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f9119f49a6
1998-05-01 Ulrich Drepper <drepper@cygnus.com> * manager.c (pthread_free): Unmap guard before the stack. Patch by Matthias Urlichs.
458 lines
15 KiB
C
458 lines
15 KiB
C
/* Linuxthreads - a simple clone()-based implementation of Posix */
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/* threads for Linux. */
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/* Copyright (C) 1996 Xavier Leroy (Xavier.Leroy@inria.fr) */
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/* */
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/* This program is free software; you can redistribute it and/or */
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/* modify it under the terms of the GNU Library General Public License */
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/* as published by the Free Software Foundation; either version 2 */
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/* of the License, or (at your option) any later version. */
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/* */
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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 Library General Public License for more details. */
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/* The "thread manager" thread: manages creation and termination of threads */
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#include <errno.h>
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#include <sched.h>
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#include <stddef.h>
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#include <stdio.h>
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#include <stdlib.h>
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#include <string.h>
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#include <unistd.h>
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#include <sys/select.h> /* for select */
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#include <sys/mman.h> /* for mmap */
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#include <sys/time.h>
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#include <sys/wait.h> /* for waitpid macros */
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#include <linux/tasks.h>
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#include "pthread.h"
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#include "internals.h"
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#include "spinlock.h"
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#include "restart.h"
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/* Array of active threads. Entry 0 is reserved for the initial thread. */
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struct pthread_handle_struct __pthread_handles[PTHREAD_THREADS_MAX] =
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{ { 0, &__pthread_initial_thread}, /* All NULLs */ };
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/* Mapping from stack segment to thread descriptor. */
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/* Stack segment numbers are also indices into the __pthread_handles array. */
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/* Stack segment number 0 is reserved for the initial thread. */
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static inline pthread_descr thread_segment(int seg)
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{
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return (pthread_descr)(THREAD_STACK_START_ADDRESS - (seg - 1) * STACK_SIZE)
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- 1;
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}
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/* Flag set in signal handler to record child termination */
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static volatile int terminated_children = 0;
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/* Flag set when the initial thread is blocked on pthread_exit waiting
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for all other threads to terminate */
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static int main_thread_exiting = 0;
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/* Counter used to generate unique thread identifier.
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Thread identifier is pthread_threads_counter + segment. */
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static pthread_t pthread_threads_counter = 0;
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/* Forward declarations */
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static int pthread_handle_create(pthread_t *thread, const pthread_attr_t *attr,
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void * (*start_routine)(void *), void *arg,
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sigset_t *mask, int father_pid);
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static void pthread_handle_free(pthread_descr th);
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static void pthread_handle_exit(pthread_descr issuing_thread, int exitcode);
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static void pthread_reap_children(void);
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static void pthread_kill_all_threads(int sig, int main_thread_also);
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/* The server thread managing requests for thread creation and termination */
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int __pthread_manager(void *arg)
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{
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int reqfd = (int)arg;
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sigset_t mask;
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fd_set readfds;
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struct timeval timeout;
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int n;
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struct pthread_request request;
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/* If we have special thread_self processing, initialize it. */
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#ifdef INIT_THREAD_SELF
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INIT_THREAD_SELF(&__pthread_manager_thread);
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#endif
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/* Set the error variable. */
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__pthread_manager_thread.p_errnop = &__pthread_manager_thread.p_errno;
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__pthread_manager_thread.p_h_errnop = &__pthread_manager_thread.p_h_errno;
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/* Block all signals except PTHREAD_SIG_RESTART */
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sigfillset(&mask);
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sigdelset(&mask, PTHREAD_SIG_RESTART);
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sigprocmask(SIG_SETMASK, &mask, NULL);
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/* Enter server loop */
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while(1) {
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FD_ZERO(&readfds);
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FD_SET(reqfd, &readfds);
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timeout.tv_sec = 2;
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timeout.tv_usec = 0;
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n = __select(reqfd + 1, &readfds, NULL, NULL, &timeout);
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/* Check for termination of the main thread */
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if (getppid() == 1) {
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pthread_kill_all_threads(SIGKILL, 0);
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_exit(0);
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}
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/* Check for dead children */
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if (terminated_children) {
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terminated_children = 0;
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pthread_reap_children();
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}
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/* Read and execute request */
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if (n == 1 && FD_ISSET(reqfd, &readfds)) {
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n = __libc_read(reqfd, (char *)&request, sizeof(request));
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ASSERT(n == sizeof(request));
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switch(request.req_kind) {
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case REQ_CREATE:
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request.req_thread->p_retcode =
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pthread_handle_create((pthread_t *) &request.req_thread->p_retval,
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request.req_args.create.attr,
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request.req_args.create.fn,
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request.req_args.create.arg,
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&request.req_args.create.mask,
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request.req_thread->p_pid);
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restart(request.req_thread);
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break;
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case REQ_FREE:
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pthread_handle_free(request.req_args.free.thread);
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break;
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case REQ_PROCESS_EXIT:
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pthread_handle_exit(request.req_thread,
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request.req_args.exit.code);
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break;
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case REQ_MAIN_THREAD_EXIT:
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main_thread_exiting = 1;
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if (__pthread_main_thread->p_nextlive == __pthread_main_thread) {
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restart(__pthread_main_thread);
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return 0;
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}
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break;
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}
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}
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}
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}
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/* Process creation */
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static int pthread_start_thread(void *arg)
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{
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pthread_descr self = (pthread_descr) arg;
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void * outcome;
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/* Initialize special thread_self processing, if any. */
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#ifdef INIT_THREAD_SELF
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INIT_THREAD_SELF(self);
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#endif
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/* Make sure our pid field is initialized, just in case we get there
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before our father has initialized it. */
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self->p_pid = __getpid();
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/* Initial signal mask is that of the creating thread. (Otherwise,
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we'd just inherit the mask of the thread manager.) */
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sigprocmask(SIG_SETMASK, &self->p_start_args.mask, NULL);
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/* Set the scheduling policy and priority for the new thread, if needed */
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if (self->p_start_args.schedpolicy >= 0)
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__sched_setscheduler(self->p_pid, self->p_start_args.schedpolicy,
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&self->p_start_args.schedparam);
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/* Run the thread code */
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outcome = self->p_start_args.start_routine(self->p_start_args.arg);
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/* Exit with the given return value */
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pthread_exit(outcome);
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return 0;
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}
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static int pthread_handle_create(pthread_t *thread, const pthread_attr_t *attr,
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void * (*start_routine)(void *), void *arg,
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sigset_t * mask, int father_pid)
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{
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size_t sseg;
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int pid;
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pthread_descr new_thread;
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pthread_t new_thread_id;
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void *guardaddr = NULL;
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/* Find a free stack segment for the current stack */
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for (sseg = 1; ; sseg++)
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{
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if (sseg >= PTHREAD_THREADS_MAX)
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return EAGAIN;
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if (__pthread_handles[sseg].h_descr != NULL)
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continue;
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if (attr == NULL || !attr->stackaddr_set)
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{
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new_thread = thread_segment(sseg);
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/* Allocate space for stack and thread descriptor. */
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if (mmap((caddr_t)((char *)(new_thread+1) - INITIAL_STACK_SIZE),
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INITIAL_STACK_SIZE, PROT_READ | PROT_WRITE | PROT_EXEC,
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MAP_PRIVATE | MAP_ANONYMOUS | MAP_FIXED | MAP_GROWSDOWN,
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-1, 0) != MAP_FAILED)
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{
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/* We manage to get a stack. Now see whether we need a guard
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and allocate it if necessary. */
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if (attr == NULL || attr->guardsize != 0)
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{
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guardaddr = mmap ((caddr_t)((char *)(new_thread+1)
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- STACK_SIZE),
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attr ? attr->guardsize : __getpagesize (),
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0, MAP_FIXED, -1, 0);
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if (guardaddr == MAP_FAILED)
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/* We don't make this an error. */
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guardaddr = NULL;
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}
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break;
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}
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/* It seems part of this segment is already mapped. Try the next. */
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}
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else
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{
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new_thread = (pthread_descr) attr->stackaddr - 1;
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break;
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}
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}
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/* Allocate new thread identifier */
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pthread_threads_counter += PTHREAD_THREADS_MAX;
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new_thread_id = sseg + pthread_threads_counter;
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/* Initialize the thread descriptor */
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new_thread->p_nextwaiting = NULL;
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new_thread->p_tid = new_thread_id;
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new_thread->p_priority = 0;
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new_thread->p_spinlock = &(__pthread_handles[sseg].h_spinlock);
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new_thread->p_signal = 0;
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new_thread->p_signal_jmp = NULL;
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new_thread->p_cancel_jmp = NULL;
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new_thread->p_terminated = 0;
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new_thread->p_detached = attr == NULL ? 0 : attr->detachstate;
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new_thread->p_exited = 0;
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new_thread->p_retval = NULL;
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new_thread->p_joining = NULL;
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new_thread->p_cleanup = NULL;
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new_thread->p_cancelstate = PTHREAD_CANCEL_ENABLE;
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new_thread->p_canceltype = PTHREAD_CANCEL_DEFERRED;
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new_thread->p_canceled = 0;
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new_thread->p_errnop = &new_thread->p_errno;
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new_thread->p_errno = 0;
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new_thread->p_h_errnop = &new_thread->p_h_errno;
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new_thread->p_h_errno = 0;
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new_thread->p_guardaddr = guardaddr;
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new_thread->p_guardsize = (guardaddr == NULL
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? 0
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: (attr == NULL
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? __getpagesize () : attr->guardsize));
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new_thread->p_userstack = attr != NULL && attr->stackaddr_set;
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memset (new_thread->p_specific, '\0',
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PTHREAD_KEY_1STLEVEL_SIZE * sizeof (new_thread->p_specific[0]));
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/* Initialize the thread handle */
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__pthread_handles[sseg].h_spinlock = 0; /* should already be 0 */
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__pthread_handles[sseg].h_descr = new_thread;
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/* Determine scheduling parameters for the thread */
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new_thread->p_start_args.schedpolicy = -1;
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if (attr != NULL) {
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switch(attr->inheritsched) {
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case PTHREAD_EXPLICIT_SCHED:
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new_thread->p_start_args.schedpolicy = attr->schedpolicy;
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new_thread->p_start_args.schedparam = attr->schedparam;
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break;
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case PTHREAD_INHERIT_SCHED:
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/* schedpolicy doesn't need to be set, only get priority */
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__sched_getparam(father_pid, &new_thread->p_start_args.schedparam);
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break;
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}
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new_thread->p_priority =
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new_thread->p_start_args.schedparam.sched_priority;
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}
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/* Finish setting up arguments to pthread_start_thread */
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new_thread->p_start_args.start_routine = start_routine;
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new_thread->p_start_args.arg = arg;
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new_thread->p_start_args.mask = *mask;
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/* Do the cloning */
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pid = __clone(pthread_start_thread, (void **) new_thread,
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CLONE_VM | CLONE_FS | CLONE_FILES | CLONE_SIGHAND |
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PTHREAD_SIG_RESTART,
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new_thread);
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/* Check if cloning succeeded */
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if (pid == -1) {
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/* Free the stack if we allocated it */
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if (attr == NULL || !attr->stackaddr_set)
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{
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munmap((caddr_t)((char *)(new_thread+1) - INITIAL_STACK_SIZE),
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INITIAL_STACK_SIZE);
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if (new_thread->p_guardsize != 0)
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munmap(new_thread->p_guardaddr, new_thread->p_guardsize);
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}
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__pthread_handles[sseg].h_descr = NULL;
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return errno;
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}
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/* Insert new thread in doubly linked list of active threads */
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new_thread->p_prevlive = __pthread_main_thread;
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new_thread->p_nextlive = __pthread_main_thread->p_nextlive;
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__pthread_main_thread->p_nextlive->p_prevlive = new_thread;
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__pthread_main_thread->p_nextlive = new_thread;
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/* Set pid field of the new thread, in case we get there before the
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child starts. */
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new_thread->p_pid = pid;
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/* We're all set */
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*thread = new_thread_id;
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return 0;
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}
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/* Try to free the resources of a thread when requested by pthread_join
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or pthread_detach on a terminated thread. */
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static void pthread_free(pthread_descr th)
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{
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pthread_handle handle;
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pthread_descr t;
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/* Check that the thread th is still there -- pthread_reap_children
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might have deallocated it already */
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t = __pthread_main_thread;
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do {
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if (t == th) break;
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t = t->p_nextlive;
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} while (t != __pthread_main_thread);
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if (t != th) return;
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ASSERT(th->p_exited);
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/* Make the handle invalid */
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handle = thread_handle(th->p_tid);
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acquire(&handle->h_spinlock);
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handle->h_descr = NULL;
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release(&handle->h_spinlock);
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/* If initial thread, nothing to free */
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if (th == &__pthread_initial_thread) return;
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if (!th->p_userstack)
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{
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/* Free the stack and thread descriptor area */
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if (th->p_guardsize != 0)
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munmap(th->p_guardaddr, th->p_guardsize);
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munmap((caddr_t) ((char *)(th+1) - STACK_SIZE), STACK_SIZE);
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}
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}
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/* Handle threads that have exited */
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static void pthread_exited(pid_t pid)
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{
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pthread_descr th;
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int detached;
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/* Find thread with that pid */
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for (th = __pthread_main_thread->p_nextlive;
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th != __pthread_main_thread;
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th = th->p_nextlive) {
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if (th->p_pid == pid) {
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/* Remove thread from list of active threads */
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th->p_nextlive->p_prevlive = th->p_prevlive;
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th->p_prevlive->p_nextlive = th->p_nextlive;
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/* Mark thread as exited, and if detached, free its resources */
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acquire(th->p_spinlock);
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th->p_exited = 1;
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detached = th->p_detached;
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release(th->p_spinlock);
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if (detached) pthread_free(th);
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break;
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}
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}
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/* If all threads have exited and the main thread is pending on a
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pthread_exit, wake up the main thread and terminate ourselves. */
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if (main_thread_exiting &&
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__pthread_main_thread->p_nextlive == __pthread_main_thread) {
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restart(__pthread_main_thread);
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_exit(0);
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}
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}
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static void pthread_reap_children(void)
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{
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pid_t pid;
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int status;
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while ((pid = __libc_waitpid(-1, &status, WNOHANG | __WCLONE)) > 0) {
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pthread_exited(pid);
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if (WIFSIGNALED(status)) {
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/* If a thread died due to a signal, send the same signal to
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all other threads, including the main thread. */
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pthread_kill_all_threads(WTERMSIG(status), 1);
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_exit(0);
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}
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}
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}
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/* Free the resources of a thread */
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static void pthread_handle_free(pthread_descr th)
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{
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acquire(th->p_spinlock);
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if (th->p_exited) {
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release(th->p_spinlock);
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pthread_free(th);
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} else {
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/* The Unix process of the thread is still running.
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Mark the thread as detached so that the thread manager will
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deallocate its resources when the Unix process exits. */
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th->p_detached = 1;
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release(th->p_spinlock);
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}
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}
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/* Send a signal to all running threads */
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static void pthread_kill_all_threads(int sig, int main_thread_also)
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{
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pthread_descr th;
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for (th = __pthread_main_thread->p_nextlive;
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th != __pthread_main_thread;
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th = th->p_nextlive) {
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kill(th->p_pid, sig);
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}
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if (main_thread_also) {
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kill(__pthread_main_thread->p_pid, sig);
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}
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}
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/* Process-wide exit() */
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static void pthread_handle_exit(pthread_descr issuing_thread, int exitcode)
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{
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pthread_descr th;
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__pthread_exit_requested = 1;
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__pthread_exit_code = exitcode;
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/* Send the CANCEL signal to all running threads, including the main
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thread, but excluding the thread from which the exit request originated
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(that thread must complete the exit, e.g. calling atexit functions
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and flushing stdio buffers). */
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for (th = issuing_thread->p_nextlive;
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th != issuing_thread;
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th = th->p_nextlive) {
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kill(th->p_pid, PTHREAD_SIG_CANCEL);
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}
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/* Now, wait for all these threads, so that they don't become zombies
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and their times are properly added to the thread manager's times. */
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for (th = issuing_thread->p_nextlive;
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th != issuing_thread;
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th = th->p_nextlive) {
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waitpid(th->p_pid, NULL, __WCLONE);
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}
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restart(issuing_thread);
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_exit(0);
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}
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/* Handler for PTHREAD_SIG_RESTART in thread manager thread */
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void __pthread_manager_sighandler(int sig)
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{
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terminated_children = 1;
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}
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