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// Copyright (C) 2016-2024 Internet Systems Consortium, Inc. ("ISC")
//
// This Source Code Form is subject to the terms of the Mozilla Public
// License, v. 2.0. If a copy of the MPL was not distributed with this
// file, You can obtain one at http://mozilla.org/MPL/2.0/.
#include <config.h>
#include <asiolink/interval_timer.h>
#include <asiolink/io_service.h>
#include <dhcpsrv/dhcpsrv_log.h>
#include <dhcpsrv/timer_mgr.h>
#include <exceptions/exceptions.h>
#include <util/multi_threading_mgr.h>
#include <boost/scoped_ptr.hpp>
#include <exception>
#include <functional>
#include <map>
#include <mutex>
#include <ostream>
#include <string>
#include <utility>
#include <stddef.h>
using namespace isc;
using namespace isc::asiolink;
using namespace isc::util;
namespace {
/// @brief Structure holding information for a single timer.
///
/// This structure holds the instance of the watch socket being used to
/// signal that the timer is "ready". It also holds the instance of the
/// interval timer and other parameters pertaining to it.
struct TimerInfo {
/// @brief Instance of the interval timer.
asiolink::IntervalTimer interval_timer_;
/// @brief Holds the pointer to the callback supplied when registering
/// the timer.
asiolink::IntervalTimer::Callback user_callback_;
/// @brief Interval timer interval supplied during registration.
long interval_;
/// @brief Interval timer scheduling mode supplied during registration.
asiolink::IntervalTimer::Mode scheduling_mode_;
/// @brief Constructor.
///
/// @param io_service Reference to the IO service to be used by the
/// interval timer created.
/// @param user_callback Pointer to the callback function supplied
/// during the timer registration.
/// @param interval Timer interval in milliseconds.
/// @param mode Interval timer scheduling mode.
TimerInfo(asiolink::IOService& io_service,
const asiolink::IntervalTimer::Callback& user_callback,
const long interval,
const asiolink::IntervalTimer::Mode& mode)
: interval_timer_(io_service),
user_callback_(user_callback),
interval_(interval),
scheduling_mode_(mode) { };
};
}
namespace isc {
namespace dhcp {
/// @brief A type definition for the pointer to @c TimerInfo structure.
typedef boost::shared_ptr<TimerInfo> TimerInfoPtr;
/// @brief A type definition for the map holding timers configuration.
typedef std::map<std::string, TimerInfoPtr> TimerInfoMap;
/// @brief Implementation of the @c TimerMgr
class TimerMgrImpl {
public:
/// @brief Constructor.
TimerMgrImpl();
/// @brief Sets IO service to be used by the Timer Manager.
///
/// @param io_service Pointer to the IO service.
void setIOService(const IOServicePtr& io_service);
/// @brief Registers new timer in the @c TimerMgr.
///
/// @param timer_name Unique name for the timer.
/// @param callback Pointer to the callback function to be invoked
/// when the timer elapses, e.g. function processing expired leases
/// in the DHCP server.
/// @param interval Timer interval in milliseconds.
/// @param scheduling_mode Scheduling mode of the timer as described in
/// @c asiolink::IntervalTimer::Mode.
///
/// @throw BadValue if the timer name is invalid or duplicate.
void registerTimer(const std::string& timer_name,
const asiolink::IntervalTimer::Callback& callback,
const long interval,
const asiolink::IntervalTimer::Mode& scheduling_mode);
/// @brief Unregisters specified timer.
///
/// This method cancels the timer if it is setup and removes the timer
/// from the internal collection of timers.
///
/// @param timer_name Name of the timer to be unregistered.
///
/// @throw BadValue if the specified timer hasn't been registered.
void unregisterTimer(const std::string& timer_name);
/// @brief Unregisters all timers.
///
/// This method must be explicitly called prior to termination of the
/// process.
void unregisterTimers();
/// @brief Checks if the timer with a specified name has been registered.
///
/// @param timer_name Name of the timer.
/// @return true if the timer with the specified name has been registered,
/// false otherwise.
bool isTimerRegistered(const std::string& timer_name);
/// @brief Returns the number of registered timers.
size_t timersCount() const;
/// @brief Schedules the execution of the interval timer.
///
/// This method schedules the timer, i.e. the callback will be executed
/// after specified interval elapses. The interval has been specified
/// during timer registration. Depending on the mode selected during the
/// timer registration, the callback will be executed once after it has
/// been scheduled or until it is cancelled. Though, in the former case
/// the timer can be re-scheduled in the callback function.
///
/// @param timer_name Unique timer name.
///
/// @throw BadValue if the timer hasn't been registered.
void setup(const std::string& timer_name);
/// @brief Cancels the execution of the interval timer.
///
/// @param timer_name Unique timer name.
///
/// @throw BadValue if the timer hasn't been registered.
void cancel(const std::string& timer_name);
private:
/// @name Internal methods called while holding the mutex in multi threading
/// mode.
/// @brief Registers new timer in the @c TimerMgr.
///
/// @param timer_name Unique name for the timer.
/// @param callback Pointer to the callback function to be invoked
/// when the timer elapses, e.g. function processing expired leases
/// in the DHCP server.
/// @param interval Timer interval in milliseconds.
/// @param scheduling_mode Scheduling mode of the timer as described in
/// @c asiolink::IntervalTimer::Mode.
///
/// @throw BadValue if the timer name is invalid or duplicate.
void registerTimerInternal(const std::string& timer_name,
const asiolink::IntervalTimer::Callback& callback,
const long interval,
const asiolink::IntervalTimer::Mode& scheduling_mode);
/// @brief Unregisters specified timer.
///
/// This method cancels the timer if it is setup and removes the timer
/// from the internal collection of timers.
///
/// @param timer_name Name of the timer to be unregistered.
///
/// @throw BadValue if the specified timer hasn't been registered.
void unregisterTimerInternal(const std::string& timer_name);
/// @brief Unregisters all timers.
///
/// This method must be explicitly called prior to termination of the
/// process.
void unregisterTimersInternal();
/// @brief Schedules the execution of the interval timer.
///
/// This method schedules the timer, i.e. the callback will be executed
/// after specified interval elapses. The interval has been specified
/// during timer registration. Depending on the mode selected during the
/// timer registration, the callback will be executed once after it has
/// been scheduled or until it is cancelled. Though, in the former case
/// the timer can be re-scheduled in the callback function.
///
/// @param timer_name Unique timer name.
///
/// @throw BadValue if the timer hasn't been registered.
void setupInternal(const std::string& timer_name);
/// @brief Cancels the execution of the interval timer.
///
/// @param timer_name Unique timer name.
///
/// @throw BadValue if the timer hasn't been registered.
void cancelInternal(const std::string& timer_name);
/// @brief Callback function to be executed for each interval timer when
/// its scheduled interval elapses.
///
/// @param timer_name Unique timer name.
void timerCallback(const std::string& timer_name);
/// @brief Pointer to the io service.
asiolink::IOServicePtr io_service_;
/// @brief Holds mapping of the timer name to timer instance and other
/// parameters pertaining to the timer.
TimerInfoMap registered_timers_;
/// @brief The mutex to protect the timer manager.
boost::scoped_ptr<std::mutex> mutex_;
};
TimerMgrImpl::TimerMgrImpl() : io_service_(new IOService()),
registered_timers_(), mutex_(new std::mutex) {
}
void
TimerMgrImpl::setIOService(const IOServicePtr& io_service) {
if (!io_service) {
isc_throw(BadValue, "IO service object must not be null for TimerMgr");
}
io_service_ = io_service;
}
void
TimerMgrImpl::registerTimer(const std::string& timer_name,
const IntervalTimer::Callback& callback,
const long interval,
const IntervalTimer::Mode& scheduling_mode) {
if (MultiThreadingMgr::instance().getMode()) {
std::lock_guard<std::mutex> lock(*mutex_);
registerTimerInternal(timer_name, callback, interval, scheduling_mode);
} else {
registerTimerInternal(timer_name, callback, interval, scheduling_mode);
}
}
void
TimerMgrImpl::registerTimerInternal(const std::string& timer_name,
const IntervalTimer::Callback& callback,
const long interval,
const IntervalTimer::Mode& scheduling_mode) {
// Timer name must not be empty.
if (timer_name.empty()) {
isc_throw(BadValue, "registered timer name must not be empty");
}
// Must not register two timers under the same name.
if (registered_timers_.find(timer_name) != registered_timers_.end()) {
isc_throw(BadValue, "trying to register duplicate timer '"
<< timer_name << "'");
}
// Create a structure holding the configuration for the timer. It will
// create the instance if the IntervalTimer. It will also hold the
// callback, interval and scheduling mode parameters.
TimerInfoPtr timer_info(new TimerInfo(*io_service_, callback,
interval, scheduling_mode));
// Actually register the timer.
registered_timers_.insert(std::pair<std::string, TimerInfoPtr>(timer_name,
timer_info));
}
void
TimerMgrImpl::unregisterTimer(const std::string& timer_name) {
if (MultiThreadingMgr::instance().getMode()) {
std::lock_guard<std::mutex> lock(*mutex_);
unregisterTimerInternal(timer_name);
} else {
unregisterTimerInternal(timer_name);
}
}
void
TimerMgrImpl::unregisterTimerInternal(const std::string& timer_name) {
// Find the timer with specified name.
TimerInfoMap::iterator timer_info_it = registered_timers_.find(timer_name);
// Check if the timer has been registered.
if (timer_info_it == registered_timers_.end()) {
isc_throw(BadValue, "unable to unregister non existing timer '"
<< timer_name << "'");
}
// Cancel any pending asynchronous operation and stop the timer.
cancelInternal(timer_name);
// Remove the timer.
registered_timers_.erase(timer_info_it);
}
void
TimerMgrImpl::unregisterTimers() {
if (MultiThreadingMgr::instance().getMode()) {
std::lock_guard<std::mutex> lock(*mutex_);
unregisterTimersInternal();
} else {
unregisterTimersInternal();
}
}
void
TimerMgrImpl::unregisterTimersInternal() {
// Copy the map holding timers configuration. This is required so as
// we don't cut the branch which we're sitting on when we will be
// erasing the timers. We're going to iterate over the register timers
// and remove them with the call to unregisterTimer function. But this
// function will remove them from the register_timers_ map. If we
// didn't work on the copy here, our iterator would invalidate. The
// TimerInfo structure is copyable and since it is using the shared
// pointers the copy is not expensive. Also this function is called when
// the process terminates so it is not critical for performance.
TimerInfoMap registered_timers_copy(registered_timers_);
// Iterate over the existing timers and unregister them.
for (auto const& timer_info_it : registered_timers_copy) {
unregisterTimerInternal(timer_info_it.first);
}
}
bool
TimerMgrImpl::isTimerRegistered(const std::string& timer_name) {
if (MultiThreadingMgr::instance().getMode()) {
std::lock_guard<std::mutex> lock(*mutex_);
return (registered_timers_.find(timer_name) != registered_timers_.end());
} else {
return (registered_timers_.find(timer_name) != registered_timers_.end());
}
}
size_t
TimerMgrImpl::timersCount() const {
if (MultiThreadingMgr::instance().getMode()) {
std::lock_guard<std::mutex> lock(*mutex_);
return (registered_timers_.size());
} else {
return (registered_timers_.size());
}
}
void
TimerMgrImpl::setup(const std::string& timer_name) {
if (MultiThreadingMgr::instance().getMode()) {
std::lock_guard<std::mutex> lock(*mutex_);
setupInternal(timer_name);
} else {
setupInternal(timer_name);
}
}
void
TimerMgrImpl::setupInternal(const std::string& timer_name) {
// Check if the specified timer exists.
TimerInfoMap::const_iterator timer_info_it = registered_timers_.find(timer_name);
if (timer_info_it == registered_timers_.end()) {
isc_throw(BadValue, "unable to setup timer '" << timer_name << "': "
"no such timer registered");
}
// Schedule the execution of the timer using the parameters supplied
// during the registration.
const TimerInfoPtr& timer_info = timer_info_it->second;
IntervalTimer::Callback cb = std::bind(&TimerMgrImpl::timerCallback, this,
timer_name);
timer_info->interval_timer_.setup(cb, timer_info->interval_,
timer_info->scheduling_mode_);
}
void
TimerMgrImpl::cancel(const std::string& timer_name) {
if (MultiThreadingMgr::instance().getMode()) {
std::lock_guard<std::mutex> lock(*mutex_);
cancelInternal(timer_name);
} else {
cancelInternal(timer_name);
}
}
void
TimerMgrImpl::cancelInternal(const std::string& timer_name) {
// Find the timer of our interest.
TimerInfoMap::const_iterator timer_info_it = registered_timers_.find(timer_name);
if (timer_info_it == registered_timers_.end()) {
isc_throw(BadValue, "unable to cancel timer '" << timer_name << "': "
"no such timer registered");
}
// Cancel the timer.
timer_info_it->second->interval_timer_.cancel();
}
void
TimerMgrImpl::timerCallback(const std::string& timer_name) {
// Find the specified timer setup.
TimerInfoMap::iterator timer_info_it = registered_timers_.find(timer_name);
if (timer_info_it != registered_timers_.end()) {
// Running user-defined operation for the timer. Logging it
// on the slightly lower debug level as there may be many
// such traces.
LOG_DEBUG(dhcpsrv_logger, DHCPSRV_DBG_TRACE_DETAIL,
DHCPSRV_TIMERMGR_RUN_TIMER_OPERATION)
.arg(timer_info_it->first);
std::string error_string;
try {
timer_info_it->second->user_callback_();
} catch (const std::exception& ex){
error_string = ex.what();
} catch (...) {
error_string = "unknown reason";
}
// Exception was thrown. Log an error.
if (!error_string.empty()) {
LOG_ERROR(dhcpsrv_logger, DHCPSRV_TIMERMGR_CALLBACK_FAILED)
.arg(timer_info_it->first)
.arg(error_string);
}
}
}
const TimerMgrPtr&
TimerMgr::instance() {
static TimerMgrPtr timer_mgr(new TimerMgr());
return (timer_mgr);
}
TimerMgr::TimerMgr()
: impl_(new TimerMgrImpl()) {
}
TimerMgr::~TimerMgr() {
impl_->unregisterTimers();
}
void
TimerMgr::registerTimer(const std::string& timer_name,
const IntervalTimer::Callback& callback,
const long interval,
const IntervalTimer::Mode& scheduling_mode) {
LOG_DEBUG(dhcpsrv_logger, DHCPSRV_DBG_TRACE,
DHCPSRV_TIMERMGR_REGISTER_TIMER)
.arg(timer_name)
.arg(interval);
impl_->registerTimer(timer_name, callback, interval, scheduling_mode);
}
void
TimerMgr::unregisterTimer(const std::string& timer_name) {
LOG_DEBUG(dhcpsrv_logger, DHCPSRV_DBG_TRACE,
DHCPSRV_TIMERMGR_UNREGISTER_TIMER)
.arg(timer_name);
impl_->unregisterTimer(timer_name);
}
void
TimerMgr::unregisterTimers() {
LOG_DEBUG(dhcpsrv_logger, DHCPSRV_DBG_TRACE,
DHCPSRV_TIMERMGR_UNREGISTER_ALL_TIMERS);
impl_->unregisterTimers();
}
bool
TimerMgr::isTimerRegistered(const std::string& timer_name) {
return (impl_->isTimerRegistered(timer_name));
}
size_t
TimerMgr::timersCount() const {
return (impl_->timersCount());
}
void
TimerMgr::setup(const std::string& timer_name) {
LOG_DEBUG(dhcpsrv_logger, DHCPSRV_DBG_TRACE,
DHCPSRV_TIMERMGR_START_TIMER)
.arg(timer_name);
impl_->setup(timer_name);
}
void
TimerMgr::cancel(const std::string& timer_name) {
LOG_DEBUG(dhcpsrv_logger, DHCPSRV_DBG_TRACE,
DHCPSRV_TIMERMGR_STOP_TIMER)
.arg(timer_name);
impl_->cancel(timer_name);
}
void
TimerMgr::setIOService(const IOServicePtr& io_service) {
impl_->setIOService(io_service);
}
} // end of namespace isc::dhcp
} // end of namespace isc
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