func (pi *storeIndex) ScanEntries(limit int64, cons datastore.ScanConsistency,
	vector timestamp.Vector, conn *datastore.IndexConnection) {
	defer close(conn.EntryChannel())

	entry := datastore.IndexEntry{PrimaryKey: pi.keyspace.namespace.store.actualStore.Id()}
	conn.EntryChannel() <- &entry
}
func (pi *dualIndex) ScanEntries(limit int64, cons datastore.ScanConsistency,
	vector timestamp.Vector, conn *datastore.IndexConnection) {
	defer close(conn.EntryChannel())

	entry := datastore.IndexEntry{PrimaryKey: KEYSPACE_NAME_DUAL}
	conn.EntryChannel() <- &entry
}
Exemple #3
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func (this *spanScan) scan(context *Context, conn *datastore.IndexConnection) {
	defer context.Recover() // Recover from any panic

	dspan, err := evalSpan(this.span, context)
	if err != nil {
		context.Error(errors.NewError(err, "Error evaluating span."))
		close(conn.EntryChannel())
		return
	}

	this.plan.Index().Scan(dspan, this.plan.Distinct(), this.plan.Limit(),
		context.ScanConsistency(), context.ScanVector(), conn)
}
Exemple #4
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func (pi *primaryIndex) ScanEntries(limit int64, cons datastore.ScanConsistency,
	vector timestamp.Vector, conn *datastore.IndexConnection) {
	defer close(conn.EntryChannel())

	if limit == 0 {
		limit = int64(pi.keyspace.nitems)
	}

	for i := 0; i < pi.keyspace.nitems && int64(i) < limit; i++ {
		entry := datastore.IndexEntry{PrimaryKey: strconv.Itoa(i)}
		conn.EntryChannel() <- &entry
	}
}
func (pi *namespaceIndex) ScanEntries(limit int64, cons datastore.ScanConsistency,
	vector timestamp.Vector, conn *datastore.IndexConnection) {
	defer close(conn.EntryChannel())

	namespaceIds, err := pi.keyspace.namespace.store.actualStore.NamespaceIds()
	if err == nil {
		for i, namespaceId := range namespaceIds {
			if limit > 0 && int64(i) > limit {
				break
			}

			entry := datastore.IndexEntry{PrimaryKey: namespaceId}
			conn.EntryChannel() <- &entry
		}
	}
}
Exemple #6
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func (pi *primaryIndex) Scan(span *datastore.Span, distinct bool, limit int64,
	cons datastore.ScanConsistency, vector timestamp.Vector, conn *datastore.IndexConnection) {
	defer close(conn.EntryChannel())

	// For primary indexes, bounds must always be strings, so we
	// can just enforce that directly
	low, high := "", ""

	// Ensure that lower bound is a string, if any
	if len(span.Range.Low) > 0 {
		a := span.Range.Low[0].Actual()
		switch a := a.(type) {
		case string:
			low = a
		default:
			conn.Error(errors.NewOtherDatastoreError(nil, fmt.Sprintf("Invalid lower bound %v of type %T.", a, a)))
			return
		}
	}

	// Ensure that upper bound is a string, if any
	if len(span.Range.High) > 0 {
		a := span.Range.High[0].Actual()
		switch a := a.(type) {
		case string:
			high = a
		default:
			conn.Error(errors.NewOtherDatastoreError(nil, fmt.Sprintf("Invalid upper bound %v of type %T.", a, a)))
			return
		}
	}

	if limit == 0 {
		limit = int64(pi.keyspace.nitems)
	}

	for i := 0; i < pi.keyspace.nitems && int64(i) < limit; i++ {
		id := strconv.Itoa(i)

		if low != "" &&
			(id < low ||
				(id == low && (span.Range.Inclusion&datastore.LOW == 0))) {
			continue
		}

		low = ""

		if high != "" &&
			(id > high ||
				(id == high && (span.Range.Inclusion&datastore.HIGH == 0))) {
			break
		}

		entry := datastore.IndexEntry{PrimaryKey: id}
		conn.EntryChannel() <- &entry
	}
}
func (pi *keyspaceIndex) Scan(span *datastore.Span, distinct bool, limit int64,
	cons datastore.ScanConsistency, vector timestamp.Vector, conn *datastore.IndexConnection) {
	defer close(conn.EntryChannel())

	val := ""

	a := span.Seek[0].Actual()
	switch a := a.(type) {
	case string:
		val = a
	default:
		conn.Error(errors.NewSystemDatastoreError(nil, fmt.Sprintf("Invalid seek value %v of type %T.", a, a)))
		return
	}

	ids := strings.SplitN(val, "/", 2)
	if len(ids) != 2 {
		return
	}

	namespace, _ := pi.keyspace.namespace.store.actualStore.NamespaceById(ids[0])
	if namespace == nil {
		return
	}

	keyspace, _ := namespace.KeyspaceById(ids[1])
	if keyspace != nil {
		entry := datastore.IndexEntry{PrimaryKey: fmt.Sprintf("%s/%s", namespace.Id(), keyspace.Id())}
		conn.EntryChannel() <- &entry
	}
}
func (pi *indexIndex) ScanEntries(limit int64, cons datastore.ScanConsistency,
	vector timestamp.Vector, conn *datastore.IndexConnection) {
	defer close(conn.EntryChannel())

	// eliminate duplicate keys
	keys := make(map[string]string, 64)

	actualStore := pi.keyspace.namespace.store.actualStore
	namespaceIds, err := actualStore.NamespaceIds()
	if err == nil {
		for _, namespaceId := range namespaceIds {
			namespace, err := actualStore.NamespaceById(namespaceId)
			if err == nil {
				keyspaceIds, err := namespace.KeyspaceIds()
				if err == nil {
					for _, keyspaceId := range keyspaceIds {
						keyspace, err := namespace.KeyspaceById(keyspaceId)
						if err == nil {
							indexers, err := keyspace.Indexers()
							if err == nil {
								for _, indexer := range indexers {
									err = indexer.Refresh()
									if err != nil {
										conn.Error(errors.NewSystemDatastoreError(err, ""))
										return
									}

									indexIds, err := indexer.IndexIds()
									if err == nil {
										for _, indexId := range indexIds {
											key := fmt.Sprintf("%s/%s/%s", namespaceId, keyspaceId, indexId)
											keys[key] = key
										}
									}
								}
							}
						}
					}
				}
			}
		}
	}

	for k, _ := range keys {
		entry := datastore.IndexEntry{PrimaryKey: k}
		conn.EntryChannel() <- &entry
	}
}
func (pi *storeIndex) Scan(span *datastore.Span, distinct bool, limit int64,
	cons datastore.ScanConsistency, vector timestamp.Vector, conn *datastore.IndexConnection) {
	defer close(conn.EntryChannel())

	val := ""

	a := span.Seek[0].Actual()
	switch a := a.(type) {
	case string:
		val = a
	default:
		conn.Error(errors.NewSystemDatastoreError(nil, fmt.Sprintf("Invalid seek value %v of type %T.", a, a)))
		return
	}

	if strings.EqualFold(val, pi.keyspace.namespace.store.actualStore.Id()) {
		entry := datastore.IndexEntry{PrimaryKey: pi.keyspace.namespace.store.actualStore.Id()}
		conn.EntryChannel() <- &entry
	}
}
Exemple #10
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func (pi *primaryIndex) ScanEntries(limit int64, cons datastore.ScanConsistency,
	vector timestamp.Vector, conn *datastore.IndexConnection) {
	defer close(conn.EntryChannel())

	dirEntries, er := ioutil.ReadDir(pi.keyspace.path())
	if er != nil {
		conn.Error(errors.NewFileDatastoreError(er, ""))
		return
	}

	for i, dirEntry := range dirEntries {
		if limit > 0 && int64(i) > limit {
			break
		}
		if !dirEntry.IsDir() {
			entry := datastore.IndexEntry{PrimaryKey: documentPathToId(dirEntry.Name())}
			conn.EntryChannel() <- &entry
		}
	}
}
Exemple #11
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func (vi *viewIndex) Scan(span *datastore.Span, distinct bool, limit int64,
	cons datastore.ScanConsistency, vector timestamp.Vector, conn *datastore.IndexConnection) {
	defer close(conn.EntryChannel())
	// For primary indexes, bounds must always be strings, so we
	// can just enforce that directly

	viewOptions := map[string]interface{}{}
	viewOptions = generateViewOptions(cons, span) /*span.Range.Low, span.Range.High, span.Range.Inclusion) */
	viewRowChannel := make(chan cb.ViewRow)
	viewErrChannel := make(chan errors.Error)
	go WalkViewInBatches(viewRowChannel, viewErrChannel, vi.keyspace.cbbucket, vi.DDocName(), vi.ViewName(), viewOptions, 1000, limit)

	var viewRow cb.ViewRow
	var err errors.Error
	sentRows := false
	ok := true
	numRows := 0
	for ok {
		select {
		case viewRow, ok = <-viewRowChannel:
			if ok {
				entry := datastore.IndexEntry{PrimaryKey: viewRow.ID}

				// try to add the view row key as the entry key (unless this is _all_docs)
				if vi.DDocName() != "" /* FIXME && vi.IsPrimary() == false */ {
					lookupValue, err := convertCouchbaseViewKeyToLookupValue(viewRow.Key)
					if err == nil {
						entry.EntryKey = lookupValue
					} else {
						logging.Debugf("unable to convert index key to lookup value err:%v key %v", err, viewRow.Key)
					}
				}

				conn.EntryChannel() <- &entry
				sentRows = true
				numRows++
			}
		case err, ok = <-viewErrChannel:
			if err != nil {
				logging.Errorf("%v", err)
				// check to possibly detect a bucket that was already deleted
				if !sentRows {
					logging.Infof("Checking bucket URI: %v", vi.keyspace.cbbucket.URI)
					_, err := http.Get(vi.keyspace.cbbucket.URI)
					if err != nil {
						logging.Errorf("%v", err)

						// remove this specific bucket from the pool cache
						vi.keyspace.namespace.lock.Lock()
						delete(vi.keyspace.namespace.keyspaceCache, vi.keyspace.Name())
						vi.keyspace.namespace.lock.Unlock()
						// close this bucket
						vi.keyspace.Release()
						// ask the pool to refresh
						vi.keyspace.namespace.refresh(true)
						// bucket doesnt exist any more
						conn.Error(errors.NewCbViewsAccessError(nil, "keyspace "+vi.keyspace.Name()))
						return
					}

				}

				conn.Error(err)
				return
			}
		}
	}

	logging.Infof("Number of entries fetched from the index %d", numRows)

}
Exemple #12
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func notifyConn(conn *datastore.IndexConnection) {
	select {
	case conn.StopChannel() <- false:
	default:
	}
}
Exemple #13
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func (pi *primaryIndex) Scan(span *datastore.Span, distinct bool, limit int64,
	cons datastore.ScanConsistency, vector timestamp.Vector, conn *datastore.IndexConnection) {
	defer close(conn.EntryChannel())

	// For primary indexes, bounds must always be strings, so we
	// can just enforce that directly
	low, high := "", ""

	// Ensure that lower bound is a string, if any
	if len(span.Range.Low) > 0 {
		a := span.Range.Low[0].Actual()
		switch a := a.(type) {
		case string:
			low = a
		default:
			conn.Error(errors.NewFileDatastoreError(nil, fmt.Sprintf("Invalid lower bound %v of type %T.", a, a)))
			return
		}
	}

	// Ensure that upper bound is a string, if any
	if len(span.Range.High) > 0 {
		a := span.Range.High[0].Actual()
		switch a := a.(type) {
		case string:
			high = a
		default:
			conn.Error(errors.NewFileDatastoreError(nil, fmt.Sprintf("Invalid upper bound %v of type %T.", a, a)))
			return
		}
	}

	dirEntries, er := ioutil.ReadDir(pi.keyspace.path())
	if er != nil {
		conn.Error(errors.NewFileDatastoreError(er, ""))
		return
	}

	var n int64 = 0
	for _, dirEntry := range dirEntries {

		fmt.Printf("Dir entry being scanned %v", dirEntry.Name())
		if limit > 0 && n > limit {
			break
		}

		id := documentPathToId(dirEntry.Name())

		if low != "" &&
			(id < low ||
				(id == low && (span.Range.Inclusion&datastore.LOW == 0))) {
			continue
		}

		low = ""

		if high != "" &&
			(id > high ||
				(id == high && (span.Range.Inclusion&datastore.HIGH == 0))) {
			break
		}

		if !dirEntry.IsDir() {
			entry := datastore.IndexEntry{PrimaryKey: id}
			conn.EntryChannel() <- &entry
			n++
		}
	}
}