// Copyright 2017 Google Inc. All Rights Reserved. // // 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. package firestore import ( "errors" "fmt" "io" "math" "reflect" "time" "golang.org/x/net/context" pb "google.golang.org/genproto/googleapis/firestore/v1beta1" "cloud.google.com/go/internal/btree" "github.com/golang/protobuf/ptypes/wrappers" "google.golang.org/api/iterator" ) // Query represents a Firestore query. // // Query values are immutable. Each Query method creates // a new Query; it does not modify the old. type Query struct { c *Client parentPath string // path of the collection's parent collectionID string selection []FieldPath filters []filter orders []order offset int32 limit *wrappers.Int32Value startVals, endVals []interface{} startDoc, endDoc *DocumentSnapshot startBefore, endBefore bool err error } func (q *Query) collectionPath() string { return q.parentPath + "/documents/" + q.collectionID } // DocumentID is the special field name representing the ID of a document // in queries. const DocumentID = "__name__" // Select returns a new Query that specifies the paths // to return from the result documents. // Each path argument can be a single field or a dot-separated sequence of // fields, and must not contain any of the runes "˜*/[]". func (q Query) Select(paths ...string) Query { var fps []FieldPath for _, s := range paths { fp, err := parseDotSeparatedString(s) if err != nil { q.err = err return q } fps = append(fps, fp) } return q.SelectPaths(fps...) } // SelectPaths returns a new Query that specifies the field paths // to return from the result documents. func (q Query) SelectPaths(fieldPaths ...FieldPath) Query { if len(fieldPaths) == 0 { q.selection = []FieldPath{{DocumentID}} } else { q.selection = fieldPaths } return q } // Where returns a new Query that filters the set of results. // A Query can have multiple filters. // The path argument can be a single field or a dot-separated sequence of // fields, and must not contain any of the runes "˜*/[]". // The op argument must be one of "==", "<", "<=", ">" or ">=". func (q Query) Where(path, op string, value interface{}) Query { fp, err := parseDotSeparatedString(path) if err != nil { q.err = err return q } q.filters = append(append([]filter(nil), q.filters...), filter{fp, op, value}) return q } // WherePath returns a new Query that filters the set of results. // A Query can have multiple filters. // The op argument must be one of "==", "<", "<=", ">" or ">=". func (q Query) WherePath(fp FieldPath, op string, value interface{}) Query { q.filters = append(append([]filter(nil), q.filters...), filter{fp, op, value}) return q } // Direction is the sort direction for result ordering. type Direction int32 const ( // Asc sorts results from smallest to largest. Asc Direction = Direction(pb.StructuredQuery_ASCENDING) // Desc sorts results from largest to smallest. Desc Direction = Direction(pb.StructuredQuery_DESCENDING) ) // OrderBy returns a new Query that specifies the order in which results are // returned. A Query can have multiple OrderBy/OrderByPath specifications. OrderBy // appends the specification to the list of existing ones. // // The path argument can be a single field or a dot-separated sequence of // fields, and must not contain any of the runes "˜*/[]". // // To order by document name, use the special field path DocumentID. func (q Query) OrderBy(path string, dir Direction) Query { fp, err := parseDotSeparatedString(path) if err != nil { q.err = err return q } q.orders = append(q.copyOrders(), order{fp, dir}) return q } // OrderByPath returns a new Query that specifies the order in which results are // returned. A Query can have multiple OrderBy/OrderByPath specifications. // OrderByPath appends the specification to the list of existing ones. func (q Query) OrderByPath(fp FieldPath, dir Direction) Query { q.orders = append(q.copyOrders(), order{fp, dir}) return q } func (q *Query) copyOrders() []order { return append([]order(nil), q.orders...) } // Offset returns a new Query that specifies the number of initial results to skip. // It must not be negative. func (q Query) Offset(n int) Query { q.offset = trunc32(n) return q } // Limit returns a new Query that specifies the maximum number of results to return. // It must not be negative. func (q Query) Limit(n int) Query { q.limit = &wrappers.Int32Value{trunc32(n)} return q } // StartAt returns a new Query that specifies that results should start at // the document with the given field values. // // If StartAt is called with a single DocumentSnapshot, its field values are used. // The DocumentSnapshot must have all the fields mentioned in the OrderBy clauses. // // Otherwise, StartAt should be called with one field value for each OrderBy clause, // in the order that they appear. For example, in // q.OrderBy("X", Asc).OrderBy("Y", Desc).StartAt(1, 2) // results will begin at the first document where X = 1 and Y = 2. // // If an OrderBy call uses the special DocumentID field path, the corresponding value // should be the document ID relative to the query's collection. For example, to // start at the document "NewYork" in the "States" collection, write // // client.Collection("States").OrderBy(DocumentID, firestore.Asc).StartAt("NewYork") // // Calling StartAt overrides a previous call to StartAt or StartAfter. func (q Query) StartAt(docSnapshotOrFieldValues ...interface{}) Query { q.startBefore = true q.startVals, q.startDoc, q.err = q.processCursorArg("StartAt", docSnapshotOrFieldValues) return q } // StartAfter returns a new Query that specifies that results should start just after // the document with the given field values. See Query.StartAt for more information. // // Calling StartAfter overrides a previous call to StartAt or StartAfter. func (q Query) StartAfter(docSnapshotOrFieldValues ...interface{}) Query { q.startBefore = false q.startVals, q.startDoc, q.err = q.processCursorArg("StartAfter", docSnapshotOrFieldValues) return q } // EndAt returns a new Query that specifies that results should end at the // document with the given field values. See Query.StartAt for more information. // // Calling EndAt overrides a previous call to EndAt or EndBefore. func (q Query) EndAt(docSnapshotOrFieldValues ...interface{}) Query { q.endBefore = false q.endVals, q.endDoc, q.err = q.processCursorArg("EndAt", docSnapshotOrFieldValues) return q } // EndBefore returns a new Query that specifies that results should end just before // the document with the given field values. See Query.StartAt for more information. // // Calling EndBefore overrides a previous call to EndAt or EndBefore. func (q Query) EndBefore(docSnapshotOrFieldValues ...interface{}) Query { q.endBefore = true q.endVals, q.endDoc, q.err = q.processCursorArg("EndBefore", docSnapshotOrFieldValues) return q } func (q *Query) processCursorArg(name string, docSnapshotOrFieldValues []interface{}) ([]interface{}, *DocumentSnapshot, error) { for _, e := range docSnapshotOrFieldValues { if ds, ok := e.(*DocumentSnapshot); ok { if len(docSnapshotOrFieldValues) == 1 { return nil, ds, nil } return nil, nil, fmt.Errorf("firestore: a document snapshot must be the only argument to %s", name) } } return docSnapshotOrFieldValues, nil, nil } func (q Query) query() *Query { return &q } func (q Query) toProto() (*pb.StructuredQuery, error) { if q.err != nil { return nil, q.err } if q.collectionID == "" { return nil, errors.New("firestore: query created without CollectionRef") } p := &pb.StructuredQuery{ From: []*pb.StructuredQuery_CollectionSelector{{CollectionId: q.collectionID}}, Offset: q.offset, Limit: q.limit, } if len(q.selection) > 0 { p.Select = &pb.StructuredQuery_Projection{} for _, fp := range q.selection { if err := fp.validate(); err != nil { return nil, err } p.Select.Fields = append(p.Select.Fields, fref(fp)) } } // If there is only filter, use it directly. Otherwise, construct // a CompositeFilter. if len(q.filters) == 1 { pf, err := q.filters[0].toProto() if err != nil { return nil, err } p.Where = pf } else if len(q.filters) > 1 { cf := &pb.StructuredQuery_CompositeFilter{ Op: pb.StructuredQuery_CompositeFilter_AND, } p.Where = &pb.StructuredQuery_Filter{ FilterType: &pb.StructuredQuery_Filter_CompositeFilter{cf}, } for _, f := range q.filters { pf, err := f.toProto() if err != nil { return nil, err } cf.Filters = append(cf.Filters, pf) } } orders := q.orders if q.startDoc != nil || q.endDoc != nil { orders = q.adjustOrders() } for _, ord := range orders { po, err := ord.toProto() if err != nil { return nil, err } p.OrderBy = append(p.OrderBy, po) } cursor, err := q.toCursor(q.startVals, q.startDoc, q.startBefore, orders) if err != nil { return nil, err } p.StartAt = cursor cursor, err = q.toCursor(q.endVals, q.endDoc, q.endBefore, orders) if err != nil { return nil, err } p.EndAt = cursor return p, nil } // If there is a start/end that uses a Document Snapshot, we may need to adjust the OrderBy // clauses that the user provided: we add OrderBy(__name__) if it isn't already present, and // we make sure we don't invalidate the original query by adding an OrderBy for inequality filters. func (q *Query) adjustOrders() []order { // If the user is already ordering by document ID, don't change anything. for _, ord := range q.orders { if ord.isDocumentID() { return q.orders } } // If there are OrderBy clauses, append an OrderBy(DocumentID), using the direction of the last OrderBy clause. if len(q.orders) > 0 { return append(q.copyOrders(), order{ fieldPath: FieldPath{DocumentID}, dir: q.orders[len(q.orders)-1].dir, }) } // If there are no OrderBy clauses but there is an inequality, add an OrderBy clause // for the field of the first inequality. var orders []order for _, f := range q.filters { if f.op != "==" { orders = []order{{fieldPath: f.fieldPath, dir: Asc}} break } } // Add an ascending OrderBy(DocumentID). return append(orders, order{fieldPath: FieldPath{DocumentID}, dir: Asc}) } func (q *Query) toCursor(fieldValues []interface{}, ds *DocumentSnapshot, before bool, orders []order) (*pb.Cursor, error) { var vals []*pb.Value var err error if ds != nil { vals, err = q.docSnapshotToCursorValues(ds, orders) } else if len(fieldValues) != 0 { vals, err = q.fieldValuesToCursorValues(fieldValues) } else { return nil, nil } if err != nil { return nil, err } return &pb.Cursor{Values: vals, Before: before}, nil } // toPositionValues converts the field values to protos. func (q *Query) fieldValuesToCursorValues(fieldValues []interface{}) ([]*pb.Value, error) { if len(fieldValues) != len(q.orders) { return nil, errors.New("firestore: number of field values in StartAt/StartAfter/EndAt/EndBefore does not match number of OrderBy fields") } vals := make([]*pb.Value, len(fieldValues)) var err error for i, ord := range q.orders { fval := fieldValues[i] if ord.isDocumentID() { // TODO(jba): support DocumentRefs as well as strings. // TODO(jba): error if document ref does not belong to the right collection. docID, ok := fval.(string) if !ok { return nil, fmt.Errorf("firestore: expected doc ID for DocumentID field, got %T", fval) } vals[i] = &pb.Value{&pb.Value_ReferenceValue{q.collectionPath() + "/" + docID}} } else { var sawTransform bool vals[i], sawTransform, err = toProtoValue(reflect.ValueOf(fval)) if err != nil { return nil, err } if sawTransform { return nil, errors.New("firestore: ServerTimestamp disallowed in query value") } } } return vals, nil } func (q *Query) docSnapshotToCursorValues(ds *DocumentSnapshot, orders []order) ([]*pb.Value, error) { // TODO(jba): error if doc snap does not belong to the right collection. vals := make([]*pb.Value, len(orders)) for i, ord := range orders { if ord.isDocumentID() { dp, qp := ds.Ref.Parent.Path, q.collectionPath() if dp != qp { return nil, fmt.Errorf("firestore: document snapshot for %s passed to query on %s", dp, qp) } vals[i] = &pb.Value{&pb.Value_ReferenceValue{ds.Ref.Path}} } else { val, err := valueAtPath(ord.fieldPath, ds.proto.Fields) if err != nil { return nil, err } vals[i] = val } } return vals, nil } // Returns a function that compares DocumentSnapshots according to q's ordering. func (q Query) compareFunc() func(d1, d2 *DocumentSnapshot) (int, error) { // Add implicit sorting by name, using the last specified direction. lastDir := Asc if len(q.orders) > 0 { lastDir = q.orders[len(q.orders)-1].dir } orders := append(q.copyOrders(), order{[]string{DocumentID}, lastDir}) return func(d1, d2 *DocumentSnapshot) (int, error) { for _, ord := range orders { var cmp int if len(ord.fieldPath) == 1 && ord.fieldPath[0] == DocumentID { cmp = compareReferences(d1.Ref.Path, d2.Ref.Path) } else { v1, err := valueAtPath(ord.fieldPath, d1.proto.Fields) if err != nil { return 0, err } v2, err := valueAtPath(ord.fieldPath, d2.proto.Fields) if err != nil { return 0, err } cmp = compareValues(v1, v2) } if cmp != 0 { if ord.dir == Desc { cmp = -cmp } return cmp, nil } } return 0, nil } } type filter struct { fieldPath FieldPath op string value interface{} } func (f filter) toProto() (*pb.StructuredQuery_Filter, error) { if err := f.fieldPath.validate(); err != nil { return nil, err } if uop, ok := unaryOpFor(f.value); ok { if f.op != "==" { return nil, fmt.Errorf("firestore: must use '==' when comparing %v", f.value) } return &pb.StructuredQuery_Filter{ FilterType: &pb.StructuredQuery_Filter_UnaryFilter{ UnaryFilter: &pb.StructuredQuery_UnaryFilter{ OperandType: &pb.StructuredQuery_UnaryFilter_Field{ Field: fref(f.fieldPath), }, Op: uop, }, }, }, nil } var op pb.StructuredQuery_FieldFilter_Operator switch f.op { case "<": op = pb.StructuredQuery_FieldFilter_LESS_THAN case "<=": op = pb.StructuredQuery_FieldFilter_LESS_THAN_OR_EQUAL case ">": op = pb.StructuredQuery_FieldFilter_GREATER_THAN case ">=": op = pb.StructuredQuery_FieldFilter_GREATER_THAN_OR_EQUAL case "==": op = pb.StructuredQuery_FieldFilter_EQUAL default: return nil, fmt.Errorf("firestore: invalid operator %q", f.op) } val, sawTransform, err := toProtoValue(reflect.ValueOf(f.value)) if err != nil { return nil, err } if sawTransform { return nil, errors.New("firestore: ServerTimestamp disallowed in query value") } return &pb.StructuredQuery_Filter{ FilterType: &pb.StructuredQuery_Filter_FieldFilter{ FieldFilter: &pb.StructuredQuery_FieldFilter{ Field: fref(f.fieldPath), Op: op, Value: val, }, }, }, nil } func unaryOpFor(value interface{}) (pb.StructuredQuery_UnaryFilter_Operator, bool) { switch { case value == nil: return pb.StructuredQuery_UnaryFilter_IS_NULL, true case isNaN(value): return pb.StructuredQuery_UnaryFilter_IS_NAN, true default: return pb.StructuredQuery_UnaryFilter_OPERATOR_UNSPECIFIED, false } } func isNaN(x interface{}) bool { switch x := x.(type) { case float32: return math.IsNaN(float64(x)) case float64: return math.IsNaN(x) default: return false } } type order struct { fieldPath FieldPath dir Direction } func (r order) isDocumentID() bool { return len(r.fieldPath) == 1 && r.fieldPath[0] == DocumentID } func (r order) toProto() (*pb.StructuredQuery_Order, error) { if err := r.fieldPath.validate(); err != nil { return nil, err } return &pb.StructuredQuery_Order{ Field: fref(r.fieldPath), Direction: pb.StructuredQuery_Direction(r.dir), }, nil } func fref(fp FieldPath) *pb.StructuredQuery_FieldReference { return &pb.StructuredQuery_FieldReference{fp.toServiceFieldPath()} } func trunc32(i int) int32 { if i > math.MaxInt32 { i = math.MaxInt32 } return int32(i) } // Documents returns an iterator over the query's resulting documents. func (q Query) Documents(ctx context.Context) *DocumentIterator { return &DocumentIterator{ iter: newQueryDocumentIterator(withResourceHeader(ctx, q.c.path()), &q, nil), err: checkTransaction(ctx), } } // DocumentIterator is an iterator over documents returned by a query. type DocumentIterator struct { iter docIterator err error } // Unexported interface so we can have two different kinds of DocumentIterator: one // for straight queries, and one for query snapshots. We do it this way instead of // making DocumentIterator an interface because in the client libraries, iterators are // always concrete types, and the fact that this one has two different implementations // is an internal detail. type docIterator interface { next() (*DocumentSnapshot, error) stop() } // Next returns the next result. Its second return value is iterator.Done if there // are no more results. Once Next returns Done, all subsequent calls will return // Done. func (it *DocumentIterator) Next() (*DocumentSnapshot, error) { if it.err != nil { return nil, it.err } ds, err := it.iter.next() if err != nil { it.err = err } return ds, err } // Stop stops the iterator, freeing its resources. // Always call Stop when you are done with an iterator. // It is not safe to call Stop concurrently with Next. func (it *DocumentIterator) Stop() { if it.iter != nil { // possible in error cases it.iter.stop() } if it.err == nil { it.err = iterator.Done } } // GetAll returns all the documents remaining from the iterator. // It is not necessary to call Stop on the iterator after calling GetAll. func (it *DocumentIterator) GetAll() ([]*DocumentSnapshot, error) { defer it.Stop() var docs []*DocumentSnapshot for { doc, err := it.Next() if err == iterator.Done { break } if err != nil { return nil, err } docs = append(docs, doc) } return docs, nil } type queryDocumentIterator struct { ctx context.Context cancel func() q *Query tid []byte // transaction ID, if any streamClient pb.Firestore_RunQueryClient } func newQueryDocumentIterator(ctx context.Context, q *Query, tid []byte) *queryDocumentIterator { ctx, cancel := context.WithCancel(ctx) return &queryDocumentIterator{ ctx: ctx, cancel: cancel, q: q, tid: tid, } } func (it *queryDocumentIterator) next() (*DocumentSnapshot, error) { client := it.q.c if it.streamClient == nil { sq, err := it.q.toProto() if err != nil { return nil, err } req := &pb.RunQueryRequest{ Parent: it.q.parentPath, QueryType: &pb.RunQueryRequest_StructuredQuery{sq}, } if it.tid != nil { req.ConsistencySelector = &pb.RunQueryRequest_Transaction{it.tid} } it.streamClient, err = client.c.RunQuery(it.ctx, req) if err != nil { return nil, err } } var res *pb.RunQueryResponse var err error for { res, err = it.streamClient.Recv() if err == io.EOF { return nil, iterator.Done } if err != nil { return nil, err } if res.Document != nil { break } // No document => partial progress; keep receiving. } docRef, err := pathToDoc(res.Document.Name, client) if err != nil { return nil, err } doc, err := newDocumentSnapshot(docRef, res.Document, client, res.ReadTime) if err != nil { return nil, err } return doc, nil } func (it *queryDocumentIterator) stop() { it.cancel() } // Snapshots returns an iterator over snapshots of the query. Each time the query // results change, a new snapshot will be generated. func (q Query) Snapshots(ctx context.Context) *QuerySnapshotIterator { ws, err := newWatchStreamForQuery(ctx, q) if err != nil { return &QuerySnapshotIterator{err: err} } return &QuerySnapshotIterator{ Query: q, ws: ws, } } // QuerySnapshotIterator is an iterator over snapshots of a query. // Call Next on the iterator to get a snapshot of the query's results each time they change. // Call Stop on the iterator when done. // // For an example, see Query.Snapshots. type QuerySnapshotIterator struct { // The Query used to construct this iterator. Query Query // The time at which the most recent snapshot was obtained from Firestore. ReadTime time.Time // The number of results in the most recent snapshot. Size int // The changes since the previous snapshot. Changes []DocumentChange ws *watchStream err error } // Next blocks until the query's results change, then returns a DocumentIterator for // the current results. // // Next never returns iterator.Done unless it is called after Stop. func (it *QuerySnapshotIterator) Next() (*DocumentIterator, error) { if it.err != nil { return nil, it.err } btree, changes, readTime, err := it.ws.nextSnapshot() if err != nil { if err == io.EOF { err = iterator.Done } it.err = err return nil, it.err } it.Changes = changes it.ReadTime = readTime it.Size = btree.Len() return &DocumentIterator{ iter: (*btreeDocumentIterator)(btree.BeforeIndex(0)), }, nil } // Stop stops receiving snapshots. // You should always call Stop when you are done with an iterator, to free up resources. // It is not safe to call Stop concurrently with Next. func (it *QuerySnapshotIterator) Stop() { it.ws.stop() } type btreeDocumentIterator btree.Iterator func (it *btreeDocumentIterator) next() (*DocumentSnapshot, error) { if !(*btree.Iterator)(it).Next() { return nil, iterator.Done } return it.Key.(*DocumentSnapshot), nil } func (*btreeDocumentIterator) stop() {}