0539f1f709
* prims.cc (_Jv_ThisExecutable): Use _Jv_Malloc. * posix-threads.cc (_Jv_ThreadInitData): Use _Jv_Malloc. (_Jv_ThreadDestroyData): Use _Jv_Free. From-SVN: r41650
413 lines
10 KiB
C++
413 lines
10 KiB
C++
// posix-threads.cc - interface between libjava and POSIX threads.
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/* Copyright (C) 1998, 1999, 2000 Free Software Foundation
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This file is part of libgcj.
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This software is copyrighted work licensed under the terms of the
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Libgcj License. Please consult the file "LIBGCJ_LICENSE" for
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details. */
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// TO DO:
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// * Document signal handling limitations
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#include <config.h>
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// If we're using the Boehm GC, then we need to override some of the
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// thread primitives. This is fairly gross.
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#ifdef HAVE_BOEHM_GC
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extern "C"
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{
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#include <gcconfig.h>
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#include <gc.h>
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};
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#endif /* HAVE_BOEHM_GC */
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#include <stdlib.h>
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#include <time.h>
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#include <signal.h>
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#include <errno.h>
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#include <limits.h>
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#include <gcj/cni.h>
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#include <jvm.h>
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#include <java/lang/Thread.h>
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#include <java/lang/System.h>
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#include <java/lang/Long.h>
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#include <java/lang/OutOfMemoryError.h>
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// This is used to implement thread startup.
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struct starter
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{
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_Jv_ThreadStartFunc *method;
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_Jv_Thread_t *data;
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};
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// This is the key used to map from the POSIX thread value back to the
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// Java object representing the thread. The key is global to all
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// threads, so it is ok to make it a global here.
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pthread_key_t _Jv_ThreadKey;
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// This is the key used to map from the POSIX thread value back to the
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// _Jv_Thread_t* representing the thread.
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pthread_key_t _Jv_ThreadDataKey;
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// We keep a count of all non-daemon threads which are running. When
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// this reaches zero, _Jv_ThreadWait returns.
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static pthread_mutex_t daemon_mutex;
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static pthread_cond_t daemon_cond;
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static int non_daemon_count;
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// The signal to use when interrupting a thread.
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#ifdef LINUX_THREADS
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// LinuxThreads (prior to glibc 2.1) usurps both SIGUSR1 and SIGUSR2.
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# define INTR SIGHUP
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#else /* LINUX_THREADS */
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# define INTR SIGUSR2
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#endif /* LINUX_THREADS */
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//
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// These are the flags that can appear in _Jv_Thread_t.
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//
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// Thread started.
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#define FLAG_START 0x01
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// Thread is daemon.
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#define FLAG_DAEMON 0x02
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// Wait for the condition variable "CV" to be notified.
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// Return values:
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// 0: the condition was notified, or the timeout expired.
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// _JV_NOT_OWNER: the thread does not own the mutex "MU".
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// _JV_INTERRUPTED: the thread was interrupted. Its interrupted flag is set.
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int
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_Jv_CondWait (_Jv_ConditionVariable_t *cv, _Jv_Mutex_t *mu,
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jlong millis, jint nanos)
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{
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pthread_t self = pthread_self();
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if (mu->owner != self)
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return _JV_NOT_OWNER;
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struct timespec ts;
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jlong m, startTime;
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if (millis > 0 || nanos > 0)
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{
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startTime = java::lang::System::currentTimeMillis();
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m = millis + startTime;
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ts.tv_sec = m / 1000;
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ts.tv_nsec = ((m % 1000) * 1000000) + nanos;
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}
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_Jv_Thread_t *current = _Jv_ThreadCurrentData ();
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java::lang::Thread *current_obj = _Jv_ThreadCurrent ();
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pthread_mutex_lock (¤t->wait_mutex);
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// Now that we hold the wait mutex, check if this thread has been
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// interrupted already.
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if (current_obj->interrupt_flag)
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{
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pthread_mutex_unlock (¤t->wait_mutex);
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return _JV_INTERRUPTED;
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}
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// Add this thread to the cv's wait set.
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current->next = NULL;
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if (cv->first == NULL)
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cv->first = current;
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else
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for (_Jv_Thread_t *t = cv->first;; t = t->next)
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{
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if (t->next == NULL)
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{
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t->next = current;
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break;
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}
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}
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// Record the current lock depth, so it can be restored when we re-aquire it.
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int count = mu->count;
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// Release the monitor mutex.
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mu->count = 0;
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mu->owner = 0;
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pthread_mutex_unlock (&mu->mutex);
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int r = 0;
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bool done_sleeping = false;
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while (! done_sleeping)
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{
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if (millis == 0 && nanos == 0)
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r = pthread_cond_wait (¤t->wait_cond, ¤t->wait_mutex);
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else
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r = pthread_cond_timedwait (¤t->wait_cond, ¤t->wait_mutex,
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&ts);
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// In older glibc's (prior to 2.1.3), the cond_wait functions may
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// spuriously wake up on a signal. Catch that here.
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if (r != EINTR)
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done_sleeping = true;
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}
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// Check for an interrupt *before* releasing the wait mutex.
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jboolean interrupted = current_obj->interrupt_flag;
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pthread_mutex_unlock (¤t->wait_mutex);
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// Reaquire the monitor mutex, and restore the lock count.
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pthread_mutex_lock (&mu->mutex);
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mu->owner = self;
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mu->count = count;
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// If we were interrupted, or if a timeout occured, remove ourself from
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// the cv wait list now. (If we were notified normally, notify() will have
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// already taken care of this)
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if (r == ETIMEDOUT || interrupted)
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{
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_Jv_Thread_t *prev = NULL;
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for (_Jv_Thread_t *t = cv->first; t != NULL; t = t->next)
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{
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if (t == current)
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{
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if (prev != NULL)
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prev->next = t->next;
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else
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cv->first = t->next;
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t->next = NULL;
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break;
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}
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prev = t;
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}
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if (interrupted)
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return _JV_INTERRUPTED;
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}
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return 0;
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}
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int
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_Jv_CondNotify (_Jv_ConditionVariable_t *cv, _Jv_Mutex_t *mu)
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{
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if (_Jv_PthreadCheckMonitor (mu))
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return _JV_NOT_OWNER;
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_Jv_Thread_t *target;
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_Jv_Thread_t *prev = NULL;
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for (target = cv->first; target != NULL; target = target->next)
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{
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pthread_mutex_lock (&target->wait_mutex);
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if (target->thread_obj->interrupt_flag)
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{
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// Don't notify a thread that has already been interrupted.
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pthread_mutex_unlock (&target->wait_mutex);
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prev = target;
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continue;
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}
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pthread_cond_signal (&target->wait_cond);
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pthread_mutex_unlock (&target->wait_mutex);
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// Two concurrent notify() calls must not be delivered to the same
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// thread, so remove the target thread from the cv wait list now.
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if (prev == NULL)
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cv->first = target->next;
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else
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prev->next = target->next;
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target->next = NULL;
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break;
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}
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return 0;
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}
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int
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_Jv_CondNotifyAll (_Jv_ConditionVariable_t *cv, _Jv_Mutex_t *mu)
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{
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if (_Jv_PthreadCheckMonitor (mu))
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return _JV_NOT_OWNER;
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_Jv_Thread_t *target;
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_Jv_Thread_t *prev = NULL;
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for (target = cv->first; target != NULL; target = target->next)
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{
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pthread_mutex_lock (&target->wait_mutex);
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pthread_cond_signal (&target->wait_cond);
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pthread_mutex_unlock (&target->wait_mutex);
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if (prev != NULL)
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prev->next = NULL;
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prev = target;
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}
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if (prev != NULL)
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prev->next = NULL;
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cv->first = NULL;
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return 0;
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}
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void
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_Jv_ThreadInterrupt (_Jv_Thread_t *data)
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{
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pthread_mutex_lock (&data->wait_mutex);
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// Set the thread's interrupted flag *after* aquiring its wait_mutex. This
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// ensures that there are no races with the interrupt flag being set after
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// the waiting thread checks it and before pthread_cond_wait is entered.
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data->thread_obj->interrupt_flag = true;
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// Interrupt blocking system calls using a signal.
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// pthread_kill (data->thread, INTR);
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pthread_cond_signal (&data->wait_cond);
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pthread_mutex_unlock (&data->wait_mutex);
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}
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static void
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handle_intr (int)
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{
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// Do nothing.
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}
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void
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_Jv_InitThreads (void)
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{
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pthread_key_create (&_Jv_ThreadKey, NULL);
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pthread_key_create (&_Jv_ThreadDataKey, NULL);
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pthread_mutex_init (&daemon_mutex, NULL);
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pthread_cond_init (&daemon_cond, 0);
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non_daemon_count = 0;
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// Arrange for the interrupt signal to interrupt system calls.
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struct sigaction act;
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act.sa_handler = handle_intr;
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sigemptyset (&act.sa_mask);
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act.sa_flags = 0;
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sigaction (INTR, &act, NULL);
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}
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_Jv_Thread_t *
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_Jv_ThreadInitData (java::lang::Thread *obj)
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{
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_Jv_Thread_t *data = (_Jv_Thread_t *) _Jv_Malloc (sizeof (_Jv_Thread_t));
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data->flags = 0;
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data->thread_obj = obj;
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pthread_mutex_init (&data->wait_mutex, NULL);
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pthread_cond_init (&data->wait_cond, NULL);
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return data;
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}
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void
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_Jv_ThreadDestroyData (_Jv_Thread_t *data)
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{
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pthread_mutex_destroy (&data->wait_mutex);
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pthread_cond_destroy (&data->wait_cond);
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_Jv_Free ((void *)data);
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}
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void
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_Jv_ThreadSetPriority (_Jv_Thread_t *data, jint prio)
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{
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if (data->flags & FLAG_START)
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{
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struct sched_param param;
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param.sched_priority = prio;
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pthread_setschedparam (data->thread, SCHED_RR, ¶m);
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}
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}
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// This function is called when a thread is started. We don't arrange
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// to call the `run' method directly, because this function must
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// return a value.
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static void *
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really_start (void *x)
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{
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struct starter *info = (struct starter *) x;
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pthread_setspecific (_Jv_ThreadKey, info->data->thread_obj);
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pthread_setspecific (_Jv_ThreadDataKey, info->data);
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// glibc 2.1.3 doesn't set the value of `thread' until after start_routine
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// is called. Since it may need to be accessed from the new thread, work
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// around the potential race here by explicitly setting it again.
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info->data->thread = pthread_self ();
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info->method (info->data->thread_obj);
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if (! (info->data->flags & FLAG_DAEMON))
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{
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pthread_mutex_lock (&daemon_mutex);
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--non_daemon_count;
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if (! non_daemon_count)
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pthread_cond_signal (&daemon_cond);
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pthread_mutex_unlock (&daemon_mutex);
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}
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return NULL;
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}
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void
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_Jv_ThreadStart (java::lang::Thread *thread, _Jv_Thread_t *data,
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_Jv_ThreadStartFunc *meth)
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{
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struct sched_param param;
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pthread_attr_t attr;
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struct starter *info;
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if (data->flags & FLAG_START)
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return;
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data->flags |= FLAG_START;
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param.sched_priority = thread->getPriority();
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pthread_attr_init (&attr);
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pthread_attr_setschedparam (&attr, ¶m);
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pthread_attr_setdetachstate (&attr, PTHREAD_CREATE_DETACHED);
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// FIXME: handle marking the info object for GC.
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info = (struct starter *) _Jv_AllocBytes (sizeof (struct starter));
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info->method = meth;
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info->data = data;
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if (! thread->isDaemon())
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{
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pthread_mutex_lock (&daemon_mutex);
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++non_daemon_count;
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pthread_mutex_unlock (&daemon_mutex);
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}
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else
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data->flags |= FLAG_DAEMON;
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int r = pthread_create (&data->thread, &attr, really_start, (void *) info);
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pthread_attr_destroy (&attr);
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if (r)
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{
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const char* msg = "Cannot create additional threads";
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throw new java::lang::OutOfMemoryError (JvNewStringUTF (msg));
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}
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}
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void
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_Jv_ThreadWait (void)
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{
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pthread_mutex_lock (&daemon_mutex);
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if (non_daemon_count)
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pthread_cond_wait (&daemon_cond, &daemon_mutex);
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pthread_mutex_unlock (&daemon_mutex);
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}
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