf_size == st.st_size))
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/* We can reuse the cached configuration object. */
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conf = global_copy->conf_current;
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else
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{
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/* Parse configuration while holding the lock. This avoids
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duplicate work. */
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conf = __resolv_conf_load (NULL);
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if (conf != NULL)
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{
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if (global_copy->conf_current != NULL)
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conf_decrement (global_copy->conf_current);
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global_copy->conf_current = conf; /* Takes ownership. */
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/* Update file modification stamps. The configuration we
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read could be a newer version of the file, but this does
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not matter because this will lead to an extraneous reload
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later. */
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global_copy->conf_mtime = st.st_mtim;
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global_copy->conf_ctime = st.st_ctim;
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global_copy->conf_ino = st.st_ino;
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global_copy->conf_size = st.st_size;
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}
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}
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if (conf != NULL)
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{
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/* Return an additional reference. */
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assert (conf->__refcount > 0);
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++conf->__refcount;
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assert (conf->__refcount > 0);
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}
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put_locked_global (global_copy);
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return conf;
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}
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/* Internal implementation of __resolv_conf_get, without validation
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against *RESP. */
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static struct resolv_conf *
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resolv_conf_get_1 (const struct __res_state *resp)
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{
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/* Not initialized, and therefore no assoicated context. */
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if (!(resp->options & RES_INIT))
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return NULL;
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struct resolv_conf_global *global_copy = get_locked_global ();
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if (global_copy == NULL)
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/* A memory allocation failure here means that no associated
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contexts exists, so returning NULL is correct. */
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return NULL;
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size_t index = resp->_u._ext.__glibc_extension_index ^ INDEX_MAGIC;
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struct resolv_conf *conf = NULL;
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if (index < resolv_conf_array_size (&global_copy->array))
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{
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uintptr_t *slot = resolv_conf_array_at (&global_copy->array, index);
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if (!(*slot & 1))
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{
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conf = (struct resolv_conf *) *slot;
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assert (conf->__refcount > 0);
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++conf->__refcount;
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}
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}
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put_locked_global (global_copy);
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return conf;
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}
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/* Return true if both IPv4 addresses are equal. */
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static bool
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same_address_v4 (const struct sockaddr_in *left,
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const struct sockaddr_in *right)
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{
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return left->sin_addr.s_addr == right->sin_addr.s_addr
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&& left->sin_port == right->sin_port;
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}
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/* Return true if both IPv6 addresses are equal. This ignores the
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flow label. */
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static bool
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same_address_v6 (const struct sockaddr_in6 *left,
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const struct sockaddr_in6 *right)
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{
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return memcmp (&left->sin6_addr, &right->sin6_addr,
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sizeof (left->sin6_addr)) == 0
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&& left->sin6_port == right->sin6_port
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&& left->sin6_scope_id == right->sin6_scope_id;
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}
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static bool
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same_address (const struct sockaddr *left, const struct sockaddr *right)
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{
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if (left->sa_family != right->sa_family)
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return false;
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switch (left->sa_family)
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{
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case AF_INET:
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return same_address_v4 ((const struct sockaddr_in *) left,
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(const struct sockaddr_in *) right);
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case AF_INET6:
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return same_address_v6 ((const struct sockaddr_in6 *) left,
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(const struct sockaddr_in6 *) right);
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}
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return false;
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}
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/* Check that *RESP and CONF match. Used by __resolv_conf_get. */
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static bool
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resolv_conf_matches (const struct __res_state *resp,
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const struct resolv_conf *conf)
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{
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/* NB: Do not compare the options, retrans, retry, ndots. These can
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be changed by applicaiton. */
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/* Check that the name servers in *RESP have not been modified by
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the application. */
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{
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size_t nserv = conf->nameserver_list_size;
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if (nserv > MAXNS)
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nserv = MAXNS;
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/* _ext.nscount is 0 until initialized by res_send.c. */
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if (resp->nscount != nserv
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|| (resp->_u._ext.nscount != 0 && resp->_u._ext.nscount != nserv))
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return false;
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for (size_t i = 0; i < nserv; ++i)
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{
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if (resp->nsaddr_list[i].sin_family == 0)
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{
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if (resp->_u._ext.nsaddrs[i]->sin6_family != AF_INET6)
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return false;
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if (!same_address ((struct sockaddr *) resp->_u._ext.nsaddrs[i],
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conf->nameserver_list[i]))
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return false;
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}
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else if (resp->nsaddr_list[i].sin_family != AF_INET)
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return false;
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else if (!same_address ((struct sockaddr *) &resp->nsaddr_list[i],
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conf->nameserver_list[i]))
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return false;
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}
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}
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/* Check that the search list in *RESP has not been modified by the
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application. */
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{
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if (resp->dnsrch[0] == NULL)
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{
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/* Empty search list. No default domain name. */
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return conf->search_list_size == 0 && resp->defdname[0] == '\0';
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}
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if (resp->dnsrch[0] != resp->defdname)
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/* If the search list is not empty, it must start with the
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default domain name. */
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return false;
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size_t nsearch;
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for (nsearch = 0; nsearch < MAXDNSRCH; ++nsearch)
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if (resp->dnsrch[nsearch] == NULL)
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break;
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if (nsearch > MAXDNSRCH)
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/* Search list is not null-terminated. */
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return false;
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size_t search_list_size = 0;
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for (size_t i = 0; i < conf->search_list_size; ++i)
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{
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if (resp->dnsrch[i] != NULL)
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{
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search_list_size += strlen (resp->dnsrch[i]) + 1;
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if (strcmp (resp->dnsrch[i], conf->search_list[i]) != 0)
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return false;
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}
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else
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{
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/* resp->dnsrch is truncated if the number of elements
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exceeds MAXDNSRCH, or if the combined storage space for
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the search list exceeds what can be stored in
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resp->defdname. */
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if (i == MAXDNSRCH || search_list_size > sizeof (resp->dnsrch))
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break;
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/* Otherwise, a mismatch indicates a match failure. */
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return false;
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}
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}
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}
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/* Check that the sort list has not been modified. */
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{
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size_t nsort = conf->sort_list_size;
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if (nsort > MAXRESOLVSORT)
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nsort = MAXRESOLVSORT;
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if (resp->nsort != nsort)
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return false;
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for (size_t i = 0; i < nsort; ++i)
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if (resp->sort_list[i].addr.s_addr != conf->sort_list[i].addr.s_addr
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|| resp->sort_list[i].mask != conf->sort_list[i].mask)
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return false;
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}
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return true;
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}
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struct resolv_conf *
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__resolv_conf_get (struct __res_state *resp)
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{
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struct resolv_conf *conf = resolv_conf_get_1 (resp);
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if (conf == NULL)
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return NULL;
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if (resolv_conf_matches (resp, conf))
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return conf;
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__resolv_conf_put (conf);
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return NULL;
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}
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void
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__resolv_conf_put (struct resolv_conf *conf)
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{
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if (conf == NULL)
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return;
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__libc_lock_lock (lock);
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conf_decrement (conf);
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__libc_lock_unlock (lock);
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}
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struct resolv_conf *
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__resolv_conf_allocate (const struct resolv_conf *init)
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{
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/* Allocate in decreasing order of alignment. */
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_Static_assert (__alignof__ (const char *const *)
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<= __alignof__ (struct resolv_conf), "alignment");
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_Static_assert (__alignof__ (struct sockaddr_in6)
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<= __alignof__ (const char *const *), "alignment");
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_Static_assert (__alignof__ (struct sockaddr_in)
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== __alignof__ (struct sockaddr_in6), "alignment");
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_Static_assert (__alignof__ (struct resolv_sortlist_entry)
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<= __alignof__ (struct sockaddr_in), "alignment");
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/* Space needed by the nameserver addresses. */
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size_t address_space = 0;
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for (size_t i = 0; i < init->nameserver_list_size; ++i)
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if (init->nameserver_list[i]->sa_family == AF_INET)
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address_space += sizeof (struct sockaddr_in);
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else
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{
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assert (init->nameserver_list[i]->sa_family == AF_INET6);
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address_space += sizeof (struct sockaddr_in6);
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}
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/* Space needed by the search list strings. */
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size_t string_space = 0;
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for (size_t i = 0; i < init->search_list_size; ++i)
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string_space += strlen (init->search_list[i]) + 1;
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/* Allocate the buffer. */
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void *ptr;
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struct alloc_buffer buffer = alloc_buffer_allocate
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(sizeof (struct resolv_conf)
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+ init->nameserver_list_size * sizeof (init->nameserver_list[0])
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+ address_space
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+ init->search_list_size * sizeof (init->search_list[0])
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+ init->sort_list_size * sizeof (init->sort_list[0])
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+ string_space,
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&ptr);
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struct resolv_conf *conf
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= alloc_buffer_alloc (&buffer, struct resolv_conf);
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if (conf == NULL)
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/* Memory allocation failure. */
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return NULL;
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assert (conf == ptr);
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/* Initialize the contents. */
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conf->__refcount = 1;
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conf->retrans = init->retrans;
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conf->retry = init->retry;
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conf->options = init->options;
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conf->ndots = init->ndots;
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/* Allocate the arrays with pointers. These must come first because
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they have the highets alignment. */
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conf->nameserver_list_size = init->nameserver_list_size;
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const struct sockaddr **nameserver_array = alloc_buffer_alloc_array
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(&buffer, const struct sockaddr *, init->nameserver_list_size);
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conf->nameserver_list = nameserver_array;
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conf->search_list_size = init->search_list_size;
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const char **search_array = alloc_buffer_alloc_array
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(&buffer, const char *, init->search_list_size);
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conf->search_list = search_array;
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/* Fill the name server list array. */
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for (size_t i = 0; i < init->nameserver_list_size; ++i)
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if (init->nameserver_list[i]->sa_family == AF_INET)
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{
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struct sockaddr_in *sa = alloc_buffer_alloc
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(&buffer, struct sockaddr_in);
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*sa = *(struct sockaddr_in *) init->nameserver_list[i];
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nameserver_array[i] = (struct sockaddr *) sa;
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}
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else
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{
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struct sockaddr_in6 *sa = alloc_buffer_alloc
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(&buffer, struct sockaddr_in6);
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*sa = *(struct sockaddr_in6 *) init->nameserver_list[i];
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nameserver_array[i] = (struct sockaddr *) sa;
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}
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/* Allocate and fill the sort list array. */
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{
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conf->sort_list_size = init->sort_list_size;
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struct resolv_sortlist_entry *array = alloc_buffer_alloc_array
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(&buffer, struct resolv_sortlist_entry, init->sort_list_size);
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conf->sort_list = array;
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for (size_t i = 0; i < init->sort_list_size; ++i)
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array[i] = init->sort_list[i];
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}
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/* Fill the search list array. This must come last because the
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strings are the least aligned part of the allocation. */
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{
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for (size_t i = 0; i < init->search_list_size; ++i)
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search_array[i] = alloc_buffer_copy_string
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(&buffer, init->search_list[i]);
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}
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assert (!alloc_buffer_has_failed (&buffer));
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return conf;
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}
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/* Update *RESP from the extended state. */
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static __attribute__ ((nonnull (1, 2), warn_unused_result)) bool
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update_from_conf (struct __res_state *resp, const struct resolv_conf *conf)
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{
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resp->defdname[0] = '\0';
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resp->pfcode = 0;
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resp->_vcsock = -1;
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resp->_flags = 0;
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resp->ipv6_unavail = false;
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resp->__glibc_unused_qhook = NULL;
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resp->__glibc_unused_rhook = NULL;
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resp->retrans = conf->retrans;
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resp->retry = conf->retry;
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resp->options = conf->options;
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resp->ndots = conf->ndots;
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/* Copy the name server addresses. */
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{
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resp->nscount = 0;
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resp->_u._ext.nscount = 0;
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size_t nserv = conf->nameserver_list_size;
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if (nserv > MAXNS)
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nserv = MAXNS;
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for (size_t i = 0; i < nserv; i++)
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{
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if (conf->nameserver_list[i]->sa_family == AF_INET)
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{
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resp->nsaddr_list[i]
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= *(struct sockaddr_in *)conf->nameserver_list[i];
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resp->_u._ext.nsaddrs[i] = NULL;
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}
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else
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{
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assert (conf->nameserver_list[i]->sa_family == AF_INET6);
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resp->nsaddr_list[i].sin_family = 0;
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/* Make a defensive copy of the name server address, in
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case the application overwrites it. */
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struct sockaddr_in6 *sa = malloc (sizeof (*sa));
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if (sa == NULL)
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{
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for (size_t j = 0; j < i; ++j)
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free (resp->_u._ext.nsaddrs[j]);
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return false;
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}
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*sa = *(struct sockaddr_in6 *)conf->nameserver_list[i];
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resp->_u._ext.nsaddrs[i] = sa;
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}
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resp->_u._ext.nssocks[i] = -1;
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}
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resp->nscount = nserv;
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/* Leave resp->_u._ext.nscount at 0. res_send.c handles this. */
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}
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/* Fill in the prefix of the search list. It is truncated either at
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MAXDNSRCH, or if reps->defdname has insufficient space. */
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{
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struct alloc_buffer buffer
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= alloc_buffer_create (resp->defdname, sizeof (resp->defdname));
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size_t size = conf->search_list_size;
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size_t i;
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for (i = 0; i < size && i < MAXDNSRCH; ++i)
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{
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resp->dnsrch[i] = alloc_buffer_copy_string
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(&buffer, conf->search_list[i]);
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if (resp->dnsrch[i] == NULL)
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/* No more space in resp->defdname. Truncate. */
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break;
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}
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resp->dnsrch[i] = NULL;
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}
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/* Copy the sort list. */
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{
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size_t nsort = conf->sort_list_size;
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if (nsort > MAXRESOLVSORT)
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nsort = MAXRESOLVSORT;
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for (size_t i = 0; i < nsort; ++i)
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{
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resp->sort_list[i].addr = conf->sort_list[i].addr;
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resp->sort_list[i].mask = conf->sort_list[i].mask;
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}
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resp->nsort = nsort;
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}
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/* The overlapping parts of both configurations should agree after
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initialization. */
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assert (resolv_conf_matches (resp, conf));
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return true;
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}
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/* Decrement the configuration object at INDEX and free it if the
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reference counter reaches 0. *GLOBAL_COPY must be locked and
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remains so. */
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static void
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decrement_at_index (struct resolv_conf_global *global_copy, size_t index)
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{
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if (index < resolv_conf_array_size (&global_copy->array))
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{
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/* Index found. */
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uintptr_t *slot = resolv_conf_array_at (&global_copy->array, index);
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/* Check that the slot is not already part of the free list. */
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if (!(*slot & 1))
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{
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struct resolv_conf *conf = (struct resolv_conf *) *slot;
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conf_decrement (conf);
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/* Put the slot onto the free list. */
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*slot = global_copy->free_list_start;
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global_copy->free_list_start = (index << 1) | 1;
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}
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}
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}
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bool
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__resolv_conf_attach (struct __res_state *resp, struct resolv_conf *conf)
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{
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assert (conf->__refcount > 0);
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struct resolv_conf_global *global_copy = get_locked_global ();
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if (global_copy == NULL)
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return false;
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/* Try to find an unused index in the array. */
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size_t index;
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{
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if (global_copy->free_list_start & 1)
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{
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/* Unlink from the free list. */
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index = global_copy->free_list_start >> 1;
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uintptr_t *slot = resolv_conf_array_at (&global_copy->array, index);
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global_copy->free_list_start = *slot;
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assert (global_copy->free_list_start == 0
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|| global_copy->free_list_start & 1);
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/* Install the configuration pointer. */
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*slot = (uintptr_t) conf;
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}
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else
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{
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size_t size = resolv_conf_array_size (&global_copy->array);
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/* No usable index found. Increase the array size. */
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resolv_conf_array_add (&global_copy->array, (uintptr_t) conf);
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if (resolv_conf_array_has_failed (&global_copy->array))
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{
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put_locked_global (global_copy);
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__set_errno (ENOMEM);
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return false;
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}
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/* The new array element was added at the end. */
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index = size;
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}
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}
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/* We have added a new reference to the object. */
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++conf->__refcount;
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assert (conf->__refcount > 0);
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put_locked_global (global_copy);
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if (!update_from_conf (resp, conf))
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{
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/* Drop the reference we acquired. Reacquire the lock. The
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object has already been allocated, so it cannot be NULL this
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time. */
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global_copy = get_locked_global ();
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decrement_at_index (global_copy, index);
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put_locked_global (global_copy);
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return false;
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}
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resp->_u._ext.__glibc_extension_index = index ^ INDEX_MAGIC;
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return true;
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}
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void
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__resolv_conf_detach (struct __res_state *resp)
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{
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if (atomic_load_relaxed (&global) == NULL)
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/* Detach operation after a shutdown, or without any prior
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attachment. We cannot free the data (and there might not be
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anything to free anyway). */
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return;
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struct resolv_conf_global *global_copy = get_locked_global ();
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size_t index = resp->_u._ext.__glibc_extension_index ^ INDEX_MAGIC;
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decrement_at_index (global_copy, index);
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/* Clear the index field, so that accidental reuse is less
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likely. */
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resp->_u._ext.__glibc_extension_index = 0;
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put_locked_global (global_copy);
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}
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/* Deallocate the global data. */
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libc_freeres_fn (freeres)
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{
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/* No locking because this function is supposed to be called when
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the process has turned single-threaded. */
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if (global == NULL)
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return;
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if (global->conf_current != NULL)
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{
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conf_decrement (global->conf_current);
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global->conf_current = NULL;
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}
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/* Note that this frees only the array itself. The pointed-to
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configuration objects should have been deallocated by res_nclose
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and per-thread cleanup functions. */
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resolv_conf_array_free (&global->array);
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free (global);
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/* Stop potential future __resolv_conf_detach calls from accessing
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deallocated memory. */
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global = NULL;
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}
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