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C++

/**
* Copyright 2013-2021 Software Radio Systems Limited
*
* This file is part of srsRAN.
*
* srsRAN is free software: you can redistribute it and/or modify
* it under the terms of the GNU Affero General Public License as
* published by the Free Software Foundation, either version 3 of
* the License, or (at your option) any later version.
*
* srsRAN 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 Affero General Public License for more details.
*
* A copy of the GNU Affero General Public License can be found in
* the LICENSE file in the top-level directory of this distribution
* and at http://www.gnu.org/licenses/.
*
*/
#ifndef SRSRAN_TASK_SCHEDULER_H
#define SRSRAN_TASK_SCHEDULER_H
#include "block_queue.h"
#include "interfaces_common.h"
#include "multiqueue.h"
#include "thread_pool.h"
#include "timers.h"
namespace srsran {
class task_scheduler
{
public:
explicit task_scheduler(uint32_t default_extern_tasks_size = 512, uint32_t nof_timers_prealloc = 100) :
external_tasks{default_extern_tasks_size}, timers{nof_timers_prealloc}, internal_tasks(512)
{
background_queue = external_tasks.add_queue();
}
task_scheduler(const task_scheduler&) = delete;
task_scheduler(task_scheduler&&) = delete;
task_scheduler& operator=(const task_scheduler&) = delete;
task_scheduler& operator=(task_scheduler&&) = delete;
void stop() { external_tasks.stop(); }
srsran::unique_timer get_unique_timer() { return timers.get_unique_timer(); }
//! Creates new queue for tasks coming from external thread
srsran::task_queue_handle make_task_queue() { return external_tasks.add_queue(); }
srsran::task_queue_handle make_task_queue(uint32_t qsize) { return external_tasks.add_queue(qsize); }
//! Delays a task processing by duration_ms
template <typename F>
void defer_callback(uint32_t duration_ms, F&& func)
{
timers.defer_callback(duration_ms, std::forward<F>(func));
}
//! Enqueues internal task to be run in next tic
void defer_task(srsran::move_task_t func)
{
if (not internal_tasks.try_push(std::move(func))) {
srslog::fetch_basic_logger("COMN", false).warning("Couldn't add new internal task");
}
}
//! Defer the handling of the result of a background task to next tic
void notify_background_task_result(srsran::move_task_t task)
{
// run the notification in next tic
background_queue.push(std::move(task));
}
//! Updates timers, and run any pending internal tasks.
// CAUTION: Should be called in main thread
void tic() { timers.step_all(); }
//! Processes the next task in the multiqueue.
// CAUTION: This is a blocking call
bool run_next_task()
{
srsran::move_task_t task{};
if (external_tasks.wait_pop(&task)) {
task();
run_all_internal_tasks();
return true;
}
run_all_internal_tasks();
return false;
}
//! Processes the next task in the multiqueue if it exists.
void run_pending_tasks()
{
run_all_internal_tasks();
srsran::move_task_t task{};
while (external_tasks.try_pop(&task)) {
task();
run_all_internal_tasks();
}
}
srsran::timer_handler* get_timer_handler() { return &timers; }
private:
// Perform pending stack deferred tasks
void run_all_internal_tasks()
{
srsran::move_task_t task{};
while (internal_tasks.try_pop(task)) {
task();
}
}
srsran::task_multiqueue external_tasks;
srsran::task_queue_handle background_queue; ///< Queue for handling the outcomes of tasks run in the background
srsran::timer_handler timers;
srsran::dyn_blocking_queue<srsran::move_task_t>
internal_tasks; ///< enqueues stack tasks from within main thread. Avoids locking
};
//! Task scheduler handle given to classes/functions running within the main control thread
class task_sched_handle
{
public:
task_sched_handle(task_scheduler* sched_) : sched(sched_) {}
srsran::unique_timer get_unique_timer() { return sched->get_unique_timer(); }
void notify_background_task_result(srsran::move_task_t task)
{
sched->notify_background_task_result(std::move(task));
}
template <typename F>
void defer_callback(uint32_t duration_ms, F&& func)
{
sched->defer_callback(duration_ms, std::forward<F>(func));
}
void defer_task(srsran::move_task_t func) { sched->defer_task(std::move(func)); }
srsran::task_queue_handle make_task_queue() { return sched->make_task_queue(); }
private:
task_scheduler* sched;
};
//! Task scheduler handle given to classes/functions running outside of main control thread
class ext_task_sched_handle
{
public:
ext_task_sched_handle(task_scheduler* sched_) : sched(sched_) {}
srsran::unique_timer get_unique_timer() { return sched->get_unique_timer(); }
void notify_background_task_result(srsran::move_task_t task)
{
sched->notify_background_task_result(std::move(task));
}
srsran::task_queue_handle make_task_queue() { return sched->make_task_queue(); }
template <typename F>
void defer_callback(uint32_t duration_ms, F&& func)
{
sched->defer_callback(duration_ms, std::forward<F>(func));
}
private:
task_scheduler* sched;
};
} // namespace srsran
#endif // SRSRAN_TASK_SCHEDULER_H