mirror of
https://github.com/titanscouting/tra-analysis.git
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366 lines
14 KiB
Protocol Buffer
366 lines
14 KiB
Protocol Buffer
// Copyright 2018 Google Inc.
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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syntax = "proto3";
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package google.bigtable.v2;
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import "google/api/annotations.proto";
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import "google/bigtable/v2/data.proto";
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import "google/protobuf/wrappers.proto";
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import "google/rpc/status.proto";
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option csharp_namespace = "Google.Cloud.Bigtable.V2";
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option go_package = "google.golang.org/genproto/googleapis/bigtable/v2;bigtable";
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option java_multiple_files = true;
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option java_outer_classname = "BigtableProto";
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option java_package = "com.google.bigtable.v2";
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option php_namespace = "Google\\Cloud\\Bigtable\\V2";
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// Service for reading from and writing to existing Bigtable tables.
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service Bigtable {
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// Streams back the contents of all requested rows in key order, optionally
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// applying the same Reader filter to each. Depending on their size,
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// rows and cells may be broken up across multiple responses, but
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// atomicity of each row will still be preserved. See the
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// ReadRowsResponse documentation for details.
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rpc ReadRows(ReadRowsRequest) returns (stream ReadRowsResponse) {
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option (google.api.http) = {
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post: "/v2/{table_name=projects/*/instances/*/tables/*}:readRows"
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body: "*"
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};
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}
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// Returns a sample of row keys in the table. The returned row keys will
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// delimit contiguous sections of the table of approximately equal size,
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// which can be used to break up the data for distributed tasks like
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// mapreduces.
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rpc SampleRowKeys(SampleRowKeysRequest) returns (stream SampleRowKeysResponse) {
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option (google.api.http) = {
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get: "/v2/{table_name=projects/*/instances/*/tables/*}:sampleRowKeys"
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};
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}
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// Mutates a row atomically. Cells already present in the row are left
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// unchanged unless explicitly changed by `mutation`.
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rpc MutateRow(MutateRowRequest) returns (MutateRowResponse) {
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option (google.api.http) = {
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post: "/v2/{table_name=projects/*/instances/*/tables/*}:mutateRow"
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body: "*"
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};
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}
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// Mutates multiple rows in a batch. Each individual row is mutated
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// atomically as in MutateRow, but the entire batch is not executed
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// atomically.
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rpc MutateRows(MutateRowsRequest) returns (stream MutateRowsResponse) {
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option (google.api.http) = {
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post: "/v2/{table_name=projects/*/instances/*/tables/*}:mutateRows"
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body: "*"
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};
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}
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// Mutates a row atomically based on the output of a predicate Reader filter.
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rpc CheckAndMutateRow(CheckAndMutateRowRequest) returns (CheckAndMutateRowResponse) {
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option (google.api.http) = {
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post: "/v2/{table_name=projects/*/instances/*/tables/*}:checkAndMutateRow"
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body: "*"
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};
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}
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// Modifies a row atomically on the server. The method reads the latest
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// existing timestamp and value from the specified columns and writes a new
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// entry based on pre-defined read/modify/write rules. The new value for the
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// timestamp is the greater of the existing timestamp or the current server
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// time. The method returns the new contents of all modified cells.
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rpc ReadModifyWriteRow(ReadModifyWriteRowRequest) returns (ReadModifyWriteRowResponse) {
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option (google.api.http) = {
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post: "/v2/{table_name=projects/*/instances/*/tables/*}:readModifyWriteRow"
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body: "*"
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};
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}
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}
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// Request message for Bigtable.ReadRows.
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message ReadRowsRequest {
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// The unique name of the table from which to read.
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// Values are of the form
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// `projects/<project>/instances/<instance>/tables/<table>`.
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string table_name = 1;
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// This value specifies routing for replication. If not specified, the
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// "default" application profile will be used.
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string app_profile_id = 5;
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// The row keys and/or ranges to read. If not specified, reads from all rows.
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RowSet rows = 2;
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// The filter to apply to the contents of the specified row(s). If unset,
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// reads the entirety of each row.
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RowFilter filter = 3;
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// The read will terminate after committing to N rows' worth of results. The
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// default (zero) is to return all results.
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int64 rows_limit = 4;
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}
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// Response message for Bigtable.ReadRows.
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message ReadRowsResponse {
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// Specifies a piece of a row's contents returned as part of the read
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// response stream.
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message CellChunk {
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// The row key for this chunk of data. If the row key is empty,
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// this CellChunk is a continuation of the same row as the previous
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// CellChunk in the response stream, even if that CellChunk was in a
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// previous ReadRowsResponse message.
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bytes row_key = 1;
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// The column family name for this chunk of data. If this message
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// is not present this CellChunk is a continuation of the same column
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// family as the previous CellChunk. The empty string can occur as a
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// column family name in a response so clients must check
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// explicitly for the presence of this message, not just for
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// `family_name.value` being non-empty.
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google.protobuf.StringValue family_name = 2;
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// The column qualifier for this chunk of data. If this message
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// is not present, this CellChunk is a continuation of the same column
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// as the previous CellChunk. Column qualifiers may be empty so
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// clients must check for the presence of this message, not just
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// for `qualifier.value` being non-empty.
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google.protobuf.BytesValue qualifier = 3;
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// The cell's stored timestamp, which also uniquely identifies it
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// within its column. Values are always expressed in
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// microseconds, but individual tables may set a coarser
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// granularity to further restrict the allowed values. For
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// example, a table which specifies millisecond granularity will
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// only allow values of `timestamp_micros` which are multiples of
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// 1000. Timestamps are only set in the first CellChunk per cell
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// (for cells split into multiple chunks).
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int64 timestamp_micros = 4;
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// Labels applied to the cell by a
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// [RowFilter][google.bigtable.v2.RowFilter]. Labels are only set
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// on the first CellChunk per cell.
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repeated string labels = 5;
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// The value stored in the cell. Cell values can be split across
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// multiple CellChunks. In that case only the value field will be
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// set in CellChunks after the first: the timestamp and labels
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// will only be present in the first CellChunk, even if the first
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// CellChunk came in a previous ReadRowsResponse.
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bytes value = 6;
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// If this CellChunk is part of a chunked cell value and this is
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// not the final chunk of that cell, value_size will be set to the
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// total length of the cell value. The client can use this size
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// to pre-allocate memory to hold the full cell value.
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int32 value_size = 7;
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oneof row_status {
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// Indicates that the client should drop all previous chunks for
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// `row_key`, as it will be re-read from the beginning.
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bool reset_row = 8;
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// Indicates that the client can safely process all previous chunks for
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// `row_key`, as its data has been fully read.
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bool commit_row = 9;
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}
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}
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repeated CellChunk chunks = 1;
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// Optionally the server might return the row key of the last row it
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// has scanned. The client can use this to construct a more
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// efficient retry request if needed: any row keys or portions of
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// ranges less than this row key can be dropped from the request.
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// This is primarily useful for cases where the server has read a
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// lot of data that was filtered out since the last committed row
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// key, allowing the client to skip that work on a retry.
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bytes last_scanned_row_key = 2;
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}
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// Request message for Bigtable.SampleRowKeys.
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message SampleRowKeysRequest {
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// The unique name of the table from which to sample row keys.
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// Values are of the form
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// `projects/<project>/instances/<instance>/tables/<table>`.
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string table_name = 1;
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// This value specifies routing for replication. If not specified, the
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// "default" application profile will be used.
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string app_profile_id = 2;
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}
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// Response message for Bigtable.SampleRowKeys.
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message SampleRowKeysResponse {
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// Sorted streamed sequence of sample row keys in the table. The table might
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// have contents before the first row key in the list and after the last one,
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// but a key containing the empty string indicates "end of table" and will be
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// the last response given, if present.
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// Note that row keys in this list may not have ever been written to or read
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// from, and users should therefore not make any assumptions about the row key
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// structure that are specific to their use case.
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bytes row_key = 1;
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// Approximate total storage space used by all rows in the table which precede
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// `row_key`. Buffering the contents of all rows between two subsequent
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// samples would require space roughly equal to the difference in their
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// `offset_bytes` fields.
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int64 offset_bytes = 2;
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}
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// Request message for Bigtable.MutateRow.
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message MutateRowRequest {
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// The unique name of the table to which the mutation should be applied.
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// Values are of the form
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// `projects/<project>/instances/<instance>/tables/<table>`.
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string table_name = 1;
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// This value specifies routing for replication. If not specified, the
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// "default" application profile will be used.
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string app_profile_id = 4;
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// The key of the row to which the mutation should be applied.
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bytes row_key = 2;
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// Changes to be atomically applied to the specified row. Entries are applied
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// in order, meaning that earlier mutations can be masked by later ones.
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// Must contain at least one entry and at most 100000.
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repeated Mutation mutations = 3;
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}
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// Response message for Bigtable.MutateRow.
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message MutateRowResponse {
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}
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// Request message for BigtableService.MutateRows.
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message MutateRowsRequest {
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message Entry {
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// The key of the row to which the `mutations` should be applied.
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bytes row_key = 1;
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// Changes to be atomically applied to the specified row. Mutations are
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// applied in order, meaning that earlier mutations can be masked by
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// later ones.
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// You must specify at least one mutation.
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repeated Mutation mutations = 2;
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}
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// The unique name of the table to which the mutations should be applied.
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string table_name = 1;
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// This value specifies routing for replication. If not specified, the
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// "default" application profile will be used.
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string app_profile_id = 3;
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// The row keys and corresponding mutations to be applied in bulk.
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// Each entry is applied as an atomic mutation, but the entries may be
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// applied in arbitrary order (even between entries for the same row).
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// At least one entry must be specified, and in total the entries can
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// contain at most 100000 mutations.
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repeated Entry entries = 2;
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}
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// Response message for BigtableService.MutateRows.
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message MutateRowsResponse {
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message Entry {
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// The index into the original request's `entries` list of the Entry
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// for which a result is being reported.
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int64 index = 1;
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// The result of the request Entry identified by `index`.
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// Depending on how requests are batched during execution, it is possible
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// for one Entry to fail due to an error with another Entry. In the event
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// that this occurs, the same error will be reported for both entries.
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google.rpc.Status status = 2;
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}
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// One or more results for Entries from the batch request.
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repeated Entry entries = 1;
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}
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// Request message for Bigtable.CheckAndMutateRow.
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message CheckAndMutateRowRequest {
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// The unique name of the table to which the conditional mutation should be
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// applied.
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// Values are of the form
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// `projects/<project>/instances/<instance>/tables/<table>`.
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string table_name = 1;
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// This value specifies routing for replication. If not specified, the
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// "default" application profile will be used.
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string app_profile_id = 7;
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// The key of the row to which the conditional mutation should be applied.
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bytes row_key = 2;
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// The filter to be applied to the contents of the specified row. Depending
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// on whether or not any results are yielded, either `true_mutations` or
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// `false_mutations` will be executed. If unset, checks that the row contains
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// any values at all.
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RowFilter predicate_filter = 6;
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// Changes to be atomically applied to the specified row if `predicate_filter`
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// yields at least one cell when applied to `row_key`. Entries are applied in
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// order, meaning that earlier mutations can be masked by later ones.
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// Must contain at least one entry if `false_mutations` is empty, and at most
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// 100000.
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repeated Mutation true_mutations = 4;
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// Changes to be atomically applied to the specified row if `predicate_filter`
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// does not yield any cells when applied to `row_key`. Entries are applied in
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// order, meaning that earlier mutations can be masked by later ones.
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// Must contain at least one entry if `true_mutations` is empty, and at most
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// 100000.
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repeated Mutation false_mutations = 5;
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}
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// Response message for Bigtable.CheckAndMutateRow.
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message CheckAndMutateRowResponse {
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// Whether or not the request's `predicate_filter` yielded any results for
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// the specified row.
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bool predicate_matched = 1;
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}
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// Request message for Bigtable.ReadModifyWriteRow.
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message ReadModifyWriteRowRequest {
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// The unique name of the table to which the read/modify/write rules should be
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// applied.
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// Values are of the form
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// `projects/<project>/instances/<instance>/tables/<table>`.
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string table_name = 1;
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// This value specifies routing for replication. If not specified, the
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// "default" application profile will be used.
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string app_profile_id = 4;
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// The key of the row to which the read/modify/write rules should be applied.
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bytes row_key = 2;
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// Rules specifying how the specified row's contents are to be transformed
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// into writes. Entries are applied in order, meaning that earlier rules will
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// affect the results of later ones.
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repeated ReadModifyWriteRule rules = 3;
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}
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// Response message for Bigtable.ReadModifyWriteRow.
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message ReadModifyWriteRowResponse {
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// A Row containing the new contents of all cells modified by the request.
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Row row = 1;
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}
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