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/**
* Copyright (C) 2018-present MongoDB, Inc.
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the Server Side Public License, version 1,
* as published by MongoDB, Inc.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* Server Side Public License for more details.
*
* You should have received a copy of the Server Side Public License
* along with this program. If not, see
* <http://www.mongodb.com/licensing/server-side-public-license>.
*
* As a special exception, the copyright holders give permission to link the
* code of portions of this program with the OpenSSL library under certain
* conditions as described in each individual source file and distribute
* linked combinations including the program with the OpenSSL library. You
* must comply with the Server Side Public License in all respects for
* all of the code used other than as permitted herein. If you modify file(s)
* with this exception, you may extend this exception to your version of the
* file(s), but you are not obligated to do so. If you do not wish to do so,
* delete this exception statement from your version. If you delete this
* exception statement from all source files in the program, then also delete
* it in the license file.
*/
#define MONGO_LOG_DEFAULT_COMPONENT ::mongo::logger::LogComponent::kNetwork
#include "mongo/platform/basic.h"
#include "mongo/client/async_client.h"
#include <memory>
#include "mongo/bson/bsonobjbuilder.h"
#include "mongo/client/authenticate.h"
#include "mongo/client/sasl_client_authenticate.h"
#include "mongo/config.h"
#include "mongo/db/auth/sasl_command_constants.h"
#include "mongo/db/commands/test_commands_enabled.h"
#include "mongo/db/server_options.h"
#include "mongo/db/wire_version.h"
#include "mongo/executor/egress_tag_closer_manager.h"
#include "mongo/logv2/log.h"
#include "mongo/rpc/factory.h"
#include "mongo/rpc/get_status_from_command_result.h"
#include "mongo/rpc/legacy_request_builder.h"
#include "mongo/rpc/metadata/client_metadata.h"
#include "mongo/rpc/reply_interface.h"
#include "mongo/util/net/socket_utils.h"
#include "mongo/util/net/ssl_manager.h"
#include "mongo/util/version.h"
namespace mongo {
Future<AsyncDBClient::Handle> AsyncDBClient::connect(const HostAndPort& peer,
transport::ConnectSSLMode sslMode,
ServiceContext* const context,
transport::ReactorHandle reactor,
Milliseconds timeout) {
auto tl = context->getTransportLayer();
return tl->asyncConnect(peer, sslMode, std::move(reactor), timeout)
.then([peer, context](transport::SessionHandle session) {
return std::make_shared<AsyncDBClient>(peer, std::move(session), context);
});
}
BSONObj AsyncDBClient::_buildIsMasterRequest(const std::string& appName,
executor::NetworkConnectionHook* hook) {
BSONObjBuilder bob;
bob.append("isMaster", 1);
const auto versionString = VersionInfoInterface::instance().version();
ClientMetadata::serialize(appName, versionString, &bob);
if (getTestCommandsEnabled()) {
// Only include the host:port of this process in the isMaster command request if test
// commands are enabled. mongobridge uses this field to identify the process opening a
// connection to it.
StringBuilder sb;
sb << getHostNameCached() << ':' << serverGlobalParams.port;
bob.append("hostInfo", sb.str());
}
_compressorManager.clientBegin(&bob);
if (WireSpec::instance().isInternalClient) {
WireSpec::appendInternalClientWireVersion(WireSpec::instance().outgoing, &bob);
}
if (hook) {
return hook->augmentIsMasterRequest(bob.obj());
} else {
return bob.obj();
}
}
void AsyncDBClient::_parseIsMasterResponse(BSONObj request,
const std::unique_ptr<rpc::ReplyInterface>& response) {
uassert(50786,
"Expected opQuery response to isMaster",
response->getProtocol() == rpc::Protocol::kOpQuery);
auto responseBody = response->getCommandReply();
uassertStatusOK(getStatusFromCommandResult(responseBody));
auto protocolSet = uassertStatusOK(rpc::parseProtocolSetFromIsMasterReply(responseBody));
auto validateStatus =
rpc::validateWireVersion(WireSpec::instance().outgoing, protocolSet.version);
if (!validateStatus.isOK()) {
LOGV2_WARNING(23741,
"Remote host has incompatible wire version: {error}",
"Remote host has incompatible wire version",
"error"_attr = validateStatus);
uasserted(validateStatus.code(),
str::stream() << "remote host has incompatible wire version: "
<< validateStatus.reason());
}
auto& egressTagManager = executor::EgressTagCloserManager::get(_svcCtx);
// Tag outgoing connection so it can be kept open on FCV upgrade if it is not to a
// server with a lower binary version.
if (protocolSet.version.maxWireVersion >= WireSpec::instance().outgoing.maxWireVersion) {
egressTagManager.mutateTags(
_peer, [](transport::Session::TagMask tags) { return transport::Session::kKeepOpen; });
}
auto clientProtocols = rpc::computeProtocolSet(WireSpec::instance().outgoing);
invariant(clientProtocols != rpc::supports::kNone);
// Set the operation protocol
_negotiatedProtocol = uassertStatusOK(rpc::negotiate(protocolSet.protocolSet, clientProtocols));
_compressorManager.clientFinish(responseBody);
}
auth::RunCommandHook AsyncDBClient::_makeAuthRunCommandHook() {
return [this](OpMsgRequest request) {
return runCommand(std::move(request)).then([](rpc::UniqueReply reply) -> Future<BSONObj> {
auto status = getStatusFromCommandResult(reply->getCommandReply());
if (!status.isOK()) {
return status;
} else {
return reply->getCommandReply();
}
});
};
}
Future<void> AsyncDBClient::authenticate(const BSONObj& params) {
// We will only have a valid clientName if SSL is enabled.
std::string clientName;
#ifdef MONGO_CONFIG_SSL
if (getSSLManager()) {
clientName = getSSLManager()->getSSLConfiguration().clientSubjectName.toString();
}
#endif
return auth::authenticateClient(params, remote(), clientName, _makeAuthRunCommandHook());
}
Future<void> AsyncDBClient::authenticateInternal(boost::optional<std::string> mechanismHint) {
// If no internal auth information is set, don't bother trying to authenticate.
if (!auth::isInternalAuthSet()) {
return Future<void>::makeReady();
}
// We will only have a valid clientName if SSL is enabled.
std::string clientName;
#ifdef MONGO_CONFIG_SSL
if (getSSLManager()) {
clientName = getSSLManager()->getSSLConfiguration().clientSubjectName.toString();
}
#endif
return auth::authenticateInternalClient(clientName, mechanismHint, _makeAuthRunCommandHook());
}
Future<bool> AsyncDBClient::completeSpeculativeAuth(std::shared_ptr<SaslClientSession> session,
std::string authDB,
BSONObj specAuth,
auth::SpeculativeAuthType speculativeAuthType) {
if (specAuth.isEmpty()) {
// No reply could mean failed auth, or old server.
// A false reply will result in an explicit auth later.
return false;
}
if (speculativeAuthType == auth::SpeculativeAuthType::kNone) {
return Status(ErrorCodes::BadValue,
str::stream() << "Received unexpected isMaster."
<< auth::kSpeculativeAuthenticate << " reply");
}
if (speculativeAuthType == auth::SpeculativeAuthType::kAuthenticate) {
return specAuth.hasField(saslCommandUserFieldName);
}
invariant(speculativeAuthType == auth::SpeculativeAuthType::kSaslStart);
invariant(session);
return asyncSaslConversation(_makeAuthRunCommandHook(),
session,
BSON(saslContinueCommandName << 1),
specAuth,
std::move(authDB),
kSaslClientLogLevelDefault)
// Swallow failure even if the initial saslStart was okay.
// It's possible for our speculative authentication to fail
// while explicit auth succeeds if we're in a keyfile rollover state.
// The first passphrase can fail, but later ones may be okay.
.onCompletion([](Status status) { return status.isOK(); });
}
Future<void> AsyncDBClient::initWireVersion(const std::string& appName,
executor::NetworkConnectionHook* const hook) {
auto requestObj = _buildIsMasterRequest(appName, hook);
// We use a legacy request to create our ismaster request because we may
// have to communicate with servers that do not support other protocols.
auto requestMsg =
rpc::legacyRequestFromOpMsgRequest(OpMsgRequest::fromDBAndBody("admin", requestObj));
auto clkSource = _svcCtx->getFastClockSource();
auto start = clkSource->now();
auto msgId = nextMessageId();
return _call(requestMsg, msgId)
.then([msgId, this]() { return _waitForResponse(msgId); })
.then([this, requestObj, hook, clkSource, start](Message response) {
auto cmdReply = rpc::makeReply(&response);
_parseIsMasterResponse(requestObj, cmdReply);
if (hook) {
auto millis = duration_cast<Milliseconds>(clkSource->now() - start);
executor::RemoteCommandResponse cmdResp(*cmdReply, millis);
uassertStatusOK(hook->validateHost(_peer, requestObj, std::move(cmdResp)));
}
});
}
Future<void> AsyncDBClient::_call(Message request, int32_t msgId, const BatonHandle& baton) {
auto swm = _compressorManager.compressMessage(request);
if (!swm.isOK()) {
return swm.getStatus();
}
request = std::move(swm.getValue());
request.header().setId(msgId);
request.header().setResponseToMsgId(0);
#ifdef MONGO_CONFIG_SSL
if (!SSLPeerInfo::forSession(_session).isTLS) {
OpMsg::appendChecksum(&request);
}
#else
OpMsg::appendChecksum(&request);
#endif
return _session->asyncSinkMessage(request, baton);
}
Future<Message> AsyncDBClient::_waitForResponse(boost::optional<int32_t> msgId,
const BatonHandle& baton) {
return _session->asyncSourceMessage(baton).then(
[this, msgId](Message response) -> StatusWith<Message> {
uassert(50787,
"ResponseId did not match sent message ID.",
msgId ? response.header().getResponseToMsgId() == msgId : true);
if (response.operation() == dbCompressed) {
return _compressorManager.decompressMessage(response);
} else {
return response;
}
});
}
Future<rpc::UniqueReply> AsyncDBClient::runCommand(OpMsgRequest request,
const BatonHandle& baton,
bool fireAndForget) {
invariant(_negotiatedProtocol);
auto requestMsg = rpc::messageFromOpMsgRequest(*_negotiatedProtocol, std::move(request));
if (fireAndForget) {
OpMsg::setFlag(&requestMsg, OpMsg::kMoreToCome);
}
auto msgId = nextMessageId();
auto future = _call(std::move(requestMsg), msgId, baton);
if (fireAndForget) {
return std::move(future).then([msgId, this]() -> Future<rpc::UniqueReply> {
// Return a mock status OK response since we do not expect a real response.
OpMsgBuilder builder;
builder.setBody(BSON("ok" << 1));
Message responseMsg = builder.finish();
responseMsg.header().setResponseToMsgId(msgId);
responseMsg.header().setId(msgId);
return rpc::UniqueReply(responseMsg, rpc::makeReply(&responseMsg));
});
}
return std::move(future)
.then([msgId, baton, this]() { return _waitForResponse(msgId, baton); })
.then([this](Message response) -> Future<rpc::UniqueReply> {
return rpc::UniqueReply(response, rpc::makeReply(&response));
});
}
Future<executor::RemoteCommandResponse> AsyncDBClient::runCommandRequest(
executor::RemoteCommandRequest request, const BatonHandle& baton) {
auto clkSource = _svcCtx->getPreciseClockSource();
auto start = clkSource->now();
auto opMsgRequest = OpMsgRequest::fromDBAndBody(
std::move(request.dbname), std::move(request.cmdObj), std::move(request.metadata));
auto fireAndForget =
request.fireAndForgetMode == executor::RemoteCommandRequest::FireAndForgetMode::kOn;
return runCommand(std::move(opMsgRequest), baton, fireAndForget)
.then([start, clkSource, this](rpc::UniqueReply response) {
auto duration = duration_cast<Milliseconds>(clkSource->now() - start);
return executor::RemoteCommandResponse(*response, duration);
});
}
Future<executor::RemoteCommandResponse> AsyncDBClient::_continueReceiveExhaustResponse(
ClockSource::StopWatch stopwatch, boost::optional<int32_t> msgId, const BatonHandle& baton) {
return _waitForResponse(msgId, baton)
.then([stopwatch, msgId, baton, this](Message responseMsg) mutable {
bool isMoreToComeSet = OpMsg::isFlagSet(responseMsg, OpMsg::kMoreToCome);
rpc::UniqueReply response = rpc::UniqueReply(responseMsg, rpc::makeReply(&responseMsg));
auto rcResponse = executor::RemoteCommandResponse(
*response, duration_cast<Milliseconds>(stopwatch.elapsed()), isMoreToComeSet);
return rcResponse;
});
}
Future<executor::RemoteCommandResponse> AsyncDBClient::awaitExhaustCommand(
const BatonHandle& baton) {
return _continueReceiveExhaustResponse(ClockSource::StopWatch(), boost::none, baton);
}
Future<executor::RemoteCommandResponse> AsyncDBClient::runExhaustCommand(OpMsgRequest request,
const BatonHandle& baton) {
invariant(_negotiatedProtocol);
auto requestMsg = rpc::messageFromOpMsgRequest(*_negotiatedProtocol, std::move(request));
OpMsg::setFlag(&requestMsg, OpMsg::kExhaustSupported);
auto msgId = nextMessageId();
return _call(std::move(requestMsg), msgId, baton).then([msgId, baton, this]() mutable {
return _continueReceiveExhaustResponse(ClockSource::StopWatch(), msgId, baton);
});
}
Future<executor::RemoteCommandResponse> AsyncDBClient::beginExhaustCommandRequest(
executor::RemoteCommandRequest request, const BatonHandle& baton) {
auto opMsgRequest = OpMsgRequest::fromDBAndBody(
std::move(request.dbname), std::move(request.cmdObj), std::move(request.metadata));
return runExhaustCommand(std::move(opMsgRequest), baton);
}
void AsyncDBClient::cancel(const BatonHandle& baton) {
_session->cancelAsyncOperations(baton);
}
bool AsyncDBClient::isStillConnected() {
return _session->isConnected();
}
void AsyncDBClient::end() {
_session->end();
}
const HostAndPort& AsyncDBClient::remote() const {
return _peer;
}
const HostAndPort& AsyncDBClient::local() const {
return _session->local();
}
} // namespace mongo
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