mirror of
https://github.com/titanscouting/tra-analysis.git
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285 lines
13 KiB
Protocol Buffer
285 lines
13 KiB
Protocol Buffer
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// Copyright 2017 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.watcher.v1;
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import "google/api/annotations.proto";
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import "google/protobuf/any.proto";
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import "google/protobuf/empty.proto";
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option go_package = "google.golang.org/genproto/googleapis/watcher/v1;watcher";
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option java_multiple_files = true;
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option java_outer_classname = "WatchProto";
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option java_package = "com.google.watcher.v1";
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// ## API Overview
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//
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// [Watcher][] lets a client watch for updates to a named entity, such as a
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// directory or database table. For each watched entity, the client receives a
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// reliable stream of watch events, without re-ordering.
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//
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// Watching is done by sending an RPC to a service that implements the API. The
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// argument to the RPC contains the name of the entity. The result stream
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// consists of a sequence of Change messages that the service continues to
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// send until the call fails or is cancelled.
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//
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// ## Data model
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//
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// This API assumes that each *entity* has a name and a
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// set of *elements*, where each element has a name and a value. The
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// entity's name must be a unique identifier within the service, such as
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// a resource name. What constitutes an entity or element is
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// implementation-specific: for example, a file system implementation
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// might define an entity as either a directory or a file, and elements would be
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// child files or directories of that entity.
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//
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// The Watch API allows a client to watch an entity E's immediate
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// elements or the whole tree rooted at E. Elements are organized into
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// a hierarchy ("" at the top; the rest follows the natural hierarchy of the
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// namespace of elements that is being watched). For example, when
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// recursively watching a filesystem namespace, X is an ancestor of
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// X/Y and X/Y/Z).
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//
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// ## Watch request
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//
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// When a client makes a request to watch an entity, it can indicate
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// whether it wants to receive the initial state of the entity, just
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// new changes to the entity, or resume watching from a particular
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// point in a previous watch stream, specified with a `resume_marker` value.
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// It can also indicate whether it wants to watch only one entity or all
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// entities in the subtree rooted at a particular entity's name.
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//
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// On receiving a watch request for an entity, the server sends one or more
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// messages to the client. The first message informs the client that the server
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// has registered the client's request: the instant of time when the
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// client receives the event is referred to as the client's "watch
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// point" for that entity.
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//
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// ## Atomic delivery
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//
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// The response stream consists of a sequence of Change messages. Each
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// message contains an `continued` bit. A sub-sequence of Change messages with
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// `continued=true` followed by a Change message with `continued=false` forms an
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// *atomic group*. Systems that support multi-element atomic updates may
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// guarantee that all changes resulting from a single atomic
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// update are delivered in the same atomic group. It is up to the
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// documentation of a particular system that implements the Watch API to
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// document whether or not it supports such grouping. We expect that most
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// callers will ignore the notion of atomic delivery and the `continued` bit,
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// i.e., they will just process each Change message as it is received.
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//
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// ## Batching
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//
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// Multiple Change messages may be grouped into a single ChangeBatch message
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// to reduce message transfer overhead. A single ChangeBatch may contain many
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// atomic groups, or a single atomic group may be split across many
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// ChangeBatch messages.
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//
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// ## Initial State
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//
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// The first atomic group delivered by a watch call is special. It is
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// delivered as soon as possible and contains the initial state of the
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// entity being watched. The client should consider itself caught up
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// after processing this first atomic group.
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//
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// The messages in the first atomic group will either refer to the
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// entity itself (`Change.element` == "") or to elements inside the
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// entity (`Change.element` != ""). Here are the cases to consider:
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//
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// 1. `resume_marker` is "" or not specified: For every element P
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// (including the entity itself) that exists, there will be at least
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// one message delivered with element == P and the last such message
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// will contain the current state of P. For every element Q
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// (including the entity itself) that does not exist, either no
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// message will be delivered, or the last message for Q will have
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// state == DOES_NOT_EXIST. At least one message for element="" will
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// be delivered.
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//
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// 2. `resume_marker` == "now": there will be exactly one message with
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// element = "" and state INITIAL_STATE_SKIPPED. The client cannot
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// assume whether or not the entity exists after receiving this
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// message.
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//
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// 3. `resume_marker` has a value R from a preceding watch call on this
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// entity: The same messages as described in (1) will be delivered to
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// the client, except that any information implied by messages received
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// on the preceding call up to and including R may not be
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// delivered. The expectation is that the client will start with state
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// it had built up from the preceding watch call, apply the changes
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// received from this call, and build an up-to-date view of the entity
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// without having to fetch a potentially large amount of information
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// that has not changed. Note that some information that had already
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// been delivered by the preceding call might be delivered again.
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//
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// ## Ordering and Reliability
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//
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// The Change messages that apply to a particular element of the entity are
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// delivered eventually in order without loss for the duration of the RPC. Note
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// however that if multiple Changes apply to the same element, the
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// implementation is free to suppress them and deliver just the last one. The
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// underlying system must provide the guarantee that any relevant update
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// received for an entity E after a client's watch point for E MUST be delivered
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// to that client.
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//
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// These tight guarantees allow for the following simplifications in the client:
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//
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// 1. The client does not need to have a separate polling loop to make up for
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// missed updates.
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//
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// 2. The client does not need to manage timestamps/versions manually; the
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// last update delivered corresponds to the eventual state of the entity.
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//
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// Example: a calendar entry may have elements named { "starttime", "endtime",
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// "attendees" } with corresponding values or it may have a single element name
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// "entry" with a serialized proto for the calendar entry.
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//
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// ## Ordering constraints for parents/descendants
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//
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// The Watch API provides guarantees regarding the order in which
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// messages for a parent and its descendants are delivered:
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//
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// 1. The creation of an ancestor (i.e., the first EXISTS message for
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// the ancestor) is reported before the creation of any of its
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// descendants.
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//
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// 2. The deletion of an ancestor (via a DOES_NOT_EXIST message)
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// implies the deletion of all its descendants. The service will
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// not deliver any messages for the descendants until the parent
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// has been recreated.
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// The service that a client uses to connect to the watcher system.
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// The errors returned by the service are in the canonical error space,
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// see [google.rpc.Code][].
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service Watcher {
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// Start a streaming RPC to get watch information from the server.
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rpc Watch(Request) returns (stream ChangeBatch) {
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option (google.api.http) = { get: "/v1/watch" };
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}
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}
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// The message used by the client to register interest in an entity.
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message Request {
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// The `target` value **must** be a valid URL path pointing to an entity
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// to watch. Note that the service name **must** be
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// removed from the target field (e.g., the target field must say
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// "/foo/bar", not "myservice.googleapis.com/foo/bar"). A client is
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// also allowed to pass system-specific parameters in the URL that
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// are only obeyed by some implementations. Some parameters will be
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// implementation-specific. However, some have predefined meaning
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// and are listed here:
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//
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// * recursive = true|false [default=false]
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// If set to true, indicates that the client wants to watch all elements
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// of entities in the subtree rooted at the entity's name in `target`. For
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// descendants that are not the immediate children of the target, the
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// `Change.element` will contain slashes.
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//
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// Note that some namespaces and entities will not support recursive
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// watching. When watching such an entity, a client must not set recursive
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// to true. Otherwise, it will receive an `UNIMPLEMENTED` error.
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//
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// Normal URL encoding must be used inside `target`. For example, if a query
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// parameter name or value, or the non-query parameter portion of `target`
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// contains a special character, it must be %-encoded. We recommend that
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// clients and servers use their runtime's URL library to produce and consume
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// target values.
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string target = 1;
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// The `resume_marker` specifies how much of the existing underlying state is
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// delivered to the client when the watch request is received by the
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// system. The client can set this marker in one of the following ways to get
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// different semantics:
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//
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// * Parameter is not specified or has the value "".
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// Semantics: Fetch initial state.
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// The client wants the entity's initial state to be delivered. See the
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// description in "Initial State".
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//
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// * Parameter is set to the string "now" (UTF-8 encoding).
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// Semantics: Fetch new changes only.
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// The client just wants to get the changes received by the system after
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// the watch point. The system may deliver changes from before the watch
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// point as well.
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//
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// * Parameter is set to a value received in an earlier
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// `Change.resume_marker` field while watching the same entity.
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// Semantics: Resume from a specific point.
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// The client wants to receive the changes from a specific point; this
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// value must correspond to a value received in the `Change.resume_marker`
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// field. The system may deliver changes from before the `resume_marker`
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// as well. If the system cannot resume the stream from this point (e.g.,
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// if it is too far behind in the stream), it can raise the
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// `FAILED_PRECONDITION` error.
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//
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// An implementation MUST support an unspecified parameter and the
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// empty string "" marker (initial state fetching) and the "now" marker.
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// It need not support resuming from a specific point.
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bytes resume_marker = 2;
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}
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// A batch of Change messages.
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message ChangeBatch {
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// A list of Change messages.
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repeated Change changes = 1;
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}
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// A Change indicates the most recent state of an element.
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message Change {
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// A reported value can be in one of the following states:
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enum State {
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// The element exists and its full value is included in data.
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EXISTS = 0;
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// The element does not exist.
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DOES_NOT_EXIST = 1;
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// Element may or may not exist. Used only for initial state delivery when
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// the client is not interested in fetching the initial state. See the
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// "Initial State" section above.
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INITIAL_STATE_SKIPPED = 2;
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// The element may exist, but some error has occurred. More information is
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// available in the data field - the value is a serialized Status
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// proto (from [google.rpc.Status][])
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ERROR = 3;
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}
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// Name of the element, interpreted relative to the entity's actual
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// name. "" refers to the entity itself. The element name is a valid
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// UTF-8 string.
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string element = 1;
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// The state of the `element`.
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State state = 2;
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// The actual change data. This field is present only when `state() == EXISTS`
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// or `state() == ERROR`. Please see [google.protobuf.Any][google.protobuf.Any] about how to use
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// the Any type.
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google.protobuf.Any data = 6;
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// If present, provides a compact representation of all the messages that have
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// been received by the caller for the given entity, e.g., it could be a
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// sequence number or a multi-part timestamp/version vector. This marker can
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// be provided in the Request message, allowing the caller to resume the stream
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// watching at a specific point without fetching the initial state.
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bytes resume_marker = 4;
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// If true, this Change is followed by more Changes that are in the same group
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// as this Change.
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bool continued = 5;
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}
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