-/* Copyright (c) 2018. The SimGrid Team. All rights reserved. */
+/* Copyright (c) 2018-2022. The SimGrid Team. All rights reserved. */
/* This program is free software; you can redistribute it and/or modify it
* under the terms of the license (GNU LGPL) which comes with this package. */
-#include "simgrid/s4u/Io.hpp"
-#include "simgrid/s4u/Storage.hpp"
-#include "src/kernel/activity/IoImpl.hpp"
-#include "xbt/log.h"
+#include <simgrid/s4u/Disk.hpp>
+#include <simgrid/s4u/Io.hpp>
+#include <xbt/log.h>
-XBT_LOG_NEW_DEFAULT_SUBCATEGORY(s4u_io, s4u_activity, "S4U asynchronous IOs");
+#include "src/kernel/activity/IoImpl.hpp"
+#include "src/kernel/actor/ActorImpl.hpp"
+#include "src/kernel/actor/SimcallObserver.hpp"
namespace simgrid {
namespace s4u {
+xbt::signal<void(Io const&)> Io::on_start;
+
+Io::Io(kernel::activity::IoImplPtr pimpl)
+{
+ pimpl_ = pimpl;
+}
+
+IoPtr Io::init()
+{
+ auto pimpl = kernel::activity::IoImplPtr(new kernel::activity::IoImpl());
+ return IoPtr(static_cast<Io*>(pimpl->get_iface()));
+}
-Activity* Io::start()
+Io* Io::start()
{
- pimpl_ = simcall_io_start(size_, storage_);
+ kernel::actor::simcall(
+ [this] { (*boost::static_pointer_cast<kernel::activity::IoImpl>(pimpl_)).set_name(get_name()).start(); });
+
+ if (suspended_)
+ pimpl_->suspend();
+
state_ = State::STARTED;
+ on_start(*this);
+ return this;
+}
+
+ssize_t Io::wait_any_for(const std::vector<IoPtr>& ios, double timeout)
+{
+ std::vector<ActivityPtr> activities;
+ for (const auto& io : ios)
+ activities.push_back(boost::dynamic_pointer_cast<Activity>(io));
+ return Activity::wait_any_for(activities, timeout);
+}
+
+IoPtr Io::set_disk(const_sg_disk_t disk)
+{
+ xbt_assert(state_ == State::INITED || state_ == State::STARTING, "Cannot set disk once the Io is started");
+
+ kernel::actor::simcall(
+ [this, disk] { boost::static_pointer_cast<kernel::activity::IoImpl>(pimpl_)->set_disk(disk->get_impl()); });
+
+ // Setting the disk may allow to start the activity, let's try
+ if (state_ == State::STARTING)
+ vetoable_start();
+
+ return this;
+}
+
+IoPtr Io::set_priority(double priority)
+{
+ xbt_assert(state_ == State::INITED || state_ == State::STARTING,
+ "Cannot change the priority of an io after its start");
+ kernel::actor::simcall([this, priority] {
+ boost::static_pointer_cast<kernel::activity::IoImpl>(pimpl_)->set_sharing_penalty(1. / priority);
+ });
+ return this;
+}
+
+IoPtr Io::set_size(sg_size_t size)
+{
+ xbt_assert(state_ == State::INITED || state_ == State::STARTING, "Cannot set size once the Io is started");
+ kernel::actor::simcall(
+ [this, size] { boost::static_pointer_cast<kernel::activity::IoImpl>(pimpl_)->set_size(size); });
+ Activity::set_remaining(size);
return this;
}
-Activity* Io::cancel()
+IoPtr Io::set_op_type(OpType type)
{
- simgrid::simix::simcall([this] { dynamic_cast<kernel::activity::IoImpl*>(pimpl_.get())->cancel(); });
- state_ = State::CANCELED;
+ xbt_assert(state_ == State::INITED || state_ == State::STARTING, "Cannot set size once the Io is started");
+ kernel::actor::simcall(
+ [this, type] { boost::static_pointer_cast<kernel::activity::IoImpl>(pimpl_)->set_type(type); });
return this;
}
-// Activity* Exec::wait()
-//{
-// simcall_execution_wait(pimpl_);
-// state_ = State::FINISHED;
-// return this;
-//}
-//
-// Activity* Exec::wait(double timeout)
-//{
-// THROW_UNIMPLEMENTED;
-// return this;
-//}
-//
-///** @brief Returns whether the state of the exec is finished */
-// bool Exec::test()
-//{
-// xbt_assert(state_ == State::INITED || state_ == State::STARTED || state_ == State::FINISHED);
-//
-// if (state_ == State::FINISHED)
-// return true;
-//
-// if (state_ == State::INITED)
-// this->start();
-//
-// if (simcall_execution_test(pimpl_)) {
-// state_ = State::FINISHED;
-// return true;
-// }
-//
-// return false;
-//}
+IoPtr Io::update_priority(double priority)
+{
+ kernel::actor::simcall([this, priority] {
+ boost::static_pointer_cast<kernel::activity::IoImpl>(pimpl_)->update_sharing_penalty(1. / priority);
+ });
+ return this;
+}
/** @brief Returns the amount of flops that remain to be done */
-double Io::get_remaining()
+double Io::get_remaining() const
{
- return simgrid::simix::simcall(
- [this]() { return boost::static_pointer_cast<simgrid::kernel::activity::IoImpl>(pimpl_)->get_remaining(); });
+ return kernel::actor::simcall(
+ [this]() { return boost::static_pointer_cast<kernel::activity::IoImpl>(pimpl_)->get_remaining(); });
}
-// double Io::get_remaining_ratio()
-//{
-// return simgrid::simix::simcall([this]() {
-// return boost::static_pointer_cast<simgrid::kernel::activity::IoImpl>(pimpl_)->get_remaining_ratio();
-// });
-//}
-
-void intrusive_ptr_release(simgrid::s4u::Io* e)
+sg_size_t Io::get_performed_ioops() const
{
- if (e->refcount_.fetch_sub(1, std::memory_order_release) == 1) {
- std::atomic_thread_fence(std::memory_order_acquire);
- delete e;
- }
+ return boost::static_pointer_cast<kernel::activity::IoImpl>(pimpl_)->get_performed_ioops();
}
-void intrusive_ptr_add_ref(simgrid::s4u::Io* e)
+bool Io::is_assigned() const
{
- e->refcount_.fetch_add(1, std::memory_order_relaxed);
+ return boost::static_pointer_cast<kernel::activity::IoImpl>(pimpl_)->get_disk() != nullptr;
}
+
} // namespace s4u
} // namespace simgrid