Beispiel #1
0
        bool touch( std::string& ns, 
                    std::string& errmsg, 
                    bool touch_data, 
                    bool touch_indexes, 
                    BSONObjBuilder& result ) {

            if (touch_data) {
                log() << "touching namespace " << ns << endl;
                touchNs( ns );
                log() << "touching namespace " << ns << " complete" << endl;
            }

            if (touch_indexes) {
                // enumerate indexes
                std::vector< std::string > indexes;
                {
                    Client::ReadContext ctx(ns);
                    NamespaceDetails *nsd = nsdetails(ns);
                    massert( 16153, "namespace does not exist", nsd );
                    
                    NamespaceDetails::IndexIterator ii = nsd->ii(); 
                    while ( ii.more() ) {
                        IndexDetails& idx = ii.next();
                        indexes.push_back( idx.indexNamespace() );
                    }
                }
                for ( std::vector<std::string>::const_iterator it = indexes.begin(); 
                      it != indexes.end(); 
                      it++ ) {
                    touchNs( *it );
                }
            }
            return true;
        }
Beispiel #2
0
    void Helpers::ensureIndex(const char *ns, BSONObj keyPattern, bool unique, const char *name) {
        NamespaceDetails *d = nsdetails(ns);
        if( d == 0 )
            return;

        {
            NamespaceDetails::IndexIterator i = d->ii();
            while( i.more() ) {
                if( i.next().keyPattern().woCompare(keyPattern) == 0 )
                    return;
            }
        }

        if( d->nIndexes >= NamespaceDetails::NIndexesMax ) {
            problem() << "Helper::ensureIndex fails, MaxIndexes exceeded " << ns << '\n';
            return;
        }

        string system_indexes = cc().database()->name + ".system.indexes";

        BSONObjBuilder b;
        b.append("name", name);
        b.append("ns", ns);
        b.append("key", keyPattern);
        b.appendBool("unique", unique);
        BSONObj o = b.done();

        theDataFileMgr.insert(system_indexes.c_str(), o.objdata(), o.objsize());
    }
Beispiel #3
0
    void ensureHaveIdIndex(const char* ns, bool mayInterrupt) {
        NamespaceDetails *d = nsdetails(ns);
        if ( d == 0 || d->isSystemFlagSet(NamespaceDetails::Flag_HaveIdIndex) )
            return;

        d->setSystemFlag( NamespaceDetails::Flag_HaveIdIndex );

        {
            NamespaceDetails::IndexIterator i = d->ii();
            while( i.more() ) {
                if( i.next().isIdIndex() )
                    return;
            }
        }

        string system_indexes = cc().database()->name() + ".system.indexes";

        BSONObjBuilder b;
        b.append("name", "_id_");
        b.append("ns", ns);
        b.append("key", id_obj);
        BSONObj o = b.done();

        /* edge case: note the insert could fail if we have hit maxindexes already */
        theDataFileMgr.insert(system_indexes.c_str(), o.objdata(), o.objsize(), mayInterrupt, true);
    }
Beispiel #4
0
        bool touch( std::string& ns, 
                    std::string& errmsg, 
                    bool touch_data, 
                    bool touch_indexes, 
                    BSONObjBuilder& result ) {

            if (touch_data) {
                log() << "touching namespace " << ns << endl;
                Timer t;
                int numRanges = touchNs( ns );
                result.append( "data", BSON( "numRanges" << numRanges <<
                                             "millis" << t.millis() ) );
                log() << "touching namespace " << ns << " complete" << endl;
            }

            if (touch_indexes) {
                Timer t;
                // enumerate indexes
                std::vector< std::string > indexes;
                {
                    Client::ReadContext ctx(ns);
                    NamespaceDetails *nsd = nsdetails(ns);
                    massert( 16153, "namespace does not exist", nsd );

                    NamespaceDetails::IndexIterator ii = nsd->ii(); 
                    while ( ii.more() ) {
                        IndexDetails& idx = ii.next();
                        indexes.push_back( idx.indexNamespace() );
                    }
                }

                int numRanges = 0;

                for ( std::vector<std::string>::const_iterator it = indexes.begin(); 
                      it != indexes.end(); 
                      it++ ) {
                    numRanges += touchNs( *it );
                }

                result.append( "indexes", BSON( "num" << static_cast<int>(indexes.size()) <<
                                                "numRanges" << numRanges <<
                                                "millis" << t.millis() ) );

            }
            return true;
        }
Beispiel #5
0
 void getIndexChanges(vector<IndexChanges>& v, NamespaceDetails& d, BSONObj newObj, BSONObj oldObj, bool &changedId) { 
     int z = d.nIndexesBeingBuilt();
     v.resize(z);
     NamespaceDetails::IndexIterator i = d.ii();
     for( int i = 0; i < z; i++ ) {
         IndexDetails& idx = d.idx(i);
         BSONObj idxKey = idx.info.obj().getObjectField("key"); // eg { ts : 1 }
         IndexChanges& ch = v[i];
         idx.getKeysFromObject(oldObj, ch.oldkeys);
         idx.getKeysFromObject(newObj, ch.newkeys);
         if( ch.newkeys.size() > 1 ) 
             d.setIndexIsMultikey(i);
         setDifference(ch.oldkeys, ch.newkeys, ch.removed);
         setDifference(ch.newkeys, ch.oldkeys, ch.added);
         if ( ch.removed.size() > 0 && ch.added.size() > 0 && idx.isIdIndex() ) {
             changedId = true;
         }
     }
 }
Beispiel #6
0
        void validateNS(const string& ns,
                        Collection* collection,
                        const BSONObj& cmdObj,
                        BSONObjBuilder& result) {

            const bool full = cmdObj["full"].trueValue();
            const bool scanData = full || cmdObj["scandata"].trueValue();

            NamespaceDetails* nsd = collection->details();

            bool valid = true;
            BSONArrayBuilder errors; // explanation(s) for why valid = false
            if ( collection->isCapped() ){
                result.append("capped", nsd->isCapped());
                result.appendNumber("max", nsd->maxCappedDocs());
            }

            if ( nsd->firstExtent().isNull() )
                result.append( "firstExtent", "null" );
            else
                result.append( "firstExtent", str::stream() << nsd->firstExtent().toString()
                               << " ns:" << nsd->firstExtent().ext()->nsDiagnostic.toString());
            if ( nsd->lastExtent().isNull() )
                result.append( "lastExtent", "null" );
            else
                result.append( "lastExtent", str::stream() <<  nsd->lastExtent().toString()
                               << " ns:" <<  nsd->lastExtent().ext()->nsDiagnostic.toString());

            BSONArrayBuilder extentData;
            int extentCount = 0;
            try {

                if ( !nsd->firstExtent().isNull() ) {
                    nsd->firstExtent().ext()->assertOk();
                    nsd->lastExtent().ext()->assertOk();
                }

                DiskLoc extentDiskLoc = nsd->firstExtent();
                while (!extentDiskLoc.isNull()) {
                    Extent* thisExtent = extentDiskLoc.ext();
                    if (full) {
                        extentData << thisExtent->dump();
                    }
                    if (!thisExtent->validates(extentDiskLoc, &errors)) {
                        valid = false;
                    }
                    DiskLoc nextDiskLoc = thisExtent->xnext;
                    if (extentCount > 0 && !nextDiskLoc.isNull()
                                        &&  nextDiskLoc.ext()->xprev != extentDiskLoc) {
                        StringBuilder sb;
                        sb << "'xprev' pointer " << nextDiskLoc.ext()->xprev.toString()
                           << " in extent " << nextDiskLoc.toString()
                           << " does not point to extent " << extentDiskLoc.toString();
                        errors << sb.str();
                        valid = false;
                    }
                    if (nextDiskLoc.isNull() && extentDiskLoc != nsd->lastExtent()) {
                        StringBuilder sb;
                        sb << "'lastExtent' pointer " << nsd->lastExtent().toString()
                           << " does not point to last extent in list " << extentDiskLoc.toString();
                        errors << sb.str();
                        valid = false;
                    }
                    extentDiskLoc = nextDiskLoc;
                    extentCount++;
                    killCurrentOp.checkForInterrupt();
                }
            }
            catch (const DBException& e) {
                StringBuilder sb;
                sb << "exception validating extent " << extentCount
                   << ": " << e.what();
                errors << sb.str();
                valid = false;
            }
            result.append("extentCount", extentCount);

            if ( full )
                result.appendArray( "extents" , extentData.arr() );

            result.appendNumber("datasize", nsd->dataSize());
            result.appendNumber("nrecords", nsd->numRecords());
            result.appendNumber("lastExtentSize", nsd->lastExtentSize());
            result.appendNumber("padding", nsd->paddingFactor());

            try {

                bool testingLastExtent = false;
                try {
                    if (nsd->firstExtent().isNull()) {
                        // this is ok
                    }
                    else {
                        result.append("firstExtentDetails", nsd->firstExtent().ext()->dump());
                        if (!nsd->firstExtent().ext()->xprev.isNull()) {
                            StringBuilder sb;
                            sb << "'xprev' pointer in 'firstExtent' " << nsd->firstExtent().toString()
                               << " is " << nsd->firstExtent().ext()->xprev.toString()
                               << ", should be null";
                            errors << sb.str();
                            valid=false;
                        }
                    }
                    testingLastExtent = true;
                    if (nsd->lastExtent().isNull()) {
                        // this is ok
                    }
                    else {
                        if (nsd->firstExtent() != nsd->lastExtent()) {
                            result.append("lastExtentDetails", nsd->lastExtent().ext()->dump());
                            if (!nsd->lastExtent().ext()->xnext.isNull()) {
                                StringBuilder sb;
                                sb << "'xnext' pointer in 'lastExtent' " << nsd->lastExtent().toString()
                                   << " is " << nsd->lastExtent().ext()->xnext.toString()
                                   << ", should be null";
                                errors << sb.str();
                                valid = false;
                            }
                        }
                    }
                }
                catch (const DBException& e) {
                    StringBuilder sb;
                    sb << "exception processing '"
                       << (testingLastExtent ? "lastExtent" : "firstExtent")
                       << "': " << e.what();
                    errors << sb.str();
                    valid = false;
                }

                set<DiskLoc> recs;
                if( scanData ) {
                    int n = 0;
                    int nInvalid = 0;
                    long long nQuantizedSize = 0;
                    long long nPowerOf2QuantizedSize = 0;
                    long long len = 0;
                    long long nlen = 0;
                    long long bsonLen = 0;
                    int outOfOrder = 0;
                    DiskLoc cl_last;

                    DiskLoc cl;
                    Runner::RunnerState state;
                    auto_ptr<Runner> runner(InternalPlanner::collectionScan(ns));
                    while (Runner::RUNNER_ADVANCED == (state = runner->getNext(NULL, &cl))) {
                        n++;

                        if ( n < 1000000 )
                            recs.insert(cl);
                        if ( nsd->isCapped() ) {
                            if ( cl < cl_last )
                                outOfOrder++;
                            cl_last = cl;
                        }

                        Record *r = cl.rec();
                        len += r->lengthWithHeaders();
                        nlen += r->netLength();
                        
                        if ( r->lengthWithHeaders() ==
                                NamespaceDetails::quantizeAllocationSpace
                                    ( r->lengthWithHeaders() ) ) {
                            // Count the number of records having a size consistent with
                            // the quantizeAllocationSpace quantization implementation.
                            ++nQuantizedSize;
                        }

                        if ( r->lengthWithHeaders() ==
                                NamespaceDetails::quantizePowerOf2AllocationSpace
                                    ( r->lengthWithHeaders() - 1 ) ) {
                            // Count the number of records having a size consistent with the
                            // quantizePowerOf2AllocationSpace quantization implementation.
                            // Because of SERVER-8311, power of 2 quantization is not idempotent and
                            // r->lengthWithHeaders() - 1 must be checked instead of the record
                            // length itself.
                            ++nPowerOf2QuantizedSize;
                        }

                        if (full){
                            BSONObj obj = BSONObj::make(r);
                            if (!obj.isValid() || !obj.valid()){ // both fast and deep checks
                                valid = false;
                                if (nInvalid == 0) // only log once;
                                    errors << "invalid bson object detected (see logs for more info)";

                                nInvalid++;
                                if (strcmp("_id", obj.firstElementFieldName()) == 0){
                                    try {
                                        obj.firstElement().validate(); // throws on error
                                        log() << "Invalid bson detected in " << ns << " with _id: " << obj.firstElement().toString(false) << endl;
                                    }
                                    catch(...){
                                        log() << "Invalid bson detected in " << ns << " with corrupt _id" << endl;
                                    }
                                }
                                else {
                                    log() << "Invalid bson detected in " << ns << " and couldn't find _id" << endl;
                                }
                            }
                            else {
                                bsonLen += obj.objsize();
                            }
                        }
                    }
                    if (Runner::RUNNER_EOF != state) {
                        // TODO: more descriptive logging.
                        warning() << "Internal error while reading collection " << ns << endl;
                    }
                    if ( nsd->isCapped() && !nsd->capLooped() ) {
                        result.append("cappedOutOfOrder", outOfOrder);
                        if ( outOfOrder > 1 ) {
                            valid = false;
                            errors << "too many out of order records";
                        }
                    }
                    result.append("objectsFound", n);

                    if (full) {
                        result.append("invalidObjects", nInvalid);
                    }

                    result.appendNumber("nQuantizedSize", nQuantizedSize);
                    result.appendNumber("nPowerOf2QuantizedSize", nPowerOf2QuantizedSize);
                    result.appendNumber("bytesWithHeaders", len);
                    result.appendNumber("bytesWithoutHeaders", nlen);

                    if (full) {
                        result.appendNumber("bytesBson", bsonLen);
                    }
                }

                BSONArrayBuilder deletedListArray;
                for ( int i = 0; i < Buckets; i++ ) {
                    deletedListArray << nsd->deletedListEntry(i).isNull();
                }

                int ndel = 0;
                long long delSize = 0;
                BSONArrayBuilder delBucketSizes;
                int incorrect = 0;
                for ( int i = 0; i < Buckets; i++ ) {
                    DiskLoc loc = nsd->deletedListEntry(i);
                    try {
                        int k = 0;
                        while ( !loc.isNull() ) {
                            if ( recs.count(loc) )
                                incorrect++;
                            ndel++;

                            if ( loc.questionable() ) {
                                if( nsd->isCapped() && !loc.isValid() && i == 1 ) {
                                    /* the constructor for NamespaceDetails intentionally sets deletedList[1] to invalid
                                       see comments in namespace.h
                                    */
                                    break;
                                }

                                string err( str::stream() << "bad pointer in deleted record list: "
                                                          << loc.toString()
                                                          << " bucket: " << i
                                                          << " k: " << k );
                                errors << err;
                                valid = false;
                                break;
                            }

                            DeletedRecord *d = loc.drec();
                            delSize += d->lengthWithHeaders();
                            loc = d->nextDeleted();
                            k++;
                            killCurrentOp.checkForInterrupt();
                        }
                        delBucketSizes << k;
                    }
                    catch (...) {
                        errors << ("exception in deleted chain for bucket " + BSONObjBuilder::numStr(i));
                        valid = false;
                    }
                }
                result.appendNumber("deletedCount", ndel);
                result.appendNumber("deletedSize", delSize);
                if ( full ) {
                    result << "delBucketSizes" << delBucketSizes.arr();
                }

                if ( incorrect ) {
                    errors << (BSONObjBuilder::numStr(incorrect) + " records from datafile are in deleted list");
                    valid = false;
                }

                int idxn = 0;
                try  {
                    IndexCatalog* indexCatalog = collection->getIndexCatalog();

                    result.append("nIndexes", nsd->getCompletedIndexCount());
                    BSONObjBuilder indexes; // not using subObjStart to be exception safe
                    NamespaceDetails::IndexIterator i = nsd->ii();
                    while( i.more() ) {
                        IndexDetails& id = i.next();
                        log() << "validating index " << idxn << ": " << id.indexNamespace() << endl;

                        IndexDescriptor* descriptor = indexCatalog->getDescriptor( idxn );
                        verify( descriptor );
                        IndexAccessMethod* iam = indexCatalog->getIndex( descriptor );
                        verify( iam );

                        int64_t keys;
                        iam->validate(&keys);
                        indexes.appendNumber(id.indexNamespace(), static_cast<long long>(keys));
                        idxn++;
                    }
                    result.append("keysPerIndex", indexes.done());
                }
                catch (...) {
                    errors << ("exception during index validate idxn " + BSONObjBuilder::numStr(idxn));
                    valid=false;
                }

            }
            catch (AssertionException) {
                errors << "exception during validate";
                valid = false;
            }

            result.appendBool("valid", valid);
            result.append("errors", errors.arr());

            if ( !full ){
                result.append("warning", "Some checks omitted for speed. use {full:true} option to do more thorough scan.");
            }
            
            if ( !valid ) {
                result.append("advice", "ns corrupt, requires repair");
            }

        }
Beispiel #7
0
    void QueryPlanSet::init() {
        DEBUGQO( "QueryPlanSet::init " << ns << "\t" << _originalQuery );
        _plans.clear();
        _mayRecordPlan = true;
        _usingPrerecordedPlan = false;

        const char *ns = _frsp->ns();
        NamespaceDetails *d = nsdetails( ns );
        if ( !d || !_frsp->matchPossible() ) {
            // Table scan plan, when no matches are possible
            _plans.push_back( QueryPlanPtr( new QueryPlan( d, -1, *_frsp, *_originalFrsp, _originalQuery, _order ) ) );
            return;
        }

        BSONElement hint = _hint.firstElement();
        if ( !hint.eoo() ) {
            _mayRecordPlan = false;
            IndexDetails *id = parseHint( hint, d );
            if ( id ) {
                addHint( *id );
            }
            else {
                massert( 10366 ,  "natural order cannot be specified with $min/$max", _min.isEmpty() && _max.isEmpty() );
                // Table scan plan
                _plans.push_back( QueryPlanPtr( new QueryPlan( d, -1, *_frsp, *_originalFrsp, _originalQuery, _order ) ) );
            }
            return;
        }

        if ( !_min.isEmpty() || !_max.isEmpty() ) {
            string errmsg;
            BSONObj keyPattern;
            IndexDetails *idx = indexDetailsForRange( ns, errmsg, _min, _max, keyPattern );
            massert( 10367 ,  errmsg, idx );
            _plans.push_back( QueryPlanPtr( new QueryPlan( d, d->idxNo(*idx), *_frsp, *_originalFrsp, _originalQuery, _order, _min, _max ) ) );
            return;
        }

        if ( isSimpleIdQuery( _originalQuery ) ) {
            int idx = d->findIdIndex();
            if ( idx >= 0 ) {
                _usingPrerecordedPlan = true;
                _mayRecordPlan = false;
                _plans.push_back( QueryPlanPtr( new QueryPlan( d , idx , *_frsp , *_originalFrsp , _originalQuery, _order ) ) );
                return;
            }
        }

        if ( _originalQuery.isEmpty() && _order.isEmpty() ) {
            _plans.push_back( QueryPlanPtr( new QueryPlan( d, -1, *_frsp, *_originalFrsp, _originalQuery, _order ) ) );
            return;
        }

        DEBUGQO( "\t special : " << _frsp->getSpecial() );
        if ( _frsp->getSpecial().size() ) {
            _special = _frsp->getSpecial();
            NamespaceDetails::IndexIterator i = d->ii();
            while( i.more() ) {
                int j = i.pos();
                IndexDetails& ii = i.next();
                const IndexSpec& spec = ii.getSpec();
                if ( spec.getTypeName() == _special && spec.suitability( _originalQuery , _order ) ) {
                    _usingPrerecordedPlan = true;
                    _mayRecordPlan = false;
                    _plans.push_back( QueryPlanPtr( new QueryPlan( d , j , *_frsp , *_originalFrsp , _originalQuery, _order ,
                                                    BSONObj() , BSONObj() , _special ) ) );
                    return;
                }
            }
            uassert( 13038 , (string)"can't find special index: " + _special + " for: " + _originalQuery.toString() , 0 );
        }

        if ( _honorRecordedPlan ) {
            pair< BSONObj, long long > best = QueryUtilIndexed::bestIndexForPatterns( *_frsp, _order );
            BSONObj bestIndex = best.first;
            long long oldNScanned = best.second;
            if ( !bestIndex.isEmpty() ) {
                QueryPlanPtr p;
                _oldNScanned = oldNScanned;
                if ( !strcmp( bestIndex.firstElement().fieldName(), "$natural" ) ) {
                    // Table scan plan
                    p.reset( new QueryPlan( d, -1, *_frsp, *_originalFrsp, _originalQuery, _order ) );
                }

                NamespaceDetails::IndexIterator i = d->ii();
                while( i.more() ) {
                    int j = i.pos();
                    IndexDetails& ii = i.next();
                    if( ii.keyPattern().woCompare(bestIndex) == 0 ) {
                        p.reset( new QueryPlan( d, j, *_frsp, *_originalFrsp, _originalQuery, _order ) );
                    }
                }

                massert( 10368 ,  "Unable to locate previously recorded index", p.get() );
                if ( !( _bestGuessOnly && p->scanAndOrderRequired() ) ) {
                    _usingPrerecordedPlan = true;
                    _mayRecordPlan = false;
                    _plans.push_back( p );
                    return;
                }
            }
        }

        addOtherPlans( false );
    }
Beispiel #8
0
        bool run(const string& dbname, BSONObj& cmdObj, int, string& errmsg, BSONObjBuilder& result, bool fromRepl ) {
            Timer t;
            string ns = dbname + '.' + cmdObj.firstElement().valuestr();

            string key = cmdObj["key"].valuestrsafe();
            BSONObj keyPattern = BSON( key << 1 );

            BSONObj query = getQuery( cmdObj );

            int bufSize = BSONObjMaxUserSize - 4096;
            BufBuilder bb( bufSize );
            char * start = bb.buf();

            BSONArrayBuilder arr( bb );
            BSONElementSet values;

            long long nscanned = 0; // locations looked at
            long long nscannedObjects = 0; // full objects looked at
            long long n = 0; // matches
            MatchDetails md;

            NamespaceDetails * d = nsdetails( ns );

            if ( ! d ) {
                result.appendArray( "values" , BSONObj() );
                result.append( "stats" , BSON( "n" << 0 << "nscanned" << 0 << "nscannedObjects" << 0 ) );
                return true;
            }

            shared_ptr<Cursor> cursor;
            if ( ! query.isEmpty() ) {
                cursor = getOptimizedCursor( ns.c_str(), query, BSONObj() );
            }
            else {

                // query is empty, so lets see if we can find an index
                // with the key so we don't have to hit the raw data
                NamespaceDetails::IndexIterator ii = d->ii();
                while ( ii.more() ) {
                    IndexDetails& idx = ii.next();

                    if ( d->isMultikey( ii.pos() - 1 ) )
                        continue;

                    if ( idx.inKeyPattern( key ) ) {
                        cursor = getBestGuessCursor( ns.c_str(), BSONObj(), idx.keyPattern() );
                        if( cursor.get() ) break;
                    }

                }

                if ( ! cursor.get() )
                    cursor = getOptimizedCursor(ns.c_str() , query , BSONObj() );

            }

            
            verify( cursor );
            string cursorName = cursor->toString();
            
            auto_ptr<ClientCursor> cc (new ClientCursor(QueryOption_NoCursorTimeout, cursor, ns));

            // map from indexed field to offset in key object
            map<string, int> indexedFields;  
            if (!cursor->modifiedKeys()) {
                // store index information so we can decide if we can
                // get something out of the index key rather than full object

                int x = 0;
                BSONObjIterator i( cursor->indexKeyPattern() );
                while ( i.more() ) {
                    BSONElement e = i.next();
                    if ( e.isNumber() ) {
                        // only want basic index fields, not "2d" etc
                        indexedFields[e.fieldName()] = x;
                    }
                    x++;
                }
            }

            while ( cursor->ok() ) {
                nscanned++;
                bool loadedRecord = false;

                if ( cursor->currentMatches( &md ) && !cursor->getsetdup( cursor->currLoc() ) ) {
                    n++;

                    BSONObj holder;
                    BSONElementSet temp;
                    // Try to get the record from the key fields.
                    loadedRecord = !getFieldsDotted(indexedFields, cursor, key, temp, holder);

                    for ( BSONElementSet::iterator i=temp.begin(); i!=temp.end(); ++i ) {
                        BSONElement e = *i;
                        if ( values.count( e ) )
                            continue;

                        int now = bb.len();

                        uassert(10044,  "distinct too big, 16mb cap", ( now + e.size() + 1024 ) < bufSize );

                        arr.append( e );
                        BSONElement x( start + now );

                        values.insert( x );
                    }
                }

                if ( loadedRecord || md.hasLoadedRecord() )
                    nscannedObjects++;

                cursor->advance();

                if (!cc->yieldSometimes( ClientCursor::MaybeCovered )) {
                    cc.release();
                    break;
                }

                RARELY killCurrentOp.checkForInterrupt();
            }

            verify( start == bb.buf() );

            result.appendArray( "values" , arr.done() );

            {
                BSONObjBuilder b;
                b.appendNumber( "n" , n );
                b.appendNumber( "nscanned" , nscanned );
                b.appendNumber( "nscannedObjects" , nscannedObjects );
                b.appendNumber( "timems" , t.millis() );
                b.append( "cursor" , cursorName );
                result.append( "stats" , b.obj() );
            }

            return true;
        }
Beispiel #9
0
        bool run(const string& dbname, BSONObj& cmdObj, string& errmsg, BSONObjBuilder& result, bool fromRepl ) {
            Timer t;
            string ns = dbname + '.' + cmdObj.firstElement().valuestr();

            string key = cmdObj["key"].valuestrsafe();
            BSONObj keyPattern = BSON( key << 1 );

            BSONObj query = getQuery( cmdObj );

            int bufSize = BSONObjMaxUserSize - 4096;
            BufBuilder bb( bufSize );
            char * start = bb.buf();

            BSONArrayBuilder arr( bb );
            BSONElementSet values;

            long long nscanned = 0; // locations looked at
            long long nscannedObjects = 0; // full objects looked at
            long long n = 0; // matches
            MatchDetails md;

            NamespaceDetails * d = nsdetails( ns.c_str() );

            if ( ! d ) {
                result.appendArray( "values" , BSONObj() );
                result.append( "stats" , BSON( "n" << 0 << "nscanned" << 0 << "nscannedObjects" << 0 ) );
                return true;
            }

            shared_ptr<Cursor> cursor;
            if ( ! query.isEmpty() ) {
                cursor = NamespaceDetailsTransient::getCursor(ns.c_str() , query , BSONObj() );
            }
            else {

                // query is empty, so lets see if we can find an index
                // with the key so we don't have to hit the raw data
                NamespaceDetails::IndexIterator ii = d->ii();
                while ( ii.more() ) {
                    IndexDetails& idx = ii.next();

                    if ( d->isMultikey( ii.pos() - 1 ) )
                        continue;

                    if ( idx.inKeyPattern( key ) ) {
                        cursor = bestGuessCursor( ns.c_str() , BSONObj() , idx.keyPattern() );
                        if( cursor.get() ) break;
                    }

                }

                if ( ! cursor.get() )
                    cursor = NamespaceDetailsTransient::getCursor(ns.c_str() , query , BSONObj() );

            }

            
            assert( cursor );
            string cursorName = cursor->toString();
            
            auto_ptr<ClientCursor> cc (new ClientCursor(QueryOption_NoCursorTimeout, cursor, ns));

            while ( cursor->ok() ) {
                nscanned++;
                bool loadedObject = false;

                if ( ( !cursor->matcher() || cursor->matcher()->matchesCurrent( cursor.get() , &md ) ) &&
                    !cursor->getsetdup( cursor->currLoc() ) ) {
                    n++;

                    BSONElementSet temp;
                    loadedObject = ! cc->getFieldsDotted( key , temp );

                    for ( BSONElementSet::iterator i=temp.begin(); i!=temp.end(); ++i ) {
                        BSONElement e = *i;
                        if ( values.count( e ) )
                            continue;

                        int now = bb.len();

                        uassert(10044,  "distinct too big, 16mb cap", ( now + e.size() + 1024 ) < bufSize );

                        arr.append( e );
                        BSONElement x( start + now );

                        values.insert( x );
                    }
                }

                if ( loadedObject || md._loadedObject )
                    nscannedObjects++;

                cursor->advance();

                if (!cc->yieldSometimes( ClientCursor::MaybeCovered )) {
                    cc.release();
                    break;
                }

                RARELY killCurrentOp.checkForInterrupt();
            }

            assert( start == bb.buf() );

            result.appendArray( "values" , arr.done() );

            {
                BSONObjBuilder b;
                b.appendNumber( "n" , n );
                b.appendNumber( "nscanned" , nscanned );
                b.appendNumber( "nscannedObjects" , nscannedObjects );
                b.appendNumber( "timems" , t.millis() );
                b.append( "cursor" , cursorName );
                result.append( "stats" , b.obj() );
            }

            return true;
        }