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/* Icinga 2 | (c) 2012 Icinga GmbH | GPLv2+ */
#include "base/workqueue.hpp"
#include "base/utility.hpp"
#include "base/logger.hpp"
#include "base/convert.hpp"
#include "base/application.hpp"
#include "base/exception.hpp"
#include <boost/thread/tss.hpp>
#include <math.h>
using namespace icinga;
std::atomic<int> WorkQueue::m_NextID(1);
boost::thread_specific_ptr<WorkQueue *> l_ThreadWorkQueue;
WorkQueue::WorkQueue(size_t maxItems, int threadCount, LogSeverity statsLogLevel)
: m_ID(m_NextID++), m_ThreadCount(threadCount), m_MaxItems(maxItems),
m_TaskStats(15 * 60), m_StatsLogLevel(statsLogLevel)
{
/* Initialize logger. */
m_StatusTimerTimeout = Utility::GetTime();
m_StatusTimer = Timer::Create();
m_StatusTimer->SetInterval(10);
m_StatusTimer->OnTimerExpired.connect([this](const Timer * const&) { StatusTimerHandler(); });
m_StatusTimer->Start();
}
WorkQueue::~WorkQueue()
{
m_StatusTimer->Stop(true);
Join(true);
}
void WorkQueue::SetName(const String& name)
{
m_Name = name;
}
String WorkQueue::GetName() const
{
return m_Name;
}
std::unique_lock<std::mutex> WorkQueue::AcquireLock()
{
return std::unique_lock<std::mutex>(m_Mutex);
}
/**
* Enqueues a task. Tasks are guaranteed to be executed in the order
* they were enqueued in except if there is more than one worker thread.
*/
void WorkQueue::EnqueueUnlocked(std::unique_lock<std::mutex>& lock, std::function<void ()>&& function, WorkQueuePriority priority)
{
if (!m_Spawned) {
Log(LogNotice, "WorkQueue")
<< "Spawning WorkQueue threads for '" << m_Name << "'";
for (int i = 0; i < m_ThreadCount; i++) {
m_Threads.create_thread([this]() { WorkerThreadProc(); });
}
m_Spawned = true;
}
bool wq_thread = IsWorkerThread();
if (!wq_thread) {
while (m_Tasks.size() >= m_MaxItems && m_MaxItems != 0)
m_CVFull.wait(lock);
}
m_Tasks.emplace(std::move(function), priority, ++m_NextTaskID);
m_CVEmpty.notify_one();
}
/**
* Enqueues a task. Tasks are guaranteed to be executed in the order
* they were enqueued in except if there is more than one worker thread or when
* allowInterleaved is true in which case the new task might be run
* immediately if it's being enqueued from within the WorkQueue thread.
*/
void WorkQueue::Enqueue(std::function<void ()>&& function, WorkQueuePriority priority,
bool allowInterleaved)
{
bool wq_thread = IsWorkerThread();
if (wq_thread && allowInterleaved) {
function();
return;
}
auto lock = AcquireLock();
EnqueueUnlocked(lock, std::move(function), priority);
}
/**
* Waits until all currently enqueued tasks have completed. This only works reliably
* when no other thread is enqueuing new tasks when this method is called.
*
* @param stop Whether to stop the worker threads
*/
void WorkQueue::Join(bool stop)
{
std::unique_lock<std::mutex> lock(m_Mutex);
while (m_Processing || !m_Tasks.empty())
m_CVStarved.wait(lock);
if (stop) {
m_Stopped = true;
m_CVEmpty.notify_all();
lock.unlock();
m_Threads.join_all();
m_Spawned = false;
Log(LogNotice, "WorkQueue")
<< "Stopped WorkQueue threads for '" << m_Name << "'";
}
}
/**
* Checks whether the calling thread is one of the worker threads
* for this work queue.
*
* @returns true if called from one of the worker threads, false otherwise
*/
bool WorkQueue::IsWorkerThread() const
{
WorkQueue **pwq = l_ThreadWorkQueue.get();
if (!pwq)
return false;
return *pwq == this;
}
void WorkQueue::SetExceptionCallback(const ExceptionCallback& callback)
{
m_ExceptionCallback = callback;
}
/**
* Checks whether any exceptions have occurred while executing tasks for this
* work queue. When a custom exception callback is set this method will always
* return false.
*/
bool WorkQueue::HasExceptions() const
{
std::unique_lock<std::mutex> lock(m_Mutex);
return !m_Exceptions.empty();
}
/**
* Returns all exceptions which have occurred for tasks in this work queue. When a
* custom exception callback is set this method will always return an empty list.
*/
std::vector<boost::exception_ptr> WorkQueue::GetExceptions() const
{
std::unique_lock<std::mutex> lock(m_Mutex);
return m_Exceptions;
}
void WorkQueue::ReportExceptions(const String& facility, bool verbose) const
{
std::vector<boost::exception_ptr> exceptions = GetExceptions();
for (const auto& eptr : exceptions) {
Log(LogCritical, facility)
<< DiagnosticInformation(eptr, verbose);
}
Log(LogCritical, facility)
<< exceptions.size() << " error" << (exceptions.size() != 1 ? "s" : "");
}
size_t WorkQueue::GetLength() const
{
std::unique_lock<std::mutex> lock(m_Mutex);
return m_Tasks.size();
}
void WorkQueue::StatusTimerHandler()
{
std::unique_lock<std::mutex> lock(m_Mutex);
ASSERT(!m_Name.IsEmpty());
size_t pending = m_Tasks.size();
double now = Utility::GetTime();
double gradient = (pending - m_PendingTasks) / (now - m_PendingTasksTimestamp);
double timeToZero = pending / gradient;
String timeInfo;
if (pending > GetTaskCount(5)) {
timeInfo = " empty in ";
if (timeToZero < 0 || std::isinf(timeToZero))
timeInfo += "infinite time, your task handler isn't able to keep up";
else
timeInfo += Utility::FormatDuration(timeToZero);
}
m_PendingTasks = pending;
m_PendingTasksTimestamp = now;
/* Log if there are pending items, or 5 minute timeout is reached. */
if (pending > 0 || m_StatusTimerTimeout < now) {
Log(m_StatsLogLevel, "WorkQueue")
<< "#" << m_ID << " (" << m_Name << ") "
<< "items: " << pending << ", "
<< "rate: " << std::setw(2) << GetTaskCount(60) / 60.0 << "/s "
<< "(" << GetTaskCount(60) << "/min " << GetTaskCount(60 * 5) << "/5min " << GetTaskCount(60 * 15) << "/15min);"
<< timeInfo;
}
/* Reschedule next log entry in 5 minutes. */
if (m_StatusTimerTimeout < now) {
m_StatusTimerTimeout = now + 60 * 5;
}
}
void WorkQueue::RunTaskFunction(const TaskFunction& func)
{
try {
func();
} catch (const std::exception&) {
boost::exception_ptr eptr = boost::current_exception();
{
std::unique_lock<std::mutex> mutex(m_Mutex);
if (!m_ExceptionCallback)
m_Exceptions.push_back(eptr);
}
if (m_ExceptionCallback)
m_ExceptionCallback(eptr);
}
}
void WorkQueue::WorkerThreadProc()
{
std::ostringstream idbuf;
idbuf << "WQ #" << m_ID;
Utility::SetThreadName(idbuf.str());
l_ThreadWorkQueue.reset(new WorkQueue *(this));
std::unique_lock<std::mutex> lock(m_Mutex);
for (;;) {
while (m_Tasks.empty() && !m_Stopped)
m_CVEmpty.wait(lock);
if (m_Stopped)
break;
if (m_Tasks.size() >= m_MaxItems && m_MaxItems != 0)
m_CVFull.notify_all();
Task task = m_Tasks.top();
m_Tasks.pop();
m_Processing++;
lock.unlock();
RunTaskFunction(task.Function);
/* clear the task so whatever other resources it holds are released _before_ we re-acquire the mutex */
task = Task();
IncreaseTaskCount();
lock.lock();
m_Processing--;
if (m_Tasks.empty())
m_CVStarved.notify_all();
}
}
void WorkQueue::IncreaseTaskCount()
{
m_TaskStats.InsertValue(Utility::GetTime(), 1);
}
size_t WorkQueue::GetTaskCount(RingBuffer::SizeType span)
{
return m_TaskStats.UpdateAndGetValues(Utility::GetTime(), span);
}
bool icinga::operator<(const Task& a, const Task& b)
{
if (a.Priority < b.Priority)
return true;
if (a.Priority == b.Priority) {
if (a.ID > b.ID)
return true;
else
return false;
}
return false;
}
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