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restic/vendor/cloud.google.com/go/firestore/docref.go

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// 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"
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"reflect"
"sort"
"golang.org/x/net/context"
"google.golang.org/api/iterator"
"google.golang.org/grpc/codes"
"google.golang.org/grpc/status"
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vkit "cloud.google.com/go/firestore/apiv1beta1"
pb "google.golang.org/genproto/googleapis/firestore/v1beta1"
)
var errNilDocRef = errors.New("firestore: nil DocumentRef")
// A DocumentRef is a reference to a Firestore document.
type DocumentRef struct {
// The CollectionRef that this document is a part of. Never nil.
Parent *CollectionRef
// The full resource path of the document: "projects/P/databases/D/documents..."
Path string
// The ID of the document: the last component of the resource path.
ID string
}
func newDocRef(parent *CollectionRef, id string) *DocumentRef {
return &DocumentRef{
Parent: parent,
ID: id,
Path: parent.Path + "/" + id,
}
}
// Collection returns a reference to sub-collection of this document.
func (d *DocumentRef) Collection(id string) *CollectionRef {
return newCollRefWithParent(d.Parent.c, d, id)
}
// Get retrieves the document. It returns a NotFound error if the document does not exist.
// You can test for NotFound with
// grpc.Code(err) == codes.NotFound
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func (d *DocumentRef) Get(ctx context.Context) (*DocumentSnapshot, error) {
if err := checkTransaction(ctx); err != nil {
return nil, err
}
if d == nil {
return nil, errNilDocRef
}
docsnaps, err := d.Parent.c.getAll(ctx, []*DocumentRef{d}, nil)
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if err != nil {
return nil, err
}
if docsnaps[0] == nil {
return nil, status.Errorf(codes.NotFound, "%q not found", d.Path)
}
return docsnaps[0], nil
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}
// Create creates the document with the given data.
// It returns an error if a document with the same ID already exists.
//
// The data argument can be a map with string keys, a struct, or a pointer to a
// struct. The map keys or exported struct fields become the fields of the firestore
// document.
// The values of data are converted to Firestore values as follows:
//
// - bool converts to Bool.
// - string converts to String.
// - int, int8, int16, int32 and int64 convert to Integer.
// - uint8, uint16 and uint32 convert to Integer. uint64 is disallowed,
// because it can represent values that cannot be represented in an int64, which
// is the underlying type of a Integer.
// - float32 and float64 convert to Double.
// - []byte converts to Bytes.
// - time.Time converts to Timestamp.
// - latlng.LatLng converts to GeoPoint. latlng is the package
// "google.golang.org/genproto/googleapis/type/latlng".
// - Slices convert to Array.
// - Maps and structs convert to Map.
// - nils of any type convert to Null.
//
// Pointers and interface{} are also permitted, and their elements processed
// recursively.
//
// Struct fields can have tags like those used by the encoding/json package. Tags
// begin with "firestore:" and are followed by "-", meaning "ignore this field," or
// an alternative name for the field. Following the name, these comma-separated
// options may be provided:
//
// - omitempty: Do not encode this field if it is empty. A value is empty
// if it is a zero value, or an array, slice or map of length zero.
// - serverTimestamp: The field must be of type time.Time. When writing, if
// the field has the zero value, the server will populate the stored document with
// the time that the request is processed.
func (d *DocumentRef) Create(ctx context.Context, data interface{}) (*WriteResult, error) {
ws, err := d.newCreateWrites(data)
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if err != nil {
return nil, err
}
return d.Parent.c.commit1(ctx, ws)
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}
func (d *DocumentRef) newCreateWrites(data interface{}) ([]*pb.Write, error) {
if d == nil {
return nil, errNilDocRef
}
doc, serverTimestampPaths, err := toProtoDocument(data)
if err != nil {
return nil, err
}
doc.Name = d.Path
pc, err := exists(false).preconditionProto()
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if err != nil {
return nil, err
}
return d.newUpdateWithTransform(doc, nil, pc, serverTimestampPaths, false), nil
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}
// Set creates or overwrites the document with the given data. See DocumentRef.Create
// for the acceptable values of data. Without options, Set overwrites the document
// completely. Specify one of the Merge options to preserve an existing document's
// fields.
func (d *DocumentRef) Set(ctx context.Context, data interface{}, opts ...SetOption) (*WriteResult, error) {
ws, err := d.newSetWrites(data, opts)
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if err != nil {
return nil, err
}
return d.Parent.c.commit1(ctx, ws)
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}
func (d *DocumentRef) newSetWrites(data interface{}, opts []SetOption) ([]*pb.Write, error) {
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if d == nil {
return nil, errNilDocRef
}
if data == nil {
return nil, errors.New("firestore: nil document contents")
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}
if len(opts) == 0 { // Set without merge
doc, serverTimestampPaths, err := toProtoDocument(data)
if err != nil {
return nil, err
}
doc.Name = d.Path
return d.newUpdateWithTransform(doc, nil, nil, serverTimestampPaths, true), nil
}
// Set with merge.
// This is just like Update, except for the existence precondition.
// So we turn data into a list of (FieldPath, interface{}) pairs (fpv's), as we do
// for Update.
fieldPaths, allPaths, err := processSetOptions(opts)
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if err != nil {
return nil, err
}
var fpvs []fpv
v := reflect.ValueOf(data)
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if allPaths {
// Set with MergeAll. Collect all the leaves of the map.
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if v.Kind() != reflect.Map {
return nil, errors.New("firestore: MergeAll can only be specified with map data")
}
fpvsFromData(v, nil, &fpvs)
} else {
// Set with merge paths. Collect only the values at the given paths.
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for _, fp := range fieldPaths {
val, err := getAtPath(v, fp)
if err != nil {
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return nil, err
}
fpvs = append(fpvs, fpv{fp, val})
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}
}
return d.fpvsToWrites(fpvs, nil)
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}
// fpvsFromData converts v into a list of (FieldPath, value) pairs.
func fpvsFromData(v reflect.Value, prefix FieldPath, fpvs *[]fpv) {
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switch v.Kind() {
case reflect.Map:
for _, k := range v.MapKeys() {
fpvsFromData(v.MapIndex(k), prefix.with(k.String()), fpvs)
}
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case reflect.Interface:
fpvsFromData(v.Elem(), prefix, fpvs)
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default:
var val interface{}
if v.IsValid() {
val = v.Interface()
}
*fpvs = append(*fpvs, fpv{prefix, val})
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}
}
// removePathsIf creates a new slice of FieldPaths that contains
// exactly those elements of fps for which pred returns false.
func removePathsIf(fps []FieldPath, pred func(FieldPath) bool) []FieldPath {
var result []FieldPath
for _, fp := range fps {
if !pred(fp) {
result = append(result, fp)
}
}
return result
}
// Delete deletes the document. If the document doesn't exist, it does nothing
// and returns no error.
func (d *DocumentRef) Delete(ctx context.Context, preconds ...Precondition) (*WriteResult, error) {
ws, err := d.newDeleteWrites(preconds)
if err != nil {
return nil, err
}
return d.Parent.c.commit1(ctx, ws)
}
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func (d *DocumentRef) newDeleteWrites(preconds []Precondition) ([]*pb.Write, error) {
if d == nil {
return nil, errNilDocRef
}
pc, err := processPreconditionsForDelete(preconds)
if err != nil {
return nil, err
}
return []*pb.Write{{
Operation: &pb.Write_Delete{d.Path},
CurrentDocument: pc,
}}, nil
}
func (d *DocumentRef) newUpdatePathWrites(updates []Update, preconds []Precondition) ([]*pb.Write, error) {
if len(updates) == 0 {
return nil, errors.New("firestore: no paths to update")
}
var fpvs []fpv
for _, u := range updates {
v, err := u.process()
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if err != nil {
return nil, err
}
fpvs = append(fpvs, v)
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}
pc, err := processPreconditionsForUpdate(preconds)
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if err != nil {
return nil, err
}
return d.fpvsToWrites(fpvs, pc)
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}
func (d *DocumentRef) fpvsToWrites(fpvs []fpv, pc *pb.Precondition) ([]*pb.Write, error) {
// Make sure there are no duplications or prefixes among the field paths.
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var fps []FieldPath
for _, fpv := range fpvs {
fps = append(fps, fpv.fieldPath)
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}
if err := checkNoDupOrPrefix(fps); err != nil {
return nil, err
}
// Process each fpv.
var updatePaths, transformPaths []FieldPath
doc := &pb.Document{
Name: d.Path,
Fields: map[string]*pb.Value{},
}
for _, fpv := range fpvs {
switch fpv.value {
case Delete:
// Send the field path without a corresponding value.
updatePaths = append(updatePaths, fpv.fieldPath)
case ServerTimestamp:
// Use the path in a transform operation.
transformPaths = append(transformPaths, fpv.fieldPath)
default:
updatePaths = append(updatePaths, fpv.fieldPath)
// Convert the value to a proto and put it into the document.
v := reflect.ValueOf(fpv.value)
pv, sawServerTimestamp, err := toProtoValue(v)
if err != nil {
return nil, err
}
setAtPath(doc.Fields, fpv.fieldPath, pv)
// Also accumulate any serverTimestamp values within the value.
if sawServerTimestamp {
stps, err := extractTransformPaths(v, nil)
if err != nil {
return nil, err
}
for _, p := range stps {
transformPaths = append(transformPaths, fpv.fieldPath.concat(p))
}
}
}
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}
return d.newUpdateWithTransform(doc, updatePaths, pc, transformPaths, false), nil
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}
var requestTimeTransform = &pb.DocumentTransform_FieldTransform_SetToServerValue{
pb.DocumentTransform_FieldTransform_REQUEST_TIME,
}
// newUpdateWithTransform constructs operations for a commit. Most generally, it
// returns an update operation followed by a transform.
//
// If there are no serverTimestampPaths, the transform is omitted.
//
// If doc.Fields is empty, there are no updatePaths, and there is no precondition,
// the update is omitted, unless updateOnEmpty is true.
func (d *DocumentRef) newUpdateWithTransform(doc *pb.Document, updatePaths []FieldPath, pc *pb.Precondition, serverTimestampPaths []FieldPath, updateOnEmpty bool) []*pb.Write {
// Remove server timestamp fields from updatePaths. Those fields were removed
// from the document by toProtoDocument, so they should not be in the update
// mask.
// Note: this is technically O(n^2), but it is unlikely that there is
// more than one server timestamp path.
updatePaths = removePathsIf(updatePaths, func(fp FieldPath) bool {
return fp.in(serverTimestampPaths)
})
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var ws []*pb.Write
if updateOnEmpty || len(doc.Fields) > 0 ||
len(updatePaths) > 0 || (pc != nil && len(serverTimestampPaths) == 0) {
var mask *pb.DocumentMask
if len(updatePaths) > 0 {
sfps := toServiceFieldPaths(updatePaths)
sort.Strings(sfps) // TODO(jba): make tests pass without this
mask = &pb.DocumentMask{FieldPaths: sfps}
}
w := &pb.Write{
Operation: &pb.Write_Update{doc},
UpdateMask: mask,
CurrentDocument: pc,
}
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ws = append(ws, w)
pc = nil // If the precondition is in the write, we don't need it in the transform.
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}
if len(serverTimestampPaths) > 0 || pc != nil {
ws = append(ws, d.newTransform(serverTimestampPaths, pc))
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}
return ws
}
func (d *DocumentRef) newTransform(serverTimestampFieldPaths []FieldPath, pc *pb.Precondition) *pb.Write {
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sort.Sort(byPath(serverTimestampFieldPaths)) // TODO(jba): make tests pass without this
var fts []*pb.DocumentTransform_FieldTransform
for _, p := range serverTimestampFieldPaths {
fts = append(fts, &pb.DocumentTransform_FieldTransform{
FieldPath: p.toServiceFieldPath(),
TransformType: requestTimeTransform,
})
}
return &pb.Write{
Operation: &pb.Write_Transform{
&pb.DocumentTransform{
Document: d.Path,
FieldTransforms: fts,
// TODO(jba): should the transform have the same preconditions as the write?
},
},
CurrentDocument: pc,
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}
}
type sentinel int
const (
// Delete is used as a value in a call to Update or Set with merge to indicate
// that the corresponding key should be deleted.
Delete sentinel = iota
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// ServerTimestamp is used as a value in a call to Update to indicate that the
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// key's value should be set to the time at which the server processed
// the request.
ServerTimestamp
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)
func (s sentinel) String() string {
switch s {
case Delete:
return "Delete"
case ServerTimestamp:
return "ServerTimestamp"
default:
return "<?sentinel?>"
}
}
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func isStructOrStructPtr(x interface{}) bool {
v := reflect.ValueOf(x)
if v.Kind() == reflect.Struct {
return true
}
if v.Kind() == reflect.Ptr && v.Elem().Kind() == reflect.Struct {
return true
}
return false
}
// An Update describes an update to a value referred to by a path.
// An Update should have either a non-empty Path or a non-empty FieldPath,
// but not both.
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//
// See DocumentRef.Create for acceptable values.
// To delete a field, specify firestore.Delete as the value.
type Update struct {
Path string // Will be split on dots, and must not contain any of "˜*/[]".
FieldPath FieldPath
Value interface{}
}
// An fpv is a pair of validated FieldPath and value.
type fpv struct {
fieldPath FieldPath
value interface{}
}
func (u *Update) process() (fpv, error) {
if (u.Path != "") == (u.FieldPath != nil) {
return fpv{}, fmt.Errorf("firestore: update %+v should have exactly one of Path or FieldPath", u)
}
fp := u.FieldPath
var err error
if fp == nil {
fp, err = parseDotSeparatedString(u.Path)
if err != nil {
return fpv{}, err
}
}
if err := fp.validate(); err != nil {
return fpv{}, err
}
return fpv{fp, u.Value}, nil
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}
// Update updates the document. The values at the given
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// field paths are replaced, but other fields of the stored document are untouched.
func (d *DocumentRef) Update(ctx context.Context, updates []Update, preconds ...Precondition) (*WriteResult, error) {
ws, err := d.newUpdatePathWrites(updates, preconds)
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if err != nil {
return nil, err
}
return d.Parent.c.commit1(ctx, ws)
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}
// Collections returns an interator over the immediate sub-collections of the document.
func (d *DocumentRef) Collections(ctx context.Context) *CollectionIterator {
client := d.Parent.c
it := &CollectionIterator{
err: checkTransaction(ctx),
client: client,
parent: d,
it: client.c.ListCollectionIds(
withResourceHeader(ctx, client.path()),
&pb.ListCollectionIdsRequest{Parent: d.Path}),
}
it.pageInfo, it.nextFunc = iterator.NewPageInfo(
it.fetch,
func() int { return len(it.items) },
func() interface{} { b := it.items; it.items = nil; return b })
return it
}
// CollectionIterator is an iterator over sub-collections of a document.
type CollectionIterator struct {
client *Client
parent *DocumentRef
it *vkit.StringIterator
pageInfo *iterator.PageInfo
nextFunc func() error
items []*CollectionRef
err error
}
// PageInfo supports pagination. See the google.golang.org/api/iterator package for details.
func (it *CollectionIterator) PageInfo() *iterator.PageInfo { return it.pageInfo }
// 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 *CollectionIterator) Next() (*CollectionRef, error) {
if err := it.nextFunc(); err != nil {
return nil, err
}
item := it.items[0]
it.items = it.items[1:]
return item, nil
}
func (it *CollectionIterator) fetch(pageSize int, pageToken string) (string, error) {
if it.err != nil {
return "", it.err
}
return iterFetch(pageSize, pageToken, it.it.PageInfo(), func() error {
id, err := it.it.Next()
if err != nil {
return err
}
var cr *CollectionRef
if it.parent == nil {
cr = newTopLevelCollRef(it.client, it.client.path(), id)
} else {
cr = newCollRefWithParent(it.client, it.parent, id)
}
it.items = append(it.items, cr)
return nil
})
}
// GetAll returns all the collections remaining from the iterator.
func (it *CollectionIterator) GetAll() ([]*CollectionRef, error) {
var crs []*CollectionRef
for {
cr, err := it.Next()
if err == iterator.Done {
break
}
if err != nil {
return nil, err
}
crs = append(crs, cr)
}
return crs, nil
}
// Common fetch code for iterators that are backed by vkit iterators.
// TODO(jba): dedup with same function in logging/logadmin.
func iterFetch(pageSize int, pageToken string, pi *iterator.PageInfo, next func() error) (string, error) {
pi.MaxSize = pageSize
pi.Token = pageToken
// Get one item, which will fill the buffer.
if err := next(); err != nil {
return "", err
}
// Collect the rest of the buffer.
for pi.Remaining() > 0 {
if err := next(); err != nil {
return "", err
}
}
return pi.Token, nil
}