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diff --git a/lib/isc/task.c b/lib/isc/task.c
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+/*
+ * Copyright (C) Internet Systems Consortium, Inc. ("ISC")
+ *
+ * SPDX-License-Identifier: MPL-2.0
+ *
+ * This Source Code Form is subject to the terms of the Mozilla Public
+ * License, v. 2.0. If a copy of the MPL was not distributed with this
+ * file, you can obtain one at https://mozilla.org/MPL/2.0/.
+ *
+ * See the COPYRIGHT file distributed with this work for additional
+ * information regarding copyright ownership.
+ */
+
+/*! \file */
+
+/*
+ * XXXRTH Need to document the states a task can be in, and the rules
+ * for changing states.
+ */
+
+#include <stdbool.h>
+#include <unistd.h>
+
+#include <isc/app.h>
+#include <isc/atomic.h>
+#include <isc/condition.h>
+#include <isc/event.h>
+#include <isc/log.h>
+#include <isc/magic.h>
+#include <isc/mem.h>
+#include <isc/once.h>
+#include <isc/print.h>
+#include <isc/random.h>
+#include <isc/refcount.h>
+#include <isc/string.h>
+#include <isc/task.h>
+#include <isc/thread.h>
+#include <isc/time.h>
+#include <isc/util.h>
+
+#ifdef HAVE_LIBXML2
+#include <libxml/xmlwriter.h>
+#define ISC_XMLCHAR (const xmlChar *)
+#endif /* HAVE_LIBXML2 */
+
+#ifdef HAVE_JSON_C
+#include <json_object.h>
+#endif /* HAVE_JSON_C */
+
+#include "task_p.h"
+
+/*
+ * Task manager is built around 'as little locking as possible' concept.
+ * Each thread has his own queue of tasks to be run, if a task is in running
+ * state it will stay on the runner it's currently on, if a task is in idle
+ * state it can be woken up on a specific runner with isc_task_sendto - that
+ * helps with data locality on CPU.
+ *
+ * To make load even some tasks (from task pools) are bound to specific
+ * queues using isc_task_create_bound. This way load balancing between
+ * CPUs/queues happens on the higher layer.
+ */
+
+#ifdef ISC_TASK_TRACE
+#define XTRACE(m) \
+ fprintf(stderr, "task %p thread %zu: %s\n", task, isc_tid_v, (m))
+#define XTTRACE(t, m) \
+ fprintf(stderr, "task %p thread %zu: %s\n", (t), isc_tid_v, (m))
+#define XTHREADTRACE(m) fprintf(stderr, "thread %zu: %s\n", isc_tid_v, (m))
+#else /* ifdef ISC_TASK_TRACE */
+#define XTRACE(m)
+#define XTTRACE(t, m)
+#define XTHREADTRACE(m)
+#endif /* ifdef ISC_TASK_TRACE */
+
+/***
+ *** Types.
+ ***/
+
+typedef enum {
+ task_state_idle, /* not doing anything, events queue empty */
+ task_state_ready, /* waiting in worker's queue */
+ task_state_running, /* actively processing events */
+ task_state_done /* shutting down, no events or references */
+} task_state_t;
+
+#if defined(HAVE_LIBXML2) || defined(HAVE_JSON_C)
+static const char *statenames[] = {
+ "idle",
+ "ready",
+ "running",
+ "done",
+};
+#endif /* if defined(HAVE_LIBXML2) || defined(HAVE_JSON_C) */
+
+#define TASK_MAGIC ISC_MAGIC('T', 'A', 'S', 'K')
+#define VALID_TASK(t) ISC_MAGIC_VALID(t, TASK_MAGIC)
+
+struct isc_task {
+ /* Not locked. */
+ unsigned int magic;
+ isc_taskmgr_t *manager;
+ isc_mutex_t lock;
+ /* Locked by task lock. */
+ int threadid;
+ task_state_t state;
+ isc_refcount_t references;
+ isc_refcount_t running;
+ isc_eventlist_t events;
+ isc_eventlist_t on_shutdown;
+ unsigned int nevents;
+ unsigned int quantum;
+ isc_stdtime_t now;
+ isc_time_t tnow;
+ char name[16];
+ void *tag;
+ bool bound;
+ /* Protected by atomics */
+ atomic_bool shuttingdown;
+ atomic_bool privileged;
+ /* Locked by task manager lock. */
+ LINK(isc_task_t) link;
+};
+
+#define TASK_SHUTTINGDOWN(t) (atomic_load_acquire(&(t)->shuttingdown))
+#define TASK_PRIVILEGED(t) (atomic_load_acquire(&(t)->privileged))
+
+#define TASK_MANAGER_MAGIC ISC_MAGIC('T', 'S', 'K', 'M')
+#define VALID_MANAGER(m) ISC_MAGIC_VALID(m, TASK_MANAGER_MAGIC)
+
+struct isc_taskmgr {
+ /* Not locked. */
+ unsigned int magic;
+ isc_refcount_t references;
+ isc_mem_t *mctx;
+ isc_mutex_t lock;
+ atomic_uint_fast32_t tasks_count;
+ isc_nm_t *netmgr;
+
+ /* Locked by task manager lock. */
+ unsigned int default_quantum;
+ LIST(isc_task_t) tasks;
+ atomic_uint_fast32_t mode;
+ atomic_bool exclusive_req;
+ bool exiting;
+ isc_task_t *excl;
+};
+
+#define DEFAULT_DEFAULT_QUANTUM 25
+
+/*%
+ * The following are intended for internal use (indicated by "isc__"
+ * prefix) but are not declared as static, allowing direct access from
+ * unit tests etc.
+ */
+
+bool
+isc_task_purgeevent(isc_task_t *task, isc_event_t *event);
+void
+isc_taskmgr_setexcltask(isc_taskmgr_t *mgr, isc_task_t *task);
+isc_result_t
+isc_taskmgr_excltask(isc_taskmgr_t *mgr, isc_task_t **taskp);
+
+/***
+ *** Tasks.
+ ***/
+
+static void
+task_finished(isc_task_t *task) {
+ isc_taskmgr_t *manager = task->manager;
+ isc_mem_t *mctx = manager->mctx;
+ REQUIRE(EMPTY(task->events));
+ REQUIRE(task->nevents == 0);
+ REQUIRE(EMPTY(task->on_shutdown));
+ REQUIRE(task->state == task_state_done);
+
+ XTRACE("task_finished");
+
+ isc_refcount_destroy(&task->running);
+ isc_refcount_destroy(&task->references);
+
+ LOCK(&manager->lock);
+ UNLINK(manager->tasks, task, link);
+ atomic_fetch_sub(&manager->tasks_count, 1);
+ UNLOCK(&manager->lock);
+
+ isc_mutex_destroy(&task->lock);
+ task->magic = 0;
+ isc_mem_put(mctx, task, sizeof(*task));
+
+ isc_taskmgr_detach(&manager);
+}
+
+isc_result_t
+isc_task_create(isc_taskmgr_t *manager, unsigned int quantum,
+ isc_task_t **taskp) {
+ return (isc_task_create_bound(manager, quantum, taskp, -1));
+}
+
+isc_result_t
+isc_task_create_bound(isc_taskmgr_t *manager, unsigned int quantum,
+ isc_task_t **taskp, int threadid) {
+ isc_task_t *task = NULL;
+ bool exiting;
+
+ REQUIRE(VALID_MANAGER(manager));
+ REQUIRE(taskp != NULL && *taskp == NULL);
+
+ XTRACE("isc_task_create");
+
+ task = isc_mem_get(manager->mctx, sizeof(*task));
+ *task = (isc_task_t){ 0 };
+
+ isc_taskmgr_attach(manager, &task->manager);
+
+ if (threadid == -1) {
+ /*
+ * Task is not pinned to a queue, it's threadid will be
+ * chosen when first task will be sent to it - either
+ * randomly or specified by isc_task_sendto.
+ */
+ task->bound = false;
+ task->threadid = -1;
+ } else {
+ /*
+ * Task is pinned to a queue, it'll always be run
+ * by a specific thread.
+ */
+ task->bound = true;
+ task->threadid = threadid;
+ }
+
+ isc_mutex_init(&task->lock);
+ task->state = task_state_idle;
+
+ isc_refcount_init(&task->references, 1);
+ isc_refcount_init(&task->running, 0);
+ INIT_LIST(task->events);
+ INIT_LIST(task->on_shutdown);
+ task->nevents = 0;
+ task->quantum = (quantum > 0) ? quantum : manager->default_quantum;
+ atomic_init(&task->shuttingdown, false);
+ atomic_init(&task->privileged, false);
+ task->now = 0;
+ isc_time_settoepoch(&task->tnow);
+ memset(task->name, 0, sizeof(task->name));
+ task->tag = NULL;
+ INIT_LINK(task, link);
+ task->magic = TASK_MAGIC;
+
+ LOCK(&manager->lock);
+ exiting = manager->exiting;
+ if (!exiting) {
+ APPEND(manager->tasks, task, link);
+ atomic_fetch_add(&manager->tasks_count, 1);
+ }
+ UNLOCK(&manager->lock);
+
+ if (exiting) {
+ isc_refcount_destroy(&task->running);
+ isc_refcount_decrement(&task->references);
+ isc_refcount_destroy(&task->references);
+ isc_mutex_destroy(&task->lock);
+ isc_taskmgr_detach(&task->manager);
+ isc_mem_put(manager->mctx, task, sizeof(*task));
+ return (ISC_R_SHUTTINGDOWN);
+ }
+
+ *taskp = task;
+
+ return (ISC_R_SUCCESS);
+}
+
+void
+isc_task_attach(isc_task_t *source, isc_task_t **targetp) {
+ /*
+ * Attach *targetp to source.
+ */
+
+ REQUIRE(VALID_TASK(source));
+ REQUIRE(targetp != NULL && *targetp == NULL);
+
+ XTTRACE(source, "isc_task_attach");
+
+ isc_refcount_increment(&source->references);
+
+ *targetp = source;
+}
+
+static bool
+task_shutdown(isc_task_t *task) {
+ bool was_idle = false;
+ isc_event_t *event, *prev;
+
+ /*
+ * Caller must be holding the task's lock.
+ */
+
+ XTRACE("task_shutdown");
+
+ if (atomic_compare_exchange_strong(&task->shuttingdown,
+ &(bool){ false }, true))
+ {
+ XTRACE("shutting down");
+ if (task->state == task_state_idle) {
+ INSIST(EMPTY(task->events));
+ task->state = task_state_ready;
+ was_idle = true;
+ }
+ INSIST(task->state == task_state_ready ||
+ task->state == task_state_running);
+
+ /*
+ * Note that we post shutdown events LIFO.
+ */
+ for (event = TAIL(task->on_shutdown); event != NULL;
+ event = prev)
+ {
+ prev = PREV(event, ev_link);
+ DEQUEUE(task->on_shutdown, event, ev_link);
+ ENQUEUE(task->events, event, ev_link);
+ task->nevents++;
+ }
+ }
+
+ return (was_idle);
+}
+
+/*
+ * Moves a task onto the appropriate run queue.
+ *
+ * Caller must NOT hold queue lock.
+ */
+static void
+task_ready(isc_task_t *task) {
+ isc_taskmgr_t *manager = task->manager;
+ REQUIRE(VALID_MANAGER(manager));
+
+ XTRACE("task_ready");
+
+ isc_refcount_increment0(&task->running);
+ LOCK(&task->lock);
+ isc_nm_task_enqueue(manager->netmgr, task, task->threadid);
+ UNLOCK(&task->lock);
+}
+
+void
+isc_task_ready(isc_task_t *task) {
+ task_ready(task);
+}
+
+static bool
+task_detach(isc_task_t *task) {
+ /*
+ * Caller must be holding the task lock.
+ */
+
+ XTRACE("detach");
+
+ if (isc_refcount_decrement(&task->references) == 1 &&
+ task->state == task_state_idle)
+ {
+ INSIST(EMPTY(task->events));
+ /*
+ * There are no references to this task, and no
+ * pending events. We could try to optimize and
+ * either initiate shutdown or clean up the task,
+ * depending on its state, but it's easier to just
+ * make the task ready and allow run() or the event
+ * loop to deal with shutting down and termination.
+ */
+ task->state = task_state_ready;
+ return (true);
+ }
+
+ return (false);
+}
+
+void
+isc_task_detach(isc_task_t **taskp) {
+ isc_task_t *task;
+ bool was_idle;
+
+ /*
+ * Detach *taskp from its task.
+ */
+
+ REQUIRE(taskp != NULL);
+ task = *taskp;
+ REQUIRE(VALID_TASK(task));
+
+ XTRACE("isc_task_detach");
+
+ LOCK(&task->lock);
+ was_idle = task_detach(task);
+ UNLOCK(&task->lock);
+
+ if (was_idle) {
+ task_ready(task);
+ }
+
+ *taskp = NULL;
+}
+
+static bool
+task_send(isc_task_t *task, isc_event_t **eventp, int c) {
+ bool was_idle = false;
+ isc_event_t *event;
+
+ /*
+ * Caller must be holding the task lock.
+ */
+
+ REQUIRE(eventp != NULL);
+ event = *eventp;
+ *eventp = NULL;
+ REQUIRE(event != NULL);
+ REQUIRE(event->ev_type > 0);
+ REQUIRE(task->state != task_state_done);
+ REQUIRE(!ISC_LINK_LINKED(event, ev_ratelink));
+
+ XTRACE("task_send");
+
+ if (task->bound) {
+ c = task->threadid;
+ } else if (c < 0) {
+ c = -1;
+ }
+
+ if (task->state == task_state_idle) {
+ was_idle = true;
+ task->threadid = c;
+ INSIST(EMPTY(task->events));
+ task->state = task_state_ready;
+ }
+ INSIST(task->state == task_state_ready ||
+ task->state == task_state_running);
+ ENQUEUE(task->events, event, ev_link);
+ task->nevents++;
+
+ return (was_idle);
+}
+
+void
+isc_task_send(isc_task_t *task, isc_event_t **eventp) {
+ isc_task_sendto(task, eventp, -1);
+}
+
+void
+isc_task_sendanddetach(isc_task_t **taskp, isc_event_t **eventp) {
+ isc_task_sendtoanddetach(taskp, eventp, -1);
+}
+
+void
+isc_task_sendto(isc_task_t *task, isc_event_t **eventp, int c) {
+ bool was_idle;
+
+ /*
+ * Send '*event' to 'task'.
+ */
+
+ REQUIRE(VALID_TASK(task));
+ XTRACE("isc_task_send");
+
+ /*
+ * We're trying hard to hold locks for as short a time as possible.
+ * We're also trying to hold as few locks as possible. This is why
+ * some processing is deferred until after the lock is released.
+ */
+ LOCK(&task->lock);
+ was_idle = task_send(task, eventp, c);
+ UNLOCK(&task->lock);
+
+ if (was_idle) {
+ /*
+ * We need to add this task to the ready queue.
+ *
+ * We've waited until now to do it because making a task
+ * ready requires locking the manager. If we tried to do
+ * this while holding the task lock, we could deadlock.
+ *
+ * We've changed the state to ready, so no one else will
+ * be trying to add this task to the ready queue. The
+ * only way to leave the ready state is by executing the
+ * task. It thus doesn't matter if events are added,
+ * removed, or a shutdown is started in the interval
+ * between the time we released the task lock, and the time
+ * we add the task to the ready queue.
+ */
+ task_ready(task);
+ }
+}
+
+void
+isc_task_sendtoanddetach(isc_task_t **taskp, isc_event_t **eventp, int c) {
+ bool idle1, idle2;
+ isc_task_t *task;
+
+ /*
+ * Send '*event' to '*taskp' and then detach '*taskp' from its
+ * task.
+ */
+
+ REQUIRE(taskp != NULL);
+ task = *taskp;
+ REQUIRE(VALID_TASK(task));
+ XTRACE("isc_task_sendanddetach");
+
+ LOCK(&task->lock);
+ idle1 = task_send(task, eventp, c);
+ idle2 = task_detach(task);
+ UNLOCK(&task->lock);
+
+ /*
+ * If idle1, then idle2 shouldn't be true as well since we're holding
+ * the task lock, and thus the task cannot switch from ready back to
+ * idle.
+ */
+ INSIST(!(idle1 && idle2));
+
+ if (idle1 || idle2) {
+ task_ready(task);
+ }
+
+ *taskp = NULL;
+}
+
+#define PURGE_OK(event) (((event)->ev_attributes & ISC_EVENTATTR_NOPURGE) == 0)
+
+static unsigned int
+dequeue_events(isc_task_t *task, void *sender, isc_eventtype_t first,
+ isc_eventtype_t last, void *tag, isc_eventlist_t *events,
+ bool purging) {
+ isc_event_t *event, *next_event;
+ unsigned int count = 0;
+
+ REQUIRE(VALID_TASK(task));
+ REQUIRE(last >= first);
+
+ XTRACE("dequeue_events");
+
+ /*
+ * Events matching 'sender', whose type is >= first and <= last, and
+ * whose tag is 'tag' will be dequeued. If 'purging', matching events
+ * which are marked as unpurgable will not be dequeued.
+ *
+ * sender == NULL means "any sender", and tag == NULL means "any tag".
+ */
+
+ LOCK(&task->lock);
+
+ for (event = HEAD(task->events); event != NULL; event = next_event) {
+ next_event = NEXT(event, ev_link);
+ if (event->ev_type >= first && event->ev_type <= last &&
+ (sender == NULL || event->ev_sender == sender) &&
+ (tag == NULL || event->ev_tag == tag) &&
+ (!purging || PURGE_OK(event)))
+ {
+ DEQUEUE(task->events, event, ev_link);
+ task->nevents--;
+ ENQUEUE(*events, event, ev_link);
+ count++;
+ }
+ }
+
+ UNLOCK(&task->lock);
+
+ return (count);
+}
+
+unsigned int
+isc_task_purgerange(isc_task_t *task, void *sender, isc_eventtype_t first,
+ isc_eventtype_t last, void *tag) {
+ unsigned int count;
+ isc_eventlist_t events;
+ isc_event_t *event, *next_event;
+ REQUIRE(VALID_TASK(task));
+
+ /*
+ * Purge events from a task's event queue.
+ */
+
+ XTRACE("isc_task_purgerange");
+
+ ISC_LIST_INIT(events);
+
+ count = dequeue_events(task, sender, first, last, tag, &events, true);
+
+ for (event = HEAD(events); event != NULL; event = next_event) {
+ next_event = NEXT(event, ev_link);
+ ISC_LIST_UNLINK(events, event, ev_link);
+ isc_event_free(&event);
+ }
+
+ /*
+ * Note that purging never changes the state of the task.
+ */
+
+ return (count);
+}
+
+unsigned int
+isc_task_purge(isc_task_t *task, void *sender, isc_eventtype_t type,
+ void *tag) {
+ /*
+ * Purge events from a task's event queue.
+ */
+ REQUIRE(VALID_TASK(task));
+
+ XTRACE("isc_task_purge");
+
+ return (isc_task_purgerange(task, sender, type, type, tag));
+}
+
+bool
+isc_task_purgeevent(isc_task_t *task, isc_event_t *event) {
+ bool found = false;
+
+ /*
+ * Purge 'event' from a task's event queue.
+ */
+
+ REQUIRE(VALID_TASK(task));
+
+ /*
+ * If 'event' is on the task's event queue, it will be purged,
+ * unless it is marked as unpurgeable. 'event' does not have to be
+ * on the task's event queue; in fact, it can even be an invalid
+ * pointer. Purging only occurs if the event is actually on the task's
+ * event queue.
+ *
+ * Purging never changes the state of the task.
+ */
+
+ LOCK(&task->lock);
+ if (ISC_LINK_LINKED(event, ev_link)) {
+ DEQUEUE(task->events, event, ev_link);
+ task->nevents--;
+ found = true;
+ }
+ UNLOCK(&task->lock);
+
+ if (!found) {
+ return (false);
+ }
+
+ isc_event_free(&event);
+
+ return (true);
+}
+
+unsigned int
+isc_task_unsend(isc_task_t *task, void *sender, isc_eventtype_t type, void *tag,
+ isc_eventlist_t *events) {
+ /*
+ * Remove events from a task's event queue.
+ */
+
+ XTRACE("isc_task_unsend");
+
+ return (dequeue_events(task, sender, type, type, tag, events, false));
+}
+
+isc_result_t
+isc_task_onshutdown(isc_task_t *task, isc_taskaction_t action, void *arg) {
+ bool disallowed = false;
+ isc_result_t result = ISC_R_SUCCESS;
+ isc_event_t *event;
+
+ /*
+ * Send a shutdown event with action 'action' and argument 'arg' when
+ * 'task' is shutdown.
+ */
+
+ REQUIRE(VALID_TASK(task));
+ REQUIRE(action != NULL);
+
+ event = isc_event_allocate(task->manager->mctx, NULL,
+ ISC_TASKEVENT_SHUTDOWN, action, arg,
+ sizeof(*event));
+
+ if (TASK_SHUTTINGDOWN(task)) {
+ disallowed = true;
+ result = ISC_R_SHUTTINGDOWN;
+ } else {
+ LOCK(&task->lock);
+ ENQUEUE(task->on_shutdown, event, ev_link);
+ UNLOCK(&task->lock);
+ }
+
+ if (disallowed) {
+ isc_mem_put(task->manager->mctx, event, sizeof(*event));
+ }
+
+ return (result);
+}
+
+void
+isc_task_shutdown(isc_task_t *task) {
+ bool was_idle;
+
+ /*
+ * Shutdown 'task'.
+ */
+
+ REQUIRE(VALID_TASK(task));
+
+ LOCK(&task->lock);
+ was_idle = task_shutdown(task);
+ UNLOCK(&task->lock);
+
+ if (was_idle) {
+ task_ready(task);
+ }
+}
+
+void
+isc_task_destroy(isc_task_t **taskp) {
+ /*
+ * Destroy '*taskp'.
+ */
+
+ REQUIRE(taskp != NULL);
+
+ isc_task_shutdown(*taskp);
+ isc_task_detach(taskp);
+}
+
+void
+isc_task_setname(isc_task_t *task, const char *name, void *tag) {
+ /*
+ * Name 'task'.
+ */
+
+ REQUIRE(VALID_TASK(task));
+
+ LOCK(&task->lock);
+ strlcpy(task->name, name, sizeof(task->name));
+ task->tag = tag;
+ UNLOCK(&task->lock);
+}
+
+const char *
+isc_task_getname(isc_task_t *task) {
+ REQUIRE(VALID_TASK(task));
+
+ return (task->name);
+}
+
+void *
+isc_task_gettag(isc_task_t *task) {
+ REQUIRE(VALID_TASK(task));
+
+ return (task->tag);
+}
+
+isc_nm_t *
+isc_task_getnetmgr(isc_task_t *task) {
+ REQUIRE(VALID_TASK(task));
+
+ return (task->manager->netmgr);
+}
+
+void
+isc_task_setquantum(isc_task_t *task, unsigned int quantum) {
+ REQUIRE(VALID_TASK(task));
+
+ LOCK(&task->lock);
+ task->quantum = (quantum > 0) ? quantum
+ : task->manager->default_quantum;
+ UNLOCK(&task->lock);
+}
+
+/***
+ *** Task Manager.
+ ***/
+
+static isc_result_t
+task_run(isc_task_t *task) {
+ unsigned int dispatch_count = 0;
+ bool finished = false;
+ isc_event_t *event = NULL;
+ isc_result_t result = ISC_R_SUCCESS;
+ uint32_t quantum;
+
+ REQUIRE(VALID_TASK(task));
+
+ LOCK(&task->lock);
+ quantum = task->quantum;
+
+ if (task->state != task_state_ready) {
+ goto done;
+ }
+
+ INSIST(task->state == task_state_ready);
+ task->state = task_state_running;
+ XTRACE("running");
+ XTRACE(task->name);
+ TIME_NOW(&task->tnow);
+ task->now = isc_time_seconds(&task->tnow);
+
+ while (true) {
+ if (!EMPTY(task->events)) {
+ event = HEAD(task->events);
+ DEQUEUE(task->events, event, ev_link);
+ task->nevents--;
+
+ /*
+ * Execute the event action.
+ */
+ XTRACE("execute action");
+ XTRACE(task->name);
+ if (event->ev_action != NULL) {
+ UNLOCK(&task->lock);
+ (event->ev_action)(task, event);
+ LOCK(&task->lock);
+ }
+ XTRACE("execution complete");
+ dispatch_count++;
+ }
+
+ if (isc_refcount_current(&task->references) == 0 &&
+ EMPTY(task->events) && !TASK_SHUTTINGDOWN(task))
+ {
+ /*
+ * There are no references and no pending events for
+ * this task, which means it will not become runnable
+ * again via an external action (such as sending an
+ * event or detaching).
+ *
+ * We initiate shutdown to prevent it from becoming a
+ * zombie.
+ *
+ * We do this here instead of in the "if
+ * EMPTY(task->events)" block below because:
+ *
+ * If we post no shutdown events, we want the task
+ * to finish.
+ *
+ * If we did post shutdown events, will still want
+ * the task's quantum to be applied.
+ */
+ INSIST(!task_shutdown(task));
+ }
+
+ if (EMPTY(task->events)) {
+ /*
+ * Nothing else to do for this task right now.
+ */
+ XTRACE("empty");
+ if (isc_refcount_current(&task->references) == 0 &&
+ TASK_SHUTTINGDOWN(task))
+ {
+ /*
+ * The task is done.
+ */
+ XTRACE("done");
+ task->state = task_state_done;
+ } else if (task->state == task_state_running) {
+ XTRACE("idling");
+ task->state = task_state_idle;
+ }
+ break;
+ } else if (dispatch_count >= quantum) {
+ /*
+ * Our quantum has expired, but there is more work to be
+ * done. We'll requeue it to the ready queue later.
+ *
+ * We don't check quantum until dispatching at least one
+ * event, so the minimum quantum is one.
+ */
+ XTRACE("quantum");
+ task->state = task_state_ready;
+ result = ISC_R_QUOTA;
+ break;
+ }
+ }
+
+done:
+ if (isc_refcount_decrement(&task->running) == 1 &&
+ task->state == task_state_done)
+ {
+ finished = true;
+ }
+ UNLOCK(&task->lock);
+
+ if (finished) {
+ task_finished(task);
+ }
+
+ return (result);
+}
+
+isc_result_t
+isc_task_run(isc_task_t *task) {
+ return (task_run(task));
+}
+
+static void
+manager_free(isc_taskmgr_t *manager) {
+ isc_refcount_destroy(&manager->references);
+ isc_nm_detach(&manager->netmgr);
+
+ isc_mutex_destroy(&manager->lock);
+ manager->magic = 0;
+ isc_mem_putanddetach(&manager->mctx, manager, sizeof(*manager));
+}
+
+void
+isc_taskmgr_attach(isc_taskmgr_t *source, isc_taskmgr_t **targetp) {
+ REQUIRE(VALID_MANAGER(source));
+ REQUIRE(targetp != NULL && *targetp == NULL);
+
+ isc_refcount_increment(&source->references);
+
+ *targetp = source;
+}
+
+void
+isc_taskmgr_detach(isc_taskmgr_t **managerp) {
+ REQUIRE(managerp != NULL);
+ REQUIRE(VALID_MANAGER(*managerp));
+
+ isc_taskmgr_t *manager = *managerp;
+ *managerp = NULL;
+
+ if (isc_refcount_decrement(&manager->references) == 1) {
+ manager_free(manager);
+ }
+}
+
+isc_result_t
+isc__taskmgr_create(isc_mem_t *mctx, unsigned int default_quantum, isc_nm_t *nm,
+ isc_taskmgr_t **managerp) {
+ isc_taskmgr_t *manager;
+
+ /*
+ * Create a new task manager.
+ */
+
+ REQUIRE(managerp != NULL && *managerp == NULL);
+ REQUIRE(nm != NULL);
+
+ manager = isc_mem_get(mctx, sizeof(*manager));
+ *manager = (isc_taskmgr_t){ .magic = TASK_MANAGER_MAGIC };
+
+ isc_mutex_init(&manager->lock);
+
+ if (default_quantum == 0) {
+ default_quantum = DEFAULT_DEFAULT_QUANTUM;
+ }
+ manager->default_quantum = default_quantum;
+
+ if (nm != NULL) {
+ isc_nm_attach(nm, &manager->netmgr);
+ }
+
+ INIT_LIST(manager->tasks);
+ atomic_init(&manager->mode, isc_taskmgrmode_normal);
+ atomic_init(&manager->exclusive_req, false);
+ atomic_init(&manager->tasks_count, 0);
+
+ isc_mem_attach(mctx, &manager->mctx);
+
+ isc_refcount_init(&manager->references, 1);
+
+ *managerp = manager;
+
+ return (ISC_R_SUCCESS);
+}
+
+void
+isc__taskmgr_shutdown(isc_taskmgr_t *manager) {
+ isc_task_t *task;
+
+ REQUIRE(VALID_MANAGER(manager));
+
+ XTHREADTRACE("isc_taskmgr_shutdown");
+ /*
+ * Only one non-worker thread may ever call this routine.
+ * If a worker thread wants to initiate shutdown of the
+ * task manager, it should ask some non-worker thread to call
+ * isc_taskmgr_destroy(), e.g. by signalling a condition variable
+ * that the startup thread is sleeping on.
+ */
+
+ /*
+ * Unlike elsewhere, we're going to hold this lock a long time.
+ * We need to do so, because otherwise the list of tasks could
+ * change while we were traversing it.
+ *
+ * This is also the only function where we will hold both the
+ * task manager lock and a task lock at the same time.
+ */
+ LOCK(&manager->lock);
+ if (manager->excl != NULL) {
+ isc_task_detach((isc_task_t **)&manager->excl);
+ }
+
+ /*
+ * Make sure we only get called once.
+ */
+ INSIST(manager->exiting == false);
+ manager->exiting = true;
+
+ /*
+ * Post shutdown event(s) to every task (if they haven't already been
+ * posted).
+ */
+ for (task = HEAD(manager->tasks); task != NULL; task = NEXT(task, link))
+ {
+ bool was_idle;
+
+ LOCK(&task->lock);
+ was_idle = task_shutdown(task);
+ UNLOCK(&task->lock);
+
+ if (was_idle) {
+ task_ready(task);
+ }
+ }
+
+ UNLOCK(&manager->lock);
+}
+
+void
+isc__taskmgr_destroy(isc_taskmgr_t **managerp) {
+ REQUIRE(managerp != NULL && VALID_MANAGER(*managerp));
+ XTHREADTRACE("isc_taskmgr_destroy");
+
+#ifdef ISC_TASK_TRACE
+ int counter = 0;
+ while (isc_refcount_current(&(*managerp)->references) > 1 &&
+ counter++ < 1000)
+ {
+ usleep(10 * 1000);
+ }
+ INSIST(counter < 1000);
+#else
+ while (isc_refcount_current(&(*managerp)->references) > 1) {
+ usleep(10 * 1000);
+ }
+#endif
+
+ isc_taskmgr_detach(managerp);
+}
+
+void
+isc_taskmgr_setexcltask(isc_taskmgr_t *mgr, isc_task_t *task) {
+ REQUIRE(VALID_MANAGER(mgr));
+ REQUIRE(VALID_TASK(task));
+
+ LOCK(&task->lock);
+ REQUIRE(task->threadid == 0);
+ UNLOCK(&task->lock);
+
+ LOCK(&mgr->lock);
+ if (mgr->excl != NULL) {
+ isc_task_detach(&mgr->excl);
+ }
+ isc_task_attach(task, &mgr->excl);
+ UNLOCK(&mgr->lock);
+}
+
+isc_result_t
+isc_taskmgr_excltask(isc_taskmgr_t *mgr, isc_task_t **taskp) {
+ isc_result_t result;
+
+ REQUIRE(VALID_MANAGER(mgr));
+ REQUIRE(taskp != NULL && *taskp == NULL);
+
+ LOCK(&mgr->lock);
+ if (mgr->excl != NULL) {
+ isc_task_attach(mgr->excl, taskp);
+ result = ISC_R_SUCCESS;
+ } else if (mgr->exiting) {
+ result = ISC_R_SHUTTINGDOWN;
+ } else {
+ result = ISC_R_NOTFOUND;
+ }
+ UNLOCK(&mgr->lock);
+
+ return (result);
+}
+
+isc_result_t
+isc_task_beginexclusive(isc_task_t *task) {
+ isc_taskmgr_t *manager;
+
+ REQUIRE(VALID_TASK(task));
+
+ manager = task->manager;
+
+ REQUIRE(task->state == task_state_running);
+
+ LOCK(&manager->lock);
+ REQUIRE(task == manager->excl ||
+ (manager->exiting && manager->excl == NULL));
+ UNLOCK(&manager->lock);
+
+ if (!atomic_compare_exchange_strong(&manager->exclusive_req,
+ &(bool){ false }, true))
+ {
+ return (ISC_R_LOCKBUSY);
+ }
+
+ if (isc_log_wouldlog(isc_lctx, ISC_LOG_DEBUG(1))) {
+ isc_log_write(isc_lctx, ISC_LOGCATEGORY_GENERAL,
+ ISC_LOGMODULE_OTHER, ISC_LOG_DEBUG(1),
+ "exclusive task mode: %s", "starting");
+ }
+
+ isc_nm_pause(manager->netmgr);
+
+ if (isc_log_wouldlog(isc_lctx, ISC_LOG_DEBUG(1))) {
+ isc_log_write(isc_lctx, ISC_LOGCATEGORY_GENERAL,
+ ISC_LOGMODULE_OTHER, ISC_LOG_DEBUG(1),
+ "exclusive task mode: %s", "started");
+ }
+
+ return (ISC_R_SUCCESS);
+}
+
+void
+isc_task_endexclusive(isc_task_t *task) {
+ isc_taskmgr_t *manager = NULL;
+
+ REQUIRE(VALID_TASK(task));
+ REQUIRE(task->state == task_state_running);
+
+ manager = task->manager;
+
+ if (isc_log_wouldlog(isc_lctx, ISC_LOG_DEBUG(1))) {
+ isc_log_write(isc_lctx, ISC_LOGCATEGORY_GENERAL,
+ ISC_LOGMODULE_OTHER, ISC_LOG_DEBUG(1),
+ "exclusive task mode: %s", "ending");
+ }
+
+ isc_nm_resume(manager->netmgr);
+
+ if (isc_log_wouldlog(isc_lctx, ISC_LOG_DEBUG(1))) {
+ isc_log_write(isc_lctx, ISC_LOGCATEGORY_GENERAL,
+ ISC_LOGMODULE_OTHER, ISC_LOG_DEBUG(1),
+ "exclusive task mode: %s", "ended");
+ }
+
+ atomic_compare_exchange_enforced(&manager->exclusive_req,
+ &(bool){ true }, false);
+}
+
+void
+isc_taskmgr_setmode(isc_taskmgr_t *manager, isc_taskmgrmode_t mode) {
+ atomic_store(&manager->mode, mode);
+}
+
+isc_taskmgrmode_t
+isc_taskmgr_mode(isc_taskmgr_t *manager) {
+ return (atomic_load(&manager->mode));
+}
+
+void
+isc_task_setprivilege(isc_task_t *task, bool priv) {
+ REQUIRE(VALID_TASK(task));
+
+ atomic_store_release(&task->privileged, priv);
+}
+
+bool
+isc_task_getprivilege(isc_task_t *task) {
+ REQUIRE(VALID_TASK(task));
+
+ return (TASK_PRIVILEGED(task));
+}
+
+bool
+isc_task_privileged(isc_task_t *task) {
+ REQUIRE(VALID_TASK(task));
+
+ return (isc_taskmgr_mode(task->manager) && TASK_PRIVILEGED(task));
+}
+
+bool
+isc_task_exiting(isc_task_t *task) {
+ REQUIRE(VALID_TASK(task));
+
+ return (TASK_SHUTTINGDOWN(task));
+}
+
+#ifdef HAVE_LIBXML2
+#define TRY0(a) \
+ do { \
+ xmlrc = (a); \
+ if (xmlrc < 0) \
+ goto error; \
+ } while (0)
+int
+isc_taskmgr_renderxml(isc_taskmgr_t *mgr, void *writer0) {
+ isc_task_t *task = NULL;
+ int xmlrc;
+ xmlTextWriterPtr writer = (xmlTextWriterPtr)writer0;
+
+ LOCK(&mgr->lock);
+
+ /*
+ * Write out the thread-model, and some details about each depending
+ * on which type is enabled.
+ */
+ TRY0(xmlTextWriterStartElement(writer, ISC_XMLCHAR "thread-model"));
+ TRY0(xmlTextWriterStartElement(writer, ISC_XMLCHAR "type"));
+ TRY0(xmlTextWriterWriteString(writer, ISC_XMLCHAR "threaded"));
+ TRY0(xmlTextWriterEndElement(writer)); /* type */
+
+ TRY0(xmlTextWriterStartElement(writer, ISC_XMLCHAR "default-quantum"));
+ TRY0(xmlTextWriterWriteFormatString(writer, "%d",
+ mgr->default_quantum));
+ TRY0(xmlTextWriterEndElement(writer)); /* default-quantum */
+
+ TRY0(xmlTextWriterEndElement(writer)); /* thread-model */
+
+ TRY0(xmlTextWriterStartElement(writer, ISC_XMLCHAR "tasks"));
+ task = ISC_LIST_HEAD(mgr->tasks);
+ while (task != NULL) {
+ LOCK(&task->lock);
+ TRY0(xmlTextWriterStartElement(writer, ISC_XMLCHAR "task"));
+
+ if (task->name[0] != 0) {
+ TRY0(xmlTextWriterStartElement(writer,
+ ISC_XMLCHAR "name"));
+ TRY0(xmlTextWriterWriteFormatString(writer, "%s",
+ task->name));
+ TRY0(xmlTextWriterEndElement(writer)); /* name */
+ }
+
+ TRY0(xmlTextWriterStartElement(writer, ISC_XMLCHAR "reference"
+ "s"));
+ TRY0(xmlTextWriterWriteFormatString(
+ writer, "%" PRIuFAST32,
+ isc_refcount_current(&task->references)));
+ TRY0(xmlTextWriterEndElement(writer)); /* references */
+
+ TRY0(xmlTextWriterStartElement(writer, ISC_XMLCHAR "id"));
+ TRY0(xmlTextWriterWriteFormatString(writer, "%p", task));
+ TRY0(xmlTextWriterEndElement(writer)); /* id */
+
+ TRY0(xmlTextWriterStartElement(writer, ISC_XMLCHAR "state"));
+ TRY0(xmlTextWriterWriteFormatString(writer, "%s",
+ statenames[task->state]));
+ TRY0(xmlTextWriterEndElement(writer)); /* state */
+
+ TRY0(xmlTextWriterStartElement(writer, ISC_XMLCHAR "quantum"));
+ TRY0(xmlTextWriterWriteFormatString(writer, "%d",
+ task->quantum));
+ TRY0(xmlTextWriterEndElement(writer)); /* quantum */
+
+ TRY0(xmlTextWriterStartElement(writer, ISC_XMLCHAR "events"));
+ TRY0(xmlTextWriterWriteFormatString(writer, "%d",
+ task->nevents));
+ TRY0(xmlTextWriterEndElement(writer)); /* events */
+
+ TRY0(xmlTextWriterEndElement(writer));
+
+ UNLOCK(&task->lock);
+ task = ISC_LIST_NEXT(task, link);
+ }
+ TRY0(xmlTextWriterEndElement(writer)); /* tasks */
+
+error:
+ if (task != NULL) {
+ UNLOCK(&task->lock);
+ }
+ UNLOCK(&mgr->lock);
+
+ return (xmlrc);
+}
+#endif /* HAVE_LIBXML2 */
+
+#ifdef HAVE_JSON_C
+#define CHECKMEM(m) \
+ do { \
+ if (m == NULL) { \
+ result = ISC_R_NOMEMORY; \
+ goto error; \
+ } \
+ } while (0)
+
+isc_result_t
+isc_taskmgr_renderjson(isc_taskmgr_t *mgr, void *tasks0) {
+ isc_result_t result = ISC_R_SUCCESS;
+ isc_task_t *task = NULL;
+ json_object *obj = NULL, *array = NULL, *taskobj = NULL;
+ json_object *tasks = (json_object *)tasks0;
+
+ LOCK(&mgr->lock);
+
+ /*
+ * Write out the thread-model, and some details about each depending
+ * on which type is enabled.
+ */
+ obj = json_object_new_string("threaded");
+ CHECKMEM(obj);
+ json_object_object_add(tasks, "thread-model", obj);
+
+ obj = json_object_new_int(mgr->default_quantum);
+ CHECKMEM(obj);
+ json_object_object_add(tasks, "default-quantum", obj);
+
+ array = json_object_new_array();
+ CHECKMEM(array);
+
+ for (task = ISC_LIST_HEAD(mgr->tasks); task != NULL;
+ task = ISC_LIST_NEXT(task, link))
+ {
+ char buf[255];
+
+ LOCK(&task->lock);
+
+ taskobj = json_object_new_object();
+ CHECKMEM(taskobj);
+ json_object_array_add(array, taskobj);
+
+ snprintf(buf, sizeof(buf), "%p", task);
+ obj = json_object_new_string(buf);
+ CHECKMEM(obj);
+ json_object_object_add(taskobj, "id", obj);
+
+ if (task->name[0] != 0) {
+ obj = json_object_new_string(task->name);
+ CHECKMEM(obj);
+ json_object_object_add(taskobj, "name", obj);
+ }
+
+ obj = json_object_new_int(
+ isc_refcount_current(&task->references));
+ CHECKMEM(obj);
+ json_object_object_add(taskobj, "references", obj);
+
+ obj = json_object_new_string(statenames[task->state]);
+ CHECKMEM(obj);
+ json_object_object_add(taskobj, "state", obj);
+
+ obj = json_object_new_int(task->quantum);
+ CHECKMEM(obj);
+ json_object_object_add(taskobj, "quantum", obj);
+
+ obj = json_object_new_int(task->nevents);
+ CHECKMEM(obj);
+ json_object_object_add(taskobj, "events", obj);
+
+ UNLOCK(&task->lock);
+ }
+
+ json_object_object_add(tasks, "tasks", array);
+ array = NULL;
+ result = ISC_R_SUCCESS;
+
+error:
+ if (array != NULL) {
+ json_object_put(array);
+ }
+
+ if (task != NULL) {
+ UNLOCK(&task->lock);
+ }
+ UNLOCK(&mgr->lock);
+
+ return (result);
+}
+#endif /* ifdef HAVE_JSON_C */