shell/platform/linux/fl_task_runner.cc - external/github.com/flutter/engine - Git at Google

 // Copyright 2013 The Flutter Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "flutter/shell/platform/linux/fl_task_runner.h"
 #include "flutter/shell/platform/linux/fl_engine_private.h"

 static constexpr int kMicrosecondsPerNanosecond = 1000;
 static constexpr int kMillisecondsPerMicrosecond = 1000;

 struct _FlTaskRunner {
   GObject parent_instance;

   FlEngine* engine;

   GMutex mutex;
   GCond cond;

   guint timeout_source_id;
   GList /*<FlTaskRunnerTask>*/* pending_tasks;
   gboolean blocking_main_thread;
 };

 typedef struct _FlTaskRunnerTask {
   // absolute time of task (based on g_get_monotonic_time)
   gint64 task_time_micros;
   FlutterTask task;
 } FlTaskRunnerTask;

 G_DEFINE_TYPE(FlTaskRunner, fl_task_runner, G_TYPE_OBJECT)

 // Removes expired tasks from the task queue and executes them.
 // The execution is performed with mutex unlocked.
 static void fl_task_runner_process_expired_tasks_locked(FlTaskRunner* self) {
   GList* expired_tasks = nullptr;

   gint64 current_time = g_get_monotonic_time();

   GList* l = self->pending_tasks;
   while (l != nullptr) {
     FlTaskRunnerTask* task = static_cast<FlTaskRunnerTask*>(l->data);
     if (task->task_time_micros <= current_time) {
       GList* link = l;
       l = l->next;
       self->pending_tasks = g_list_remove_link(self->pending_tasks, link);
       expired_tasks = g_list_concat(expired_tasks, link);
     } else {
       l = l->next;
     }
   }

   g_mutex_unlock(&self->mutex);

   l = expired_tasks;
   while (l != nullptr && self->engine) {
     FlTaskRunnerTask* task = static_cast<FlTaskRunnerTask*>(l->data);
     fl_engine_execute_task(self->engine, &task->task);
     l = l->next;
   }

   g_list_free_full(expired_tasks, g_free);

   g_mutex_lock(&self->mutex);
 }

 static void fl_task_runner_tasks_did_change_locked(FlTaskRunner* self);

 // Invoked from a timeout source. Removes and executes expired tasks
 // and reschedules timeout if needed.
 static gboolean fl_task_runner_on_expired_timeout(gpointer data) {
   FlTaskRunner* self = FL_TASK_RUNNER(data);

   g_autoptr(GMutexLocker) locker = g_mutex_locker_new(&self->mutex);
   (void)locker;  // unused variable

   g_object_ref(self);

   self->timeout_source_id = 0;
   fl_task_runner_process_expired_tasks_locked(self);

   // reschedule timeout
   fl_task_runner_tasks_did_change_locked(self);

   g_object_unref(self);

   return FALSE;
 }

 // Returns the absolute time of next expired task (in microseconds, based on
 // g_get_monotonic_time). If no task is scheduled returns G_MAXINT64.
 static gint64 fl_task_runner_next_task_expiration_time_locked(
     FlTaskRunner* self) {
   gint64 min_time = G_MAXINT64;
   GList* l = self->pending_tasks;
   while (l != nullptr) {
     FlTaskRunnerTask* task = static_cast<FlTaskRunnerTask*>(l->data);
     min_time = MIN(min_time, task->task_time_micros);
     l = l->next;
   }
   return min_time;
 }

 static void fl_task_runner_tasks_did_change_locked(FlTaskRunner* self) {
   if (self->blocking_main_thread) {
     // Wake up blocked thread
     g_cond_signal(&self->cond);
   } else {
     // Reschedule timeout
     if (self->timeout_source_id != 0) {
       g_source_remove(self->timeout_source_id);
       self->timeout_source_id = 0;
     }
     gint64 min_time = fl_task_runner_next_task_expiration_time_locked(self);
     if (min_time != G_MAXINT64) {
       gint64 remaining = MAX(min_time - g_get_monotonic_time(), 0);
       self->timeout_source_id =
           g_timeout_add(remaining / kMillisecondsPerMicrosecond + 1,
                         fl_task_runner_on_expired_timeout, self);
     }
   }
 }

 static void engine_weak_notify_cb(gpointer user_data,
                                   GObject* where_the_object_was) {
   FlTaskRunner* self = FL_TASK_RUNNER(user_data);
   self->engine = nullptr;
 }

 void fl_task_runner_dispose(GObject* object) {
   FlTaskRunner* self = FL_TASK_RUNNER(object);

   // this should never happen because the task runner is retained while blocking
   // main thread
   g_assert(!self->blocking_main_thread);

   if (self->engine != nullptr) {
     g_object_weak_unref(G_OBJECT(self->engine), engine_weak_notify_cb, self);
     self->engine = nullptr;
   }

   g_mutex_clear(&self->mutex);
   g_cond_clear(&self->cond);

   g_list_free_full(self->pending_tasks, g_free);
   if (self->timeout_source_id != 0) {
     g_source_remove(self->timeout_source_id);
   }

   G_OBJECT_CLASS(fl_task_runner_parent_class)->dispose(object);
 }

 static void fl_task_runner_class_init(FlTaskRunnerClass* klass) {
   G_OBJECT_CLASS(klass)->dispose = fl_task_runner_dispose;
 }

 static void fl_task_runner_init(FlTaskRunner* self) {
   g_mutex_init(&self->mutex);
   g_cond_init(&self->cond);
 }

 FlTaskRunner* fl_task_runner_new(FlEngine* engine) {
   FlTaskRunner* res =
       FL_TASK_RUNNER(g_object_new(fl_task_runner_get_type(), nullptr));
   res->engine = engine;
   g_object_weak_ref(G_OBJECT(engine), engine_weak_notify_cb, res);
   return res;
 }

 void fl_task_runner_post_task(FlTaskRunner* self,
                               FlutterTask task,
                               uint64_t target_time_nanos) {
   g_autoptr(GMutexLocker) locker = g_mutex_locker_new(&self->mutex);
   (void)locker;  // unused variable

   FlTaskRunnerTask* runner_task = g_new0(FlTaskRunnerTask, 1);
   runner_task->task = task;
   runner_task->task_time_micros =
       target_time_nanos / kMicrosecondsPerNanosecond;

   self->pending_tasks = g_list_append(self->pending_tasks, runner_task);
   fl_task_runner_tasks_did_change_locked(self);
 }

 void fl_task_runner_block_main_thread(FlTaskRunner* self) {
   g_autoptr(GMutexLocker) locker = g_mutex_locker_new(&self->mutex);
   (void)locker;  // unused variable

   g_return_if_fail(self->blocking_main_thread == FALSE);

   g_object_ref(self);

   self->blocking_main_thread = true;
   while (self->blocking_main_thread) {
     g_cond_wait_until(&self->cond, &self->mutex,
                       fl_task_runner_next_task_expiration_time_locked(self));
     fl_task_runner_process_expired_tasks_locked(self);
   }

   // Tasks might have changed in the meanwhile, reschedule timeout
   fl_task_runner_tasks_did_change_locked(self);

   g_object_unref(self);
 }

 void fl_task_runner_release_main_thread(FlTaskRunner* self) {
   g_autoptr(GMutexLocker) locker = g_mutex_locker_new(&self->mutex);
   (void)locker;  // unused variable

   g_return_if_fail(self->blocking_main_thread == TRUE);

   self->blocking_main_thread = FALSE;
   g_cond_signal(&self->cond);
 }
	// Copyright 2013 The Flutter Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "flutter/shell/platform/linux/fl_task_runner.h"
	#include "flutter/shell/platform/linux/fl_engine_private.h"

	static constexpr int kMicrosecondsPerNanosecond = 1000;
	static constexpr int kMillisecondsPerMicrosecond = 1000;

	struct _FlTaskRunner {
	GObject parent_instance;

	FlEngine* engine;

	GMutex mutex;
	GCond cond;

	guint timeout_source_id;
	GList /<FlTaskRunnerTask>/* pending_tasks;
	gboolean blocking_main_thread;
	};

	typedef struct _FlTaskRunnerTask {
	// absolute time of task (based on g_get_monotonic_time)
	gint64 task_time_micros;
	FlutterTask task;
	} FlTaskRunnerTask;

	G_DEFINE_TYPE(FlTaskRunner, fl_task_runner, G_TYPE_OBJECT)

	// Removes expired tasks from the task queue and executes them.
	// The execution is performed with mutex unlocked.
	static void fl_task_runner_process_expired_tasks_locked(FlTaskRunner* self) {
	GList* expired_tasks = nullptr;

	gint64 current_time = g_get_monotonic_time();

	GList* l = self->pending_tasks;
	while (l != nullptr) {
	FlTaskRunnerTask* task = static_cast<FlTaskRunnerTask*>(l->data);
	if (task->task_time_micros <= current_time) {
	GList* link = l;
	l = l->next;
	self->pending_tasks = g_list_remove_link(self->pending_tasks, link);
	expired_tasks = g_list_concat(expired_tasks, link);
	} else {
	l = l->next;
	}
	}

	g_mutex_unlock(&self->mutex);

	l = expired_tasks;
	while (l != nullptr && self->engine) {
	FlTaskRunnerTask* task = static_cast<FlTaskRunnerTask*>(l->data);
	fl_engine_execute_task(self->engine, &task->task);
	l = l->next;
	}

	g_list_free_full(expired_tasks, g_free);

	g_mutex_lock(&self->mutex);
	}

	static void fl_task_runner_tasks_did_change_locked(FlTaskRunner* self);

	// Invoked from a timeout source. Removes and executes expired tasks
	// and reschedules timeout if needed.
	static gboolean fl_task_runner_on_expired_timeout(gpointer data) {
	FlTaskRunner* self = FL_TASK_RUNNER(data);

	g_autoptr(GMutexLocker) locker = g_mutex_locker_new(&self->mutex);
	(void)locker; // unused variable

	g_object_ref(self);

	self->timeout_source_id = 0;
	fl_task_runner_process_expired_tasks_locked(self);

	// reschedule timeout
	fl_task_runner_tasks_did_change_locked(self);

	g_object_unref(self);

	return FALSE;
	}

	// Returns the absolute time of next expired task (in microseconds, based on
	// g_get_monotonic_time). If no task is scheduled returns G_MAXINT64.
	static gint64 fl_task_runner_next_task_expiration_time_locked(
	FlTaskRunner* self) {
	gint64 min_time = G_MAXINT64;
	GList* l = self->pending_tasks;
	while (l != nullptr) {
	FlTaskRunnerTask* task = static_cast<FlTaskRunnerTask*>(l->data);
	min_time = MIN(min_time, task->task_time_micros);
	l = l->next;
	}
	return min_time;
	}

	static void fl_task_runner_tasks_did_change_locked(FlTaskRunner* self) {
	if (self->blocking_main_thread) {
	// Wake up blocked thread
	g_cond_signal(&self->cond);
	} else {
	// Reschedule timeout
	if (self->timeout_source_id != 0) {
	g_source_remove(self->timeout_source_id);
	self->timeout_source_id = 0;
	}
	gint64 min_time = fl_task_runner_next_task_expiration_time_locked(self);
	if (min_time != G_MAXINT64) {
	gint64 remaining = MAX(min_time - g_get_monotonic_time(), 0);
	self->timeout_source_id =
	g_timeout_add(remaining / kMillisecondsPerMicrosecond + 1,
	fl_task_runner_on_expired_timeout, self);
	}
	}
	}

	static void engine_weak_notify_cb(gpointer user_data,
	GObject* where_the_object_was) {
	FlTaskRunner* self = FL_TASK_RUNNER(user_data);
	self->engine = nullptr;
	}

	void fl_task_runner_dispose(GObject* object) {
	FlTaskRunner* self = FL_TASK_RUNNER(object);

	// this should never happen because the task runner is retained while blocking
	// main thread
	g_assert(!self->blocking_main_thread);

	if (self->engine != nullptr) {
	g_object_weak_unref(G_OBJECT(self->engine), engine_weak_notify_cb, self);
	self->engine = nullptr;
	}

	g_mutex_clear(&self->mutex);
	g_cond_clear(&self->cond);

	g_list_free_full(self->pending_tasks, g_free);
	if (self->timeout_source_id != 0) {
	g_source_remove(self->timeout_source_id);
	}

	G_OBJECT_CLASS(fl_task_runner_parent_class)->dispose(object);
	}

	static void fl_task_runner_class_init(FlTaskRunnerClass* klass) {
	G_OBJECT_CLASS(klass)->dispose = fl_task_runner_dispose;
	}

	static void fl_task_runner_init(FlTaskRunner* self) {
	g_mutex_init(&self->mutex);
	g_cond_init(&self->cond);
	}

	FlTaskRunner* fl_task_runner_new(FlEngine* engine) {
	FlTaskRunner* res =
	FL_TASK_RUNNER(g_object_new(fl_task_runner_get_type(), nullptr));
	res->engine = engine;
	g_object_weak_ref(G_OBJECT(engine), engine_weak_notify_cb, res);
	return res;
	}

	void fl_task_runner_post_task(FlTaskRunner* self,
	FlutterTask task,
	uint64_t target_time_nanos) {
	g_autoptr(GMutexLocker) locker = g_mutex_locker_new(&self->mutex);
	(void)locker; // unused variable

	FlTaskRunnerTask* runner_task = g_new0(FlTaskRunnerTask, 1);
	runner_task->task = task;
	runner_task->task_time_micros =
	target_time_nanos / kMicrosecondsPerNanosecond;

	self->pending_tasks = g_list_append(self->pending_tasks, runner_task);
	fl_task_runner_tasks_did_change_locked(self);
	}

	void fl_task_runner_block_main_thread(FlTaskRunner* self) {
	g_autoptr(GMutexLocker) locker = g_mutex_locker_new(&self->mutex);
	(void)locker; // unused variable

	g_return_if_fail(self->blocking_main_thread == FALSE);

	g_object_ref(self);

	self->blocking_main_thread = true;
	while (self->blocking_main_thread) {
	g_cond_wait_until(&self->cond, &self->mutex,
	fl_task_runner_next_task_expiration_time_locked(self));
	fl_task_runner_process_expired_tasks_locked(self);
	}

	// Tasks might have changed in the meanwhile, reschedule timeout
	fl_task_runner_tasks_did_change_locked(self);

	g_object_unref(self);
	}

	void fl_task_runner_release_main_thread(FlTaskRunner* self) {
	g_autoptr(GMutexLocker) locker = g_mutex_locker_new(&self->mutex);
	(void)locker; // unused variable

	g_return_if_fail(self->blocking_main_thread == TRUE);

	self->blocking_main_thread = FALSE;
	g_cond_signal(&self->cond);
	}