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437 lines
11 KiB
C
437 lines
11 KiB
C
/* Copyright (C) 2001-2018 Free Software Foundation, Inc.
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This file is part of the GNU C Library.
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Contributed by Ulrich Drepper <drepper@redhat.com>, 2001.
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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 <assert.h>
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#include <errno.h>
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#include <pthread.h>
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#include <stdlib.h>
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#include <sys/time.h>
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#include <gai_misc.h>
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#ifndef gai_create_helper_thread
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# define gai_create_helper_thread __gai_create_helper_thread
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extern inline int
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__gai_create_helper_thread (pthread_t *threadp, void *(*tf) (void *),
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void *arg)
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{
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pthread_attr_t attr;
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/* Make sure the thread is created detached. */
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pthread_attr_init (&attr);
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pthread_attr_setdetachstate (&attr, PTHREAD_CREATE_DETACHED);
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int ret = pthread_create (threadp, &attr, tf, arg);
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(void) pthread_attr_destroy (&attr);
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return ret;
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}
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#endif
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/* Pool of request list entries. */
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static struct requestlist **pool;
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/* Number of total and allocated pool entries. */
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static size_t pool_max_size;
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static size_t pool_size;
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/* We implement a two dimensional array but allocate each row separately.
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The macro below determines how many entries should be used per row.
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It should better be a power of two. */
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#define ENTRIES_PER_ROW 32
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/* How many rows we allocate at once. */
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#define ROWS_STEP 8
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/* List of available entries. */
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static struct requestlist *freelist;
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/* Structure list of all currently processed requests. */
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static struct requestlist *requests;
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static struct requestlist *requests_tail;
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/* Number of threads currently running. */
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static int nthreads;
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/* Number of threads waiting for work to arrive. */
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static int idle_thread_count;
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/* These are the values used for optimization. We will probably
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create a funcion to set these values. */
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static struct gaiinit optim =
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{
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20, /* int gai_threads; Maximal number of threads. */
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64, /* int gai_num; Number of expected simultanious requests. */
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0,
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0,
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0,
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0,
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1,
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0
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};
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/* Since the list is global we need a mutex protecting it. */
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pthread_mutex_t __gai_requests_mutex = PTHREAD_RECURSIVE_MUTEX_INITIALIZER_NP;
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/* When you add a request to the list and there are idle threads present,
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you signal this condition variable. When a thread finishes work, it waits
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on this condition variable for a time before it actually exits. */
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pthread_cond_t __gai_new_request_notification = PTHREAD_COND_INITIALIZER;
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/* Functions to handle request list pool. */
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static struct requestlist *
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get_elem (void)
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{
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struct requestlist *result;
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if (freelist == NULL)
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{
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struct requestlist *new_row;
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int cnt;
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if (pool_size + 1 >= pool_max_size)
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{
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size_t new_max_size = pool_max_size + ROWS_STEP;
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struct requestlist **new_tab;
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new_tab = (struct requestlist **)
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realloc (pool, new_max_size * sizeof (struct requestlist *));
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if (new_tab == NULL)
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return NULL;
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pool_max_size = new_max_size;
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pool = new_tab;
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}
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/* Allocate the new row. */
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cnt = pool_size == 0 ? optim.gai_num : ENTRIES_PER_ROW;
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new_row = (struct requestlist *) calloc (cnt,
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sizeof (struct requestlist));
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if (new_row == NULL)
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return NULL;
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pool[pool_size++] = new_row;
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/* Put all the new entries in the freelist. */
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do
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{
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new_row->next = freelist;
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freelist = new_row++;
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}
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while (--cnt > 0);
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}
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result = freelist;
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freelist = freelist->next;
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return result;
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}
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struct requestlist *
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__gai_find_request (const struct gaicb *gaicbp)
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{
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struct requestlist *runp;
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runp = requests;
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while (runp != NULL)
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if (runp->gaicbp == gaicbp)
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return runp;
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else
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runp = runp->next;
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return NULL;
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}
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int
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__gai_remove_request (struct gaicb *gaicbp)
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{
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struct requestlist *runp;
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struct requestlist *lastp;
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runp = requests;
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lastp = NULL;
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while (runp != NULL)
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if (runp->gaicbp == gaicbp)
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break;
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else
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{
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lastp = runp;
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runp = runp->next;
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}
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if (runp == NULL)
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/* Not known. */
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return -1;
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if (runp->running != 0)
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/* Currently handled. */
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return 1;
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/* Dequeue the request. */
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if (lastp == NULL)
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requests = runp->next;
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else
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lastp->next = runp->next;
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if (runp == requests_tail)
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requests_tail = lastp;
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return 0;
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}
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/* The thread handler. */
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static void *handle_requests (void *arg);
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/* The main function of the async I/O handling. It enqueues requests
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and if necessary starts and handles threads. */
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struct requestlist *
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__gai_enqueue_request (struct gaicb *gaicbp)
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{
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struct requestlist *newp;
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struct requestlist *lastp;
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/* Get the mutex. */
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pthread_mutex_lock (&__gai_requests_mutex);
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/* Get a new element for the waiting list. */
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newp = get_elem ();
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if (newp == NULL)
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{
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pthread_mutex_unlock (&__gai_requests_mutex);
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__set_errno (EAGAIN);
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return NULL;
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}
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newp->running = 0;
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newp->gaicbp = gaicbp;
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newp->waiting = NULL;
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newp->next = NULL;
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lastp = requests_tail;
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if (requests_tail == NULL)
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requests = requests_tail = newp;
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else
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{
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requests_tail->next = newp;
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requests_tail = newp;
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}
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gaicbp->__return = EAI_INPROGRESS;
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/* See if we need to and are able to create a thread. */
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if (nthreads < optim.gai_threads && idle_thread_count == 0)
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{
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pthread_t thid;
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newp->running = 1;
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/* Now try to start a thread. */
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if (gai_create_helper_thread (&thid, handle_requests, newp) == 0)
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/* We managed to enqueue the request. All errors which can
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happen now can be recognized by calls to `gai_error'. */
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++nthreads;
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else
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{
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if (nthreads == 0)
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{
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/* We cannot create a thread in the moment and there is
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also no thread running. This is a problem. `errno' is
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set to EAGAIN if this is only a temporary problem. */
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assert (requests == newp || lastp->next == newp);
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if (lastp != NULL)
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lastp->next = NULL;
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else
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requests = NULL;
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requests_tail = lastp;
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newp->next = freelist;
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freelist = newp;
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newp = NULL;
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}
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else
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/* We are not handling the request after all. */
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newp->running = 0;
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}
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}
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/* Enqueue the request in the request queue. */
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if (newp != NULL)
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{
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/* If there is a thread waiting for work, then let it know that we
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have just given it something to do. */
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if (idle_thread_count > 0)
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pthread_cond_signal (&__gai_new_request_notification);
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}
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/* Release the mutex. */
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pthread_mutex_unlock (&__gai_requests_mutex);
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return newp;
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}
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static void *
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__attribute__ ((noreturn))
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handle_requests (void *arg)
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{
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struct requestlist *runp = (struct requestlist *) arg;
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do
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{
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/* If runp is NULL, then we were created to service the work queue
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in general, not to handle any particular request. In that case we
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skip the "do work" stuff on the first pass, and go directly to the
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"get work off the work queue" part of this loop, which is near the
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end. */
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if (runp == NULL)
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pthread_mutex_lock (&__gai_requests_mutex);
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else
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{
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/* Make the request. */
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struct gaicb *req = runp->gaicbp;
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struct requestlist *srchp;
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struct requestlist *lastp;
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req->__return = getaddrinfo (req->ar_name, req->ar_service,
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req->ar_request, &req->ar_result);
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/* Get the mutex. */
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pthread_mutex_lock (&__gai_requests_mutex);
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/* Send the signal to notify about finished processing of the
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request. */
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__gai_notify (runp);
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/* Now dequeue the current request. */
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lastp = NULL;
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srchp = requests;
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while (srchp != runp)
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{
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lastp = srchp;
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srchp = srchp->next;
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}
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assert (runp->running == 1);
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if (requests_tail == runp)
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requests_tail = lastp;
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if (lastp == NULL)
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requests = requests->next;
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else
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lastp->next = runp->next;
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/* Free the old element. */
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runp->next = freelist;
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freelist = runp;
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}
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runp = requests;
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while (runp != NULL && runp->running != 0)
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runp = runp->next;
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/* If the runlist is empty, then we sleep for a while, waiting for
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something to arrive in it. */
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if (runp == NULL && optim.gai_idle_time >= 0)
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{
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struct timeval now;
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struct timespec wakeup_time;
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++idle_thread_count;
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gettimeofday (&now, NULL);
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wakeup_time.tv_sec = now.tv_sec + optim.gai_idle_time;
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wakeup_time.tv_nsec = now.tv_usec * 1000;
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if (wakeup_time.tv_nsec >= 1000000000)
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{
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wakeup_time.tv_nsec -= 1000000000;
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++wakeup_time.tv_sec;
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}
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pthread_cond_timedwait (&__gai_new_request_notification,
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&__gai_requests_mutex, &wakeup_time);
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--idle_thread_count;
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runp = requests;
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while (runp != NULL && runp->running != 0)
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runp = runp->next;
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}
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if (runp == NULL)
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--nthreads;
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else
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{
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/* Mark the request as being worked on. */
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assert (runp->running == 0);
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runp->running = 1;
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/* If we have a request to process, and there's still another in
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the run list, then we need to either wake up or create a new
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thread to service the request that is still in the run list. */
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if (requests != NULL)
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{
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/* There are at least two items in the work queue to work on.
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If there are other idle threads, then we should wake them
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up for these other work elements; otherwise, we should try
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to create a new thread. */
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if (idle_thread_count > 0)
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pthread_cond_signal (&__gai_new_request_notification);
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else if (nthreads < optim.gai_threads)
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{
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pthread_t thid;
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pthread_attr_t attr;
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/* Make sure the thread is created detached. */
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pthread_attr_init (&attr);
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pthread_attr_setdetachstate (&attr, PTHREAD_CREATE_DETACHED);
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/* Now try to start a thread. If we fail, no big deal,
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because we know that there is at least one thread (us)
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that is working on lookup operations. */
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if (pthread_create (&thid, &attr, handle_requests, NULL)
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== 0)
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++nthreads;
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}
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}
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}
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/* Release the mutex. */
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pthread_mutex_unlock (&__gai_requests_mutex);
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}
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while (runp != NULL);
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pthread_exit (NULL);
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}
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/* Free allocated resources. */
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libc_freeres_fn (free_res)
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{
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size_t row;
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for (row = 0; row < pool_max_size; ++row)
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free (pool[row]);
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free (pool);
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}
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