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|
// dbclient.cpp - connect to a Mongo database as a database, from C++
/* Copyright 2009 10gen Inc.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include "mongo/pch.h"
#include "mongo/client/dbclient_rs.h"
#include <fstream>
#include <memory>
#include "mongo/base/init.h"
#include "mongo/bson/util/builder.h"
#include "mongo/client/connpool.h"
#include "mongo/client/dbclientcursor.h"
#include "mongo/client/sasl_client_authenticate.h"
#include "mongo/db/dbmessage.h"
#include "mongo/db/jsobj.h"
#include "mongo/db/json.h"
#include "mongo/util/background.h"
#include "mongo/util/concurrency/mutex.h" // for StaticObserver
#include "mongo/util/scopeguard.h"
#include "mongo/util/timer.h"
namespace mongo {
/* Replica Set statics:
* If a program (such as one built with the C++ driver) exits (by either calling exit()
* or by returning from main()), static objects will be destroyed in the reverse order
* of their creation (within each translation unit (source code file)). This makes it
* vital that the order be explicitly controlled within the source file so that destroyed
* objects never reference objects that have been destroyed earlier.
*
* The order chosen below is intended to allow safe destruction in reverse order from
* construction order:
* _setsLock -- mutex protecting _seedServers and _sets, destroyed last
* _seedServers -- list (map) of servers
* _sets -- list (map) of ReplicaSetMonitors
* replicaSetMonitorWatcher -- background job to check Replica Set members
* staticObserver -- sentinel to detect process termination
*
* Related to:
* SERVER-8891 -- Simple client fail with segmentation fault in mongoclient library
*/
mongo::mutex ReplicaSetMonitor::_setsLock( "ReplicaSetMonitor" );
map<string, vector<HostAndPort> > ReplicaSetMonitor::_seedServers;
map<string, ReplicaSetMonitorPtr> ReplicaSetMonitor::_sets;
// global background job responsible for checking every X amount of time
class ReplicaSetMonitorWatcher : public BackgroundJob {
public:
ReplicaSetMonitorWatcher():
_monitorMutex("ReplicaSetMonitorWatcher::_safego"),
_started(false),
_stopRequested(false) {
}
~ReplicaSetMonitorWatcher() {
stop();
// We relying on the fact that if the monitor was rerun again, wait will not hang
// because _destroyingStatics will make the run method exit immediately.
dassert(StaticObserver::_destroyingStatics);
if (running()) {
wait();
}
}
virtual string name() const { return "ReplicaSetMonitorWatcher"; }
void safeGo() {
// check outside of lock for speed
if ( _started )
return;
scoped_lock lk( _monitorMutex );
if ( _started )
return;
_started = true;
_stopRequested = false;
go();
}
/**
* Stops monitoring the sets and wait for the monitoring thread to terminate.
*/
void stop() {
scoped_lock sl( _monitorMutex );
_stopRequested = true;
_stopRequestedCV.notify_one();
}
protected:
void run() {
log() << "starting" << endl;
// Added only for patching timing problems in test. Remove after tests
// are fixed - see 392b933598668768bf12b1e41ad444aa3548d970.
// Should not be needed after SERVER-7533 gets implemented and tests start
// using it.
if (!inShutdown() && !StaticObserver::_destroyingStatics) {
scoped_lock sl( _monitorMutex );
_stopRequestedCV.timed_wait(sl.boost(), boost::posix_time::seconds(10));
}
while ( !inShutdown() &&
!StaticObserver::_destroyingStatics ) {
{
scoped_lock sl( _monitorMutex );
if (_stopRequested) {
break;
}
}
try {
ReplicaSetMonitor::checkAll();
}
catch ( std::exception& e ) {
error() << "check failed: " << e.what() << endl;
}
catch ( ... ) {
error() << "unknown error" << endl;
}
scoped_lock sl( _monitorMutex );
if (_stopRequested) {
break;
}
_stopRequestedCV.timed_wait(sl.boost(), boost::posix_time::seconds(10));
}
scoped_lock sl( _monitorMutex );
_started = false;
}
// protects _started, _stopRequested
mongo::mutex _monitorMutex;
bool _started;
boost::condition _stopRequestedCV;
bool _stopRequested;
} replicaSetMonitorWatcher;
static StaticObserver staticObserver;
/*
* Set of commands that can be used with $readPreference
*/
set<string> _secOkCmdList;
class PopulateReadPrefSecOkCmdList {
public:
PopulateReadPrefSecOkCmdList() {
_secOkCmdList.insert("aggregate");
_secOkCmdList.insert("collStats");
_secOkCmdList.insert("count");
_secOkCmdList.insert("distinct");
_secOkCmdList.insert("dbStats");
_secOkCmdList.insert("geoNear");
_secOkCmdList.insert("geoSearch");
_secOkCmdList.insert("geoWalk");
_secOkCmdList.insert("group");
}
} _populateReadPrefSecOkCmdList;
/**
* @param ns the namespace of the query.
* @param queryOptionFlags the flags for the query.
* @param queryObj the query object to check.
*
* @return true if the given query can be sent to a secondary node without taking the
* slaveOk flag into account.
*/
bool _isQueryOkToSecondary(const string& ns, int queryOptionFlags, const BSONObj& queryObj) {
if (queryOptionFlags & QueryOption_SlaveOk) {
return true;
}
if (!Query::hasReadPreference(queryObj)) {
return false;
}
if (ns.find(".$cmd") == string::npos) {
return true;
}
BSONObj actualQueryObj;
if (strcmp(queryObj.firstElement().fieldName(), "query") == 0) {
actualQueryObj = queryObj["query"].embeddedObject();
}
else {
actualQueryObj = queryObj;
}
const string cmdName = actualQueryObj.firstElementFieldName();
if (_secOkCmdList.count(cmdName) == 1) {
return true;
}
if (cmdName == "mapReduce" || cmdName == "mapreduce") {
if (!actualQueryObj.hasField("out")) {
return false;
}
BSONElement outElem(actualQueryObj["out"]);
if (outElem.isABSONObj() && outElem["inline"].trueValue()) {
return true;
}
}
return false;
}
/**
* Selects the right node given the nodes to pick from and the preference.
* This method does strict tag matching, and will not implicitly fallback
* to matching anything.
*
* @param nodes the nodes to select from
* @param readPreferenceTag the tags to use for choosing the right node
* @param secOnly never select a primary if true
* @param localThresholdMillis the exclusive upper bound of ping time to be
* considered as a local node. Local nodes are favored over non-local
* nodes if multiple nodes matches the other criteria.
* @param lastHost the last host returned (mainly used for doing round-robin).
* Will be overwritten with the newly returned host if not empty. Should
* never be NULL.
* @param isPrimarySelected out parameter that is set to true if the returned host
* is a primary.
*
* @return the host object of the node selected. If none of the nodes are
* eligible, returns an empty host. Cannot be NULL and valid only if returned
* host is not empty.
*/
HostAndPort _selectNode(const vector<ReplicaSetMonitor::Node>& nodes,
const BSONObj& readPreferenceTag,
bool secOnly,
int localThresholdMillis,
HostAndPort* lastHost /* in/out */,
bool* isPrimarySelected) {
HostAndPort fallbackHost;
// Implicit: start from index 0 if lastHost doesn't exist anymore
size_t nextNodeIndex = 0;
if (!lastHost->empty()) {
for (size_t x = 0; x < nodes.size(); x++) {
if (*lastHost == nodes[x].addr) {
nextNodeIndex = x;
break;
}
}
}
for (size_t itNode = 0; itNode < nodes.size(); ++itNode) {
nextNodeIndex = (nextNodeIndex + 1) % nodes.size();
const ReplicaSetMonitor::Node& node = nodes[nextNodeIndex];
if (!node.ok) {
LOG(2) << "dbclient_rs not selecting " << node << ", not currently ok" << endl;
continue;
}
if (secOnly && !node.okForSecondaryQueries()) {
LOG(3) << "dbclient_rs not selecting " << node
<< ", not ok for secondary queries ("
<< ( !node.secondary ? "not secondary" : "hidden" ) << ")"
<< endl;
continue;
}
if (node.matchesTag(readPreferenceTag)) {
// found an ok candidate; may not be local.
fallbackHost = node.addr;
*isPrimarySelected = node.ismaster;
if (node.isLocalSecondary(localThresholdMillis)) {
// found a local node. return early.
LOG(2) << "dbclient_rs selecting local secondary " << fallbackHost
<< ", ping time: " << node.pingTimeMillis << endl;
*lastHost = fallbackHost;
return fallbackHost;
}
}
}
if (!fallbackHost.empty()) {
*lastHost = fallbackHost;
}
if ( fallbackHost.empty() ) {
LOG(3) << "dbclient_rs no node selected for tag " << readPreferenceTag << endl;
}
else {
LOG(3) << "dbclient_rs node " << fallbackHost << " selected for tag "
<< readPreferenceTag << endl;
}
return fallbackHost;
}
/**
* Extracts the read preference settings from the query document. Note that this method
* assumes that the query is ok for secondaries so it defaults to
* ReadPreference_SecondaryPreferred when nothing is specified. Supports the following
* format:
*
* Format A (official format):
* { query: <actual query>, $readPreference: <read pref obj> }
*
* Format B (unofficial internal format from mongos):
* { <actual query>, $queryOptions: { $readPreference: <read pref obj> }}
*
* @param query the raw query document
*
* @return the read preference setting. If the tags field was not present, it will contain one
* empty tag document {} which matches any tag.
*
* @throws AssertionException if the read preference object is malformed
*/
ReadPreferenceSetting* _extractReadPref(const BSONObj& query) {
ReadPreference pref = mongo::ReadPreference_SecondaryPreferred;
if (Query::hasReadPreference(query)) {
BSONElement readPrefElement;
if (query.hasField(Query::ReadPrefField.name())) {
readPrefElement = query[Query::ReadPrefField.name()];
}
else {
readPrefElement = query["$queryOptions"][Query::ReadPrefField.name()];
}
uassert(16381, "$readPreference should be an object",
readPrefElement.isABSONObj());
const BSONObj& prefDoc = readPrefElement.Obj();
uassert(16382, "mode not specified for read preference",
prefDoc.hasField(Query::ReadPrefModeField.name()));
const string mode = prefDoc[Query::ReadPrefModeField.name()].String();
if (mode == "primary") {
pref = mongo::ReadPreference_PrimaryOnly;
}
else if (mode == "primaryPreferred") {
pref = mongo::ReadPreference_PrimaryPreferred;
}
else if (mode == "secondary") {
pref = mongo::ReadPreference_SecondaryOnly;
}
else if (mode == "secondaryPreferred") {
pref = mongo::ReadPreference_SecondaryPreferred;
}
else if (mode == "nearest") {
pref = mongo::ReadPreference_Nearest;
}
else {
uasserted(16383, str::stream() << "Unknown read preference mode: " << mode);
}
if (prefDoc.hasField(Query::ReadPrefTagsField.name())) {
const BSONElement& tagsElem = prefDoc[Query::ReadPrefTagsField.name()];
uassert(16385, "tags for read preference should be an array",
tagsElem.type() == mongo::Array);
TagSet tags(BSONArray(tagsElem.Obj().getOwned()));
if (pref == mongo::ReadPreference_PrimaryOnly && !tags.isExhausted()) {
uassert(16384, "Only empty tags are allowed with primary read preference",
tags.getCurrentTag().isEmpty());
}
return new ReadPreferenceSetting(pref, tags);
}
}
TagSet tags(BSON_ARRAY(BSONObj()));
return new ReadPreferenceSetting(pref, tags);
}
/**
* @return the connection associated with the monitor node. Will also attempt
* to establish connection if NULL or broken in background.
* Can still return NULL if reconnect failed.
*/
shared_ptr<DBClientConnection> _getConnWithRefresh( ReplicaSetMonitor::Node& node ) {
if ( node.conn.get() == NULL || !node.conn->isStillConnected() ) {
// Note: This constructor only works with MASTER connections
ConnectionString connStr( node.addr );
string errmsg;
try {
DBClientBase* conn = connStr.connect( errmsg,
ReplicaSetMonitor::SOCKET_TIMEOUT_SECS );
if ( conn == NULL ) {
node.ok = false;
node.conn.reset();
}
else {
node.conn.reset( dynamic_cast<DBClientConnection*>( conn ) );
}
}
catch ( const AssertionException& ) {
node.ok = false;
node.conn.reset();
}
}
return node.conn;
}
// --------------------------------
// ----- ReplicaSetMonitor ---------
// --------------------------------
string seedString( const vector<HostAndPort>& servers ){
string seedStr;
for ( unsigned i = 0; i < servers.size(); i++ ){
seedStr += servers[i].toString();
if( i < servers.size() - 1 ) seedStr += ",";
}
return seedStr;
}
const double ReplicaSetMonitor::SOCKET_TIMEOUT_SECS = 5;
// Must already be in _setsLock when constructing a new ReplicaSetMonitor. This is why you
// should only create ReplicaSetMonitors from ReplicaSetMonitor::get and
// ReplicaSetMonitor::createIfNeeded.
ReplicaSetMonitor::ReplicaSetMonitor( const string& name , const vector<HostAndPort>& servers )
: _lock( "ReplicaSetMonitor instance" ),
_checkConnectionLock( "ReplicaSetMonitor check connection lock" ),
_name( name ), _master(-1),
_nextSlave(0), _failedChecks(0), _localThresholdMillis(cmdLine.defaultLocalThresholdMillis) {
uassert( 13642 , "need at least 1 node for a replica set" , servers.size() > 0 );
if ( _name.size() == 0 ) {
warning() << "replica set name empty, first node: " << servers[0] << endl;
}
log() << "starting new replica set monitor for replica set " << _name << " with seed of " << seedString( servers ) << endl;
_populateHosts_inSetsLock(servers);
_seedServers.insert( pair<string, vector<HostAndPort> >(name, servers) );
log() << "replica set monitor for replica set " << _name << " started, address is " << getServerAddress() << endl;
}
// Must already be in _setsLock when destroying a ReplicaSetMonitor. This is why you should only
// delete ReplicaSetMonitors from ReplicaSetMonitor::remove.
ReplicaSetMonitor::~ReplicaSetMonitor() {
scoped_lock lk ( _lock );
_cacheServerAddresses_inlock();
pool.removeHost( _getServerAddress_inlock() );
_nodes.clear();
_master = -1;
}
void ReplicaSetMonitor::_cacheServerAddresses_inlock() {
// Save list of current set members so that the monitor can be rebuilt if needed.
vector<HostAndPort>& servers = _seedServers[_name];
servers.clear();
for ( vector<Node>::iterator it = _nodes.begin(); it < _nodes.end(); ++it ) {
servers.push_back( it->addr );
}
}
void ReplicaSetMonitor::createIfNeeded( const string& name , const vector<HostAndPort>& servers ) {
scoped_lock lk( _setsLock );
ReplicaSetMonitorPtr& m = _sets[name];
if ( ! m )
m.reset( new ReplicaSetMonitor( name , servers ) );
replicaSetMonitorWatcher.safeGo();
}
ReplicaSetMonitorPtr ReplicaSetMonitor::get( const string& name , const bool createFromSeed ) {
scoped_lock lk( _setsLock );
map<string,ReplicaSetMonitorPtr>::const_iterator i = _sets.find( name );
if ( i != _sets.end() ) {
return i->second;
}
if ( createFromSeed ) {
map<string,vector<HostAndPort> >::const_iterator j = _seedServers.find( name );
if ( j != _seedServers.end() ) {
LOG(4) << "Creating ReplicaSetMonitor from cached address" << endl;
ReplicaSetMonitorPtr& m = _sets[name];
verify( !m );
m.reset( new ReplicaSetMonitor( name, j->second ) );
replicaSetMonitorWatcher.safeGo();
return m;
}
}
return ReplicaSetMonitorPtr();
}
void ReplicaSetMonitor::getAllTrackedSets(set<string>* activeSets) {
scoped_lock lk( _setsLock );
for (map<string,ReplicaSetMonitorPtr>::const_iterator it = _sets.begin();
it != _sets.end(); ++it)
{
activeSets->insert(it->first);
}
}
void ReplicaSetMonitor::checkAll() {
set<string> seen;
while ( true ) {
ReplicaSetMonitorPtr m;
{
scoped_lock lk( _setsLock );
for ( map<string,ReplicaSetMonitorPtr>::iterator i=_sets.begin(); i!=_sets.end(); ++i ) {
string name = i->first;
if ( seen.count( name ) )
continue;
LOG(1) << "checking replica set: " << name << endl;
seen.insert( name );
m = i->second;
break;
}
}
if ( ! m )
break;
m->check();
{
scoped_lock lk( _setsLock );
if ( m->_failedChecks >= _maxFailedChecks ) {
log() << "Replica set " << m->getName() << " was down for " << m->_failedChecks
<< " checks in a row. Stopping polled monitoring of the set." << endl;
_remove_inlock( m->getName() );
}
}
}
}
void ReplicaSetMonitor::remove( const string& name, bool clearSeedCache ) {
scoped_lock lk( _setsLock );
_remove_inlock( name, clearSeedCache );
}
void ReplicaSetMonitor::_remove_inlock( const string& name, bool clearSeedCache ) {
LOG(2) << "Removing ReplicaSetMonitor for " << name << " from replica set table" << endl;
_sets.erase( name );
if ( clearSeedCache ) {
_seedServers.erase( name );
}
}
void ReplicaSetMonitor::setConfigChangeHook( ConfigChangeHook hook ) {
massert( 13610 , "ConfigChangeHook already specified" , _hook == 0 );
_hook = hook;
}
void ReplicaSetMonitor::setLocalThresholdMillis( const int millis ) {
scoped_lock lk( _lock );
_localThresholdMillis = millis;
}
string ReplicaSetMonitor::getServerAddress() const {
scoped_lock lk( _lock );
return _getServerAddress_inlock();
}
string ReplicaSetMonitor::_getServerAddress_inlock() const {
StringBuilder ss;
if ( _name.size() )
ss << _name << "/";
for ( unsigned i=0; i<_nodes.size(); i++ ) {
if ( i > 0 )
ss << ",";
_nodes[i].addr.append( ss );
}
return ss.str();
}
bool ReplicaSetMonitor::contains( const string& server ) const {
scoped_lock lk( _lock );
for ( unsigned i=0; i<_nodes.size(); i++ ) {
if ( _nodes[i].addr == server )
return true;
}
return false;
}
void ReplicaSetMonitor::notifyFailure( const HostAndPort& server ) {
scoped_lock lk( _lock );
if ( _master >= 0 && _master < (int)_nodes.size() ) {
if ( server == _nodes[_master].addr ) {
_nodes[_master].ok = false;
_master = -1;
}
}
}
HostAndPort ReplicaSetMonitor::getMaster() {
{
scoped_lock lk( _lock );
verify(_master < static_cast<int>(_nodes.size()));
if ( _master >= 0 && _nodes[_master].ok )
return _nodes[_master].addr;
}
_check();
scoped_lock lk( _lock );
uassert( 10009 , str::stream() << "ReplicaSetMonitor no master found for set: " << _name , _master >= 0 );
verify(_master < static_cast<int>(_nodes.size()));
return _nodes[_master].addr;
}
HostAndPort ReplicaSetMonitor::getSlave( const HostAndPort& prev ) {
// make sure its valid
bool wasFound = false;
bool wasMaster = false;
// This is always true, since checked in port()
verify( prev.port() >= 0 );
if( prev.host().size() ){
scoped_lock lk( _lock );
for ( unsigned i=0; i<_nodes.size(); i++ ) {
if ( prev != _nodes[i].addr )
continue;
wasFound = true;
if ( _nodes[i].okForSecondaryQueries() )
return prev;
wasMaster = _nodes[i].ok && !_nodes[i].secondary;
break;
}
}
if( prev.host().size() ){
if( wasFound ){ LOG(1) << "slave '" << prev << ( wasMaster ? "' is master node, trying to find another node" :
"' is no longer ok to use" ) << endl; }
else{ LOG(1) << "slave '" << prev << "' was not found in the replica set" << endl; }
}
else LOG(1) << "slave '" << prev << "' is not initialized or invalid" << endl;
return getSlave();
}
HostAndPort ReplicaSetMonitor::getSlave( bool preferLocal ) {
LOG(2) << "dbclient_rs getSlave " << getServerAddress() << endl;
HostAndPort fallbackNode;
scoped_lock lk( _lock );
for ( size_t itNode = 0; itNode < _nodes.size(); ++itNode ) {
_nextSlave = ( _nextSlave + 1 ) % _nodes.size();
if ( _nextSlave != _master ) {
if ( _nodes[ _nextSlave ].okForSecondaryQueries() ) {
// found an ok slave; may not be local.
fallbackNode = _nodes[ _nextSlave ].addr;
if ( ! preferLocal )
return fallbackNode;
else if ( _nodes[ _nextSlave ].isLocalSecondary( _localThresholdMillis ) ) {
// found a local slave. return early.
LOG(2) << "dbclient_rs getSlave found local secondary for queries: "
<< _nextSlave << ", ping time: "
<< _nodes[ _nextSlave ].pingTimeMillis << endl;
return fallbackNode;
}
}
else
LOG(2) << "dbclient_rs getSlave not selecting " << _nodes[_nextSlave]
<< ", not currently okForSecondaryQueries" << endl;
}
}
if ( ! fallbackNode.empty() ) {
// use a non-local secondary, even if local was preferred
LOG(1) << "dbclient_rs getSlave falling back to a non-local secondary node" << endl;
return fallbackNode;
}
massert(15899, str::stream() << "No suitable secondary found for slaveOk query"
"in replica set: " << _name, _master >= 0 &&
_master < static_cast<int>(_nodes.size()) && _nodes[_master].ok);
// Fall back to primary
LOG(1) << "dbclient_rs getSlave no member in secondary state found, "
"returning primary " << _nodes[ _master ] << endl;
return _nodes[_master].addr;
}
/**
* notify the monitor that server has failed
*/
void ReplicaSetMonitor::notifySlaveFailure( const HostAndPort& server ) {
scoped_lock lk( _lock );
int x = _find_inlock( server );
if ( x >= 0 ) {
_nodes[x].ok = false;
}
}
NodeDiff ReplicaSetMonitor::_getHostDiff_inlock( const BSONObj& hostList ){
NodeDiff diff;
set<int> nodesFound;
int index = 0;
BSONObjIterator hi( hostList );
while( hi.more() ){
string toCheck = hi.next().String();
int nodeIndex = _find_inlock( toCheck );
// Node-to-add
if( nodeIndex < 0 ) diff.first.insert( toCheck );
else nodesFound.insert( nodeIndex );
index++;
}
for( size_t i = 0; i < _nodes.size(); i++ ){
if( nodesFound.find( static_cast<int>(i) ) == nodesFound.end() ) diff.second.insert( static_cast<int>(i) );
}
return diff;
}
bool ReplicaSetMonitor::_shouldChangeHosts( const BSONObj& hostList, bool inlock ){
int origHosts = 0;
if( ! inlock ){
scoped_lock lk( _lock );
origHosts = _nodes.size();
}
else origHosts = _nodes.size();
int numHosts = 0;
bool changed = false;
BSONObjIterator hi(hostList);
while ( hi.more() ) {
string toCheck = hi.next().String();
numHosts++;
int index = 0;
if( ! inlock ) index = _find( toCheck );
else index = _find_inlock( toCheck );
if ( index >= 0 ) continue;
changed = true;
break;
}
return (changed || origHosts != numHosts) && numHosts > 0;
}
void ReplicaSetMonitor::_checkHosts( const BSONObj& hostList, bool& changed ) {
// Fast path, still requires intermittent locking
if( ! _shouldChangeHosts( hostList, false ) ){
changed = false;
return;
}
// Slow path, double-checked though
scoped_lock lk( _lock );
// Our host list may have changed while waiting for another thread in the meantime,
// so double-check here
// TODO: Do we really need this much protection, this should be pretty rare and not
// triggered from lots of threads, duping old behavior for safety
if( ! _shouldChangeHosts( hostList, true ) ){
changed = false;
return;
}
// LogLevel can be pretty low, since replica set reconfiguration should be pretty rare and
// we want to record our changes
log() << "changing hosts to " << hostList << " from " << _getServerAddress_inlock() << endl;
NodeDiff diff = _getHostDiff_inlock( hostList );
set<string> added = diff.first;
set<int> removed = diff.second;
verify( added.size() > 0 || removed.size() > 0 );
changed = true;
// Delete from the end so we don't invalidate as we delete, delete indices are ascending
for( set<int>::reverse_iterator i = removed.rbegin(), end = removed.rend(); i != end; ++i ){
log() << "erasing host " << _nodes[ *i ] << " from replica set " << this->_name << endl;
_nodes.erase( _nodes.begin() + *i );
}
// Add new nodes
for( set<string>::iterator i = added.begin(), end = added.end(); i != end; ++i ){
log() << "trying to add new host " << *i << " to replica set " << this->_name << endl;
// Connect to new node
HostAndPort host(*i);
ConnectionString connStr(host);
uassert(16530, str::stream() << "cannot create a replSet node connection that "
"is not single: " << host.toString(true),
connStr.type() == ConnectionString::MASTER ||
connStr.type() == ConnectionString::CUSTOM);
DBClientConnection* newConn = NULL;
string errmsg;
try {
// Needs to perform a dynamic_cast because we need to set the replSet
// callback. We should eventually not need this after we remove the
// callback.
newConn = dynamic_cast<DBClientConnection*>(
connStr.connect(errmsg, SOCKET_TIMEOUT_SECS));
}
catch (const AssertionException& ex) {
errmsg = ex.toString();
}
if (errmsg.empty()) {
log() << "successfully connected to new host " << *i
<< " in replica set " << this->_name << endl;
}
else {
warning() << "cannot connect to new host " << *i
<< " to replica set " << this->_name
<< ", err: " << errmsg << endl;
}
_nodes.push_back(Node(host, newConn));
}
// Invalidate the cached _master index since the _nodes structure has
// already been modified.
_master = -1;
}
bool ReplicaSetMonitor::_checkConnection( DBClientConnection* conn,
string& maybePrimary, bool verbose, int nodesOffset ) {
verify( conn );
scoped_lock lk( _checkConnectionLock );
bool isMaster = false;
bool changed = false;
bool errorOccured = false;
if ( nodesOffset >= 0 ){
scoped_lock lk( _lock );
if ( !_checkConnMatch_inlock( conn, nodesOffset )) {
/* Another thread modified _nodes -> invariant broken.
* This also implies that another thread just passed
* through here and refreshed _nodes. So no need to do
* duplicate work.
*/
return false;
}
}
try {
Timer t;
BSONObj o;
conn->isMaster( isMaster, &o );
if ( o["setName"].type() != String || o["setName"].String() != _name ) {
warning() << "node: " << conn->getServerAddress()
<< " isn't a part of set: " << _name
<< " ismaster: " << o << endl;
if ( nodesOffset >= 0 ) {
scoped_lock lk( _lock );
_nodes[nodesOffset].ok = false;
}
return false;
}
int commandTime = t.millis();
if ( nodesOffset >= 0 ) {
scoped_lock lk( _lock );
Node& node = _nodes[nodesOffset];
if (node.pingTimeMillis == 0) {
node.pingTimeMillis = commandTime;
}
else {
// update ping time with smoothed moving averaged (1/4th the delta)
node.pingTimeMillis += (commandTime - node.pingTimeMillis) / 4;
}
node.hidden = o["hidden"].trueValue();
node.secondary = o["secondary"].trueValue();
node.ismaster = o["ismaster"].trueValue();
node.ok = node.secondary || node.ismaster;
node.lastIsMaster = o.copy();
}
LOG( verbose ? 0 : 1 ) << "ReplicaSetMonitor::_checkConnection: " << conn->toString()
<< ' ' << o << endl;
// add other nodes
BSONArrayBuilder b;
if ( o["hosts"].type() == Array ) {
if ( o["primary"].type() == String )
maybePrimary = o["primary"].String();
BSONObjIterator it( o["hosts"].Obj() );
while( it.more() ) b.append( it.next() );
}
if (o.hasField("passives") && o["passives"].type() == Array) {
BSONObjIterator it( o["passives"].Obj() );
while( it.more() ) b.append( it.next() );
}
_checkHosts( b.arr(), changed);
}
catch ( std::exception& e ) {
LOG( verbose ? 0 : 1 ) << "ReplicaSetMonitor::_checkConnection: caught exception "
<< conn->toString() << ' ' << e.what() << endl;
errorOccured = true;
}
if ( errorOccured && nodesOffset >= 0 ) {
scoped_lock lk( _lock );
if (_checkConnMatch_inlock(conn, nodesOffset)) {
// Make sure _checkHosts didn't modify the _nodes structure
_nodes[nodesOffset].ok = false;
}
}
if ( changed && _hook )
_hook( this );
return isMaster;
}
void ReplicaSetMonitor::_check() {
LOG(1) << "_check : " << getServerAddress() << endl;
int newMaster = -1;
shared_ptr<DBClientConnection> nodeConn;
for ( int retry = 0; retry < 2; retry++ ) {
for ( unsigned i = 0; /* should not check while outside of lock! */ ; i++ ) {
{
scoped_lock lk( _lock );
if ( i >= _nodes.size() ) break;
nodeConn = _getConnWithRefresh(_nodes[i]);
if (nodeConn.get() == NULL) continue;
}
string maybePrimary;
if ( _checkConnection( nodeConn.get(), maybePrimary, retry, i ) ) {
scoped_lock lk( _lock );
if ( _checkConnMatch_inlock( nodeConn.get(), i )) {
newMaster = i;
if ( newMaster != _master ) {
log() << "Primary for replica set " << _name
<< " changed to " << _nodes[newMaster].addr << endl;
}
_master = i;
}
else {
/*
* Somebody modified _nodes and most likely set the new
* _master, so try again.
*/
break;
}
}
}
if ( newMaster >= 0 )
return;
sleepsecs( 1 );
}
{
warning() << "No primary detected for set " << _name << endl;
scoped_lock lk( _lock );
_master = -1;
bool hasOKNode = false;
for ( unsigned i = 0; i < _nodes.size(); i++ ) {
_nodes[i].ismaster = false;
if ( _nodes[i].ok ) {
hasOKNode = true;
}
}
if (hasOKNode) {
_failedChecks = 0;
return;
}
// None of the nodes are ok.
_failedChecks++;
log() << "All nodes for set " << _name << " are down. This has happened for " <<
_failedChecks << " checks in a row. Polling will stop after " <<
_maxFailedChecks - _failedChecks << " more failed checks" << endl;
}
}
void ReplicaSetMonitor::check() {
bool isNodeEmpty = false;
{
scoped_lock lk( _lock );
isNodeEmpty = _nodes.empty();
}
if (isNodeEmpty) {
scoped_lock lk(_setsLock);
_populateHosts_inSetsLock(_seedServers[_name]);
/* _populateHosts_inlock already refreshes _nodes so no more work
* needs to be done. If it was unsuccessful, the succeeding lines
* will also fail, so no point in trying.
*/
return;
}
// we either have no master, or the current is dead
_check();
}
int ReplicaSetMonitor::_find( const string& server ) const {
scoped_lock lk( _lock );
return _find_inlock( server );
}
int ReplicaSetMonitor::_find_inlock( const string& server ) const {
const size_t size = _nodes.size();
for ( unsigned i = 0; i < size; i++ ) {
if ( _nodes[i].addr == server ) {
return i;
}
}
return -1;
}
void ReplicaSetMonitor::appendInfo(BSONObjBuilder& bsonObjBuilder) const {
scoped_lock lk(_lock);
BSONArrayBuilder hosts(bsonObjBuilder.subarrayStart("hosts"));
for (unsigned i = 0; i < _nodes.size(); i++) {
const Node& node = _nodes[i];
/* Note: cannot use toBSON helper method due to backwards compatibility.
* In particular, toBSON method uses "isMaster" while this method
* uses "ismaster"
*/
BSONObjBuilder builder;
builder.append("addr", node.addr.toString());
builder.append("ok", node.ok);
builder.append("ismaster", node.ismaster);
builder.append("hidden", node.hidden);
builder.append("secondary", node.secondary);
builder.append("pingTimeMillis", node.pingTimeMillis);
const BSONElement& tagElem = node.lastIsMaster["tags"];
if (tagElem.ok() && tagElem.isABSONObj()) {
builder.append("tags", tagElem.Obj());
}
hosts.append(builder.obj());
}
hosts.done();
bsonObjBuilder.append("master", _master);
bsonObjBuilder.append("nextSlave", _nextSlave);
}
bool ReplicaSetMonitor::_checkConnMatch_inlock( DBClientConnection* conn,
size_t nodeOffset ) const {
return (nodeOffset < _nodes.size() &&
// Assumption: value for getServerAddress was extracted from
// HostAndPort::toString()
conn->getServerAddress() == _nodes[nodeOffset].addr.toString());
}
HostAndPort ReplicaSetMonitor::selectAndCheckNode(ReadPreference preference,
TagSet* tags,
bool* isPrimarySelected) {
HostAndPort candidate;
{
scoped_lock lk(_lock);
candidate = ReplicaSetMonitor::selectNode(_nodes, preference, tags,
_localThresholdMillis, &_lastReadPrefHost, isPrimarySelected);
}
if (candidate.empty()) {
LOG( 3 ) << "dbclient_rs no compatible nodes found, refreshing view of replica set "
<< _name << endl;
// mimic checkMaster behavior, which refreshes the local view of the replica set
_check();
tags->reset();
scoped_lock lk(_lock);
return ReplicaSetMonitor::selectNode(_nodes, preference, tags, _localThresholdMillis,
&_lastReadPrefHost, isPrimarySelected);
}
return candidate;
}
// static
HostAndPort ReplicaSetMonitor::selectNode(const std::vector<Node>& nodes,
ReadPreference preference,
TagSet* tags,
int localThresholdMillis,
HostAndPort* lastHost,
bool* isPrimarySelected) {
*isPrimarySelected = false;
switch (preference) {
case ReadPreference_PrimaryOnly:
for (vector<Node>::const_iterator iter = nodes.begin(); iter != nodes.end(); ++iter) {
if (iter->ismaster && iter->ok) {
*isPrimarySelected = true;
return iter->addr;
}
}
return HostAndPort();
case ReadPreference_PrimaryPreferred:
{
HostAndPort candidatePri = selectNode(nodes, ReadPreference_PrimaryOnly, tags,
localThresholdMillis, lastHost, isPrimarySelected);
if (!candidatePri.empty()) {
return candidatePri;
}
return selectNode(nodes, ReadPreference_SecondaryOnly, tags,
localThresholdMillis, lastHost, isPrimarySelected);
}
case ReadPreference_SecondaryOnly:
{
HostAndPort candidate;
while (!tags->isExhausted()) {
candidate = _selectNode(nodes, tags->getCurrentTag(), true, localThresholdMillis,
lastHost, isPrimarySelected);
if (candidate.empty()) {
tags->next();
}
else {
return candidate;
}
}
return candidate;
}
case ReadPreference_SecondaryPreferred:
{
HostAndPort candidateSec = selectNode(nodes, ReadPreference_SecondaryOnly, tags,
localThresholdMillis, lastHost, isPrimarySelected);
if (!candidateSec.empty()) {
return candidateSec;
}
return selectNode(nodes, ReadPreference_PrimaryOnly, tags,
localThresholdMillis, lastHost, isPrimarySelected);
}
case ReadPreference_Nearest:
{
HostAndPort candidate;
while (!tags->isExhausted()) {
candidate = _selectNode(nodes, tags->getCurrentTag(), false, localThresholdMillis,
lastHost, isPrimarySelected);
if (candidate.empty()) {
tags->next();
}
else {
return candidate;
}
}
return candidate;
}
default:
uassert( 16337, "Unknown read preference", false );
break;
}
return HostAndPort();
}
bool ReplicaSetMonitor::isHostCompatible(const HostAndPort& host,
ReadPreference readPreference,
const TagSet* tagSet) const {
scoped_lock lk(_lock);
for (vector<Node>::const_iterator iter = _nodes.begin(); iter != _nodes.end(); ++iter) {
if (iter->addr == host) {
return iter->isCompatible(readPreference, tagSet);
}
}
// host is not part of the set anymore!
return false;
}
void ReplicaSetMonitor::_populateHosts_inSetsLock(const vector<HostAndPort>& seedList){
verify(_nodes.empty());
for (vector<HostAndPort>::const_iterator iter = seedList.begin();
iter != seedList.end(); ++iter) {
// Don't check servers we have already
if (_find(*iter) >= 0) continue;
ConnectionString connStr(*iter);
scoped_ptr<DBClientConnection> conn;
uassert(16531, str::stream() << "cannot create a replSet node connection that "
"is not single: " << iter->toString(true),
connStr.type() == ConnectionString::MASTER ||
connStr.type() == ConnectionString::CUSTOM);
string errmsg;
try {
// Needs to perform a dynamic_cast because we need to set the replSet
// callback. We should eventually not need this after we remove the
// callback.
conn.reset(dynamic_cast<DBClientConnection*>(
connStr.connect(errmsg, SOCKET_TIMEOUT_SECS)));
}
catch (const AssertionException& ex) {
errmsg = ex.toString();
}
if (conn.get() != NULL && errmsg.empty()) {
log() << "successfully connected to seed " << *iter
<< " for replica set " << _name << endl;
string maybePrimary;
_checkConnection(conn.get(), maybePrimary, false, -1);
}
else {
log() << "error connecting to seed " << *iter
<< ", err: " << errmsg << endl;
}
}
// Check everything to get the first data
_check();
}
bool ReplicaSetMonitor::isAnyNodeOk() const {
scoped_lock lock(_lock);
for (vector<Node>::const_iterator iter = _nodes.begin();
iter != _nodes.end(); ++iter) {
if (iter->ok) {
return true;
}
}
return false;
}
void ReplicaSetMonitor::cleanup() {
{
scoped_lock lock(_setsLock);
_sets.clear();
_seedServers.clear();
replicaSetMonitorWatcher.stop();
}
// Join thread outside of _setsLock to avoid deadlock.
replicaSetMonitorWatcher.wait();
}
bool ReplicaSetMonitor::Node::matchesTag(const BSONObj& tag) const {
if (tag.isEmpty()) {
return true;
}
const BSONElement& myTagElem = lastIsMaster["tags"];
if (!myTagElem.isABSONObj()) {
return false;
}
const BSONObj& myTagObj = myTagElem.Obj();
for (BSONObjIterator iter(tag); iter.more();) {
const BSONElement& tagCriteria(iter.next());
const char* field = tagCriteria.fieldName();
if (!myTagObj.hasField(field) ||
!tagCriteria.valuesEqual(myTagObj[field])) {
return false;
}
}
return true;
}
bool ReplicaSetMonitor::Node::isCompatible(ReadPreference readPreference,
const TagSet* tags) const {
if (!ok) {
return false;
}
if ((readPreference == ReadPreference_SecondaryOnly ||
/* This is the original behavior for slaveOk. This can result to reading
* data back in time, but the main idea here is to avoid overloading the
* primary when secondary is available.
*/
readPreference == ReadPreference_SecondaryPreferred) &&
!okForSecondaryQueries()) {
return false;
}
if ((readPreference == ReadPreference_PrimaryOnly ||
readPreference == ReadPreference_PrimaryPreferred) &&
secondary) {
return false;
}
scoped_ptr<BSONObjIterator> bsonIter(tags->getIterator());
if (!bsonIter->more()) {
// Empty tag set
return true;
}
while (bsonIter->more()) {
const BSONElement& nextTag = bsonIter->next();
uassert(16358, "Tags should be a BSON object", nextTag.isABSONObj());
if (matchesTag(nextTag.Obj())) {
return true;
}
}
return false;
}
BSONObj ReplicaSetMonitor::Node::toBSON() const {
BSONObjBuilder builder;
builder.append( "addr", addr.toString() );
builder.append( "isMaster", ismaster );
builder.append( "secondary", secondary );
builder.append( "hidden", hidden );
const BSONElement& tagElem = lastIsMaster["tags"];
if ( tagElem.ok() && tagElem.isABSONObj() ){
builder.append( "tags", tagElem.Obj() );
}
builder.append( "ok", ok );
return builder.obj();
}
ReplicaSetMonitor::ConfigChangeHook ReplicaSetMonitor::_hook;
int ReplicaSetMonitor::_maxFailedChecks = 30; // At 1 check every 10 seconds, 30 checks takes 5 minutes
// --------------------------------
// ----- DBClientReplicaSet ---------
// --------------------------------
const size_t DBClientReplicaSet::MAX_RETRY = 3;
DBClientReplicaSet::DBClientReplicaSet( const string& name , const vector<HostAndPort>& servers, double so_timeout )
: _setName( name ), _so_timeout( so_timeout ) {
ReplicaSetMonitor::createIfNeeded( name, servers );
}
DBClientReplicaSet::~DBClientReplicaSet() {
}
ReplicaSetMonitorPtr DBClientReplicaSet::_getMonitor() const {
ReplicaSetMonitorPtr rsm = ReplicaSetMonitor::get( _setName, true );
// If you can't get a ReplicaSetMonitor then this connection isn't valid
uassert( 16340, str::stream() << "No replica set monitor active and no cached seed "
"found for set: " << _setName, rsm );
return rsm;
}
// This can't throw an exception because it is called in the destructor of ScopedDbConnection
string DBClientReplicaSet::getServerAddress() const {
ReplicaSetMonitorPtr rsm = ReplicaSetMonitor::get( _setName, true );
if ( !rsm ) {
warning() << "Trying to get server address for DBClientReplicaSet, but no "
"ReplicaSetMonitor exists for " << _setName << endl;
return str::stream() << _setName << "/" ;
}
return rsm->getServerAddress();
}
// A replica set connection is never disconnected, since it controls its own reconnection
// logic.
//
// Has the side effect of proactively clearing any cached connections which have been
// disconnected in the background.
bool DBClientReplicaSet::isStillConnected() {
if ( _master && !_master->isStillConnected() ) {
_master.reset();
_masterHost = HostAndPort();
// Don't notify monitor of bg failure, since it's not clear how long ago it happened
}
if ( _lastSlaveOkConn && !_lastSlaveOkConn->isStillConnected() ) {
_lastSlaveOkConn.reset();
_lastSlaveOkHost = HostAndPort();
// Reset read pref too, since we're re-selecting the slaveOk host anyway
_lastReadPref.reset();
// Don't notify monitor of bg failure, since it's not clear how long ago it happened
}
return true;
}
DBClientConnection * DBClientReplicaSet::checkMaster() {
ReplicaSetMonitorPtr monitor = _getMonitor();
HostAndPort h = monitor->getMaster();
if ( h == _masterHost && _master ) {
// a master is selected. let's just make sure connection didn't die
if ( ! _master->isFailed() )
return _master.get();
monitor->notifyFailure( _masterHost );
}
_masterHost = monitor->getMaster();
ConnectionString connStr(_masterHost);
string errmsg;
DBClientConnection* newConn = NULL;
try {
// Needs to perform a dynamic_cast because we need to set the replSet
// callback. We should eventually not need this after we remove the
// callback.
newConn = dynamic_cast<DBClientConnection*>(
connStr.connect(errmsg, _so_timeout));
}
catch (const AssertionException& ex) {
errmsg = ex.toString();
}
if (newConn == NULL || !errmsg.empty()) {
monitor->notifyFailure(_masterHost);
uasserted(13639, str::stream() << "can't connect to new replica set master ["
<< _masterHost.toString() << "]"
<< (errmsg.empty()? "" : ", err: ") << errmsg);
}
_master.reset(newConn);
_master->setReplSetClientCallback(this);
_auth( _master.get() );
return _master.get();
}
bool DBClientReplicaSet::checkLastHost(const ReadPreferenceSetting* readPref) {
if (_lastSlaveOkHost.empty()) {
return false;
}
ReplicaSetMonitorPtr monitor = _getMonitor();
if (_lastSlaveOkConn && _lastSlaveOkConn->isFailed()) {
invalidateLastSlaveOkCache();
return false;
}
return _lastSlaveOkConn && _lastReadPref && _lastReadPref->equals(*readPref);
}
void DBClientReplicaSet::_auth( DBClientConnection * conn ) {
for (map<string, BSONObj>::const_iterator i = _auths.begin(); i != _auths.end(); ++i) {
try {
conn->auth(i->second);
}
catch (const UserException&) {
warning() << "cached auth failed for set: " << _setName <<
" db: " << i->second[saslCommandUserSourceFieldName].str() <<
" user: " << i->second[saslCommandUserFieldName].str() << endl;
}
}
}
DBClientConnection& DBClientReplicaSet::masterConn() {
return *checkMaster();
}
DBClientConnection& DBClientReplicaSet::slaveConn() {
BSONArray emptyArray(BSON_ARRAY(BSONObj()));
TagSet tags(emptyArray);
shared_ptr<ReadPreferenceSetting> readPref(
new ReadPreferenceSetting(ReadPreference_SecondaryPreferred, tags));
DBClientConnection* conn = selectNodeUsingTags(readPref);
uassert( 16369, str::stream() << "No good nodes available for set: "
<< _getMonitor()->getName(), conn != NULL );
return *conn;
}
bool DBClientReplicaSet::connect() {
return _getMonitor()->isAnyNodeOk();
}
void DBClientReplicaSet::_auth(const BSONObj& params) {
DBClientConnection * m = checkMaster();
// first make sure it actually works
m->auth(params);
/* Also authenticate the cached secondary connection. Note that this is only
* needed when we actually have something cached and is last known to be
* working.
*/
if (_lastSlaveOkConn.get() != NULL && !_lastSlaveOkConn->isFailed()) {
try {
_lastSlaveOkConn->auth(params);
}
catch (const DBException& ex) {
LOG(1) << "Failed to authenticate secondary, clearing cached connection: "
<< causedBy(ex) << endl;
// We need to clear the cached connection because it will not match the set
// of cached username/pwd. Anything can be wrong here: user was removed in between
// authenticating to primary and secondary, user not yet replicated to secondary,
// secondary connection failed, etc.
invalidateLastSlaveOkCache();
}
}
// now that it does, we should save so that for a new node we can auth
_auths[params[saslCommandUserSourceFieldName].str()] = params.getOwned();
}
void DBClientReplicaSet::logout(const string &dbname, BSONObj& info) {
DBClientConnection* priConn = checkMaster();
priConn->logout(dbname, info);
_auths.erase(dbname);
/* Also logout the cached secondary connection. Note that this is only
* needed when we actually have something cached and is last known to be
* working.
*/
if (_lastSlaveOkConn.get() != NULL && !_lastSlaveOkConn->isFailed()) {
try {
BSONObj dummy;
_lastSlaveOkConn->logout(dbname, dummy);
}
catch (const DBException&) {
// Make sure we can't use this connection again.
verify(_lastSlaveOkConn->isFailed());
}
}
}
// ------------- simple functions -----------------
void DBClientReplicaSet::insert( const string &ns , BSONObj obj , int flags) {
checkMaster()->insert(ns, obj, flags);
}
void DBClientReplicaSet::insert( const string &ns, const vector< BSONObj >& v , int flags) {
checkMaster()->insert(ns, v, flags);
}
void DBClientReplicaSet::remove( const string &ns , Query obj , int flags ) {
checkMaster()->remove(ns, obj, flags);
}
void DBClientReplicaSet::update( const string &ns , Query query , BSONObj obj , int flags ) {
return checkMaster()->update( ns, query, obj, flags );
}
auto_ptr<DBClientCursor> DBClientReplicaSet::query(const string &ns,
Query query,
int nToReturn,
int nToSkip,
const BSONObj *fieldsToReturn,
int queryOptions,
int batchSize) {
if ( _isQueryOkToSecondary( ns, queryOptions, query.obj ) ) {
shared_ptr<ReadPreferenceSetting> readPref(_extractReadPref(query.obj));
LOG( 3 ) << "dbclient_rs query using secondary or tagged node selection in "
<< _getMonitor()->getName() << ", read pref is "
<< readPref->toBSON() << " (primary : "
<< ( _master.get() != NULL ?
_master->getServerAddress() : "[not cached]" )
<< ", lastTagged : "
<< ( _lastSlaveOkConn.get() != NULL ?
_lastSlaveOkConn->getServerAddress() : "[not cached]" )
<< ")" << endl;
for (size_t retry = 0; retry < MAX_RETRY; retry++) {
try {
DBClientConnection* conn = selectNodeUsingTags(readPref);
if (conn == NULL) {
break;
}
auto_ptr<DBClientCursor> cursor = conn->query(ns, query,
nToReturn, nToSkip, fieldsToReturn, queryOptions,
batchSize);
return checkSlaveQueryResult(cursor);
}
catch (const DBException &dbExcep) {
LOG(1) << "can't query replica set node " << _lastSlaveOkHost
<< ": " << causedBy(dbExcep) << endl;
invalidateLastSlaveOkCache();
}
}
uasserted( 16370,
str::stream() << "Failed to do query, no good nodes in "
<< _getMonitor()->getName() );
}
LOG( 3 ) << "dbclient_rs query to primary node in " << _getMonitor()->getName() << endl;
return checkMaster()->query(ns, query, nToReturn, nToSkip, fieldsToReturn,
queryOptions, batchSize);
}
BSONObj DBClientReplicaSet::findOne(const string &ns,
const Query& query,
const BSONObj *fieldsToReturn,
int queryOptions) {
if (_isQueryOkToSecondary(ns, queryOptions, query.obj)) {
shared_ptr<ReadPreferenceSetting> readPref(_extractReadPref(query.obj));
LOG( 3 ) << "dbclient_rs findOne using secondary or tagged node selection in "
<< _getMonitor()->getName() << ", read pref is "
<< readPref->toBSON() << " (primary : "
<< ( _master.get() != NULL ?
_master->getServerAddress() : "[not cached]" )
<< ", lastTagged : "
<< ( _lastSlaveOkConn.get() != NULL ?
_lastSlaveOkConn->getServerAddress() : "[not cached]" )
<< ")" << endl;
for (size_t retry = 0; retry < MAX_RETRY; retry++) {
try {
DBClientConnection* conn = selectNodeUsingTags(readPref);
if (conn == NULL) {
break;
}
return conn->findOne(ns,query,fieldsToReturn,queryOptions);
}
catch ( const DBException &dbExcep ) {
LOG(1) << "can't findone replica set node " << _lastSlaveOkHost << ": "
<< causedBy( dbExcep ) << endl;
invalidateLastSlaveOkCache();
}
}
uasserted(16379, str::stream() << "Failed to call findOne, no good nodes in "
<< _getMonitor()->getName());
}
LOG( 3 ) << "dbclient_rs findOne to primary node in " << _getMonitor()->getName()
<< endl;
return checkMaster()->findOne(ns,query,fieldsToReturn,queryOptions);
}
void DBClientReplicaSet::killCursor( long long cursorID ) {
// we should never call killCursor on a replica set connection
// since we don't know which server it belongs to
// can't assume master because of slave ok
// and can have a cursor survive a master change
verify(0);
}
void DBClientReplicaSet::isntMaster() {
log() << "got not master for: " << _masterHost << endl;
// Can't use _getMonitor because that will create a new monitor from the cached seed if
// the monitor doesn't exist.
ReplicaSetMonitorPtr monitor = ReplicaSetMonitor::get( _setName );
if ( monitor ) {
monitor->notifyFailure( _masterHost );
}
_master.reset();
}
auto_ptr<DBClientCursor> DBClientReplicaSet::checkSlaveQueryResult( auto_ptr<DBClientCursor> result ){
if ( result.get() == NULL ) return result;
BSONObj error;
bool isError = result->peekError( &error );
if( ! isError ) return result;
// We only check for "not master or secondary" errors here
// If the error code here ever changes, we need to change this code also
BSONElement code = error["code"];
if( code.isNumber() && code.Int() == 13436 /* not master or secondary */ ){
isntSecondary();
throw DBException( str::stream() << "slave " << _lastSlaveOkHost.toString()
<< " is no longer secondary", 14812 );
}
return result;
}
void DBClientReplicaSet::isntSecondary() {
log() << "slave no longer has secondary status: " << _lastSlaveOkHost << endl;
// Failover to next slave
_getMonitor()->notifySlaveFailure( _lastSlaveOkHost );
_lastSlaveOkConn.reset();
}
DBClientConnection* DBClientReplicaSet::selectNodeUsingTags(
shared_ptr<ReadPreferenceSetting> readPref) {
if (checkLastHost(readPref.get())) {
LOG( 3 ) << "dbclient_rs selecting compatible last used node " << _lastSlaveOkHost
<< endl;
return _lastSlaveOkConn.get();
}
ReplicaSetMonitorPtr monitor = _getMonitor();
bool isPrimarySelected = false;
_lastSlaveOkHost = monitor->selectAndCheckNode(readPref->pref, &readPref->tags,
&isPrimarySelected);
if ( _lastSlaveOkHost.empty() ){
LOG( 3 ) << "dbclient_rs no compatible node found" << endl;
return NULL;
}
_lastReadPref = readPref;
// Primary connection is special because it is the only connection that is
// versioned in mongos. Therefore, we have to make sure that this object
// maintains only one connection to the primary and use that connection
// every time we need to talk to the primary.
if (isPrimarySelected) {
checkMaster();
_lastSlaveOkConn = _master;
_lastSlaveOkHost = _masterHost; // implied, but still assign just to be safe
LOG( 3 ) << "dbclient_rs selecting primary node " << _lastSlaveOkHost << endl;
return _master.get();
}
string errmsg;
ConnectionString connStr(_lastSlaveOkHost);
// Needs to perform a dynamic_cast because we need to set the replSet
// callback. We should eventually not need this after we remove the
// callback.
DBClientConnection* newConn = dynamic_cast<DBClientConnection*>(
connStr.connect(errmsg, _so_timeout));
// Assert here instead of returning NULL since the contract of this method is such
// that returning NULL means none of the nodes were good, which is not the case here.
uassert(16532, str::stream() << "Failed to connect to " << _lastSlaveOkHost.toString(),
newConn != NULL);
_lastSlaveOkConn.reset(newConn);
_lastSlaveOkConn->setReplSetClientCallback(this);
_auth(_lastSlaveOkConn.get());
LOG( 3 ) << "dbclient_rs selecting node " << _lastSlaveOkHost << endl;
return _lastSlaveOkConn.get();
}
void DBClientReplicaSet::say(Message& toSend, bool isRetry, string* actualServer) {
if (!isRetry)
_lazyState = LazyState();
const int lastOp = toSend.operation();
bool slaveOk = false;
if (lastOp == dbQuery) {
// TODO: might be possible to do this faster by changing api
DbMessage dm(toSend);
QueryMessage qm(dm);
const bool slaveOk = qm.queryOptions & QueryOption_SlaveOk;
if (_isQueryOkToSecondary(qm.ns, qm.queryOptions, qm.query)) {
shared_ptr<ReadPreferenceSetting> readPref(_extractReadPref(qm.query));
LOG( 3 ) << "dbclient_rs say using secondary or tagged node selection in "
<< _getMonitor()->getName() << ", read pref is "
<< readPref->toBSON() << " (primary : "
<< ( _master.get() != NULL ?
_master->getServerAddress() : "[not cached]" )
<< ", lastTagged : "
<< ( _lastSlaveOkConn.get() != NULL ?
_lastSlaveOkConn->getServerAddress() : "[not cached]" )
<< ")" << endl;
for (size_t retry = 0; retry < MAX_RETRY; retry++) {
_lazyState._retries = retry;
try {
DBClientConnection* conn = selectNodeUsingTags(readPref);
if (conn == NULL) {
break;
}
if (actualServer != NULL) {
*actualServer = conn->getServerAddress();
}
conn->say(toSend);
_lazyState._lastOp = lastOp;
_lazyState._slaveOk = slaveOk;
_lazyState._lastClient = conn;
}
catch ( const DBException& DBExcep ) {
LOG(1) << "can't callLazy replica set node " << _lastSlaveOkHost << ": "
<< causedBy( DBExcep ) << endl;
invalidateLastSlaveOkCache();
continue;
}
return;
}
uasserted(16380, str::stream() << "Failed to call say, no good nodes in "
<< _getMonitor()->getName());
}
}
LOG( 3 ) << "dbclient_rs say to primary node in " << _getMonitor()->getName()
<< endl;
DBClientConnection* master = checkMaster();
if (actualServer)
*actualServer = master->getServerAddress();
_lazyState._lastOp = lastOp;
_lazyState._slaveOk = slaveOk;
// Don't retry requests to primary since there is only one host to try
_lazyState._retries = MAX_RETRY;
_lazyState._lastClient = master;
master->say(toSend);
return;
}
bool DBClientReplicaSet::recv( Message& m ) {
verify( _lazyState._lastClient );
// TODO: It would be nice if we could easily wrap a conn error as a result error
try {
return _lazyState._lastClient->recv( m );
}
catch( DBException& e ){
log() << "could not receive data from " << _lazyState._lastClient->toString() << causedBy( e ) << endl;
return false;
}
}
void DBClientReplicaSet::checkResponse( const char* data, int nReturned, bool* retry, string* targetHost ){
// For now, do exactly as we did before, so as not to break things. In general though, we
// should fix this so checkResponse has a more consistent contract.
if( ! retry ){
if( _lazyState._lastClient )
return _lazyState._lastClient->checkResponse( data, nReturned );
else
return checkMaster()->checkResponse( data, nReturned );
}
*retry = false;
if( targetHost && _lazyState._lastClient ) *targetHost = _lazyState._lastClient->getServerAddress();
else if (targetHost) *targetHost = "";
if( ! _lazyState._lastClient ) return;
if( nReturned != 1 && nReturned != -1 ) return;
BSONObj dataObj;
if( nReturned == 1 ) dataObj = BSONObj( data );
// Check if we should retry here
if( _lazyState._lastOp == dbQuery && _lazyState._slaveOk ){
// Check the error code for a slave not secondary error
if( nReturned == -1 ||
( hasErrField( dataObj ) && ! dataObj["code"].eoo() && dataObj["code"].Int() == 13436 ) ){
bool wasMaster = false;
if( _lazyState._lastClient == _lastSlaveOkConn.get() ){
isntSecondary();
}
else if( _lazyState._lastClient == _master.get() ){
wasMaster = true;
isntMaster();
}
else
warning() << "passed " << dataObj << " but last rs client " << _lazyState._lastClient->toString() << " is not master or secondary" << endl;
if( _lazyState._retries < 3 ){
_lazyState._retries++;
*retry = true;
}
else{
(void)wasMaster; // silence set-but-not-used warning
// verify( wasMaster );
// printStackTrace();
log() << "too many retries (" << _lazyState._retries << "), could not get data from replica set" << endl;
}
}
}
else if( _lazyState._lastOp == dbQuery ){
// slaveOk is not set, just mark the master as bad
if( nReturned == -1 ||
( hasErrField( dataObj ) && ! dataObj["code"].eoo() && dataObj["code"].Int() == 13435 ) )
{
if( _lazyState._lastClient == _master.get() ){
isntMaster();
}
}
}
}
bool DBClientReplicaSet::call(Message &toSend,
Message &response,
bool assertOk,
string * actualServer) {
const char * ns = 0;
if (toSend.operation() == dbQuery) {
// TODO: might be possible to do this faster by changing api
DbMessage dm(toSend);
QueryMessage qm(dm);
ns = qm.ns;
if (_isQueryOkToSecondary(ns, qm.queryOptions, qm.query)) {
shared_ptr<ReadPreferenceSetting> readPref(_extractReadPref(qm.query));
LOG( 3 ) << "dbclient_rs call using secondary or tagged node selection in "
<< _getMonitor()->getName() << ", read pref is "
<< readPref->toBSON() << " (primary : "
<< ( _master.get() != NULL ?
_master->getServerAddress() : "[not cached]" )
<< ", lastTagged : "
<< ( _lastSlaveOkConn.get() != NULL ?
_lastSlaveOkConn->getServerAddress() : "[not cached]" )
<< ")" << endl;
for (size_t retry = 0; retry < MAX_RETRY; retry++) {
try {
DBClientConnection* conn = selectNodeUsingTags(readPref);
if (conn == NULL) {
return false;
}
if (actualServer != NULL) {
*actualServer = conn->getServerAddress();
}
return conn->call(toSend, response, assertOk);
}
catch ( const DBException& dbExcep ) {
LOG(1) << "can't call replica set node " << _lastSlaveOkHost << ": "
<< causedBy( dbExcep ) << endl;
if ( actualServer ) *actualServer = "";
invalidateLastSlaveOkCache();
}
}
// Was not able to successfully send after max retries
return false;
}
}
LOG( 3 ) << "dbclient_rs call to primary node in " << _getMonitor()->getName() << endl;
DBClientConnection* m = checkMaster();
if ( actualServer )
*actualServer = m->getServerAddress();
if ( ! m->call( toSend , response , assertOk ) )
return false;
if ( ns ) {
QueryResult * res = (QueryResult*)response.singleData();
if ( res->nReturned == 1 ) {
BSONObj x(res->data() );
if ( str::contains( ns , "$cmd" ) ) {
if ( isNotMasterErrorString( x["errmsg"] ) )
isntMaster();
}
else {
if ( isNotMasterErrorString( getErrField( x ) ) )
isntMaster();
}
}
}
return true;
}
void DBClientReplicaSet::invalidateLastSlaveOkCache() {
/* This is not wrapped in with if (_lastSlaveOkConn && _lastSlaveOkConn->isFailed())
* because there are certain exceptions that will not make the connection be labeled
* as failed. For example, asserts 13079, 13080, 16386
*/
_getMonitor()->notifySlaveFailure(_lastSlaveOkHost);
_lastSlaveOkHost = HostAndPort();
_lastSlaveOkConn.reset();
}
TagSet::TagSet():
_isExhausted(true),
_tagIterator(new BSONArrayIteratorSorted(_tags)) {
}
TagSet::TagSet(const TagSet& other) :
_isExhausted(false),
_tags(other._tags.getOwned()),
_tagIterator(new BSONArrayIteratorSorted(_tags)) {
next();
}
TagSet::TagSet(const BSONArray& tags) :
_isExhausted(false),
_tags(tags.getOwned()),
_tagIterator(new BSONArrayIteratorSorted(_tags)) {
next();
}
void TagSet::next() {
if (_tagIterator->more()) {
const BSONElement& nextTag = _tagIterator->next();
uassert(16357, "Tags should be a BSON object", nextTag.isABSONObj());
_currentTag = nextTag.Obj();
}
else {
_isExhausted = true;
}
}
void TagSet::reset() {
_isExhausted = false;
_tagIterator.reset(new BSONArrayIteratorSorted(_tags));
next();
}
const BSONObj& TagSet::getCurrentTag() const {
verify(!_isExhausted);
return _currentTag;
}
bool TagSet::isExhausted() const {
return _isExhausted;
}
BSONObjIterator* TagSet::getIterator() const {
return new BSONObjIterator(_tags);
}
bool TagSet::equals(const TagSet& other) const {
return _tags.equal(other._tags);
}
const BSONArray& TagSet::getTagBSON() const {
return _tags;
}
string readPrefToString( ReadPreference pref ) {
switch ( pref ) {
case ReadPreference_PrimaryOnly:
return "primary only";
case ReadPreference_PrimaryPreferred:
return "primary pref";
case ReadPreference_SecondaryOnly:
return "secondary only";
case ReadPreference_SecondaryPreferred:
return "secondary pref";
case ReadPreference_Nearest:
return "nearest";
default:
return "Unknown";
}
}
BSONObj ReadPreferenceSetting::toBSON() const {
BSONObjBuilder bob;
bob.append( "pref", readPrefToString( pref ) );
bob.append( "tags", tags.getTagBSON() );
return bob.obj();
}
}
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