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// Copyright (C) 2017-2022 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 <http/connection.h>
#include <http/connection_pool.h>
#include <http/http_log.h>
#include <http/http_messages.h>
#include <boost/make_shared.hpp>
#include <functional>
using namespace isc::asiolink;
namespace ph = std::placeholders;
namespace {
/// @brief Maximum size of the HTTP message that can be logged.
///
/// The part of the HTTP message beyond this value is truncated.
constexpr size_t MAX_LOGGED_MESSAGE_SIZE = 1024;
}
namespace isc {
namespace http {
HttpConnection::Transaction::Transaction(const HttpResponseCreatorPtr& response_creator,
const HttpRequestPtr& request)
: request_(request ? request : response_creator->createNewHttpRequest()),
parser_(new HttpRequestParser(*request_)),
input_buf_(),
output_buf_() {
parser_->initModel();
}
HttpConnection::TransactionPtr
HttpConnection::Transaction::create(const HttpResponseCreatorPtr& response_creator) {
return (boost::make_shared<Transaction>(response_creator));
}
HttpConnection::TransactionPtr
HttpConnection::Transaction::spawn(const HttpResponseCreatorPtr& response_creator,
const TransactionPtr& transaction) {
if (transaction) {
return (boost::make_shared<Transaction>(response_creator,
transaction->getRequest()));
}
return (create(response_creator));
}
void
HttpConnection::
SocketCallback::operator()(boost::system::error_code ec, size_t length) {
if (ec.value() == boost::asio::error::operation_aborted) {
return;
}
callback_(ec, length);
}
HttpConnection::HttpConnection(asiolink::IOService& io_service,
const HttpAcceptorPtr& acceptor,
const TlsContextPtr& tls_context,
HttpConnectionPool& connection_pool,
const HttpResponseCreatorPtr& response_creator,
const HttpAcceptorCallback& callback,
const long request_timeout,
const long idle_timeout)
: request_timer_(io_service),
request_timeout_(request_timeout),
tls_context_(tls_context),
idle_timeout_(idle_timeout),
tcp_socket_(),
tls_socket_(),
acceptor_(acceptor),
connection_pool_(connection_pool),
response_creator_(response_creator),
acceptor_callback_(callback) {
if (!tls_context) {
tcp_socket_.reset(new asiolink::TCPSocket<SocketCallback>(io_service));
} else {
tls_socket_.reset(new asiolink::TLSSocket<SocketCallback>(io_service,
tls_context));
}
}
HttpConnection::~HttpConnection() {
close();
}
void
HttpConnection::recordParameters(const HttpRequestPtr& request) const {
if (!request) {
// Should never happen.
return;
}
// Record the remote address.
request->setRemote(getRemoteEndpointAddressAsText());
// Record TLS parameters.
if (!tls_socket_) {
return;
}
// The connection uses HTTPS aka HTTP over TLS.
request->setTls(true);
// Record the first commonName of the subjectName of the client
// certificate when wanted.
if (HttpRequest::recordSubject_) {
request->setSubject(tls_socket_->getTlsStream().getSubject());
}
// Record the first commonName of the issuerName of the client
// certificate when wanted.
if (HttpRequest::recordIssuer_) {
request->setIssuer(tls_socket_->getTlsStream().getIssuer());
}
}
void
HttpConnection::shutdownCallback(const boost::system::error_code&) {
tls_socket_->close();
}
void
HttpConnection::shutdown() {
request_timer_.cancel();
if (tcp_socket_) {
tcp_socket_->close();
return;
}
if (tls_socket_) {
// Create instance of the callback to close the socket.
SocketCallback cb(std::bind(&HttpConnection::shutdownCallback,
shared_from_this(),
ph::_1)); // error_code
tls_socket_->shutdown(cb);
return;
}
// Not reachable?
isc_throw(Unexpected, "internal error: unable to shutdown the socket");
}
void
HttpConnection::close() {
request_timer_.cancel();
if (tcp_socket_) {
tcp_socket_->close();
return;
}
if (tls_socket_) {
tls_socket_->close();
return;
}
// Not reachable?
isc_throw(Unexpected, "internal error: unable to close the socket");
}
void
HttpConnection::shutdownConnection() {
try {
LOG_DEBUG(http_logger, isc::log::DBGLVL_TRACE_BASIC,
HTTP_CONNECTION_SHUTDOWN)
.arg(getRemoteEndpointAddressAsText());
connection_pool_.shutdown(shared_from_this());
} catch (...) {
LOG_ERROR(http_logger, HTTP_CONNECTION_SHUTDOWN_FAILED);
}
}
void
HttpConnection::stopThisConnection() {
try {
LOG_DEBUG(http_logger, isc::log::DBGLVL_TRACE_BASIC,
HTTP_CONNECTION_STOP)
.arg(getRemoteEndpointAddressAsText());
connection_pool_.stop(shared_from_this());
} catch (...) {
LOG_ERROR(http_logger, HTTP_CONNECTION_STOP_FAILED);
}
}
void
HttpConnection::asyncAccept() {
// Create instance of the callback. It is safe to pass the local instance
// of the callback, because the underlying boost functions make copies
// as needed.
HttpAcceptorCallback cb = std::bind(&HttpConnection::acceptorCallback,
shared_from_this(),
ph::_1); // error
try {
HttpsAcceptorPtr tls_acceptor =
boost::dynamic_pointer_cast<HttpsAcceptor>(acceptor_);
if (!tls_acceptor) {
if (!tcp_socket_) {
isc_throw(Unexpected, "internal error: TCP socket is null");
}
acceptor_->asyncAccept(*tcp_socket_, cb);
} else {
if (!tls_socket_) {
isc_throw(Unexpected, "internal error: TLS socket is null");
}
tls_acceptor->asyncAccept(*tls_socket_, cb);
}
} catch (const std::exception& ex) {
isc_throw(HttpConnectionError, "unable to start accepting TCP "
"connections: " << ex.what());
}
}
void
HttpConnection::doHandshake() {
// Skip the handshake if the socket is not a TLS one.
if (!tls_socket_) {
doRead();
return;
}
// Create instance of the callback. It is safe to pass the local instance
// of the callback, because the underlying boost functions make copies
// as needed.
SocketCallback cb(std::bind(&HttpConnection::handshakeCallback,
shared_from_this(),
ph::_1)); // error
try {
tls_socket_->handshake(cb);
} catch (const std::exception& ex) {
isc_throw(HttpConnectionError, "unable to perform TLS handshake: "
<< ex.what());
}
}
void
HttpConnection::doRead(TransactionPtr transaction) {
try {
TCPEndpoint endpoint;
// Transaction hasn't been created if we are starting to read the
// new request.
if (!transaction) {
transaction = Transaction::create(response_creator_);
recordParameters(transaction->getRequest());
}
// Create instance of the callback. It is safe to pass the local instance
// of the callback, because the underlying std functions make copies
// as needed.
SocketCallback cb(std::bind(&HttpConnection::socketReadCallback,
shared_from_this(),
transaction,
ph::_1, // error
ph::_2)); //bytes_transferred
if (tcp_socket_) {
tcp_socket_->asyncReceive(static_cast<void*>(transaction->getInputBufData()),
transaction->getInputBufSize(),
0, &endpoint, cb);
return;
}
if (tls_socket_) {
tls_socket_->asyncReceive(static_cast<void*>(transaction->getInputBufData()),
transaction->getInputBufSize(),
0, &endpoint, cb);
return;
}
} catch (...) {
stopThisConnection();
}
}
void
HttpConnection::doWrite(HttpConnection::TransactionPtr transaction) {
try {
if (transaction->outputDataAvail()) {
// Create instance of the callback. It is safe to pass the local instance
// of the callback, because the underlying std functions make copies
// as needed.
SocketCallback cb(std::bind(&HttpConnection::socketWriteCallback,
shared_from_this(),
transaction,
ph::_1, // error
ph::_2)); // bytes_transferred
if (tcp_socket_) {
tcp_socket_->asyncSend(transaction->getOutputBufData(),
transaction->getOutputBufSize(),
cb);
return;
}
if (tls_socket_) {
tls_socket_->asyncSend(transaction->getOutputBufData(),
transaction->getOutputBufSize(),
cb);
return;
}
} else {
// The isPersistent() function may throw if the request hasn't
// been created, i.e. the HTTP headers weren't parsed. We catch
// this exception below and close the connection since we're
// unable to tell if the connection should remain persistent
// or not. The default is to close it.
if (!transaction->getRequest()->isPersistent()) {
stopThisConnection();
} else {
// The connection is persistent and we are done sending
// the previous response. Start listening for the next
// requests.
setupIdleTimer();
doRead();
}
}
} catch (...) {
stopThisConnection();
}
}
void
HttpConnection::asyncSendResponse(const ConstHttpResponsePtr& response,
TransactionPtr transaction) {
transaction->setOutputBuf(response->toString());
doWrite(transaction);
}
void
HttpConnection::acceptorCallback(const boost::system::error_code& ec) {
if (!acceptor_->isOpen()) {
return;
}
if (ec) {
stopThisConnection();
}
acceptor_callback_(ec);
if (!ec) {
if (!tls_context_) {
LOG_DEBUG(http_logger, isc::log::DBGLVL_TRACE_DETAIL,
HTTP_REQUEST_RECEIVE_START)
.arg(getRemoteEndpointAddressAsText())
.arg(static_cast<unsigned>(request_timeout_/1000));
} else {
LOG_DEBUG(http_logger, isc::log::DBGLVL_TRACE_DETAIL,
HTTP_CONNECTION_HANDSHAKE_START)
.arg(getRemoteEndpointAddressAsText())
.arg(static_cast<unsigned>(request_timeout_/1000));
}
setupRequestTimer();
doHandshake();
}
}
void
HttpConnection::handshakeCallback(const boost::system::error_code& ec) {
if (ec) {
LOG_INFO(http_logger, HTTP_CONNECTION_HANDSHAKE_FAILED)
.arg(getRemoteEndpointAddressAsText())
.arg(ec.message());
stopThisConnection();
} else {
LOG_DEBUG(http_logger, isc::log::DBGLVL_TRACE_DETAIL,
HTTPS_REQUEST_RECEIVE_START)
.arg(getRemoteEndpointAddressAsText());
doRead();
}
}
void
HttpConnection::socketReadCallback(HttpConnection::TransactionPtr transaction,
boost::system::error_code ec, size_t length) {
if (ec) {
// IO service has been stopped and the connection is probably
// going to be shutting down.
if (ec.value() == boost::asio::error::operation_aborted) {
return;
// EWOULDBLOCK and EAGAIN are special cases. Everything else is
// treated as fatal error.
} else if ((ec.value() != boost::asio::error::try_again) &&
(ec.value() != boost::asio::error::would_block)) {
stopThisConnection();
// We got EWOULDBLOCK or EAGAIN which indicate that we may be able to
// read something from the socket on the next attempt. Just make sure
// we don't try to read anything now in case there is any garbage
// passed in length.
} else {
length = 0;
}
}
// Receiving is in progress, so push back the timeout.
setupRequestTimer(transaction);
if (length != 0) {
LOG_DEBUG(http_logger, isc::log::DBGLVL_TRACE_DETAIL_DATA,
HTTP_DATA_RECEIVED)
.arg(length)
.arg(getRemoteEndpointAddressAsText());
transaction->getParser()->postBuffer(static_cast<void*>(transaction->getInputBufData()),
length);
transaction->getParser()->poll();
}
if (transaction->getParser()->needData()) {
// The parser indicates that the some part of the message being
// received is still missing, so continue to read.
doRead(transaction);
} else {
try {
// The whole message has been received, so let's finalize it.
transaction->getRequest()->finalize();
LOG_DEBUG(http_logger, isc::log::DBGLVL_TRACE_BASIC,
HTTP_CLIENT_REQUEST_RECEIVED)
.arg(getRemoteEndpointAddressAsText());
LOG_DEBUG(http_logger, isc::log::DBGLVL_TRACE_BASIC_DATA,
HTTP_CLIENT_REQUEST_RECEIVED_DETAILS)
.arg(getRemoteEndpointAddressAsText())
.arg(transaction->getParser()->getBufferAsString(MAX_LOGGED_MESSAGE_SIZE));
} catch (const std::exception& ex) {
LOG_DEBUG(http_logger, isc::log::DBGLVL_TRACE_BASIC,
HTTP_BAD_CLIENT_REQUEST_RECEIVED)
.arg(getRemoteEndpointAddressAsText())
.arg(ex.what());
LOG_DEBUG(http_logger, isc::log::DBGLVL_TRACE_BASIC_DATA,
HTTP_BAD_CLIENT_REQUEST_RECEIVED_DETAILS)
.arg(getRemoteEndpointAddressAsText())
.arg(transaction->getParser()->getBufferAsString(MAX_LOGGED_MESSAGE_SIZE));
}
// Don't want to timeout if creation of the response takes long.
request_timer_.cancel();
// Create the response from the received request using the custom
// response creator.
HttpResponsePtr response = response_creator_->createHttpResponse(transaction->getRequest());
LOG_DEBUG(http_logger, isc::log::DBGLVL_TRACE_BASIC,
HTTP_SERVER_RESPONSE_SEND)
.arg(response->toBriefString())
.arg(getRemoteEndpointAddressAsText());
LOG_DEBUG(http_logger, isc::log::DBGLVL_TRACE_BASIC_DATA,
HTTP_SERVER_RESPONSE_SEND_DETAILS)
.arg(getRemoteEndpointAddressAsText())
.arg(HttpMessageParserBase::logFormatHttpMessage(response->toString(),
MAX_LOGGED_MESSAGE_SIZE));
// Response created. Activate the timer again.
setupRequestTimer(transaction);
// Start sending the response.
asyncSendResponse(response, transaction);
}
}
void
HttpConnection::socketWriteCallback(HttpConnection::TransactionPtr transaction,
boost::system::error_code ec, size_t length) {
if (ec) {
// IO service has been stopped and the connection is probably
// going to be shutting down.
if (ec.value() == boost::asio::error::operation_aborted) {
return;
// EWOULDBLOCK and EAGAIN are special cases. Everything else is
// treated as fatal error.
} else if ((ec.value() != boost::asio::error::try_again) &&
(ec.value() != boost::asio::error::would_block)) {
stopThisConnection();
// We got EWOULDBLOCK or EAGAIN which indicate that we may be able to
// read something from the socket on the next attempt.
} else {
// Sending is in progress, so push back the timeout.
setupRequestTimer(transaction);
doWrite(transaction);
}
}
// Since each transaction has its own output buffer, it is not really
// possible that the number of bytes written is larger than the size
// of the buffer. But, let's be safe and set the length to the size
// of the buffer if that unexpected condition occurs.
if (length > transaction->getOutputBufSize()) {
length = transaction->getOutputBufSize();
}
if (length <= transaction->getOutputBufSize()) {
// Sending is in progress, so push back the timeout.
setupRequestTimer(transaction);
}
// Eat the 'length' number of bytes from the output buffer and only
// leave the part of the response that hasn't been sent.
transaction->consumeOutputBuf(length);
// Schedule the write of the unsent data.
doWrite(transaction);
}
void
HttpConnection::setupRequestTimer(TransactionPtr transaction) {
// Pass raw pointer rather than shared_ptr to this object,
// because IntervalTimer already passes shared pointer to the
// IntervalTimerImpl to make sure that the callback remains
// valid.
request_timer_.setup(std::bind(&HttpConnection::requestTimeoutCallback,
this, transaction),
request_timeout_, IntervalTimer::ONE_SHOT);
}
void
HttpConnection::setupIdleTimer() {
request_timer_.setup(std::bind(&HttpConnection::idleTimeoutCallback,
this),
idle_timeout_, IntervalTimer::ONE_SHOT);
}
void
HttpConnection::requestTimeoutCallback(TransactionPtr transaction) {
LOG_DEBUG(http_logger, isc::log::DBGLVL_TRACE_DETAIL,
HTTP_CLIENT_REQUEST_TIMEOUT_OCCURRED)
.arg(getRemoteEndpointAddressAsText());
// We need to differentiate the transactions between a normal response and the
// timeout. We create new transaction from the current transaction. It is
// to preserve the request we're responding to.
auto spawned_transaction = Transaction::spawn(response_creator_, transaction);
// The new transaction inherits the request from the original transaction
// if such transaction exists.
auto request = spawned_transaction->getRequest();
// Depending on when the timeout occurred, the HTTP version of the request
// may or may not be available. Therefore we check if the HTTP version is
// set in the request. If it is not available, we need to create a dummy
// request with the default HTTP/1.0 version. This version will be used
// in the response.
if (request->context()->http_version_major_ == 0) {
request.reset(new HttpRequest(HttpRequest::Method::HTTP_POST, "/",
HttpVersion::HTTP_10(),
HostHttpHeader("dummy")));
request->finalize();
}
// Create the timeout response.
HttpResponsePtr response =
response_creator_->createStockHttpResponse(request,
HttpStatusCode::REQUEST_TIMEOUT);
// Send the HTTP 408 status.
asyncSendResponse(response, spawned_transaction);
}
void
HttpConnection::idleTimeoutCallback() {
LOG_DEBUG(http_logger, isc::log::DBGLVL_TRACE_DETAIL,
HTTP_IDLE_CONNECTION_TIMEOUT_OCCURRED)
.arg(getRemoteEndpointAddressAsText());
// In theory we should shutdown first and stop/close after but
// it is better to put the connection management responsibility
// on the client... so simply drop idle connections.
stopThisConnection();
}
std::string
HttpConnection::getRemoteEndpointAddressAsText() const {
try {
if (tcp_socket_) {
if (tcp_socket_->getASIOSocket().is_open()) {
return (tcp_socket_->getASIOSocket().remote_endpoint().address().to_string());
}
} else if (tls_socket_) {
if (tls_socket_->getASIOSocket().is_open()) {
return (tls_socket_->getASIOSocket().remote_endpoint().address().to_string());
}
}
} catch (...) {
}
return ("(unknown address)");
}
} // end of namespace isc::http
} // end of namespace isc
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