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6133b39f3c
The previous patch fixed a race condition, in which there were coroutines being executing doubly, or after coroutine deletion. We can detect common scenarios when this happens, and print an error message and abort before we corrupt memory / data, or segfault. This patch will abort if an attempt to enter a coroutine is made while it is currently pending execution, either in a specific AioContext bh, or pending execution via a timer. It will also abort if a coroutine is scheduled, before a prior scheduled run has occurred. We cannot rely on the existing co->caller check for recursive re-entry to catch this, as the coroutine may run and exit with COROUTINE_TERMINATE before the scheduled coroutine executes. (This is the scenario that was occurring and fixed in the previous patch). This patch also re-orders the Coroutine struct elements in an attempt to optimize caching. Signed-off-by: Jeff Cody <jcody@redhat.com> Reviewed-by: Stefan Hajnoczi <stefanha@redhat.com>
193 lines
5.1 KiB
C
193 lines
5.1 KiB
C
/*
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* QEMU coroutines
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*
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* Copyright IBM, Corp. 2011
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*
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* Authors:
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* Stefan Hajnoczi <stefanha@linux.vnet.ibm.com>
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* Kevin Wolf <kwolf@redhat.com>
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*
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* This work is licensed under the terms of the GNU LGPL, version 2 or later.
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* See the COPYING.LIB file in the top-level directory.
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*
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*/
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#include "qemu/osdep.h"
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#include "trace.h"
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#include "qemu-common.h"
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#include "qemu/thread.h"
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#include "qemu/atomic.h"
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#include "qemu/coroutine.h"
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#include "qemu/coroutine_int.h"
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#include "block/aio.h"
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enum {
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POOL_BATCH_SIZE = 64,
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};
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/** Free list to speed up creation */
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static QSLIST_HEAD(, Coroutine) release_pool = QSLIST_HEAD_INITIALIZER(pool);
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static unsigned int release_pool_size;
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static __thread QSLIST_HEAD(, Coroutine) alloc_pool = QSLIST_HEAD_INITIALIZER(pool);
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static __thread unsigned int alloc_pool_size;
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static __thread Notifier coroutine_pool_cleanup_notifier;
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static void coroutine_pool_cleanup(Notifier *n, void *value)
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{
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Coroutine *co;
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Coroutine *tmp;
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QSLIST_FOREACH_SAFE(co, &alloc_pool, pool_next, tmp) {
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QSLIST_REMOVE_HEAD(&alloc_pool, pool_next);
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qemu_coroutine_delete(co);
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}
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}
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Coroutine *qemu_coroutine_create(CoroutineEntry *entry, void *opaque)
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{
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Coroutine *co = NULL;
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if (CONFIG_COROUTINE_POOL) {
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co = QSLIST_FIRST(&alloc_pool);
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if (!co) {
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if (release_pool_size > POOL_BATCH_SIZE) {
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/* Slow path; a good place to register the destructor, too. */
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if (!coroutine_pool_cleanup_notifier.notify) {
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coroutine_pool_cleanup_notifier.notify = coroutine_pool_cleanup;
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qemu_thread_atexit_add(&coroutine_pool_cleanup_notifier);
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}
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/* This is not exact; there could be a little skew between
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* release_pool_size and the actual size of release_pool. But
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* it is just a heuristic, it does not need to be perfect.
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*/
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alloc_pool_size = atomic_xchg(&release_pool_size, 0);
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QSLIST_MOVE_ATOMIC(&alloc_pool, &release_pool);
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co = QSLIST_FIRST(&alloc_pool);
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}
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}
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if (co) {
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QSLIST_REMOVE_HEAD(&alloc_pool, pool_next);
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alloc_pool_size--;
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}
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}
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if (!co) {
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co = qemu_coroutine_new();
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}
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co->entry = entry;
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co->entry_arg = opaque;
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QSIMPLEQ_INIT(&co->co_queue_wakeup);
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return co;
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}
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static void coroutine_delete(Coroutine *co)
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{
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co->caller = NULL;
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if (CONFIG_COROUTINE_POOL) {
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if (release_pool_size < POOL_BATCH_SIZE * 2) {
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QSLIST_INSERT_HEAD_ATOMIC(&release_pool, co, pool_next);
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atomic_inc(&release_pool_size);
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return;
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}
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if (alloc_pool_size < POOL_BATCH_SIZE) {
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QSLIST_INSERT_HEAD(&alloc_pool, co, pool_next);
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alloc_pool_size++;
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return;
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}
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}
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qemu_coroutine_delete(co);
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}
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void qemu_aio_coroutine_enter(AioContext *ctx, Coroutine *co)
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{
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Coroutine *self = qemu_coroutine_self();
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CoroutineAction ret;
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/* Cannot rely on the read barrier for co in aio_co_wake(), as there are
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* callers outside of aio_co_wake() */
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const char *scheduled = atomic_mb_read(&co->scheduled);
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trace_qemu_aio_coroutine_enter(ctx, self, co, co->entry_arg);
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/* if the Coroutine has already been scheduled, entering it again will
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* cause us to enter it twice, potentially even after the coroutine has
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* been deleted */
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if (scheduled) {
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fprintf(stderr,
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"%s: Co-routine was already scheduled in '%s'\n",
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__func__, scheduled);
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abort();
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}
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if (co->caller) {
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fprintf(stderr, "Co-routine re-entered recursively\n");
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abort();
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}
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co->caller = self;
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co->ctx = ctx;
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/* Store co->ctx before anything that stores co. Matches
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* barrier in aio_co_wake and qemu_co_mutex_wake.
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*/
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smp_wmb();
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ret = qemu_coroutine_switch(self, co, COROUTINE_ENTER);
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qemu_co_queue_run_restart(co);
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/* Beware, if ret == COROUTINE_YIELD and qemu_co_queue_run_restart()
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* has started any other coroutine, "co" might have been reentered
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* and even freed by now! So be careful and do not touch it.
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*/
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switch (ret) {
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case COROUTINE_YIELD:
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return;
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case COROUTINE_TERMINATE:
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assert(!co->locks_held);
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trace_qemu_coroutine_terminate(co);
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coroutine_delete(co);
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return;
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default:
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abort();
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}
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}
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void qemu_coroutine_enter(Coroutine *co)
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{
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qemu_aio_coroutine_enter(qemu_get_current_aio_context(), co);
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}
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void qemu_coroutine_enter_if_inactive(Coroutine *co)
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{
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if (!qemu_coroutine_entered(co)) {
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qemu_coroutine_enter(co);
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}
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}
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void coroutine_fn qemu_coroutine_yield(void)
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{
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Coroutine *self = qemu_coroutine_self();
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Coroutine *to = self->caller;
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trace_qemu_coroutine_yield(self, to);
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if (!to) {
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fprintf(stderr, "Co-routine is yielding to no one\n");
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abort();
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}
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self->caller = NULL;
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qemu_coroutine_switch(self, to, COROUTINE_YIELD);
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}
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bool qemu_coroutine_entered(Coroutine *co)
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{
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return co->caller;
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}
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