third_party/googleapis/google/bigtable/v1/bigtable_service_messages.proto - bazel - Git at Google

 // Copyright 2016 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.bigtable.v1;

 import "google/bigtable/v1/bigtable_data.proto";
 import "google/rpc/status.proto";

 option go_package = "google.golang.org/genproto/googleapis/bigtable/v1;bigtable";
 option java_multiple_files = true;
 option java_outer_classname = "BigtableServiceMessagesProto";
 option java_package = "com.google.bigtable.v1";


 // Request message for BigtableServer.ReadRows.
 message ReadRowsRequest {
   // The unique name of the table from which to read.
   string table_name = 1;

   // If neither row_key nor row_range is set, reads from all rows.
   oneof target {
     // The key of a single row from which to read.
     bytes row_key = 2;

     // A range of rows from which to read.
     RowRange row_range = 3;

     // A set of rows from which to read. Entries need not be in order, and will
     // be deduplicated before reading.
     // The total serialized size of the set must not exceed 1MB.
     RowSet row_set = 8;
   }

   // The filter to apply to the contents of the specified row(s). If unset,
   // reads the entire table.
   RowFilter filter = 5;

   // By default, rows are read sequentially, producing results which are
   // guaranteed to arrive in increasing row order. Setting
   // "allow_row_interleaving" to true allows multiple rows to be interleaved in
   // the response stream, which increases throughput but breaks this guarantee,
   // and may force the client to use more memory to buffer partially-received
   // rows. Cannot be set to true when specifying "num_rows_limit".
   bool allow_row_interleaving = 6;

   // The read will terminate after committing to N rows' worth of results. The
   // default (zero) is to return all results.
   // Note that "allow_row_interleaving" cannot be set to true when this is set.
   int64 num_rows_limit = 7;
 }

 // Response message for BigtableService.ReadRows.
 message ReadRowsResponse {
   // Specifies a piece of a row's contents returned as part of the read
   // response stream.
   message Chunk {
     oneof chunk {
       // A subset of the data from a particular row. As long as no "reset_row"
       // is received in between, multiple "row_contents" from the same row are
       // from the same atomic view of that row, and will be received in the
       // expected family/column/timestamp order.
       Family row_contents = 1;

       // Indicates that the client should drop all previous chunks for
       // "row_key", as it will be re-read from the beginning.
       bool reset_row = 2;

       // Indicates that the client can safely process all previous chunks for
       // "row_key", as its data has been fully read.
       bool commit_row = 3;
     }
   }

   // The key of the row for which we're receiving data.
   // Results will be received in increasing row key order, unless
   // "allow_row_interleaving" was specified in the request.
   bytes row_key = 1;

   // One or more chunks of the row specified by "row_key".
   repeated Chunk chunks = 2;
 }

 // Request message for BigtableService.SampleRowKeys.
 message SampleRowKeysRequest {
   // The unique name of the table from which to sample row keys.
   string table_name = 1;
 }

 // Response message for BigtableService.SampleRowKeys.
 message SampleRowKeysResponse {
   // Sorted streamed sequence of sample row keys in the table. The table might
   // have contents before the first row key in the list and after the last one,
   // but a key containing the empty string indicates "end of table" and will be
   // the last response given, if present.
   // Note that row keys in this list may not have ever been written to or read
   // from, and users should therefore not make any assumptions about the row key
   // structure that are specific to their use case.
   bytes row_key = 1;

   // Approximate total storage space used by all rows in the table which precede
   // "row_key". Buffering the contents of all rows between two subsequent
   // samples would require space roughly equal to the difference in their
   // "offset_bytes" fields.
   int64 offset_bytes = 2;
 }

 // Request message for BigtableService.MutateRow.
 message MutateRowRequest {
   // The unique name of the table to which the mutation should be applied.
   string table_name = 1;

   // The key of the row to which the mutation should be applied.
   bytes row_key = 2;

   // Changes to be atomically applied to the specified row. Entries are applied
   // in order, meaning that earlier mutations can be masked by later ones.
   // Must contain at least one entry and at most 100000.
   repeated Mutation mutations = 3;
 }

 // Request message for BigtableService.MutateRows.
 message MutateRowsRequest {
   message Entry {
     // The key of the row to which the `mutations` should be applied.
     bytes row_key = 1;

     // Changes to be atomically applied to the specified row. Mutations are
     // applied in order, meaning that earlier mutations can be masked by
     // later ones.
     // At least one mutation must be specified.
     repeated Mutation mutations = 2;
   }

   // The unique name of the table to which the mutations should be applied.
   string table_name = 1;

   // The row keys/mutations to be applied in bulk.
   // Each entry is applied as an atomic mutation, but the entries may be
   // applied in arbitrary order (even between entries for the same row).
   // At least one entry must be specified, and in total the entries may
   // contain at most 100000 mutations.
   repeated Entry entries = 2;
 }

 // Response message for BigtableService.MutateRows.
 message MutateRowsResponse {
   // The results for each Entry from the request, presented in the order
   // in which the entries were originally given.
   // Depending on how requests are batched during execution, it is possible
   // for one Entry to fail due to an error with another Entry. In the event
   // that this occurs, the same error will be reported for both entries.
   repeated google.rpc.Status statuses = 1;
 }

 // Request message for BigtableService.CheckAndMutateRowRequest
 message CheckAndMutateRowRequest {
   // The unique name of the table to which the conditional mutation should be
   // applied.
   string table_name = 1;

   // The key of the row to which the conditional mutation should be applied.
   bytes row_key = 2;

   // The filter to be applied to the contents of the specified row. Depending
   // on whether or not any results are yielded, either "true_mutations" or
   // "false_mutations" will be executed. If unset, checks that the row contains
   // any values at all.
   RowFilter predicate_filter = 6;

   // Changes to be atomically applied to the specified row if "predicate_filter"
   // yields at least one cell when applied to "row_key". Entries are applied in
   // order, meaning that earlier mutations can be masked by later ones.
   // Must contain at least one entry if "false_mutations" is empty, and at most
   // 100000.
   repeated Mutation true_mutations = 4;

   // Changes to be atomically applied to the specified row if "predicate_filter"
   // does not yield any cells when applied to "row_key". Entries are applied in
   // order, meaning that earlier mutations can be masked by later ones.
   // Must contain at least one entry if "true_mutations" is empty, and at most
   // 100000.
   repeated Mutation false_mutations = 5;
 }

 // Response message for BigtableService.CheckAndMutateRowRequest.
 message CheckAndMutateRowResponse {
   // Whether or not the request's "predicate_filter" yielded any results for
   // the specified row.
   bool predicate_matched = 1;
 }

 // Request message for BigtableService.ReadModifyWriteRowRequest.
 message ReadModifyWriteRowRequest {
   // The unique name of the table to which the read/modify/write rules should be
   // applied.
   string table_name = 1;

   // The key of the row to which the read/modify/write rules should be applied.
   bytes row_key = 2;

   // Rules specifying how the specified row's contents are to be transformed
   // into writes. Entries are applied in order, meaning that earlier rules will
   // affect the results of later ones.
   repeated ReadModifyWriteRule rules = 3;
 }
	// Copyright 2016 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.bigtable.v1;

	import "google/bigtable/v1/bigtable_data.proto";
	import "google/rpc/status.proto";

	option go_package = "google.golang.org/genproto/googleapis/bigtable/v1;bigtable";
	option java_multiple_files = true;
	option java_outer_classname = "BigtableServiceMessagesProto";
	option java_package = "com.google.bigtable.v1";


	// Request message for BigtableServer.ReadRows.
	message ReadRowsRequest {
	// The unique name of the table from which to read.
	string table_name = 1;

	// If neither row_key nor row_range is set, reads from all rows.
	oneof target {
	// The key of a single row from which to read.
	bytes row_key = 2;

	// A range of rows from which to read.
	RowRange row_range = 3;

	// A set of rows from which to read. Entries need not be in order, and will
	// be deduplicated before reading.
	// The total serialized size of the set must not exceed 1MB.
	RowSet row_set = 8;
	}

	// The filter to apply to the contents of the specified row(s). If unset,
	// reads the entire table.
	RowFilter filter = 5;

	// By default, rows are read sequentially, producing results which are
	// guaranteed to arrive in increasing row order. Setting
	// "allow_row_interleaving" to true allows multiple rows to be interleaved in
	// the response stream, which increases throughput but breaks this guarantee,
	// and may force the client to use more memory to buffer partially-received
	// rows. Cannot be set to true when specifying "num_rows_limit".
	bool allow_row_interleaving = 6;

	// The read will terminate after committing to N rows' worth of results. The
	// default (zero) is to return all results.
	// Note that "allow_row_interleaving" cannot be set to true when this is set.
	int64 num_rows_limit = 7;
	}

	// Response message for BigtableService.ReadRows.
	message ReadRowsResponse {
	// Specifies a piece of a row's contents returned as part of the read
	// response stream.
	message Chunk {
	oneof chunk {
	// A subset of the data from a particular row. As long as no "reset_row"
	// is received in between, multiple "row_contents" from the same row are
	// from the same atomic view of that row, and will be received in the
	// expected family/column/timestamp order.
	Family row_contents = 1;

	// Indicates that the client should drop all previous chunks for
	// "row_key", as it will be re-read from the beginning.
	bool reset_row = 2;

	// Indicates that the client can safely process all previous chunks for
	// "row_key", as its data has been fully read.
	bool commit_row = 3;
	}
	}

	// The key of the row for which we're receiving data.
	// Results will be received in increasing row key order, unless
	// "allow_row_interleaving" was specified in the request.
	bytes row_key = 1;

	// One or more chunks of the row specified by "row_key".
	repeated Chunk chunks = 2;
	}

	// Request message for BigtableService.SampleRowKeys.
	message SampleRowKeysRequest {
	// The unique name of the table from which to sample row keys.
	string table_name = 1;
	}

	// Response message for BigtableService.SampleRowKeys.
	message SampleRowKeysResponse {
	// Sorted streamed sequence of sample row keys in the table. The table might
	// have contents before the first row key in the list and after the last one,
	// but a key containing the empty string indicates "end of table" and will be
	// the last response given, if present.
	// Note that row keys in this list may not have ever been written to or read
	// from, and users should therefore not make any assumptions about the row key
	// structure that are specific to their use case.
	bytes row_key = 1;

	// Approximate total storage space used by all rows in the table which precede
	// "row_key". Buffering the contents of all rows between two subsequent
	// samples would require space roughly equal to the difference in their
	// "offset_bytes" fields.
	int64 offset_bytes = 2;
	}

	// Request message for BigtableService.MutateRow.
	message MutateRowRequest {
	// The unique name of the table to which the mutation should be applied.
	string table_name = 1;

	// The key of the row to which the mutation should be applied.
	bytes row_key = 2;

	// Changes to be atomically applied to the specified row. Entries are applied
	// in order, meaning that earlier mutations can be masked by later ones.
	// Must contain at least one entry and at most 100000.
	repeated Mutation mutations = 3;
	}

	// Request message for BigtableService.MutateRows.
	message MutateRowsRequest {
	message Entry {
	// The key of the row to which the `mutations` should be applied.
	bytes row_key = 1;

	// Changes to be atomically applied to the specified row. Mutations are
	// applied in order, meaning that earlier mutations can be masked by
	// later ones.
	// At least one mutation must be specified.
	repeated Mutation mutations = 2;
	}

	// The unique name of the table to which the mutations should be applied.
	string table_name = 1;

	// The row keys/mutations to be applied in bulk.
	// Each entry is applied as an atomic mutation, but the entries may be
	// applied in arbitrary order (even between entries for the same row).
	// At least one entry must be specified, and in total the entries may
	// contain at most 100000 mutations.
	repeated Entry entries = 2;
	}

	// Response message for BigtableService.MutateRows.
	message MutateRowsResponse {
	// The results for each Entry from the request, presented in the order
	// in which the entries were originally given.
	// Depending on how requests are batched during execution, it is possible
	// for one Entry to fail due to an error with another Entry. In the event
	// that this occurs, the same error will be reported for both entries.
	repeated google.rpc.Status statuses = 1;
	}

	// Request message for BigtableService.CheckAndMutateRowRequest
	message CheckAndMutateRowRequest {
	// The unique name of the table to which the conditional mutation should be
	// applied.
	string table_name = 1;

	// The key of the row to which the conditional mutation should be applied.
	bytes row_key = 2;

	// The filter to be applied to the contents of the specified row. Depending
	// on whether or not any results are yielded, either "true_mutations" or
	// "false_mutations" will be executed. If unset, checks that the row contains
	// any values at all.
	RowFilter predicate_filter = 6;

	// Changes to be atomically applied to the specified row if "predicate_filter"
	// yields at least one cell when applied to "row_key". Entries are applied in
	// order, meaning that earlier mutations can be masked by later ones.
	// Must contain at least one entry if "false_mutations" is empty, and at most
	// 100000.
	repeated Mutation true_mutations = 4;

	// Changes to be atomically applied to the specified row if "predicate_filter"
	// does not yield any cells when applied to "row_key". Entries are applied in
	// order, meaning that earlier mutations can be masked by later ones.
	// Must contain at least one entry if "true_mutations" is empty, and at most
	// 100000.
	repeated Mutation false_mutations = 5;
	}

	// Response message for BigtableService.CheckAndMutateRowRequest.
	message CheckAndMutateRowResponse {
	// Whether or not the request's "predicate_filter" yielded any results for
	// the specified row.
	bool predicate_matched = 1;
	}

	// Request message for BigtableService.ReadModifyWriteRowRequest.
	message ReadModifyWriteRowRequest {
	// The unique name of the table to which the read/modify/write rules should be
	// applied.
	string table_name = 1;

	// The key of the row to which the read/modify/write rules should be applied.
	bytes row_key = 2;

	// Rules specifying how the specified row's contents are to be transformed
	// into writes. Entries are applied in order, meaning that earlier rules will
	// affect the results of later ones.
	repeated ReadModifyWriteRule rules = 3;
	}