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/* Copyright (C) 2012, 2013, 2014 Free Software Foundation, Inc.
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public License
* as published by the Free Software Foundation; either version 3 of
* the License, or (at your option) any later version.
*
* This library 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
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
* 02110-1301 USA
*/
#ifdef HAVE_CONFIG_H
# include <config.h>
#endif
#include <unistd.h>
#include <fcntl.h>
#include <full-write.h>
#include "libguile/bdw-gc.h"
#include "libguile/_scm.h"
#include "libguile/finalizers.h"
#include "libguile/gc.h"
#include "libguile/threads.h"
static int automatic_finalization_p = 1;
static size_t finalization_count;
static SCM run_finalizers_subr;
void
scm_i_set_finalizer (void *obj, scm_t_finalizer_proc proc, void *data)
{
GC_finalization_proc prev;
void *prev_data;
GC_REGISTER_FINALIZER_NO_ORDER (obj, proc, data, &prev, &prev_data);
}
struct scm_t_chained_finalizer
{
int resuscitating_p;
scm_t_finalizer_proc proc;
void *data;
scm_t_finalizer_proc prev;
void *prev_data;
};
static void
chained_finalizer (void *obj, void *data)
{
struct scm_t_chained_finalizer *chained_data = data;
if (chained_data->resuscitating_p)
{
if (chained_data->prev)
scm_i_set_finalizer (obj, chained_data->prev, chained_data->prev_data);
chained_data->proc (obj, chained_data->data);
}
else
{
chained_data->proc (obj, chained_data->data);
if (chained_data->prev)
chained_data->prev (obj, chained_data->prev_data);
}
}
void
scm_i_add_resuscitator (void *obj, scm_t_finalizer_proc proc, void *data)
{
struct scm_t_chained_finalizer *chained_data;
chained_data = scm_gc_malloc (sizeof (*chained_data), "chained finalizer");
chained_data->resuscitating_p = 1;
chained_data->proc = proc;
chained_data->data = data;
GC_REGISTER_FINALIZER_NO_ORDER (obj, chained_finalizer, chained_data,
&chained_data->prev,
&chained_data->prev_data);
}
static void
shuffle_resuscitators_to_front (struct scm_t_chained_finalizer *cd)
{
while (cd->prev == chained_finalizer)
{
struct scm_t_chained_finalizer *prev = cd->prev_data;
scm_t_finalizer_proc proc = cd->proc;
void *data = cd->data;
if (!prev->resuscitating_p)
break;
cd->resuscitating_p = 1;
cd->proc = prev->proc;
cd->data = prev->data;
prev->resuscitating_p = 0;
prev->proc = proc;
prev->data = data;
cd = prev;
}
}
void
scm_i_add_finalizer (void *obj, scm_t_finalizer_proc proc, void *data)
{
struct scm_t_chained_finalizer *chained_data;
chained_data = scm_gc_malloc (sizeof (*chained_data), "chained finalizer");
chained_data->resuscitating_p = 0;
chained_data->proc = proc;
chained_data->data = data;
GC_REGISTER_FINALIZER_NO_ORDER (obj, chained_finalizer, chained_data,
&chained_data->prev,
&chained_data->prev_data);
shuffle_resuscitators_to_front (chained_data);
}
static SCM
run_finalizers_async_thunk (void)
{
scm_run_finalizers ();
return SCM_UNSPECIFIED;
}
/* The function queue_finalizer_async is run by the GC when there are
* objects to finalize. It will enqueue an asynchronous call to
* GC_invoke_finalizers() at the next SCM_TICK in this thread.
*/
static void
queue_finalizer_async (void)
{
scm_i_thread *t = SCM_I_CURRENT_THREAD;
/* Could be that the current thread is is NULL when we're allocating
in threads.c:guilify_self_1. In that case, rely on the
GC_invoke_finalizers call there after the thread spins up. */
if (!t) return;
scm_system_async_mark_for_thread (run_finalizers_subr, t->handle);
}
#if SCM_USE_PTHREAD_THREADS
static int finalization_pipe[2];
static scm_i_pthread_mutex_t finalization_thread_lock =
SCM_I_PTHREAD_MUTEX_INITIALIZER;
static pthread_t finalization_thread;
static int finalization_thread_is_running = 0;
static void
notify_finalizers_to_run (void)
{
char byte = 0;
full_write (finalization_pipe[1], &byte, 1);
}
static void
notify_about_to_fork (void)
{
char byte = 1;
full_write (finalization_pipe[1], &byte, 1);
}
struct finalization_pipe_data
{
char byte;
ssize_t n;
int err;
};
static void*
read_finalization_pipe_data (void *data)
{
struct finalization_pipe_data *fdata = data;
fdata->n = read (finalization_pipe[0], &fdata->byte, 1);
fdata->err = errno;
return NULL;
}
static void*
finalization_thread_proc (void *unused)
{
while (1)
{
struct finalization_pipe_data data;
scm_without_guile (read_finalization_pipe_data, &data);
if (data.n <= 0 && data.err != EINTR)
{
perror ("error in finalization thread");
return NULL;
}
switch (data.byte)
{
case 0:
scm_run_finalizers ();
break;
case 1:
return NULL;
default:
abort ();
}
}
}
static void*
run_finalization_thread (void *arg)
{
return scm_with_guile (finalization_thread_proc, arg);
}
static void
start_finalization_thread (void)
{
scm_i_pthread_mutex_lock (&finalization_thread_lock);
if (!finalization_thread_is_running)
{
/* Use the raw pthread API and scm_with_guile, because we don't want
to block on any lock that scm_spawn_thread might want to take,
and we don't want to inherit the dynamic state (fluids) of the
caller. */
if (pthread_create (&finalization_thread, NULL,
run_finalization_thread, NULL))
perror ("error creating finalization thread");
else
finalization_thread_is_running = 1;
}
scm_i_pthread_mutex_unlock (&finalization_thread_lock);
}
static void
stop_finalization_thread (void)
{
scm_i_pthread_mutex_lock (&finalization_thread_lock);
if (finalization_thread_is_running)
{
notify_about_to_fork ();
if (pthread_join (finalization_thread, NULL))
perror ("joining finalization thread");
finalization_thread_is_running = 0;
}
scm_i_pthread_mutex_unlock (&finalization_thread_lock);
}
static void
spawn_finalizer_thread (void)
{
GC_set_finalizer_notifier (notify_finalizers_to_run);
start_finalization_thread ();
}
#endif /* SCM_USE_PTHREAD_THREADS */
void
scm_i_finalizer_pre_fork (void)
{
#if SCM_USE_PTHREAD_THREADS
if (automatic_finalization_p)
{
stop_finalization_thread ();
GC_set_finalizer_notifier (spawn_finalizer_thread);
}
#endif
}
static void
async_gc_finalizer (void *ptr, void *data)
{
void **obj = ptr;
void (*callback) (void) = obj[0];
callback ();
scm_i_set_finalizer (ptr, async_gc_finalizer, data);
}
/* Arrange to call CALLBACK asynchronously after each GC. The callback
will be invoked from a finalizer, which may be from an async or from
another thread.
As an implementation detail, the way this works is that we allocate a
fresh object and put the callback in the object. We know that this
object should get collected the next time GC is run, so we attach a
finalizer to it to trigger the callback.
Once the callback runs, we re-attach a finalizer to that fresh object
to prepare for the next GC, and the process repeats indefinitely.
We could use the scm_after_gc_hook, but using a finalizer has the
advantage of potentially running in another thread, decreasing pause
time.
Note that libgc currently has a heuristic that adding 500 finalizable
objects will cause GC to collect rather than expand the heap,
drastically reducing performance on workloads that actually need to
expand the heap. Therefore scm_i_register_async_gc_callback is
inappropriate for using on unbounded numbers of callbacks. */
void
scm_i_register_async_gc_callback (void (*callback) (void))
{
void **obj = GC_MALLOC_ATOMIC (sizeof (void*));
obj[0] = (void*)callback;
scm_i_set_finalizer (obj, async_gc_finalizer, NULL);
}
int
scm_set_automatic_finalization_enabled (int enabled_p)
{
int was_enabled_p = automatic_finalization_p;
if (enabled_p == was_enabled_p)
return was_enabled_p;
if (!scm_initialized_p)
{
automatic_finalization_p = enabled_p;
return was_enabled_p;
}
if (enabled_p)
{
#if SCM_USE_PTHREAD_THREADS
if (pipe2 (finalization_pipe, O_CLOEXEC) != 0)
scm_syserror (NULL);
GC_set_finalizer_notifier (spawn_finalizer_thread);
#else
GC_set_finalizer_notifier (queue_finalizer_async);
#endif
}
else
{
GC_set_finalizer_notifier (0);
#if SCM_USE_PTHREAD_THREADS
stop_finalization_thread ();
close (finalization_pipe[0]);
close (finalization_pipe[1]);
finalization_pipe[0] = -1;
finalization_pipe[1] = -1;
#endif
}
automatic_finalization_p = enabled_p;
return was_enabled_p;
}
int
scm_run_finalizers (void)
{
int finalized = GC_invoke_finalizers ();
finalization_count += finalized;
return finalized;
}
void
scm_init_finalizers (void)
{
/* When the async is to run, the cdr of the pair gets set to the
asyncs queue of the current thread. */
run_finalizers_subr = scm_c_make_gsubr ("%run-finalizers", 0, 0, 0,
run_finalizers_async_thunk);
if (automatic_finalization_p)
GC_set_finalizer_notifier (queue_finalizer_async);
}
void
scm_init_finalizer_thread (void)
{
#if SCM_USE_PTHREAD_THREADS
if (automatic_finalization_p)
{
if (pipe2 (finalization_pipe, O_CLOEXEC) != 0)
scm_syserror (NULL);
GC_set_finalizer_notifier (spawn_finalizer_thread);
}
#endif
}
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