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// Copyright Yahoo. Licensed under the terms of the Apache 2.0 license. See LICENSE in the project root.
#include "scheduled_forward_executor.h"
#include <vespa/vespalib/util/lambdatask.h>
#include <vespa/vespalib/stllike/hash_map.hpp>
#include <thread>
#include <condition_variable>
#include <cassert>
using vespalib::makeLambdaTask;
namespace proton {
class ScheduledForwardExecutor::State {
public:
State() :
_mutex(),
_cond(),
_handle(),
_start_success(0),
_start_failed(0),
_running(false)
{}
~State() {
std::lock_guard guard(_mutex);
assert( !_handle );
assert( ! _running);
}
/// Returns false if it was already running
bool start() {
std::lock_guard guard(_mutex);
bool already_running = _running;
_running = true;
if (already_running) {
_start_failed++;
} else {
_start_success++;
}
_cond.notify_all();
return ! already_running;
}
void complete() {
std::lock_guard guard(_mutex);
bool was_running = _running;
_running = false;
assert(was_running);
_cond.notify_all();
}
void setHandle(Handle handle) {
std::lock_guard guard(_mutex);
_handle = std::move(handle);
}
void cancel() {
std::unique_lock guard(_mutex);
_handle.reset();
while(_running) {
_cond.wait(guard);
}
}
private:
std::mutex _mutex;
std::condition_variable _cond;
Handle _handle;
uint64_t _start_success;
uint64_t _start_failed;
bool _running;
};
class ScheduledForwardExecutor::Registration : public vespalib::IDestructorCallback {
private:
ScheduledForwardExecutor & _executor;
uint64_t _key;
public:
Registration(ScheduledForwardExecutor & executor, uint64_t key) : _executor(executor), _key(key) {}
~Registration() {
_executor.cancel(_key);
}
};
ScheduledForwardExecutor::ScheduledForwardExecutor(FNET_Transport& transport,
Executor& executor)
: _scheduler(transport),
_executor(executor),
_lock(),
_nextKey(0),
_taskList()
{
}
ScheduledForwardExecutor::~ScheduledForwardExecutor() {
std::lock_guard guard(_lock);
assert(_taskList.empty());
}
bool
ScheduledForwardExecutor::cancel(uint64_t key)
{
std::lock_guard guard(_lock);
auto found = _taskList.find(key);
if (found == _taskList.end()) return false;
found->second->cancel();
_taskList.erase(found);
return true;
}
IScheduledExecutor::Handle
ScheduledForwardExecutor::scheduleAtFixedRate(Executor::Task::UP task,
duration delay, duration interval)
{
std::lock_guard guard(_lock);
uint64_t key = _nextKey++;
auto state = std::make_unique<State>();
std::shared_ptr<Executor::Task> my_task = std::move(task);
auto handle = _scheduler.scheduleAtFixedRate(makeLambdaTask([&, my_task = std::move(my_task), my_state=state.get()]() {
bool start_allowed = my_state->start();
if (start_allowed) {
_executor.execute(makeLambdaTask([my_state, my_task]() {
my_task->run();
my_state->complete();
}));
}
}), delay, interval);
state->setHandle(std::move(handle));
_taskList[key] = std::move(state);
return std::make_unique<Registration>(*this, key);
}
}
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