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// Copyright (C) 2013-2020 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/asio_wrapper.h>
#include <dhcp_ddns/dhcp_ddns_log.h>
#include <dhcp_ddns/ncr_io.h>
#include <util/multi_threading_mgr.h>
#include <boost/algorithm/string/predicate.hpp>
#include <mutex>
namespace isc {
namespace dhcp_ddns {
using namespace isc::util;
using namespace std;
NameChangeProtocol stringToNcrProtocol(const std::string& protocol_str) {
if (boost::iequals(protocol_str, "UDP")) {
return (NCR_UDP);
}
if (boost::iequals(protocol_str, "TCP")) {
return (NCR_TCP);
}
isc_throw(BadValue,
"Invalid NameChangeRequest protocol: " << protocol_str);
}
std::string ncrProtocolToString(NameChangeProtocol protocol) {
switch (protocol) {
case NCR_UDP:
return ("UDP");
case NCR_TCP:
return ("TCP");
default:
break;
}
std::ostringstream stream;
stream << "UNKNOWN(" << protocol << ")";
return (stream.str());
}
//************************** NameChangeListener ***************************
NameChangeListener::NameChangeListener(RequestReceiveHandler&
recv_handler)
: listening_(false), io_pending_(false), recv_handler_(recv_handler) {
};
void
NameChangeListener::startListening(isc::asiolink::IOService& io_service) {
if (amListening()) {
// This amounts to a programmatic error.
isc_throw(NcrListenerError, "NameChangeListener is already listening");
}
// Call implementation dependent open.
try {
open(io_service);
} catch (const isc::Exception& ex) {
stopListening();
isc_throw(NcrListenerOpenError, "Open failed: " << ex.what());
}
// Set our status to listening.
setListening(true);
// Start the first asynchronous receive.
try {
receiveNext();
} catch (const isc::Exception& ex) {
stopListening();
isc_throw(NcrListenerReceiveError, "doReceive failed: " << ex.what());
}
}
void
NameChangeListener::receiveNext() {
io_pending_ = true;
doReceive();
}
void
NameChangeListener::stopListening() {
try {
// Call implementation dependent close.
close();
} catch (const isc::Exception &ex) {
// Swallow exceptions. If we have some sort of error we'll log
// it but we won't propagate the throw.
LOG_ERROR(dhcp_ddns_logger, DHCP_DDNS_NCR_LISTEN_CLOSE_ERROR)
.arg(ex.what());
}
// Set it false, no matter what. This allows us to at least try to
// re-open via startListening().
setListening(false);
}
void
NameChangeListener::invokeRecvHandler(const Result result,
NameChangeRequestPtr& ncr) {
// Call the registered application layer handler.
// Surround the invocation with a try-catch. The invoked handler is
// not supposed to throw, but in the event it does we will at least
// report it.
try {
io_pending_ = false;
recv_handler_(result, ncr);
} catch (const std::exception& ex) {
LOG_ERROR(dhcp_ddns_logger, DHCP_DDNS_UNCAUGHT_NCR_RECV_HANDLER_ERROR)
.arg(ex.what());
}
// Start the next IO layer asynchronous receive.
// In the event the handler above intervened and decided to stop listening
// we need to check that first.
if (amListening()) {
try {
receiveNext();
} catch (const isc::Exception& ex) {
// It is possible though unlikely, for doReceive to fail without
// scheduling the read. While, unlikely, it does mean the callback
// will not get called with a failure. A throw here would surface
// at the IOService::run (or run variant) invocation. So we will
// close the window by invoking the application handler with
// a failed result, and let the application layer sort it out.
LOG_ERROR(dhcp_ddns_logger, DHCP_DDNS_NCR_RECV_NEXT_ERROR)
.arg(ex.what());
// Call the registered application layer handler.
// Surround the invocation with a try-catch. The invoked handler is
// not supposed to throw, but in the event it does we will at least
// report it.
NameChangeRequestPtr empty;
try {
io_pending_ = false;
recv_handler_(ERROR, empty);
} catch (const std::exception& ex) {
LOG_ERROR(dhcp_ddns_logger,
DHCP_DDNS_UNCAUGHT_NCR_RECV_HANDLER_ERROR)
.arg(ex.what());
}
}
}
}
//************************* NameChangeSender ******************************
NameChangeSender::NameChangeSender(RequestSendHandler& send_handler,
size_t send_queue_max)
: sending_(false), send_handler_(send_handler),
send_queue_max_(send_queue_max), io_service_(NULL), mutex_(new mutex) {
// Queue size must be big enough to hold at least 1 entry.
setQueueMaxSize(send_queue_max);
}
void
NameChangeSender::startSending(isc::asiolink::IOService& io_service) {
if (amSending()) {
// This amounts to a programmatic error.
isc_throw(NcrSenderError, "NameChangeSender is already sending");
}
// Call implementation dependent open.
try {
if (MultiThreadingMgr::instance().getMode()) {
lock_guard<mutex> lock(*mutex_);
startSendingInternal(io_service);
} else {
startSendingInternal(io_service);
}
} catch (const isc::Exception& ex) {
stopSending();
isc_throw(NcrSenderOpenError, "Open failed: " << ex.what());
}
}
void
NameChangeSender::startSendingInternal(isc::asiolink::IOService& io_service) {
// Clear send marker.
ncr_to_send_.reset();
// Remember io service we're given.
io_service_ = &io_service;
open(io_service);
// Set our status to sending.
setSending(true);
// If there's any queued already.. we'll start sending.
sendNext();
}
void
NameChangeSender::stopSending() {
// Set it send indicator to false, no matter what. This allows us to at
// least try to re-open via startSending(). Also, setting it false now,
// allows us to break sendNext() chain in invokeSendHandler.
setSending(false);
// If there is an outstanding IO to complete, attempt to process it.
if (ioReady() && io_service_ != NULL) {
try {
runReadyIO();
} catch (const std::exception& ex) {
// Swallow exceptions. If we have some sort of error we'll log
// it but we won't propagate the throw.
LOG_ERROR(dhcp_ddns_logger,
DHCP_DDNS_NCR_FLUSH_IO_ERROR).arg(ex.what());
}
}
try {
// Call implementation dependent close.
close();
} catch (const isc::Exception &ex) {
// Swallow exceptions. If we have some sort of error we'll log
// it but we won't propagate the throw.
LOG_ERROR(dhcp_ddns_logger,
DHCP_DDNS_NCR_SEND_CLOSE_ERROR).arg(ex.what());
}
io_service_ = NULL;
}
void
NameChangeSender::sendRequest(NameChangeRequestPtr& ncr) {
if (!amSending()) {
isc_throw(NcrSenderError, "sender is not ready to send");
}
if (!ncr) {
isc_throw(NcrSenderError, "request to send is empty");
}
if (MultiThreadingMgr::instance().getMode()) {
lock_guard<mutex> lock(*mutex_);
sendRequestInternal(ncr);
} else {
sendRequestInternal(ncr);
}
}
void
NameChangeSender::sendRequestInternal(NameChangeRequestPtr& ncr) {
if (send_queue_.size() >= send_queue_max_) {
isc_throw(NcrSenderQueueFull,
"send queue has reached maximum capacity: "
<< send_queue_max_);
}
// Put it on the queue.
send_queue_.push_back(ncr);
// Call sendNext to schedule the next one to go.
sendNext();
}
void
NameChangeSender::sendNext() {
if (ncr_to_send_) {
// @todo Not sure if there is any risk of getting stuck here but
// an interval timer to defend would be good.
// In reality, the derivation should ensure they timeout themselves
return;
}
// If queue isn't empty, then get one from the front. Note we leave
// it on the front of the queue until we successfully send it.
if (!send_queue_.empty()) {
ncr_to_send_ = send_queue_.front();
// @todo start defense timer
// If a send were to hang and we timed it out, then timeout
// handler need to cycle thru open/close ?
// Call implementation dependent send.
doSend(ncr_to_send_);
}
}
void
NameChangeSender::invokeSendHandler(const NameChangeSender::Result result) {
if (MultiThreadingMgr::instance().getMode()) {
lock_guard<mutex> lock(*mutex_);
invokeSendHandlerInternal(result);
} else {
invokeSendHandlerInternal(result);
}
}
void
NameChangeSender::invokeSendHandlerInternal(const NameChangeSender::Result result) {
// @todo reset defense timer
if (result == SUCCESS) {
// It shipped so pull it off the queue.
send_queue_.pop_front();
}
// Invoke the completion handler passing in the result and a pointer
// the request involved.
// Surround the invocation with a try-catch. The invoked handler is
// not supposed to throw, but in the event it does we will at least
// report it.
try {
send_handler_(result, ncr_to_send_);
} catch (const std::exception& ex) {
LOG_ERROR(dhcp_ddns_logger, DHCP_DDNS_UNCAUGHT_NCR_SEND_HANDLER_ERROR)
.arg(ex.what());
}
// Clear the pending ncr pointer.
ncr_to_send_.reset();
// Set up the next send
try {
if (amSending()) {
sendNext();
}
} catch (const isc::Exception& ex) {
// It is possible though unlikely, for sendNext to fail without
// scheduling the send. While, unlikely, it does mean the callback
// will not get called with a failure. A throw here would surface
// at the IOService::run (or run variant) invocation. So we will
// close the window by invoking the application handler with
// a failed result, and let the application layer sort it out.
LOG_ERROR(dhcp_ddns_logger, DHCP_DDNS_NCR_SEND_NEXT_ERROR)
.arg(ex.what());
// Invoke the completion handler passing in failed result.
// Surround the invocation with a try-catch. The invoked handler is
// not supposed to throw, but in the event it does we will at least
// report it.
try {
send_handler_(ERROR, ncr_to_send_);
} catch (const std::exception& ex) {
LOG_ERROR(dhcp_ddns_logger,
DHCP_DDNS_UNCAUGHT_NCR_SEND_HANDLER_ERROR).arg(ex.what());
}
}
}
void
NameChangeSender::skipNext() {
if (MultiThreadingMgr::instance().getMode()) {
lock_guard<mutex> lock(*mutex_);
skipNextInternal();
} else {
skipNextInternal();
}
}
void
NameChangeSender::skipNextInternal() {
if (!send_queue_.empty()) {
// Discards the request at the front of the queue.
send_queue_.pop_front();
}
}
void
NameChangeSender::clearSendQueue() {
if (amSending()) {
isc_throw(NcrSenderError, "Cannot clear queue while sending");
}
if (MultiThreadingMgr::instance().getMode()) {
lock_guard<mutex> lock(*mutex_);
send_queue_.clear();
} else {
send_queue_.clear();
}
}
void
NameChangeSender::setQueueMaxSize(const size_t new_max) {
if (new_max == 0) {
isc_throw(NcrSenderError, "NameChangeSender:"
" queue size must be greater than zero");
}
send_queue_max_ = new_max;
}
size_t
NameChangeSender::getQueueSize() const {
if (MultiThreadingMgr::instance().getMode()) {
lock_guard<mutex> lock(*mutex_);
return (getQueueSizeInternal());
} else {
return (getQueueSizeInternal());
}
}
size_t
NameChangeSender::getQueueSizeInternal() const {
return (send_queue_.size());
}
const NameChangeRequestPtr&
NameChangeSender::peekAt(const size_t index) const {
if (MultiThreadingMgr::instance().getMode()) {
lock_guard<mutex> lock(*mutex_);
return (peekAtInternal(index));
} else {
return (peekAtInternal(index));
}
}
const NameChangeRequestPtr&
NameChangeSender::peekAtInternal(const size_t index) const {
auto size = getQueueSizeInternal();
if (index >= size) {
isc_throw(NcrSenderError,
"NameChangeSender::peekAt peek beyond end of queue attempted"
<< " index: " << index << " queue size: " << size);
}
return (send_queue_.at(index));
}
bool
NameChangeSender::isSendInProgress() const {
if (MultiThreadingMgr::instance().getMode()) {
lock_guard<mutex> lock(*mutex_);
return ((ncr_to_send_) ? true : false);
} else {
return ((ncr_to_send_) ? true : false);
}
}
void
NameChangeSender::assumeQueue(NameChangeSender& source_sender) {
if (source_sender.amSending()) {
isc_throw(NcrSenderError, "Cannot assume queue:"
" source sender is actively sending");
}
if (amSending()) {
isc_throw(NcrSenderError, "Cannot assume queue:"
" target sender is actively sending");
}
if (getQueueMaxSize() < source_sender.getQueueSize()) {
isc_throw(NcrSenderError, "Cannot assume queue:"
" source queue count exceeds target queue max");
}
if (MultiThreadingMgr::instance().getMode()) {
lock_guard<mutex> lock(*mutex_);
assumeQueueInternal(source_sender);
} else {
assumeQueueInternal(source_sender);
}
}
void
NameChangeSender::assumeQueueInternal(NameChangeSender& source_sender) {
if (!send_queue_.empty()) {
isc_throw(NcrSenderError, "Cannot assume queue:"
" target queue is not empty");
}
send_queue_.swap(source_sender.getSendQueue());
}
int
NameChangeSender::getSelectFd() {
isc_throw(NotImplemented, "NameChangeSender::getSelectFd is not supported");
}
void
NameChangeSender::runReadyIO() {
if (!io_service_) {
isc_throw(NcrSenderError, "NameChangeSender::runReadyIO"
" sender io service is null");
}
// We shouldn't be here if IO isn't ready to execute.
// By running poll we're guaranteed not to hang.
/// @todo Trac# 3325 requests that asiolink::IOService provide a
/// wrapper for poll().
io_service_->get_io_service().poll_one();
}
} // namespace dhcp_ddns
} // namespace isc
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