// Copyright 2018 Google Inc. // // 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. syntax = "proto3"; package google.datastore.v1beta3; import "google/api/annotations.proto"; import "google/datastore/v1beta3/entity.proto"; import "google/datastore/v1beta3/query.proto"; option csharp_namespace = "Google.Cloud.Datastore.V1Beta3"; option go_package = "google.golang.org/genproto/googleapis/datastore/v1beta3;datastore"; option java_multiple_files = true; option java_outer_classname = "DatastoreProto"; option java_package = "com.google.datastore.v1beta3"; option php_namespace = "Google\\Cloud\\Datastore\\V1beta3"; option ruby_package = "Google::Cloud::Datastore::V1beta3"; // Each RPC normalizes the partition IDs of the keys in its input entities, // and always returns entities with keys with normalized partition IDs. // This applies to all keys and entities, including those in values, except keys // with both an empty path and an empty or unset partition ID. Normalization of // input keys sets the project ID (if not already set) to the project ID from // the request. // service Datastore { // Looks up entities by key. rpc Lookup(LookupRequest) returns (LookupResponse) { option (google.api.http) = { post: "/v1beta3/projects/{project_id}:lookup" body: "*" }; } // Queries for entities. rpc RunQuery(RunQueryRequest) returns (RunQueryResponse) { option (google.api.http) = { post: "/v1beta3/projects/{project_id}:runQuery" body: "*" }; } // Begins a new transaction. rpc BeginTransaction(BeginTransactionRequest) returns (BeginTransactionResponse) { option (google.api.http) = { post: "/v1beta3/projects/{project_id}:beginTransaction" body: "*" }; } // Commits a transaction, optionally creating, deleting or modifying some // entities. rpc Commit(CommitRequest) returns (CommitResponse) { option (google.api.http) = { post: "/v1beta3/projects/{project_id}:commit" body: "*" }; } // Rolls back a transaction. rpc Rollback(RollbackRequest) returns (RollbackResponse) { option (google.api.http) = { post: "/v1beta3/projects/{project_id}:rollback" body: "*" }; } // Allocates IDs for the given keys, which is useful for referencing an entity // before it is inserted. rpc AllocateIds(AllocateIdsRequest) returns (AllocateIdsResponse) { option (google.api.http) = { post: "/v1beta3/projects/{project_id}:allocateIds" body: "*" }; } // Prevents the supplied keys' IDs from being auto-allocated by Cloud // Datastore. rpc ReserveIds(ReserveIdsRequest) returns (ReserveIdsResponse) { option (google.api.http) = { post: "/v1beta3/projects/{project_id}:reserveIds" body: "*" }; } } // The request for // [Datastore.Lookup][google.datastore.v1beta3.Datastore.Lookup]. message LookupRequest { // The ID of the project against which to make the request. string project_id = 8; // The options for this lookup request. ReadOptions read_options = 1; // Keys of entities to look up. repeated Key keys = 3; } // The response for // [Datastore.Lookup][google.datastore.v1beta3.Datastore.Lookup]. message LookupResponse { // Entities found as `ResultType.FULL` entities. The order of results in this // field is undefined and has no relation to the order of the keys in the // input. repeated EntityResult found = 1; // Entities not found as `ResultType.KEY_ONLY` entities. The order of results // in this field is undefined and has no relation to the order of the keys // in the input. repeated EntityResult missing = 2; // A list of keys that were not looked up due to resource constraints. The // order of results in this field is undefined and has no relation to the // order of the keys in the input. repeated Key deferred = 3; } // The request for // [Datastore.RunQuery][google.datastore.v1beta3.Datastore.RunQuery]. message RunQueryRequest { // The ID of the project against which to make the request. string project_id = 8; // Entities are partitioned into subsets, identified by a partition ID. // Queries are scoped to a single partition. // This partition ID is normalized with the standard default context // partition ID. PartitionId partition_id = 2; // The options for this query. ReadOptions read_options = 1; // The type of query. oneof query_type { // The query to run. Query query = 3; // The GQL query to run. GqlQuery gql_query = 7; } } // The response for // [Datastore.RunQuery][google.datastore.v1beta3.Datastore.RunQuery]. message RunQueryResponse { // A batch of query results (always present). QueryResultBatch batch = 1; // The parsed form of the `GqlQuery` from the request, if it was set. Query query = 2; } // The request for // [Datastore.BeginTransaction][google.datastore.v1beta3.Datastore.BeginTransaction]. message BeginTransactionRequest { // The ID of the project against which to make the request. string project_id = 8; // Options for a new transaction. TransactionOptions transaction_options = 10; } // The response for // [Datastore.BeginTransaction][google.datastore.v1beta3.Datastore.BeginTransaction]. message BeginTransactionResponse { // The transaction identifier (always present). bytes transaction = 1; } // The request for // [Datastore.Rollback][google.datastore.v1beta3.Datastore.Rollback]. message RollbackRequest { // The ID of the project against which to make the request. string project_id = 8; // The transaction identifier, returned by a call to // [Datastore.BeginTransaction][google.datastore.v1beta3.Datastore.BeginTransaction]. bytes transaction = 1; } // The response for // [Datastore.Rollback][google.datastore.v1beta3.Datastore.Rollback]. (an empty // message). message RollbackResponse {} // The request for // [Datastore.Commit][google.datastore.v1beta3.Datastore.Commit]. message CommitRequest { // The modes available for commits. enum Mode { // Unspecified. This value must not be used. MODE_UNSPECIFIED = 0; // Transactional: The mutations are either all applied, or none are applied. // Learn about transactions // [here](https://cloud.google.com/datastore/docs/concepts/transactions). TRANSACTIONAL = 1; // Non-transactional: The mutations may not apply as all or none. NON_TRANSACTIONAL = 2; } // The ID of the project against which to make the request. string project_id = 8; // The type of commit to perform. Defaults to `TRANSACTIONAL`. Mode mode = 5; // Must be set when mode is `TRANSACTIONAL`. oneof transaction_selector { // The identifier of the transaction associated with the commit. A // transaction identifier is returned by a call to // [Datastore.BeginTransaction][google.datastore.v1beta3.Datastore.BeginTransaction]. bytes transaction = 1; } // The mutations to perform. // // When mode is `TRANSACTIONAL`, mutations affecting a single entity are // applied in order. The following sequences of mutations affecting a single // entity are not permitted in a single `Commit` request: // // - `insert` followed by `insert` // - `update` followed by `insert` // - `upsert` followed by `insert` // - `delete` followed by `update` // // When mode is `NON_TRANSACTIONAL`, no two mutations may affect a single // entity. repeated Mutation mutations = 6; } // The response for // [Datastore.Commit][google.datastore.v1beta3.Datastore.Commit]. message CommitResponse { // The result of performing the mutations. // The i-th mutation result corresponds to the i-th mutation in the request. repeated MutationResult mutation_results = 3; // The number of index entries updated during the commit, or zero if none were // updated. int32 index_updates = 4; } // The request for // [Datastore.AllocateIds][google.datastore.v1beta3.Datastore.AllocateIds]. message AllocateIdsRequest { // The ID of the project against which to make the request. string project_id = 8; // A list of keys with incomplete key paths for which to allocate IDs. // No key may be reserved/read-only. repeated Key keys = 1; } // The response for // [Datastore.AllocateIds][google.datastore.v1beta3.Datastore.AllocateIds]. message AllocateIdsResponse { // The keys specified in the request (in the same order), each with // its key path completed with a newly allocated ID. repeated Key keys = 1; } // The request for // [Datastore.ReserveIds][google.datastore.v1beta3.Datastore.ReserveIds]. message ReserveIdsRequest { // The ID of the project against which to make the request. string project_id = 8; // If not empty, the ID of the database against which to make the request. string database_id = 9; // A list of keys with complete key paths whose numeric IDs should not be // auto-allocated. repeated Key keys = 1; } // The response for // [Datastore.ReserveIds][google.datastore.v1beta3.Datastore.ReserveIds]. message ReserveIdsResponse {} // A mutation to apply to an entity. message Mutation { // The mutation operation. // // For `insert`, `update`, and `upsert`: // - The entity's key must not be reserved/read-only. // - No property in the entity may have a reserved name, // not even a property in an entity in a value. // - No value in the entity may have meaning 18, // not even a value in an entity in another value. oneof operation { // The entity to insert. The entity must not already exist. // The entity key's final path element may be incomplete. Entity insert = 4; // The entity to update. The entity must already exist. // Must have a complete key path. Entity update = 5; // The entity to upsert. The entity may or may not already exist. // The entity key's final path element may be incomplete. Entity upsert = 6; // The key of the entity to delete. The entity may or may not already exist. // Must have a complete key path and must not be reserved/read-only. Key delete = 7; } // When set, the server will detect whether or not this mutation conflicts // with the current version of the entity on the server. Conflicting mutations // are not applied, and are marked as such in MutationResult. oneof conflict_detection_strategy { // The version of the entity that this mutation is being applied to. If this // does not match the current version on the server, the mutation conflicts. int64 base_version = 8; } } // The result of applying a mutation. message MutationResult { // The automatically allocated key. // Set only when the mutation allocated a key. Key key = 3; // The version of the entity on the server after processing the mutation. If // the mutation doesn't change anything on the server, then the version will // be the version of the current entity or, if no entity is present, a version // that is strictly greater than the version of any previous entity and less // than the version of any possible future entity. int64 version = 4; // Whether a conflict was detected for this mutation. Always false when a // conflict detection strategy field is not set in the mutation. bool conflict_detected = 5; } // The options shared by read requests. message ReadOptions { // The possible values for read consistencies. enum ReadConsistency { // Unspecified. This value must not be used. READ_CONSISTENCY_UNSPECIFIED = 0; // Strong consistency. STRONG = 1; // Eventual consistency. EVENTUAL = 2; } // If not specified, lookups and ancestor queries default to // `read_consistency`=`STRONG`, global queries default to // `read_consistency`=`EVENTUAL`. oneof consistency_type { // The non-transactional read consistency to use. // Cannot be set to `STRONG` for global queries. ReadConsistency read_consistency = 1; // The identifier of the transaction in which to read. A // transaction identifier is returned by a call to // [Datastore.BeginTransaction][google.datastore.v1beta3.Datastore.BeginTransaction]. bytes transaction = 2; } } // Options for beginning a new transaction. // // Transactions can be created explicitly with calls to // [Datastore.BeginTransaction][google.datastore.v1beta3.Datastore.BeginTransaction] // or implicitly by setting // [ReadOptions.new_transaction][google.datastore.v1beta3.ReadOptions.new_transaction] // in read requests. message TransactionOptions { // Options specific to read / write transactions. message ReadWrite { // The transaction identifier of the transaction being retried. bytes previous_transaction = 1; } // Options specific to read-only transactions. message ReadOnly {} // The `mode` of the transaction, indicating whether write operations are // supported. oneof mode { // The transaction should allow both reads and writes. ReadWrite read_write = 1; // The transaction should only allow reads. ReadOnly read_only = 2; } }