ClickHouse/dbms/src/Common/RWLockFIFO.cpp
2018-08-26 05:08:35 +03:00

194 lines
5.8 KiB
C++

#include "RWLockFIFO.h"
#include <Common/Stopwatch.h>
#include <Common/Exception.h>
#include <Poco/Ext/ThreadNumber.h>
#include <Common/CurrentMetrics.h>
#include <Common/ProfileEvents.h>
namespace ProfileEvents
{
extern const Event RWLockAcquiredReadLocks;
extern const Event RWLockAcquiredWriteLocks;
extern const Event RWLockReadersWaitMilliseconds;
extern const Event RWLockWritersWaitMilliseconds;
}
namespace CurrentMetrics
{
extern const Metric RWLockWaitingReaders;
extern const Metric RWLockWaitingWriters;
extern const Metric RWLockActiveReaders;
extern const Metric RWLockActiveWriters;
}
namespace DB
{
namespace ErrorCodes
{
extern const int LOGICAL_ERROR;
}
class RWLockFIFO::LockHandlerImpl
{
RWLockFIFOPtr parent;
GroupsContainer::iterator it_group;
ClientsContainer::iterator it_client;
ThreadToHandler::iterator it_handler;
CurrentMetrics::Increment active_client_increment;
LockHandlerImpl(RWLockFIFOPtr && parent, GroupsContainer::iterator it_group, ClientsContainer::iterator it_client);
public:
LockHandlerImpl(const LockHandlerImpl & other) = delete;
~LockHandlerImpl();
friend class RWLockFIFO;
};
RWLockFIFO::LockHandler RWLockFIFO::getLock(RWLockFIFO::Type type, RWLockFIFO::Client client)
{
Stopwatch watch(CLOCK_MONOTONIC_COARSE);
CurrentMetrics::Increment waiting_client_increment((type == Read) ? CurrentMetrics::RWLockWaitingReaders
: CurrentMetrics::RWLockWaitingWriters);
auto finalize_metrics = [type, &watch] ()
{
ProfileEvents::increment((type == Read) ? ProfileEvents::RWLockAcquiredReadLocks
: ProfileEvents::RWLockAcquiredWriteLocks);
ProfileEvents::increment((type == Read) ? ProfileEvents::RWLockReadersWaitMilliseconds
: ProfileEvents::RWLockWritersWaitMilliseconds, watch.elapsedMilliseconds());
};
auto this_thread_id = std::this_thread::get_id();
GroupsContainer::iterator it_group;
ClientsContainer::iterator it_client;
std::unique_lock<std::mutex> lock(mutex);
/// Check if the same thread is acquiring previously acquired lock
auto it_handler = thread_to_handler.find(this_thread_id);
if (it_handler != thread_to_handler.end())
{
auto handler_ptr = it_handler->second.lock();
if (!handler_ptr)
throw Exception("Lock handler cannot be nullptr. This is a bug", ErrorCodes::LOGICAL_ERROR);
if (type != Read || handler_ptr->it_group->type != Read)
throw Exception("Attempt to acquire exclusive lock recursively", ErrorCodes::LOGICAL_ERROR);
handler_ptr->it_client->info += "; " + client.info;
return handler_ptr;
}
if (type == Type::Write || queue.empty() || queue.back().type == Type::Write)
{
/// Create new group of clients
it_group = queue.emplace(queue.end(), type);
}
else
{
/// Will append myself to last group
it_group = std::prev(queue.end());
}
/// Append myself to the end of chosen group
auto & clients = it_group->clients;
try
{
it_client = clients.emplace(clients.end(), std::move(client));
}
catch (...)
{
/// Remove group if it was the first client in the group and an error occurred
if (clients.empty())
queue.erase(it_group);
throw;
}
it_client->thread_number = Poco::ThreadNumber::get();
it_client->enqueue_time = time(nullptr);
it_client->type = type;
LockHandler res(new LockHandlerImpl(shared_from_this(), it_group, it_client));
/// Insert myself (weak_ptr to the handler) to threads set to implement recursive lock
it_handler = thread_to_handler.emplace(this_thread_id, res).first;
res->it_handler = it_handler;
/// We are first, we should not wait anything
/// If we are not the first client in the group, a notification could be already sent
if (it_group == queue.begin())
{
it_client->start_time = it_client->enqueue_time;
finalize_metrics();
return res;
}
/// Wait a notification
it_group->cv.wait(lock, [&] () { return it_group == queue.begin(); } );
it_client->start_time = time(nullptr);
finalize_metrics();
return res;
}
RWLockFIFO::Clients RWLockFIFO::getClientsInTheQueue() const
{
std::unique_lock<std::mutex> lock(mutex);
Clients res;
for (const auto & group : queue)
{
for (const auto & client : group.clients)
{
res.emplace_back(client);
}
}
return res;
}
RWLockFIFO::LockHandlerImpl::~LockHandlerImpl()
{
std::unique_lock<std::mutex> lock(parent->mutex);
/// Remove weak_ptr to the handler, since there are no owners of the current lock
parent->thread_to_handler.erase(it_handler);
/// Removes myself from client list of our group
it_group->clients.erase(it_client);
/// Remove the group if we were the last client and notify the next group
if (it_group->clients.empty())
{
auto & parent_queue = parent->queue;
parent_queue.erase(it_group);
if (!parent_queue.empty())
parent_queue.front().cv.notify_all();
}
parent.reset();
}
RWLockFIFO::LockHandlerImpl::LockHandlerImpl(RWLockFIFOPtr && parent, RWLockFIFO::GroupsContainer::iterator it_group,
RWLockFIFO::ClientsContainer::iterator it_client)
: parent{std::move(parent)}, it_group{it_group}, it_client{it_client},
active_client_increment{(it_client->type == RWLockFIFO::Read) ? CurrentMetrics::RWLockActiveReaders
: CurrentMetrics::RWLockActiveWriters}
{}
}