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|
// @file d_split.cpp
/**
* Copyright (C) 2008 10gen Inc.
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Affero General Public License, version 3,
* as published by the Free Software Foundation.
*
* 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
* GNU Affero General Public License for more details.
*
* You should have received a copy of the GNU Affero General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*
* 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 GNU Affero General 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.
*/
#include "mongo/pch.h"
#include <map>
#include <string>
#include <vector>
#include "mongo/client/connpool.h"
#include "mongo/client/dbclientcursor.h"
#include "mongo/client/distlock.h"
#include "mongo/db/auth/action_set.h"
#include "mongo/db/auth/action_type.h"
#include "mongo/db/auth/privilege.h"
#include "mongo/db/auth/authorization_manager.h"
#include "mongo/db/clientcursor.h"
#include "mongo/db/commands.h"
#include "mongo/db/index_legacy.h"
#include "mongo/db/instance.h"
#include "mongo/db/jsobj.h"
#include "mongo/db/query/internal_plans.h"
#include "mongo/s/chunk.h" // for static genID only
#include "mongo/s/chunk_version.h"
#include "mongo/s/config.h"
#include "mongo/s/d_logic.h"
#include "mongo/s/type_chunk.h"
#include "mongo/util/timer.h"
namespace mongo {
class CmdMedianKey : public Command {
public:
CmdMedianKey() : Command( "medianKey" ) {}
virtual bool slaveOk() const { return true; }
virtual LockType locktype() const { return NONE; }
virtual void help( stringstream &help ) const {
help << "Deprecated internal command. Use splitVector command instead. \n";
}
// No auth required as this command no longer does anything.
virtual void addRequiredPrivileges(const std::string& dbname,
const BSONObj& cmdObj,
std::vector<Privilege>* out) {}
bool run(const string& dbname, BSONObj& jsobj, int, string& errmsg, BSONObjBuilder& result, bool fromRepl ) {
errmsg = "medianKey command no longer supported. Calling this indicates mismatch between mongo versions.";
return false;
}
} cmdMedianKey;
class CheckShardingIndex : public Command {
public:
CheckShardingIndex() : Command( "checkShardingIndex" , false ) {}
virtual bool slaveOk() const { return false; }
virtual LockType locktype() const { return NONE; }
virtual void help( stringstream &help ) const {
help << "Internal command.\n";
}
virtual void addRequiredPrivileges(const std::string& dbname,
const BSONObj& cmdObj,
std::vector<Privilege>* out) {
ActionSet actions;
actions.addAction(ActionType::find);
out->push_back(Privilege(parseResourcePattern(dbname, cmdObj), actions));
}
bool run(const string& dbname, BSONObj& jsobj, int, string& errmsg, BSONObjBuilder& result, bool fromRepl ) {
const char* ns = jsobj.getStringField( "checkShardingIndex" );
BSONObj keyPattern = jsobj.getObjectField( "keyPattern" );
if ( keyPattern.isEmpty() ) {
errmsg = "no key pattern found in checkShardingindex";
return false;
}
if ( keyPattern.nFields() == 1 && str::equals( "_id" , keyPattern.firstElementFieldName() ) ) {
result.appendBool( "idskip" , true );
return true;
}
BSONObj min = jsobj.getObjectField( "min" );
BSONObj max = jsobj.getObjectField( "max" );
if ( min.isEmpty() != max.isEmpty() ) {
errmsg = "either provide both min and max or leave both empty";
return false;
}
Client::ReadContext ctx( ns );
NamespaceDetails *d = nsdetails( ns );
if ( ! d ) {
errmsg = "ns not found";
return false;
}
const IndexDetails *idx = d->findIndexByPrefix( keyPattern ,
true ); /* require single key */
if ( idx == NULL ) {
errmsg = "couldn't find valid index for shard key";
return false;
}
// extend min to get (min, MinKey, MinKey, ....)
KeyPattern kp( idx->keyPattern() );
min = Helpers::toKeyFormat( kp.extendRangeBound( min, false ) );
if ( max.isEmpty() ) {
// if max not specified, make it (MaxKey, Maxkey, MaxKey...)
max = Helpers::toKeyFormat( kp.extendRangeBound( max, true ) );
} else {
// otherwise make it (max,MinKey,MinKey...) so that bound is non-inclusive
max = Helpers::toKeyFormat( kp.extendRangeBound( max, false ) );
}
auto_ptr<Runner> runner(InternalPlanner::indexScan(ns, d, d->idxNo(*idx), min, max,
false, InternalPlanner::FORWARD));
runner->setYieldPolicy(Runner::YIELD_AUTO);
// Find the 'missingField' value used to represent a missing document field in a key of
// this index.
// NOTE A local copy of 'missingField' is made because indices may be
// invalidated during a db lock yield.
BSONObj missingFieldObj = IndexLegacy::getMissingField(idx->info.obj());
BSONElement missingField = missingFieldObj.firstElement();
// for now, the only check is that all shard keys are filled
// a 'missingField' valued index key is ok if the field is present in the document,
// TODO if $exist for nulls were picking the index, it could be used instead efficiently
int keyPatternLength = keyPattern.nFields();
DiskLoc loc;
BSONObj currKey;
while (Runner::RUNNER_ADVANCED == runner->getNext(&currKey, &loc)) {
//check that current key contains non missing elements for all fields in keyPattern
BSONObjIterator i( currKey );
for( int k = 0; k < keyPatternLength ; k++ ) {
if( ! i.more() ) {
errmsg = str::stream() << "index key " << currKey
<< " too short for pattern " << keyPattern;
return false;
}
BSONElement currKeyElt = i.next();
if ( !currKeyElt.eoo() && !currKeyElt.valuesEqual( missingField ) )
continue;
// This is a fetch, but it's OK. The underlying code won't throw a page fault
// exception.
BSONObj obj = loc.obj();
BSONObjIterator j( keyPattern );
BSONElement real;
for ( int x=0; x <= k; x++ )
real = j.next();
real = obj.getFieldDotted( real.fieldName() );
if ( real.type() )
continue;
ostringstream os;
os << "found missing value in key " << currKey << " for doc: "
<< ( obj.hasField( "_id" ) ? obj.toString() : obj["_id"].toString() );
log() << "checkShardingIndex for '" << ns << "' failed: " << os.str() << endl;
errmsg = os.str();
return false;
}
}
return true;
}
} cmdCheckShardingIndex;
BSONObj prettyKey(const BSONObj& keyPattern, const BSONObj& key) {
return key.replaceFieldNames(keyPattern).clientReadable();
}
class SplitVector : public Command {
public:
SplitVector() : Command( "splitVector" , false ) {}
virtual bool slaveOk() const { return false; }
virtual LockType locktype() const { return NONE; }
virtual void help( stringstream &help ) const {
help <<
"Internal command.\n"
"examples:\n"
" { splitVector : \"blog.post\" , keyPattern:{x:1} , min:{x:10} , max:{x:20}, maxChunkSize:200 }\n"
" maxChunkSize unit in MBs\n"
" May optionally specify 'maxSplitPoints' and 'maxChunkObjects' to avoid traversing the whole chunk\n"
" \n"
" { splitVector : \"blog.post\" , keyPattern:{x:1} , min:{x:10} , max:{x:20}, force: true }\n"
" 'force' will produce one split point even if data is small; defaults to false\n"
"NOTE: This command may take a while to run";
}
virtual void addRequiredPrivileges(const std::string& dbname,
const BSONObj& cmdObj,
std::vector<Privilege>* out) {
ActionSet actions;
actions.addAction(ActionType::splitVector);
out->push_back(Privilege(ResourcePattern::forClusterResource(), actions));
}
bool run(const string& dbname, BSONObj& jsobj, int, string& errmsg, BSONObjBuilder& result, bool fromRepl ) {
//
// 1.a We'll parse the parameters in two steps. First, make sure the we can use the split index to get
// a good approximation of the size of the chunk -- without needing to access the actual data.
//
const char* ns = jsobj.getStringField( "splitVector" );
BSONObj keyPattern = jsobj.getObjectField( "keyPattern" );
if ( keyPattern.isEmpty() ) {
errmsg = "no key pattern found in splitVector";
return false;
}
// If min and max are not provided use the "minKey" and "maxKey" for the sharding key pattern.
BSONObj min = jsobj.getObjectField( "min" );
BSONObj max = jsobj.getObjectField( "max" );
if ( min.isEmpty() != max.isEmpty() ){
errmsg = "either provide both min and max or leave both empty";
return false;
}
long long maxSplitPoints = 0;
BSONElement maxSplitPointsElem = jsobj[ "maxSplitPoints" ];
if ( maxSplitPointsElem.isNumber() ) {
maxSplitPoints = maxSplitPointsElem.numberLong();
}
long long maxChunkObjects = Chunk::MaxObjectPerChunk;
BSONElement MaxChunkObjectsElem = jsobj[ "maxChunkObjects" ];
if ( MaxChunkObjectsElem.isNumber() ) {
maxChunkObjects = MaxChunkObjectsElem.numberLong();
}
vector<BSONObj> splitKeys;
{
// Get the size estimate for this namespace
Client::ReadContext ctx( ns );
NamespaceDetails *d = nsdetails( ns );
if ( ! d ) {
errmsg = "ns not found";
return false;
}
const IndexDetails *idx = d->findIndexByPrefix( keyPattern ,
true ); /* require single key */
if ( idx == NULL ) {
errmsg = (string)"couldn't find index over splitting key " +
keyPattern.clientReadable().toString();
return false;
}
// extend min to get (min, MinKey, MinKey, ....)
KeyPattern kp( idx->keyPattern() );
min = Helpers::toKeyFormat( kp.extendRangeBound ( min, false ) );
if ( max.isEmpty() ) {
// if max not specified, make it (MaxKey, Maxkey, MaxKey...)
max = Helpers::toKeyFormat( kp.extendRangeBound( max, true ) );
} else {
// otherwise make it (max,MinKey,MinKey...) so that bound is non-inclusive
max = Helpers::toKeyFormat( kp.extendRangeBound( max, false ) );
}
const long long recCount = d->numRecords();
const long long dataSize = d->dataSize();
//
// 1.b Now that we have the size estimate, go over the remaining parameters and apply any maximum size
// restrictions specified there.
//
// 'force'-ing a split is equivalent to having maxChunkSize be the size of the current chunk, i.e., the
// logic below will split that chunk in half
long long maxChunkSize = 0;
bool forceMedianSplit = false;
{
BSONElement maxSizeElem = jsobj[ "maxChunkSize" ];
BSONElement forceElem = jsobj[ "force" ];
if ( forceElem.trueValue() ) {
forceMedianSplit = true;
// This chunk size is effectively ignored if force is true
maxChunkSize = dataSize;
}
else if ( maxSizeElem.isNumber() ) {
maxChunkSize = maxSizeElem.numberLong() * 1<<20;
}
else {
maxSizeElem = jsobj["maxChunkSizeBytes"];
if ( maxSizeElem.isNumber() ) {
maxChunkSize = maxSizeElem.numberLong();
}
}
// We need a maximum size for the chunk, unless we're not actually capable of finding any
// split points.
if ( maxChunkSize <= 0 && recCount != 0 ) {
errmsg = "need to specify the desired max chunk size (maxChunkSize or maxChunkSizeBytes)";
return false;
}
}
// If there's not enough data for more than one chunk, no point continuing.
if ( dataSize < maxChunkSize || recCount == 0 ) {
vector<BSONObj> emptyVector;
result.append( "splitKeys" , emptyVector );
return true;
}
log() << "request split points lookup for chunk " << ns << " " << min << " -->> " << max << endl;
// We'll use the average object size and number of object to find approximately how many keys
// each chunk should have. We'll split at half the maxChunkSize or maxChunkObjects, if
// provided.
const long long avgRecSize = dataSize / recCount;
long long keyCount = maxChunkSize / (2 * avgRecSize);
if ( maxChunkObjects && ( maxChunkObjects < keyCount ) ) {
log() << "limiting split vector to " << maxChunkObjects << " (from " << keyCount << ") objects " << endl;
keyCount = maxChunkObjects;
}
//
// 2. Traverse the index and add the keyCount-th key to the result vector. If that key
// appeared in the vector before, we omit it. The invariant here is that all the
// instances of a given key value live in the same chunk.
//
Timer timer;
long long currCount = 0;
long long numChunks = 0;
auto_ptr<Runner> runner(InternalPlanner::indexScan(ns, d, d->idxNo(*idx), min, max,
false, InternalPlanner::FORWARD));
BSONObj currKey;
Runner::RunnerState state = runner->getNext(&currKey, NULL);
if (Runner::RUNNER_ADVANCED != state) {
errmsg = "can't open a cursor for splitting (desired range is possibly empty)";
return false;
}
// Use every 'keyCount'-th key as a split point. We add the initial key as a sentinel, to be removed
// at the end. If a key appears more times than entries allowed on a chunk, we issue a warning and
// split on the following key.
set<BSONObj> tooFrequentKeys;
splitKeys.push_back(prettyKey(idx->keyPattern(), currKey.getOwned()).extractFields( keyPattern ) );
runner->setYieldPolicy(Runner::YIELD_AUTO);
while ( 1 ) {
while (Runner::RUNNER_ADVANCED == state) {
currCount++;
if ( currCount > keyCount && !forceMedianSplit ) {
currKey = prettyKey(idx->keyPattern(), currKey.getOwned()).extractFields(keyPattern);
// Do not use this split key if it is the same used in the previous split point.
if ( currKey.woCompare( splitKeys.back() ) == 0 ) {
tooFrequentKeys.insert( currKey.getOwned() );
}
else {
splitKeys.push_back( currKey.getOwned() );
currCount = 0;
numChunks++;
LOG(4) << "picked a split key: " << currKey << endl;
}
}
// Stop if we have enough split points.
if ( maxSplitPoints && ( numChunks >= maxSplitPoints ) ) {
log() << "max number of requested split points reached (" << numChunks
<< ") before the end of chunk " << ns << " " << min << " -->> " << max
<< endl;
break;
}
state = runner->getNext(&currKey, NULL);
}
if ( ! forceMedianSplit )
break;
//
// If we're forcing a split at the halfway point, then the first pass was just
// to count the keys, and we still need a second pass.
//
forceMedianSplit = false;
keyCount = currCount / 2;
currCount = 0;
log() << "splitVector doing another cycle because of force, keyCount now: " << keyCount << endl;
runner.reset(InternalPlanner::indexScan(ns, d, d->idxNo(*idx), min, max,
false, InternalPlanner::FORWARD));
runner->setYieldPolicy(Runner::YIELD_AUTO);
state = runner->getNext(&currKey, NULL);
}
//
// 3. Format the result and issue any warnings about the data we gathered while traversing the
// index
//
// Warn for keys that are more numerous than maxChunkSize allows.
for ( set<BSONObj>::const_iterator it = tooFrequentKeys.begin(); it != tooFrequentKeys.end(); ++it ) {
warning() << "chunk is larger than " << maxChunkSize
<< " bytes because of key " << prettyKey(idx->keyPattern(), *it ) << endl;
}
// Remove the sentinel at the beginning before returning
splitKeys.erase( splitKeys.begin() );
if (timer.millis() > serverGlobalParams.slowMS) {
warning() << "Finding the split vector for " << ns << " over "<< keyPattern
<< " keyCount: " << keyCount << " numSplits: " << splitKeys.size()
<< " lookedAt: " << currCount << " took " << timer.millis() << "ms"
<< endl;
}
// Warning: we are sending back an array of keys but are currently limited to
// 4MB work of 'result' size. This should be okay for now.
result.append( "timeMillis", timer.millis() );
}
result.append( "splitKeys" , splitKeys );
return true;
}
} cmdSplitVector;
// ** temporary ** 2010-10-22
// chunkInfo is a helper to collect and log information about the chunks generated in splitChunk.
// It should hold the chunk state for this module only, while we don't have min/max key info per chunk on the
// mongod side. Do not build on this; it will go away.
struct ChunkInfo {
BSONObj min;
BSONObj max;
ChunkVersion lastmod;
ChunkInfo() { }
ChunkInfo( BSONObj aMin , BSONObj aMax , ChunkVersion aVersion ) : min(aMin) , max(aMax) , lastmod(aVersion) {}
void appendShortVersion( const char* name, BSONObjBuilder& b ) const;
string toString() const;
};
void ChunkInfo::appendShortVersion( const char * name , BSONObjBuilder& b ) const {
BSONObjBuilder bb( b.subobjStart( name ) );
bb.append(ChunkType::min(), min);
bb.append(ChunkType::max(), max);
lastmod.addToBSON(bb, ChunkType::DEPRECATED_lastmod());
bb.done();
}
string ChunkInfo::toString() const {
ostringstream os;
os << "lastmod: " << lastmod.toString() << " min: " << min << " max: " << max << endl;
return os.str();
}
// ** end temporary **
class SplitChunkCommand : public Command {
public:
SplitChunkCommand() : Command( "splitChunk" ) {}
virtual void help( stringstream& help ) const {
help <<
"internal command usage only\n"
"example:\n"
" { splitChunk:\"db.foo\" , keyPattern: {a:1} , min : {a:100} , max: {a:200} { splitKeys : [ {a:150} , ... ]}";
}
virtual bool slaveOk() const { return false; }
virtual bool adminOnly() const { return true; }
virtual LockType locktype() const { return NONE; }
virtual void addRequiredPrivileges(const std::string& dbname,
const BSONObj& cmdObj,
std::vector<Privilege>* out) {
ActionSet actions;
actions.addAction(ActionType::splitChunk);
out->push_back(Privilege(ResourcePattern::forClusterResource(), actions));
}
bool run(const string& dbname, BSONObj& cmdObj, int, string& errmsg, BSONObjBuilder& result, bool fromRepl ) {
//
// 1. check whether parameters passed to splitChunk are sound
//
const string ns = cmdObj.firstElement().str();
if ( ns.empty() ) {
errmsg = "need to specify namespace in command";
return false;
}
const BSONObj keyPattern = cmdObj["keyPattern"].Obj();
if ( keyPattern.isEmpty() ) {
errmsg = "need to specify the key pattern the collection is sharded over";
return false;
}
const BSONObj min = cmdObj["min"].Obj();
if ( min.isEmpty() ) {
errmsg = "need to specify the min key for the chunk";
return false;
}
const BSONObj max = cmdObj["max"].Obj();
if ( max.isEmpty() ) {
errmsg = "need to specify the max key for the chunk";
return false;
}
const string from = cmdObj["from"].str();
if ( from.empty() ) {
errmsg = "need specify server to split chunk at";
return false;
}
const BSONObj splitKeysElem = cmdObj["splitKeys"].Obj();
if ( splitKeysElem.isEmpty() ) {
errmsg = "need to provide the split points to chunk over";
return false;
}
vector<BSONObj> splitKeys;
BSONObjIterator it( splitKeysElem );
while ( it.more() ) {
splitKeys.push_back( it.next().Obj().getOwned() );
}
const BSONElement shardId = cmdObj["shardId"];
if ( shardId.eoo() ) {
errmsg = "need to provide shardId";
return false;
}
// It is possible that this is the first sharded command this mongod is asked to perform. If so,
// start sharding apparatus. We'd still be missing some more shard-related info but we'll get it
// in step 2. below.
if ( ! shardingState.enabled() ) {
if ( cmdObj["configdb"].type() != String ) {
errmsg = "sharding not enabled";
return false;
}
string configdb = cmdObj["configdb"].String();
ShardingState::initialize(configdb);
}
Shard myShard( from );
log() << "received splitChunk request: " << cmdObj << endl;
//
// 2. lock the collection's metadata and get highest version for the current shard
//
DistributedLock lockSetup( ConnectionString( shardingState.getConfigServer() , ConnectionString::SYNC) , ns );
dist_lock_try dlk;
try{
dlk = dist_lock_try( &lockSetup, string("split-") + min.toString() );
}
catch( LockException& e ){
errmsg = str::stream() << "Error locking distributed lock for split." << causedBy( e );
return false;
}
if ( ! dlk.got() ) {
errmsg = "the collection's metadata lock is taken";
result.append( "who" , dlk.other() );
return false;
}
// TODO This is a check migrate does to the letter. Factor it out and share. 2010-10-22
ChunkVersion maxVersion;
string shard;
ChunkInfo origChunk;
{
ScopedDbConnection conn(shardingState.getConfigServer(), 30);
BSONObj x = conn->findOne(ChunkType::ConfigNS,
Query(BSON(ChunkType::ns(ns)))
.sort(BSON(ChunkType::DEPRECATED_lastmod() << -1)));
maxVersion = ChunkVersion::fromBSON(x, ChunkType::DEPRECATED_lastmod());
BSONObj currChunk =
conn->findOne(ChunkType::ConfigNS,
shardId.wrap(ChunkType::name().c_str())).getOwned();
verify(currChunk[ChunkType::shard()].type());
verify(currChunk[ChunkType::min()].type());
verify(currChunk[ChunkType::max()].type());
shard = currChunk[ChunkType::shard()].String();
conn.done();
BSONObj currMin = currChunk[ChunkType::min()].Obj();
BSONObj currMax = currChunk[ChunkType::max()].Obj();
if ( currMin.woCompare( min ) || currMax.woCompare( max ) ) {
errmsg = "chunk boundaries are outdated (likely a split occurred)";
result.append( "currMin" , currMin );
result.append( "currMax" , currMax );
result.append( "requestedMin" , min );
result.append( "requestedMax" , max );
warning() << "aborted split because " << errmsg << ": " << min << "->" << max
<< " is now " << currMin << "->" << currMax << endl;
return false;
}
if ( shard != myShard.getName() ) {
errmsg = "location is outdated (likely balance or migrate occurred)";
result.append( "from" , myShard.getName() );
result.append( "official" , shard );
warning() << "aborted split because " << errmsg << ": chunk is at " << shard
<< " and not at " << myShard.getName() << endl;
return false;
}
if ( maxVersion < shardingState.getVersion( ns ) ) {
errmsg = "official version less than mine?";
maxVersion.addToBSON( result, "officialVersion" );
shardingState.getVersion( ns ).addToBSON( result, "myVersion" );
warning() << "aborted split because " << errmsg << ": official " << maxVersion
<< " mine: " << shardingState.getVersion(ns) << endl;
return false;
}
origChunk.min = currMin.getOwned();
origChunk.max = currMax.getOwned();
origChunk.lastmod = ChunkVersion::fromBSON(currChunk[ChunkType::DEPRECATED_lastmod()]);
// since this could be the first call that enable sharding we also make sure to load
// the shard's metadata
shardingState.gotShardName( shard );
// Always check our version remotely.
// TODO: Make this less expensive by using the incoming request's shard version.
// TODO: The above checks should be removed, we should only have one refresh
// mechanism.
ChunkVersion shardVersion;
Status status = shardingState.refreshMetadataNow( ns, &shardVersion );
if (!status.isOK()) {
errmsg = str::stream() << "splitChunk cannot split chunk "
<< "[" << currMin << "," << currMax << ")"
<< causedBy( status.reason() );
warning() << errmsg << endl;
return false;
}
if ( shardVersion.majorVersion() == 0 ) {
// It makes no sense to split if our version is zero and we have no chunks
errmsg = str::stream() << "splitChunk cannot split chunk "
<< "[" << currMin << "," << currMax << ")"
<< " with zero shard version";
warning() << errmsg << endl;
return false;
}
log() << "splitChunk accepted at version " << shardVersion << endl;
}
//
// 3. create the batch of updates to metadata ( the new chunks ) to be applied via 'applyOps' command
//
BSONObjBuilder logDetail;
origChunk.appendShortVersion( "before" , logDetail );
LOG(1) << "before split on " << origChunk << endl;
vector<ChunkInfo> newChunks;
ChunkVersion myVersion = maxVersion;
BSONObj startKey = min;
splitKeys.push_back( max ); // makes it easier to have 'max' in the next loop. remove later.
BSONObjBuilder cmdBuilder;
BSONArrayBuilder updates( cmdBuilder.subarrayStart( "applyOps" ) );
for ( vector<BSONObj>::const_iterator it = splitKeys.begin(); it != splitKeys.end(); ++it ) {
BSONObj endKey = *it;
// splits only update the 'minor' portion of version
myVersion.incMinor();
// build an update operation against the chunks collection of the config database with
// upsert true
BSONObjBuilder op;
op.append( "op" , "u" );
op.appendBool( "b" , true );
op.append( "ns" , ChunkType::ConfigNS );
// add the modified (new) chunk information as the update object
BSONObjBuilder n( op.subobjStart( "o" ) );
n.append(ChunkType::name(), Chunk::genID(ns, startKey));
myVersion.addToBSON(n, ChunkType::DEPRECATED_lastmod());
n.append(ChunkType::ns(), ns);
n.append(ChunkType::min(), startKey);
n.append(ChunkType::max(), endKey);
n.append(ChunkType::shard(), shard);
n.done();
// add the chunk's _id as the query part of the update statement
BSONObjBuilder q( op.subobjStart( "o2" ) );
q.append(ChunkType::name(), Chunk::genID(ns, startKey));
q.done();
updates.append( op.obj() );
// remember this chunk info for logging later
newChunks.push_back( ChunkInfo( startKey , endKey, myVersion ) );
startKey = endKey;
}
updates.done();
{
BSONArrayBuilder preCond( cmdBuilder.subarrayStart( "preCondition" ) );
BSONObjBuilder b;
b.append("ns", ChunkType::ConfigNS);
b.append("q", BSON("query" << BSON(ChunkType::ns(ns)) <<
"orderby" << BSON(ChunkType::DEPRECATED_lastmod() << -1)));
{
BSONObjBuilder bb( b.subobjStart( "res" ) );
// TODO: For backwards compatibility, we can't yet require an epoch here
bb.appendTimestamp(ChunkType::DEPRECATED_lastmod(), maxVersion.toLong());
bb.done();
}
preCond.append( b.obj() );
preCond.done();
}
//
// 4. apply the batch of updates to remote and local metadata
//
BSONObj cmd = cmdBuilder.obj();
LOG(1) << "splitChunk update: " << cmd << endl;
bool ok;
BSONObj cmdResult;
{
ScopedDbConnection conn(shardingState.getConfigServer(), 30);
ok = conn->runCommand( "config" , cmd , cmdResult );
conn.done();
}
if ( ! ok ) {
stringstream ss;
ss << "saving chunks failed. cmd: " << cmd << " result: " << cmdResult;
error() << ss.str() << endl;
msgasserted( 13593 , ss.str() );
}
// install chunk metadata with knowledge about newly split chunks in this shard's state
splitKeys.pop_back(); // 'max' was used as sentinel
maxVersion.incMinor();
shardingState.splitChunk( ns , min , max , splitKeys , maxVersion );
//
// 5. logChanges
//
// single splits are logged different than multisplits
if ( newChunks.size() == 2 ) {
newChunks[0].appendShortVersion( "left" , logDetail );
newChunks[1].appendShortVersion( "right" , logDetail );
configServer.logChange( "split" , ns , logDetail.obj() );
}
else {
BSONObj beforeDetailObj = logDetail.obj();
BSONObj firstDetailObj = beforeDetailObj.getOwned();
const int newChunksSize = newChunks.size();
for ( int i=0; i < newChunksSize; i++ ) {
BSONObjBuilder chunkDetail;
chunkDetail.appendElements( beforeDetailObj );
chunkDetail.append( "number", i+1 );
chunkDetail.append( "of" , newChunksSize );
newChunks[i].appendShortVersion( "chunk" , chunkDetail );
configServer.logChange( "multi-split" , ns , chunkDetail.obj() );
}
}
if (newChunks.size() == 2){
// If one of the chunks has only one object in it we should move it
for (int i=1; i >= 0 ; i--){ // high chunk more likely to have only one obj
Client::ReadContext ctx( ns );
NamespaceDetails *d = nsdetails( ns );
const IndexDetails *idx = d->findIndexByPrefix( keyPattern ,
true ); /* exclude multikeys */
if ( idx == NULL ) {
break;
}
ChunkInfo chunk = newChunks[i];
KeyPattern kp( idx->keyPattern() );
BSONObj newmin = Helpers::toKeyFormat( kp.extendRangeBound( chunk.min, false) );
BSONObj newmax = Helpers::toKeyFormat( kp.extendRangeBound( chunk.max, false) );
auto_ptr<Runner> runner(InternalPlanner::indexScan(ns, d, d->idxNo(*idx),
newmin, newmax, false));
// check if exactly one document found
if (Runner::RUNNER_ADVANCED == runner->getNext(NULL, NULL)) {
if (Runner::RUNNER_EOF == runner->getNext(NULL, NULL)) {
result.append( "shouldMigrate",
BSON("min" << chunk.min << "max" << chunk.max) );
break;
}
}
}
}
return true;
}
} cmdSplitChunk;
} // namespace mongo
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