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- /* Linuxthreads - a simple clone()-based implementation of Posix */
- /* threads for Linux. */
- /* Copyright (C) 1996 Xavier Leroy (Xavier.Leroy@inria.fr) */
- /* */
- /* This program is free software; you can redistribute it and/or */
- /* modify it under the terms of the GNU Library General Public License */
- /* as published by the Free Software Foundation; either version 2 */
- /* of the License, or (at your option) any later version. */
- /* */
- /* This program is distributed in the hope that it will be useful, */
- /* but WITHOUT ANY WARRANTY; without even the implied warranty of */
- /* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the */
- /* GNU Library General Public License for more details. */
- /* The "thread manager" thread: manages creation and termination of threads */
- /* mods for uClibc: getpwd and getpagesize are the syscalls */
- #define __getpid getpid
- #define __getpagesize getpagesize
- #include <errno.h>
- #include <sched.h>
- #include <stddef.h>
- #include <stdio.h>
- #include <stdlib.h>
- #include <string.h>
- #include <unistd.h>
- #include <sys/poll.h> /* for poll */
- #include <sys/mman.h> /* for mmap */
- #include <sys/param.h>
- #include <sys/time.h>
- #include <sys/wait.h> /* for waitpid macros */
- #include "pthread.h"
- #include "internals.h"
- #include "spinlock.h"
- #include "restart.h"
- #include "semaphore.h"
- #include "debug.h" /* PDEBUG, added by StS */
- /* Array of active threads. Entry 0 is reserved for the initial thread. */
- struct pthread_handle_struct __pthread_handles[PTHREAD_THREADS_MAX] =
- { { LOCK_INITIALIZER, &__pthread_initial_thread, 0},
- { LOCK_INITIALIZER, &__pthread_manager_thread, 0}, /* All NULLs */ };
- /* For debugging purposes put the maximum number of threads in a variable. */
- const int __linuxthreads_pthread_threads_max = PTHREAD_THREADS_MAX;
- /* Indicate whether at least one thread has a user-defined stack (if 1),
- or if all threads have stacks supplied by LinuxThreads (if 0). */
- int __pthread_nonstandard_stacks;
- /* Number of active entries in __pthread_handles (used by gdb) */
- volatile int __pthread_handles_num = 2;
- /* Whether to use debugger additional actions for thread creation
- (set to 1 by gdb) */
- volatile int __pthread_threads_debug;
- /* Globally enabled events. */
- volatile td_thr_events_t __pthread_threads_events;
- /* Pointer to thread descriptor with last event. */
- volatile pthread_descr __pthread_last_event;
- /* Mapping from stack segment to thread descriptor. */
- /* Stack segment numbers are also indices into the __pthread_handles array. */
- /* Stack segment number 0 is reserved for the initial thread. */
- static inline pthread_descr thread_segment(int seg)
- {
- return (pthread_descr)(THREAD_STACK_START_ADDRESS - (seg - 1) * STACK_SIZE)
- - 1;
- }
- /* Flag set in signal handler to record child termination */
- static volatile int terminated_children = 0;
- /* Flag set when the initial thread is blocked on pthread_exit waiting
- for all other threads to terminate */
- static int main_thread_exiting = 0;
- /* Counter used to generate unique thread identifier.
- Thread identifier is pthread_threads_counter + segment. */
- static pthread_t pthread_threads_counter = 0;
- /* Forward declarations */
- static int pthread_handle_create(pthread_t *thread, const pthread_attr_t *attr,
- void * (*start_routine)(void *), void *arg,
- sigset_t *mask, int father_pid,
- int report_events,
- td_thr_events_t *event_maskp);
- static void pthread_handle_free(pthread_t th_id);
- static void pthread_handle_exit(pthread_descr issuing_thread, int exitcode);
- static void pthread_reap_children(void);
- static void pthread_kill_all_threads(int sig, int main_thread_also);
- /* The server thread managing requests for thread creation and termination */
- int __pthread_manager(void *arg)
- {
- int reqfd = (int) (long int) arg;
- struct pollfd ufd;
- sigset_t mask;
- int n;
- struct pthread_request request;
- /* If we have special thread_self processing, initialize it. */
- #ifdef INIT_THREAD_SELF
- INIT_THREAD_SELF(&__pthread_manager_thread, 1);
- #endif
- /* Set the error variable. */
- __pthread_manager_thread.p_errnop = &__pthread_manager_thread.p_errno;
- __pthread_manager_thread.p_h_errnop = &__pthread_manager_thread.p_h_errno;
- /* Block all signals except __pthread_sig_cancel and SIGTRAP */
- sigfillset(&mask);
- sigdelset(&mask, __pthread_sig_cancel); /* for thread termination */
- sigdelset(&mask, SIGTRAP); /* for debugging purposes */
- sigprocmask(SIG_SETMASK, &mask, NULL);
- /* Raise our priority to match that of main thread */
- __pthread_manager_adjust_prio(__pthread_main_thread->p_priority);
- /* Synchronize debugging of the thread manager */
- n = __libc_read(reqfd, (char *)&request, sizeof(request));
- ASSERT(n == sizeof(request) && request.req_kind == REQ_DEBUG);
- ufd.fd = reqfd;
- ufd.events = POLLIN;
- /* Enter server loop */
- while(1) {
- PDEBUG("before poll\n");
- n = poll(&ufd, 1, 2000);
- PDEBUG("after poll\n");
- /* Check for termination of the main thread */
- if (getppid() == 1) {
- pthread_kill_all_threads(SIGKILL, 0);
- _exit(0);
- }
- /* Check for dead children */
- if (terminated_children) {
- terminated_children = 0;
- pthread_reap_children();
- }
- /* Read and execute request */
- if (n == 1 && (ufd.revents & POLLIN)) {
- PDEBUG("before __libc_read\n");
- n = __libc_read(reqfd, (char *)&request, sizeof(request));
- PDEBUG("after __libc_read, n=%d\n", n);
- ASSERT(n == sizeof(request));
- switch(request.req_kind) {
- case REQ_CREATE:
- PDEBUG("got REQ_CREATE\n");
- request.req_thread->p_retcode =
- pthread_handle_create((pthread_t *) &request.req_thread->p_retval,
- request.req_args.create.attr,
- request.req_args.create.fn,
- request.req_args.create.arg,
- &request.req_args.create.mask,
- request.req_thread->p_pid,
- request.req_thread->p_report_events,
- &request.req_thread->p_eventbuf.eventmask);
- PDEBUG("restarting %d\n", request.req_thread);
- restart(request.req_thread);
- break;
- case REQ_FREE:
- PDEBUG("got REQ_FREE\n");
- pthread_handle_free(request.req_args.free.thread_id);
- break;
- case REQ_PROCESS_EXIT:
- PDEBUG("got REQ_PROCESS_EXIT from %d, exit code = %d\n",
- request.req_thread, request.req_args.exit.code);
- pthread_handle_exit(request.req_thread,
- request.req_args.exit.code);
- break;
- case REQ_MAIN_THREAD_EXIT:
- PDEBUG("got REQ_MAIN_THREAD_EXIT\n");
- main_thread_exiting = 1;
- if (__pthread_main_thread->p_nextlive == __pthread_main_thread) {
- restart(__pthread_main_thread);
- return 0;
- }
- break;
- case REQ_POST:
- PDEBUG("got REQ_POST\n");
- __new_sem_post(request.req_args.post);
- break;
- case REQ_DEBUG:
- PDEBUG("got REQ_DEBUG\n");
- /* Make gdb aware of new thread and gdb will restart the
- new thread when it is ready to handle the new thread. */
- if (__pthread_threads_debug && __pthread_sig_debug > 0)
- PDEBUG("about to call raise(__pthread_sig_debug)\n");
- raise(__pthread_sig_debug);
- break;
- }
- }
- }
- }
- int __pthread_manager_event(void *arg)
- {
- /* If we have special thread_self processing, initialize it. */
- #ifdef INIT_THREAD_SELF
- INIT_THREAD_SELF(&__pthread_manager_thread, 1);
- #endif
- /* Get the lock the manager will free once all is correctly set up. */
- __pthread_lock (THREAD_GETMEM((&__pthread_manager_thread), p_lock), NULL);
- /* Free it immediately. */
- __pthread_unlock (THREAD_GETMEM((&__pthread_manager_thread), p_lock));
- return __pthread_manager(arg);
- }
- /* Process creation */
- static int pthread_start_thread(void *arg)
- {
- pthread_descr self = (pthread_descr) arg;
- struct pthread_request request;
- void * outcome;
- /* Initialize special thread_self processing, if any. */
- #ifdef INIT_THREAD_SELF
- INIT_THREAD_SELF(self, self->p_nr);
- #endif
- PDEBUG("\n");
- /* Make sure our pid field is initialized, just in case we get there
- before our father has initialized it. */
- THREAD_SETMEM(self, p_pid, __getpid());
- /* Initial signal mask is that of the creating thread. (Otherwise,
- we'd just inherit the mask of the thread manager.) */
- sigprocmask(SIG_SETMASK, &self->p_start_args.mask, NULL);
- /* Set the scheduling policy and priority for the new thread, if needed */
- if (THREAD_GETMEM(self, p_start_args.schedpolicy) >= 0)
- /* Explicit scheduling attributes were provided: apply them */
- sched_setscheduler(THREAD_GETMEM(self, p_pid),
- THREAD_GETMEM(self, p_start_args.schedpolicy),
- &self->p_start_args.schedparam);
- else if (__pthread_manager_thread.p_priority > 0)
- /* Default scheduling required, but thread manager runs in realtime
- scheduling: switch new thread to SCHED_OTHER policy */
- {
- struct sched_param default_params;
- default_params.sched_priority = 0;
- sched_setscheduler(THREAD_GETMEM(self, p_pid),
- SCHED_OTHER, &default_params);
- }
- /* Make gdb aware of new thread */
- if (__pthread_threads_debug && __pthread_sig_debug > 0) {
- request.req_thread = self;
- request.req_kind = REQ_DEBUG;
- __libc_write(__pthread_manager_request,
- (char *) &request, sizeof(request));
- suspend(self);
- }
- /* Run the thread code */
- outcome = self->p_start_args.start_routine(THREAD_GETMEM(self,
- p_start_args.arg));
- /* Exit with the given return value */
- pthread_exit(outcome);
- return 0;
- }
- static int pthread_start_thread_event(void *arg)
- {
- pthread_descr self = (pthread_descr) arg;
- #ifdef INIT_THREAD_SELF
- INIT_THREAD_SELF(self, self->p_nr);
- #endif
- /* Make sure our pid field is initialized, just in case we get there
- before our father has initialized it. */
- THREAD_SETMEM(self, p_pid, __getpid());
- /* Get the lock the manager will free once all is correctly set up. */
- __pthread_lock (THREAD_GETMEM(self, p_lock), NULL);
- /* Free it immediately. */
- __pthread_unlock (THREAD_GETMEM(self, p_lock));
- /* Continue with the real function. */
- return pthread_start_thread (arg);
- }
- static int pthread_allocate_stack(const pthread_attr_t *attr,
- pthread_descr default_new_thread,
- int pagesize,
- pthread_descr * out_new_thread,
- char ** out_new_thread_bottom,
- char ** out_guardaddr,
- size_t * out_guardsize)
- {
- pthread_descr new_thread;
- char * new_thread_bottom;
- char * guardaddr;
- size_t stacksize, guardsize;
- if (attr != NULL && attr->__stackaddr_set)
- {
- /* The user provided a stack. */
- new_thread =
- (pthread_descr) ((long)(attr->__stackaddr) & -sizeof(void *)) - 1;
- new_thread_bottom = (char *) attr->__stackaddr - attr->__stacksize;
- guardaddr = NULL;
- guardsize = 0;
- __pthread_nonstandard_stacks = 1;
- }
- else
- {
- #ifdef __UCLIBC_HAS_MMU__
- stacksize = STACK_SIZE - pagesize;
- if (attr != NULL)
- stacksize = MIN (stacksize, roundup(attr->__stacksize, pagesize));
- /* Allocate space for stack and thread descriptor at default address */
- new_thread = default_new_thread;
- new_thread_bottom = (char *) (new_thread + 1) - stacksize;
- if (mmap((caddr_t)((char *)(new_thread + 1) - INITIAL_STACK_SIZE),
- INITIAL_STACK_SIZE, PROT_READ | PROT_WRITE | PROT_EXEC,
- MAP_PRIVATE | MAP_ANONYMOUS | MAP_FIXED | MAP_GROWSDOWN,
- -1, 0) == MAP_FAILED)
- /* Bad luck, this segment is already mapped. */
- return -1;
- /* We manage to get a stack. Now see whether we need a guard
- and allocate it if necessary. Notice that the default
- attributes (stack_size = STACK_SIZE - pagesize) do not need
- a guard page, since the RLIMIT_STACK soft limit prevents stacks
- from running into one another. */
- if (stacksize == STACK_SIZE - pagesize)
- {
- /* We don't need a guard page. */
- guardaddr = NULL;
- guardsize = 0;
- }
- else
- {
- /* Put a bad page at the bottom of the stack */
- guardsize = attr->__guardsize;
- guardaddr = (void *)new_thread_bottom - guardsize;
- if (mmap ((caddr_t) guardaddr, guardsize, 0, MAP_FIXED, -1, 0)
- == MAP_FAILED)
- {
- /* We don't make this an error. */
- guardaddr = NULL;
- guardsize = 0;
- }
- }
- #else
- /* We cannot mmap to this huge chunk of stack space when we don't have
- * an MMU. Pretend we are using a user provided stack even if there was
- * none provided by the user. Thus, we get around the mmap and reservation
- * of a huge stack segment. -StS */
- char *new_stack;
- if ((new_stack = malloc(INITIAL_STACK_SIZE)) == NULL) {
- /* bad luck, we cannot malloc any more */
- return -1;
- }
- PDEBUG("malloced chunk: base=%p, size=0x%04x\n", new_stack, INITIAL_STACK_SIZE);
- /* Set up the pointers. new_thread marks the TOP of the stack frame and
- * the address of the pthread_descr struct at the same time. Therefore we
- * must account for its size and fit it in the malloc()'ed block. The
- * value of `new_thread' is then passed to clone() as the stack argument.
- *
- * ^ +------------------------+
- * | | pthread_descr struct |
- * | +------------------------+ <- new_thread
- * malloc block | | |
- * | | thread stack |
- * | | |
- * v +------------------------+ <- new_thread_bottom
- *
- * Note: The calculated value of new_thread must be word aligned otherwise
- * the kernel chokes on a non-aligned stack frame. Choose the lower
- * available word boundary.
- */
- new_thread_bottom = (pthread_descr) new_stack;
- new_thread = (long)((char *) new_stack + INITIAL_STACK_SIZE - sizeof(*new_thread) - 1)
- & -sizeof(void*); /* align new_thread */
- guardaddr = NULL;
- guardsize = 0;
- PDEBUG("thread stack: bos=%p, tos=%p\n", new_thread_bottom, new_thread);
- /* check the initial thread stack boundaries so they don't overlap */
- NOMMU_INITIAL_THREAD_BOUNDS(new_thread, new_thread_bottom);
- PDEBUG("initial stack: bos=%p, tos=%p\n", __pthread_initial_thread_bos,
- __pthread_initial_thread_tos);
- /* on non-MMU systems we always have non-standard stack frames */
- __pthread_nonstandard_stacks = 1;
-
- #endif /* __UCLIBC_HAS_MMU__ */
- }
- /* Clear the thread data structure. */
- memset (new_thread, '\0', sizeof (*new_thread));
- *out_new_thread = new_thread;
- *out_new_thread_bottom = new_thread_bottom;
- *out_guardaddr = guardaddr;
- *out_guardsize = guardsize;
- return 0;
- }
- static int pthread_handle_create(pthread_t *thread, const pthread_attr_t *attr,
- void * (*start_routine)(void *), void *arg,
- sigset_t * mask, int father_pid,
- int report_events,
- td_thr_events_t *event_maskp)
- {
- size_t sseg;
- int pid;
- pthread_descr new_thread;
- char * new_thread_bottom;
- pthread_t new_thread_id;
- char *guardaddr = NULL;
- size_t guardsize = 0;
- int pagesize = __getpagesize();
- /* First check whether we have to change the policy and if yes, whether
- we can do this. Normally this should be done by examining the
- return value of the sched_setscheduler call in pthread_start_thread
- but this is hard to implement. FIXME */
- if (attr != NULL && attr->__schedpolicy != SCHED_OTHER && geteuid () != 0)
- return EPERM;
- /* Find a free segment for the thread, and allocate a stack if needed */
- for (sseg = 2; ; sseg++)
- {
- if (sseg >= PTHREAD_THREADS_MAX)
- return EAGAIN;
- if (__pthread_handles[sseg].h_descr != NULL)
- continue;
- if (pthread_allocate_stack(attr, thread_segment(sseg), pagesize,
- &new_thread, &new_thread_bottom,
- &guardaddr, &guardsize) == 0)
- break;
- }
- __pthread_handles_num++;
- /* Allocate new thread identifier */
- pthread_threads_counter += PTHREAD_THREADS_MAX;
- new_thread_id = sseg + pthread_threads_counter;
- /* Initialize the thread descriptor. Elements which have to be
- initialized to zero already have this value. */
- new_thread->p_tid = new_thread_id;
- new_thread->p_lock = &(__pthread_handles[sseg].h_lock);
- new_thread->p_cancelstate = PTHREAD_CANCEL_ENABLE;
- new_thread->p_canceltype = PTHREAD_CANCEL_DEFERRED;
- new_thread->p_errnop = &new_thread->p_errno;
- new_thread->p_h_errnop = &new_thread->p_h_errno;
- new_thread->p_guardaddr = guardaddr;
- new_thread->p_guardsize = guardsize;
- new_thread->p_self = new_thread;
- new_thread->p_nr = sseg;
- /* Initialize the thread handle */
- __pthread_init_lock(&__pthread_handles[sseg].h_lock);
- __pthread_handles[sseg].h_descr = new_thread;
- __pthread_handles[sseg].h_bottom = new_thread_bottom;
- /* Determine scheduling parameters for the thread */
- new_thread->p_start_args.schedpolicy = -1;
- if (attr != NULL) {
- new_thread->p_detached = attr->__detachstate;
- new_thread->p_userstack = attr->__stackaddr_set;
- switch(attr->__inheritsched) {
- case PTHREAD_EXPLICIT_SCHED:
- new_thread->p_start_args.schedpolicy = attr->__schedpolicy;
- memcpy (&new_thread->p_start_args.schedparam, &attr->__schedparam,
- sizeof (struct sched_param));
- break;
- case PTHREAD_INHERIT_SCHED:
- new_thread->p_start_args.schedpolicy = sched_getscheduler(father_pid);
- sched_getparam(father_pid, &new_thread->p_start_args.schedparam);
- break;
- }
- new_thread->p_priority =
- new_thread->p_start_args.schedparam.sched_priority;
- }
- /* Finish setting up arguments to pthread_start_thread */
- new_thread->p_start_args.start_routine = start_routine;
- new_thread->p_start_args.arg = arg;
- new_thread->p_start_args.mask = *mask;
- /* Raise priority of thread manager if needed */
- __pthread_manager_adjust_prio(new_thread->p_priority);
- /* Do the cloning. We have to use two different functions depending
- on whether we are debugging or not. */
- pid = 0; /* Note that the thread never can have PID zero. */
- if (report_events)
- {
- /* See whether the TD_CREATE event bit is set in any of the
- masks. */
- int idx = __td_eventword (TD_CREATE);
- uint32_t mask = __td_eventmask (TD_CREATE);
- if ((mask & (__pthread_threads_events.event_bits[idx]
- | event_maskp->event_bits[idx])) != 0)
- {
- /* Lock the mutex the child will use now so that it will stop. */
- __pthread_lock(new_thread->p_lock, NULL);
- /* We have to report this event. */
- pid = clone(pthread_start_thread_event, (void **) new_thread,
- CLONE_VM | CLONE_FS | CLONE_FILES | CLONE_SIGHAND |
- __pthread_sig_cancel, new_thread);
- if (pid != -1)
- {
- /* Now fill in the information about the new thread in
- the newly created thread's data structure. We cannot let
- the new thread do this since we don't know whether it was
- already scheduled when we send the event. */
- new_thread->p_eventbuf.eventdata = new_thread;
- new_thread->p_eventbuf.eventnum = TD_CREATE;
- __pthread_last_event = new_thread;
- /* We have to set the PID here since the callback function
- in the debug library will need it and we cannot guarantee
- the child got scheduled before the debugger. */
- new_thread->p_pid = pid;
- /* Now call the function which signals the event. */
- __linuxthreads_create_event ();
- /* Now restart the thread. */
- __pthread_unlock(new_thread->p_lock);
- }
- }
- }
- if (pid == 0)
- PDEBUG("cloning new_thread = %p\n", new_thread);
- pid = clone(pthread_start_thread, (void **) new_thread,
- CLONE_VM | CLONE_FS | CLONE_FILES | CLONE_SIGHAND |
- __pthread_sig_cancel, new_thread);
- /* Check if cloning succeeded */
- if (pid == -1) {
- /* Free the stack if we allocated it */
- if (attr == NULL || !attr->__stackaddr_set)
- {
- #ifdef __UCLIBC_HAS_MMU__
- if (new_thread->p_guardsize != 0)
- munmap(new_thread->p_guardaddr, new_thread->p_guardsize);
- munmap((caddr_t)((char *)(new_thread+1) - INITIAL_STACK_SIZE),
- INITIAL_STACK_SIZE);
- #else
- free(new_thread_bottom);
- #endif /* __UCLIBC_HAS_MMU__ */
- }
- __pthread_handles[sseg].h_descr = NULL;
- __pthread_handles[sseg].h_bottom = NULL;
- __pthread_handles_num--;
- return errno;
- }
- PDEBUG("new thread pid = %d\n", pid);
- /* Insert new thread in doubly linked list of active threads */
- new_thread->p_prevlive = __pthread_main_thread;
- new_thread->p_nextlive = __pthread_main_thread->p_nextlive;
- __pthread_main_thread->p_nextlive->p_prevlive = new_thread;
- __pthread_main_thread->p_nextlive = new_thread;
- /* Set pid field of the new thread, in case we get there before the
- child starts. */
- new_thread->p_pid = pid;
- /* We're all set */
- *thread = new_thread_id;
- return 0;
- }
- /* Try to free the resources of a thread when requested by pthread_join
- or pthread_detach on a terminated thread. */
- static void pthread_free(pthread_descr th)
- {
- pthread_handle handle;
- pthread_readlock_info *iter, *next;
- char *h_bottom_save;
- ASSERT(th->p_exited);
- /* Make the handle invalid */
- handle = thread_handle(th->p_tid);
- __pthread_lock(&handle->h_lock, NULL);
- h_bottom_save = handle->h_bottom;
- handle->h_descr = NULL;
- handle->h_bottom = (char *)(-1L);
- __pthread_unlock(&handle->h_lock);
- #ifdef FREE_THREAD_SELF
- FREE_THREAD_SELF(th, th->p_nr);
- #endif
- /* One fewer threads in __pthread_handles */
- __pthread_handles_num--;
- /* Destroy read lock list, and list of free read lock structures.
- If the former is not empty, it means the thread exited while
- holding read locks! */
- for (iter = th->p_readlock_list; iter != NULL; iter = next)
- {
- next = iter->pr_next;
- free(iter);
- }
- for (iter = th->p_readlock_free; iter != NULL; iter = next)
- {
- next = iter->pr_next;
- free(iter);
- }
- /* If initial thread, nothing to free */
- if (th == &__pthread_initial_thread) return;
- #ifdef __UCLIBC_HAS_MMU__
- if (!th->p_userstack)
- {
- /* Free the stack and thread descriptor area */
- if (th->p_guardsize != 0)
- munmap(th->p_guardaddr, th->p_guardsize);
- munmap((caddr_t) ((char *)(th+1) - STACK_SIZE), STACK_SIZE);
- }
- #else
- /* For non-MMU systems we always malloc the stack, so free it here. -StS */
- if (!th->p_userstack) {
- free(h_bottom_save);
- }
- #endif /* __UCLIBC_HAS_MMU__ */
- }
- /* Handle threads that have exited */
- static void pthread_exited(pid_t pid)
- {
- pthread_descr th;
- int detached;
- /* Find thread with that pid */
- for (th = __pthread_main_thread->p_nextlive;
- th != __pthread_main_thread;
- th = th->p_nextlive) {
- if (th->p_pid == pid) {
- /* Remove thread from list of active threads */
- th->p_nextlive->p_prevlive = th->p_prevlive;
- th->p_prevlive->p_nextlive = th->p_nextlive;
- /* Mark thread as exited, and if detached, free its resources */
- __pthread_lock(th->p_lock, NULL);
- th->p_exited = 1;
- /* If we have to signal this event do it now. */
- if (th->p_report_events)
- {
- /* See whether TD_DEATH is in any of the mask. */
- int idx = __td_eventword (TD_REAP);
- uint32_t mask = __td_eventmask (TD_REAP);
- if ((mask & (__pthread_threads_events.event_bits[idx]
- | th->p_eventbuf.eventmask.event_bits[idx])) != 0)
- {
- /* Yep, we have to signal the death. */
- th->p_eventbuf.eventnum = TD_DEATH;
- th->p_eventbuf.eventdata = th;
- __pthread_last_event = th;
- /* Now call the function to signal the event. */
- __linuxthreads_reap_event();
- }
- }
- detached = th->p_detached;
- __pthread_unlock(th->p_lock);
- if (detached)
- pthread_free(th);
- break;
- }
- }
- /* If all threads have exited and the main thread is pending on a
- pthread_exit, wake up the main thread and terminate ourselves. */
- if (main_thread_exiting &&
- __pthread_main_thread->p_nextlive == __pthread_main_thread) {
- restart(__pthread_main_thread);
- _exit(0);
- }
- }
- static void pthread_reap_children(void)
- {
- pid_t pid;
- int status;
- PDEBUG("\n");
- while ((pid = __libc_waitpid(-1, &status, WNOHANG | __WCLONE)) > 0) {
- pthread_exited(pid);
- if (WIFSIGNALED(status)) {
- /* If a thread died due to a signal, send the same signal to
- all other threads, including the main thread. */
- pthread_kill_all_threads(WTERMSIG(status), 1);
- _exit(0);
- }
- }
- }
- /* Try to free the resources of a thread when requested by pthread_join
- or pthread_detach on a terminated thread. */
- static void pthread_handle_free(pthread_t th_id)
- {
- pthread_handle handle = thread_handle(th_id);
- pthread_descr th;
- __pthread_lock(&handle->h_lock, NULL);
- if (invalid_handle(handle, th_id)) {
- /* pthread_reap_children has deallocated the thread already,
- nothing needs to be done */
- __pthread_unlock(&handle->h_lock);
- return;
- }
- th = handle->h_descr;
- if (th->p_exited) {
- __pthread_unlock(&handle->h_lock);
- pthread_free(th);
- } else {
- /* The Unix process of the thread is still running.
- Mark the thread as detached so that the thread manager will
- deallocate its resources when the Unix process exits. */
- th->p_detached = 1;
- __pthread_unlock(&handle->h_lock);
- }
- }
- /* Send a signal to all running threads */
- static void pthread_kill_all_threads(int sig, int main_thread_also)
- {
- pthread_descr th;
- for (th = __pthread_main_thread->p_nextlive;
- th != __pthread_main_thread;
- th = th->p_nextlive) {
- kill(th->p_pid, sig);
- }
- if (main_thread_also) {
- kill(__pthread_main_thread->p_pid, sig);
- }
- }
- /* Process-wide exit() */
- static void pthread_handle_exit(pthread_descr issuing_thread, int exitcode)
- {
- pthread_descr th;
- __pthread_exit_requested = 1;
- __pthread_exit_code = exitcode;
- /* Send the CANCEL signal to all running threads, including the main
- thread, but excluding the thread from which the exit request originated
- (that thread must complete the exit, e.g. calling atexit functions
- and flushing stdio buffers). */
- for (th = issuing_thread->p_nextlive;
- th != issuing_thread;
- th = th->p_nextlive) {
- kill(th->p_pid, __pthread_sig_cancel);
- }
- /* Now, wait for all these threads, so that they don't become zombies
- and their times are properly added to the thread manager's times. */
- for (th = issuing_thread->p_nextlive;
- th != issuing_thread;
- th = th->p_nextlive) {
- waitpid(th->p_pid, NULL, __WCLONE);
- }
- restart(issuing_thread);
- _exit(0);
- }
- /* Handler for __pthread_sig_cancel in thread manager thread */
- void __pthread_manager_sighandler(int sig)
- {
- terminated_children = 1;
- }
- /* Adjust priority of thread manager so that it always run at a priority
- higher than all threads */
- void __pthread_manager_adjust_prio(int thread_prio)
- {
- struct sched_param param;
- if (thread_prio <= __pthread_manager_thread.p_priority) return;
- param.sched_priority =
- thread_prio < sched_get_priority_max(SCHED_FIFO)
- ? thread_prio + 1 : thread_prio;
- sched_setscheduler(__pthread_manager_thread.p_pid, SCHED_FIFO, ¶m);
- __pthread_manager_thread.p_priority = thread_prio;
- }
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