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798 | // Copyright (C) 2023-2024 Internet Systems Consortium, Inc. ("ISC")
//
// This Source Code Form is subject to the terms of the Kea Hooks Basic
// Commercial End User License Agreement v2.0. See COPYING file in the premium/
// directory.
#include <config.h>
#include <ping_check_mgr.h><--- Include file: not found. Please note: Cppcheck does not need standard library headers to get proper results.
#include <ping_check_log.h><--- Include file: not found. Please note: Cppcheck does not need standard library headers to get proper results.
#include <dhcpsrv/cfgmgr.h>
#include <hooks/hooks_manager.h>
#include <util/multi_threading_mgr.h>
#include <util/chrono_time_utils.h>
using namespace isc;
using namespace isc::asiolink;
using namespace isc::dhcp;
using namespace isc::data;
using namespace isc::hooks;
using namespace isc::util;
using namespace std;
using namespace std::chrono;
namespace ph = std::placeholders;
namespace isc {
namespace ping_check {
PingCheckMgr::PingCheckMgr()
: io_service_(new IOService()), thread_pool_(),
store_(new PingContextStore()),
channel_(),
config_cache_(new ConfigCache()),
mutex_(new mutex()),
suspended_(false) {
}
PingCheckMgr::PingCheckMgr(uint32_t num_threads,
uint32_t min_echos,
uint32_t reply_timeout)
: io_service_(new IOService()), thread_pool_(),
store_(new PingContextStore()),
channel_(),
config_cache_(new ConfigCache()),
mutex_(new mutex()),
suspended_(false) {
PingCheckConfigPtr config(new PingCheckConfig());
config->setMinPingRequests(min_echos);
config->setReplyTimeout(reply_timeout);
config->setPingChannelThreads(num_threads);
config_cache_->setGlobalConfig(config);
}
PingCheckMgr::~PingCheckMgr() {
stop();
}
void
PingCheckMgr::configure(ConstElementPtr params) {
if (!params) {
isc_throw(dhcp::DhcpConfigError, "params must not be null");
return;
}
if (params->getType() != Element::map) {
isc_throw(dhcp::DhcpConfigError, "params must be an Element::map");
return;
}
PingCheckConfigPtr config(new PingCheckConfig());
config->parse(params);
config_cache_->setGlobalConfig(config);
}
void
PingCheckMgr::updateSubnetConfig(SrvConfigPtr server_config) {
// Iterate over subnets and cache configurations for each.
ConfigCachePtr local_cache(new ConfigCache());
local_cache->setGlobalConfig(config_cache_->getGlobalConfig());
auto const& subnets = server_config->getCfgSubnets4()->getAll();
for (auto const& subnet : (*subnets)) {
auto user_context = subnet->getContext();
local_cache->parseAndCacheConfig(subnet->getID(), user_context);
}
// No errors above, replace the existing cache.
config_cache_ = local_cache;
}
const PingCheckConfigPtr
PingCheckMgr::getGlobalConfig() const {
return (config_cache_->getGlobalConfig());
}
const PingCheckConfigPtr
PingCheckMgr::getScopedConfig(Lease4Ptr& lease) {
if (!lease) {
// This really shouldn't happen.
isc_throw(InvalidOperation, "PingCheckConfig::getScopedConfig() - lease cannot be empty");
}
auto subnet_id = lease->subnet_id_;
// If the cache is stale, update it. We do this to catch subnets that have been updated
// via subnet_cmds.
auto server_config = CfgMgr::instance().getCurrentCfg();
auto const& subnet = server_config->getCfgSubnets4()->getBySubnetId(subnet_id);
if (!subnet) {
// This really shouldn't happen.
isc_throw(InvalidOperation, "PingCheckMgr::getScopedConfig() - "
"no subnet for id: " << subnet_id
<< ", for lease address: " << lease->addr_);
}
// If cache is stale flush it and we'll lazy init subnets as we see them.
if (subnet->getModificationTime() > config_cache_->getLastFlushTime()) {
config_cache_->flush();
}
// If we don't find an entry for this subnet then we haven't seen it
// before so parse and cache it. If the subnet doesn't specify ping-check
// we cache an empty entry.
PingCheckConfigPtr config;
if (!config_cache_->findConfig(subnet_id, config)) {
auto user_context = subnet->getContext();
try {
config = config_cache_->parseAndCacheConfig(subnet_id, user_context);
} catch (const std::exception& ex) {
// We emit and error and then cache an empty entry. This causes us
// to log the error once and then default to global settings afterward.
// This avoids us relentlessly logging and failing. Remember this
// is happening because a subnet was updated with an invalid context via
// subnet-cmd.
LOG_ERROR(ping_check_logger, PING_CHECK_MGR_SUBNET_CONFIG_FAILED)
.arg(subnet_id)
.arg(ex.what());
config_cache_->cacheConfig(subnet_id, config);
}
}
// Return subnet's ping-check config if it specified one, otherwise
// return the global config.
return (config ? config : config_cache_->getGlobalConfig());
}
void
PingCheckMgr::startPing(dhcp::Lease4Ptr& lease, dhcp::Pkt4Ptr& query, hooks::ParkingLotHandlePtr& parking_lot,
const PingCheckConfigPtr& config) {
if (checkSuspended()) {
// Server should not be submitting requests.
isc_throw(InvalidOperation, "PingCheckMgr::startPing() - DHCP service is suspended!");
}
if (!channel_ || !channel_->isOpen()) {
isc_throw(InvalidOperation, "PingCheckMgr::startPing() - channel isn't open");
}
LOG_DEBUG(ping_check_logger, isc::log::DBGLVL_TRACE_BASIC,
PING_CHECK_MGR_START_PING_CHECK)
.arg(lease->addr_)
.arg(query->getLabel());
// Adds a context to the store
store_->addContext(lease, query, config->getMinPingRequests(),
config->getReplyTimeout(), parking_lot);
// Posts a call to channel's startSend() and startRead(). This will kick-start perpetual
// write and read cycles if they are not already running.
if (channel_) {
channel_->startSend();
channel_->startRead();
}
}
void
PingCheckMgr::startPing(dhcp::Lease4Ptr& lease, dhcp::Pkt4Ptr& query, hooks::ParkingLotHandlePtr& parking_lot) {
startPing(lease, query, parking_lot, getGlobalConfig());
}
bool
PingCheckMgr::nextToSend(IOAddress& next) {
if (checkSuspended()) {
return (false);
}
PingContextPtr context = store_->getNextToSend();
if (!context) {
return (false);
}
next = context->getTarget();
// Transition to sending.
context->setState(PingContext::SENDING);
store_->updateContext(context);
return (true);
}
void
PingCheckMgr::sendCompleted(const ICMPMsgPtr& echo, bool send_failed) {
if (checkSuspended()) {
return;
}
try {
if (!echo) {
isc_throw(BadValue, "PingCheckMgr::sendCompleted() - echo is empty");
}
if (echo->getType() != ICMPMsg::ECHO_REQUEST) {
isc_throw(BadValue, "PingCheckMgr::sendCompleted() - message type: "
<< echo->getType() << " is not an ECHO_REQUEST");
}
// Update the context associated with this ECHO_REQUEST.
PingContextPtr context = store_->getContextByAddress(echo->getDestination());
if (!context) {
isc_throw(Unexpected, "PingCheckMgr::sendCompleted() "
" no context found for: " << echo->getDestination());
}
if (send_failed) {
// Recoverable error occurred which means we can't get to the target's
// network (interface down?). Treat this the same as TARGET UNREACHABLE.
finishFree(context);
} else {
// Transition the context to WAITING_FOR_REPLY.
context->beginWaitingForReply();
store_->updateContext(context);
}
// Update the expiration timer if necessary.
setNextExpiration();
} catch (const std::exception& ex) {
LOG_ERROR(ping_check_logger, PING_CHECK_MGR_SEND_COMPLETED_ERROR)
.arg(ex.what());
}
}
void
PingCheckMgr::replyReceived(const ICMPMsgPtr& reply) {
if (checkSuspended()) {
return;
}
try {
if (!reply) {
isc_throw(BadValue, "PingCheckMgr::replyReceived() - echo is empty");
}
switch (reply->getType()) {
case ICMPMsg::ECHO_REPLY:
handleEchoReply(reply);
break;
case ICMPMsg::TARGET_UNREACHABLE:
// Extract embedded ECHO REQUEST
handleTargetUnreachable(reply);
break;
default:
// Ignore anything else.
return;
}
setNextExpiration();
} catch (const std::exception& ex) {
LOG_ERROR(ping_check_logger, PING_CHECK_MGR_REPLY_RECEIVED_ERROR)
.arg(ex.what());
}
}
void
PingCheckMgr::handleEchoReply(const ICMPMsgPtr& echo_reply) {
// Update the context associated with this ECHO_REQUEST.
PingContextPtr context = store_->getContextByAddress(echo_reply->getSource());
if (!context) {
LOG_DEBUG(ping_check_logger, isc::log::DBGLVL_TRACE_DETAIL,
PING_CHECK_MGR_RECEIVED_UNEXPECTED_ECHO_REPLY)
.arg(echo_reply->getSource())
.arg(echo_reply->getId())
.arg(echo_reply->getSequence());
return;
}
LOG_DEBUG(ping_check_logger, isc::log::DBGLVL_TRACE_BASIC,
PING_CHECK_MGR_RECEIVED_ECHO_REPLY)
.arg(echo_reply->getSource())
.arg(echo_reply->getId())
.arg(echo_reply->getSequence());
context->setState(PingContext::TARGET_IN_USE);
store_->updateContext(context);
// If parking is employed, unpark the query from the parking lot,
// and set the offer_address_in_use argument in the callout handle
// to true, indicating to the server that the lease should be declined
// and the DHCPOFFER discarded.
auto parking_lot = context->getParkingLot();
if (parking_lot) {
auto query = context->getQuery();
auto callout_handle = query->getCalloutHandle();
callout_handle->setArgument("offer_address_in_use", true);
parking_lot->unpark(query);
}
// Remove the context from the store.
store_->deleteContext(context);
}
void
PingCheckMgr::handleTargetUnreachable(const ICMPMsgPtr& unreachable) {
// Unpack the embedded ECHO REQUEST.
ICMPMsgPtr embedded_echo;
auto payload = unreachable->getPayload();
embedded_echo = ICMPMsg::unpack(payload.data(), payload.size());
// Fetch the context associated with the ECHO_REQUEST.
PingContextPtr context = store_->getContextByAddress(embedded_echo->getDestination());
if (!context) {
LOG_DEBUG(ping_check_logger, isc::log::DBGLVL_TRACE_DETAIL,
PING_CHECK_MGR_RECEIVED_UNEXPECTED_UNREACHABLE_MSG)
.arg(embedded_echo->getDestination())
.arg(embedded_echo->getId())
.arg(embedded_echo->getSequence());
return;
}
LOG_DEBUG(ping_check_logger, isc::log::DBGLVL_TRACE_DETAIL,
PING_CHECK_MGR_RECEIVED_UNREACHABLE_MSG)
.arg(embedded_echo->getDestination())
.arg(embedded_echo->getId())
.arg(embedded_echo->getSequence());
// Render the address usable.
finishFree(context);
}
void
PingCheckMgr::finishFree(const PingContextPtr& context) {
context->setState(PingContext::TARGET_FREE);
store_->updateContext(context);
LOG_DEBUG(ping_check_logger, isc::log::DBGLVL_TRACE_BASIC,
PING_CHECK_MGR_LEASE_FREE_TO_USE)
.arg(context->getTarget())
.arg(context->getQuery()->getLabel());
// If parking is employed, unpark the query from the parking lot,
// and set the offer_address_in_use argument in the callout handle
// to false, indicating to the server that the lease is available
// and the DHCPOFFER should be sent to the client.
auto parking_lot = context->getParkingLot();
if (parking_lot) {
auto query = context->getQuery();
auto callout_handle = query->getCalloutHandle();
callout_handle->setArgument("offer_address_in_use", false);
parking_lot->unpark(context->getQuery());
}
// Remove the context from the store.
store_->deleteContext(context);
}
void
PingCheckMgr::channelShutdown() {
LOG_ERROR(ping_check_logger, PING_CHECK_MGR_CHANNEL_DOWN);
if (io_service_) {
// As this is a callback that may be invoked by a channel
// thread we post a call to stopService() rather than call
// it directly.
io_service_->post([&]() { stopService(true); });
}
}
size_t
PingCheckMgr::processExpiredSince(const TimeStamp& since /* = PingContext::now() */) {
auto expired_pings = store_->getExpiredSince(since);
size_t more_pings = 0;
for (auto const& context : *(expired_pings)) {
LOG_DEBUG(ping_check_logger, isc::log::DBGLVL_TRACE_DETAIL,
PING_CHECK_MGR_REPLY_TIMEOUT_EXPIRED)
.arg(context->getTarget())
.arg(context->getEchosSent())
.arg(context->getMinEchos())
.arg(context->getReplyTimeout());
if (context->getEchosSent() < context->getMinEchos()) {
doNextEcho(context);
++more_pings;
} else {
finishFree(context);
}
}
return (more_pings);
}
void
PingCheckMgr::doNextEcho(const PingContextPtr& context) {
// Position to do another ping by re-entering WAITING_TO_SEND
LOG_DEBUG(ping_check_logger, isc::log::DBGLVL_TRACE_DETAIL,
PING_CHECK_MGR_NEXT_ECHO_SCHEDULED)
.arg(context->getTarget())
.arg(context->getEchosSent() + 1)
.arg(context->getMinEchos());
context->beginWaitingToSend();
store_->updateContext(context);
}
TimeStamp
PingCheckMgr::getNextExpiry() {
MultiThreadingLock lock(*mutex_);
return (next_expiry_);
}
void
PingCheckMgr::setNextExpiration() {
MultiThreadingLock lock(*mutex_);
if (checkSuspendedInternal()) {
return;
}
setNextExpirationInternal();
}
void
PingCheckMgr::setNextExpirationInternal() {
// Find the context that expires soonest.
PingContextPtr context = store_->getExpiresNext();
if (context) {
// if the context's expiry is sooner than current expiry
// reschedule expiration timer
if ((next_expiry_ == PingContext::EMPTY_TIME()) ||
(context->getNextExpiry() < next_expiry_)) {
auto now = PingContext::now();
auto timeout = duration_cast<milliseconds>(context->getNextExpiry() - now);
/// @todo For now we'll impose a 2 ms minimum to avoid thrashing the timer.
timeout = (timeout > milliseconds(2) ? timeout : milliseconds(2));
next_expiry_ = now + timeout;
expiration_timer_->setup(std::bind(&PingCheckMgr::expirationTimedOut,
shared_from_this()),
timeout.count(), IntervalTimer::ONE_SHOT);
}
} else {
// Nothing waiting to expire. Cancel the timer.
cancelExpirationTimerInternal();
}
}
void
PingCheckMgr::cancelExpirationTimer() {
MultiThreadingLock lock(*mutex_);
cancelExpirationTimerInternal();
}
void
PingCheckMgr::cancelExpirationTimerInternal() {
if (expiration_timer_) {
expiration_timer_->cancel();
next_expiry_ = PingContext::EMPTY_TIME();
}
}
void
PingCheckMgr::expirationTimedOut() {
MultiThreadingLock lock(*mutex_);
if (checkSuspendedInternal()) {
return;
}
// Process everything that has expired since current time.
auto more_pings = processExpiredSince();
// Update the expiration timer.
next_expiry_ = PingContext::EMPTY_TIME();
setNextExpirationInternal();
// In the event there was nothing left to process when timed out,
// poke the channel to make sure things are moving.
if (more_pings && channel_) {
channel_->startSend();
channel_->startRead();
}
}
CalloutHandle::CalloutNextStep
PingCheckMgr::shouldPing(Lease4Ptr& lease, Pkt4Ptr& query,
Lease4Ptr& old_lease,
const PingCheckConfigPtr& config) {
// If ping-check is disabled or the channel isn't open,
// drop the query from parking and release the offer to the client.
if (!config->getEnablePingCheck() || !channel_ || !channel_->isOpen()) {
return (CalloutHandle::CalloutNextStep::NEXT_STEP_CONTINUE);
}
// If we're already running check on this address then drop the
// query from parking and discard the offer.
if (store_->getContextByAddress(lease->addr_)) {
LOG_DEBUG(ping_check_logger, isc::log::DBGLVL_TRACE_BASIC,
PING_CHECK_DUPLICATE_CHECK)
.arg(lease->addr_)
.arg(query->getLabel());
return (CalloutHandle::CalloutNextStep::NEXT_STEP_DROP);
}
// If there's a previous lease that belongs to this client and
// it was touched by the client less than ping-cltt-secs ago then
// no check is needed. Drop the query from parking and release the
// offer to the client,
if (old_lease && (old_lease->addr_ == lease->addr_)) {
if (old_lease->belongsToClient(lease->hwaddr_, lease->client_id_)) {
auto now = time(0);
if ((now - old_lease->cltt_) < config->getPingClttSecs()) {
return (CalloutHandle::CalloutNextStep::NEXT_STEP_CONTINUE);
}
}
}
// Leave it parked and do the ping check.
return (CalloutHandle::CalloutNextStep::NEXT_STEP_PARK);
}
void
PingCheckMgr::startService(NetworkStatePtr network_state) {
network_state_ = network_state;
io_service_->post([&]() { start(); });
}
bool
PingCheckMgr::checkSuspended() {
MultiThreadingLock lock(*mutex_);
return (checkSuspendedInternal());
}
bool
PingCheckMgr::checkSuspendedInternal() {
if (!network_state_ || network_state_->isServiceEnabled()) {
suspended_ = false;
} else {
if (!suspended_) {
suspended_ = true;
// Flush the context store, dropping parked queries.
flush(false);
}
}
return (suspended_);
}
void
PingCheckMgr::stopService(bool finish_free) {
// Pause the thread pool while we flush the store.
pause();
// Flush the context store. If finish_free is true
// the flush will treat the remaining context lease
// addresses as free to use and unpark them. This
// will cause the server to send out the associated
// OFFERs. If it's false we just drop them from
// the parking lot.
flush(finish_free);
// Stop the thread pool, destroy the channel and the like.
stop();
}
void
PingCheckMgr::start() {
if (MultiThreadingMgr::instance().isTestMode()) {
return;
}
if (!MultiThreadingMgr::instance().getMode()) {
startSingleThreaded();
return;
}
// We must be in multi-threading mode.
// Add critical section callbacks.
MultiThreadingMgr::instance().addCriticalSectionCallbacks("PING_CHECK",
std::bind(&PingCheckMgr::checkPermissions, this),
std::bind(&PingCheckMgr::pause, this),
std::bind(&PingCheckMgr::resume, this));
// Punt if we're already started.
if (thread_pool_ && thread_pool_->isStopped()) {
isc_throw(InvalidOperation, "PingCheckMgr already started!");
}
try {
auto config = config_cache_->getGlobalConfig();
auto use_threads = (config->getPingChannelThreads() ? config->getPingChannelThreads()
: MultiThreadingMgr::instance().getThreadPoolSize());
thread_pool_.reset(new IoServiceThreadPool(IOServicePtr(), use_threads, true));
IOServicePtr pool_ios = thread_pool_->getIOService();
channel_ = createChannel(pool_ios);
channel_->open();
expiration_timer_.reset(new IntervalTimer(pool_ios));
thread_pool_->run();
LOG_INFO(ping_check_logger, PING_CHECK_MGR_STARTED)
.arg(use_threads);
} catch (const std::exception& ex) {
channel_.reset();
thread_pool_.reset();
isc_throw(Unexpected, "PingCheckMgr::start failed:" << ex.what());
}
}
void
PingCheckMgr::startSingleThreaded() {
try {
auto config = config_cache_->getGlobalConfig();
channel_ = createChannel(io_service_);
channel_->open();
expiration_timer_.reset(new IntervalTimer(io_service_));
LOG_INFO(ping_check_logger, PING_CHECK_MGR_STARTED_SINGLE_THREADED);
} catch (const std::exception& ex) {
channel_.reset();
isc_throw(Unexpected, "PingCheckMgr::startSingleThreaded() failed:" << ex.what());
}
}
PingChannelPtr
PingCheckMgr::createChannel(IOServicePtr io_service) {
return (PingChannelPtr(new PingChannel(io_service,
std::bind(&PingCheckMgr::nextToSend,
this, ph::_1),
std::bind(&PingCheckMgr::sendCompleted,
this, ph::_1, ph::_2),
std::bind(&PingCheckMgr::replyReceived,
this, ph::_1),
std::bind(&PingCheckMgr::channelShutdown,
this))));
}
void
PingCheckMgr::checkPermissions() {
// Since this function is used as CS callback all exceptions must be
// suppressed, unlikely though they may be.
try {
if (thread_pool_) {
thread_pool_->checkPausePermissions();
}
} catch (const isc::MultiThreadingInvalidOperation& ex) {
LOG_ERROR(ping_check_logger, PING_CHECK_PAUSE_ILLEGAL)
.arg(ex.what());
// The exception needs to be propagated to the caller of the
// @ref MultiThreadingCriticalSection constructor.
throw;
} catch (const std::exception& ex) {
LOG_ERROR(ping_check_logger, PING_CHECK_PAUSE_PERMISSIONS_FAILED)
.arg(ex.what());
}
}
void
PingCheckMgr::pause() {
if (!MultiThreadingMgr::instance().getMode()) {
return;
}
// Since this function is used as CS callback all exceptions must be
// suppressed, unlikely though they may be.
try {
// Cancel the expiration timer.
cancelExpirationTimer();
// Pause the thread pool.
if (thread_pool_) {
thread_pool_->pause();
}
} catch (const std::exception& ex) {
LOG_ERROR(ping_check_logger, PING_CHECK_PAUSE_FAILED)
.arg(ex.what());
}
}
void
PingCheckMgr::resume() {
if (!MultiThreadingMgr::instance().getMode()) {
return;
}
// Since this function is used as CS callback all exceptions must be
// suppressed, unlikely though they may be.
try {
if (thread_pool_) {
thread_pool_->run();
}
// Restore the expiration timer.
setNextExpiration();
} catch (const std::exception& ex) {
LOG_ERROR(ping_check_logger, PING_CHECK_RESUME_FAILED)
.arg(ex.what());
}
}
void
PingCheckMgr::stop() {
LOG_DEBUG(ping_check_logger, isc::log::DBGLVL_TRACE_BASIC, PING_CHECK_MGR_STOPPING);
// Cancel the expiration timer.
cancelExpirationTimer();
if (channel_) {
channel_->close();
}
if (thread_pool_) {
// Remove critical section callbacks.
MultiThreadingMgr::instance().removeCriticalSectionCallbacks("PING_CHECK");
// Stop the thread pool.
thread_pool_->stop();
thread_pool_->getIOService()->stopAndPoll();
// Ditch the thread_pool
thread_pool_.reset();
}
// Ditch the timer. It must be destroyed before the thread pool because in
// MT it holds a reference to the pool's IOService.
expiration_timer_.reset();
// Get rid of the channel.
channel_.reset();
if (io_service_) {
io_service_->stopAndPoll();
}
LOG_INFO(ping_check_logger, PING_CHECK_MGR_STOPPED);
}
bool
PingCheckMgr::isRunning() {
// In ST mode, running is an open channel.
if (!MultiThreadingMgr::instance().getMode()) {
return (channel_ && channel_->isOpen());
}
if (thread_pool_) {
return (thread_pool_->isRunning());
}
return (false);
}
bool
PingCheckMgr::isStopped() {
// In ST mode, stopped equates to no channel.
if (!MultiThreadingMgr::instance().getMode()) {
return (!channel_);
}
if (thread_pool_) {
return (thread_pool_->isStopped());
}
return (true);
}
bool
PingCheckMgr::isPaused() {
if (thread_pool_) {
return (thread_pool_->isPaused());
}
return (false);
}
void
PingCheckMgr::flush(bool finish_free /* = false */) {
if (!store_) {
return;
}
// Fetch them all.
auto contexts = store_->getAll();
for (auto const& context : *contexts) {
if (finish_free) {
finishFree(context);
} else {
auto parking_lot = context->getParkingLot();
if (parking_lot) {
parking_lot->drop(context->getQuery());
}
}
}
store_->clear();
}
} // end of namespace ping_check
} // end of namespace isc
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