/** * Copyright 2019 Google LLC * * 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. */ import { OAuth2Client, JWT, Compute, UserRefreshClient } from 'google-auth-library'; import { GoogleConfigurable, MethodOptions, GlobalOptions, BodyResponseCallback, APIRequestContext } from 'googleapis-common'; import { GaxiosPromise } from 'gaxios'; export declare namespace remotebuildexecution_v1 { interface Options extends GlobalOptions { version: 'v1'; } interface StandardParameters { /** * V1 error format. */ '$.xgafv'?: string; /** * OAuth access token. */ access_token?: string; /** * Data format for response. */ alt?: string; /** * JSONP */ callback?: string; /** * Selector specifying which fields to include in a partial response. */ fields?: string; /** * API key. Your API key identifies your project and provides you with API access, quota, and reports. Required unless you provide an OAuth 2.0 token. */ key?: string; /** * OAuth 2.0 token for the current user. */ oauth_token?: string; /** * Returns response with indentations and line breaks. */ prettyPrint?: boolean; /** * Available to use for quota purposes for server-side applications. Can be any arbitrary string assigned to a user, but should not exceed 40 characters. */ quotaUser?: string; /** * Legacy upload protocol for media (e.g. "media", "multipart"). */ uploadType?: string; /** * Upload protocol for media (e.g. "raw", "multipart"). */ upload_protocol?: string; } /** * Remote Build Execution API * * Supplies a Remote Execution API service for tools such as bazel. * * @example * const {google} = require('googleapis'); * const remotebuildexecution = google.remotebuildexecution('v1'); * * @namespace remotebuildexecution * @type {Function} * @version v1 * @variation v1 * @param {object=} options Options for Remotebuildexecution */ class Remotebuildexecution { context: APIRequestContext; media: Resource$Media; operations: Resource$Operations; projects: Resource$Projects; v1: Resource$V1; constructor(options: GlobalOptions, google?: GoogleConfigurable); } /** * An `Action` captures all the information about an execution which is required to reproduce it. `Action`s are the core component of the [Execution] service. A single `Action` represents a repeatable action that can be performed by the execution service. `Action`s can be succinctly identified by the digest of their wire format encoding and, once an `Action` has been executed, will be cached in the action cache. Future requests can then use the cached result rather than needing to run afresh. When a server completes execution of an Action, it MAY choose to cache the result in the ActionCache unless `do_not_cache` is `true`. Clients SHOULD expect the server to do so. By default, future calls to Execute the same `Action` will also serve their results from the cache. Clients must take care to understand the caching behaviour. Ideally, all `Action`s will be reproducible so that serving a result from cache is always desirable and correct. */ interface Schema$BuildBazelRemoteExecutionV2Action { /** * The digest of the Command to run, which MUST be present in the ContentAddressableStorage. */ commandDigest?: Schema$BuildBazelRemoteExecutionV2Digest; /** * If true, then the `Action`'s result cannot be cached, and in-flight requests for the same `Action` may not be merged. */ doNotCache?: boolean; /** * The digest of the root Directory for the input files. The files in the directory tree are available in the correct location on the build machine before the command is executed. The root directory, as well as every subdirectory and content blob referred to, MUST be in the ContentAddressableStorage. */ inputRootDigest?: Schema$BuildBazelRemoteExecutionV2Digest; /** * A timeout after which the execution should be killed. If the timeout is absent, then the client is specifying that the execution should continue as long as the server will let it. The server SHOULD impose a timeout if the client does not specify one, however, if the client does specify a timeout that is longer than the server's maximum timeout, the server MUST reject the request. The timeout is a part of the Action message, and therefore two `Actions` with different timeouts are different, even if they are otherwise identical. This is because, if they were not, running an `Action` with a lower timeout than is required might result in a cache hit from an execution run with a longer timeout, hiding the fact that the timeout is too short. By encoding it directly in the `Action`, a lower timeout will result in a cache miss and the execution timeout will fail immediately, rather than whenever the cache entry gets evicted. */ timeout?: string; } /** * An ActionResult represents the result of an Action being run. */ interface Schema$BuildBazelRemoteExecutionV2ActionResult { /** * The details of the execution that originally produced this result. */ executionMetadata?: Schema$BuildBazelRemoteExecutionV2ExecutedActionMetadata; /** * The exit code of the command. */ exitCode?: number; /** * The output directories of the action. For each output directory requested in the `output_directories` field of the Action, if the corresponding directory existed after the action completed, a single entry will be present in the output list, which will contain the digest of a Tree message containing the directory tree, and the path equal exactly to the corresponding Action output_directories member. As an example, suppose the Action had an output directory `a/b/dir` and the execution produced the following contents in `a/b/dir`: a file named `bar` and a directory named `foo` with an executable file named `baz`. Then, output_directory will contain (hashes shortened for readability): ```json // OutputDirectory proto: { path: "a/b/dir" tree_digest: { hash: "4a73bc9d03...", size: 55 } } // Tree proto with hash "4a73bc9d03..." and size 55: { root: { files: [ { name: "bar", digest: { hash: "4a73bc9d03...", size: 65534 } } ], directories: [ { name: "foo", digest: { hash: "4cf2eda940...", size: 43 } } ] } children : { // (Directory proto with hash "4cf2eda940..." and size 43) files: [ { name: "baz", digest: { hash: "b2c941073e...", size: 1294, }, is_executable: true } ] } } ``` If an output of the same name was found, but was not a directory, the server will return a FAILED_PRECONDITION. */ outputDirectories?: Schema$BuildBazelRemoteExecutionV2OutputDirectory[]; /** * The output directories of the action that are symbolic links to other directories. Those may be links to other output directories, or input directories, or even absolute paths outside of the working directory, if the server supports SymlinkAbsolutePathStrategy.ALLOWED. For each output directory requested in the `output_directories` field of the Action, if the directory existed after the action completed, a single entry will be present either in this field, or in the `output_directories` field, if the directory was not a symbolic link. If an output of the same name was found, but was a symbolic link to a file instead of a directory, the server will return a FAILED_PRECONDITION. If the action does not produce the requested output, then that output will be omitted from the list. The server is free to arrange the output list as desired; clients MUST NOT assume that the output list is sorted. */ outputDirectorySymlinks?: Schema$BuildBazelRemoteExecutionV2OutputSymlink[]; /** * The output files of the action. For each output file requested in the `output_files` field of the Action, if the corresponding file existed after the action completed, a single entry will be present either in this field, or the `output_file_symlinks` field if the file was a symbolic link to another file. If an output of the same name was found, but was a directory rather than a regular file, the server will return a FAILED_PRECONDITION. If the action does not produce the requested output, then that output will be omitted from the list. The server is free to arrange the output list as desired; clients MUST NOT assume that the output list is sorted. */ outputFiles?: Schema$BuildBazelRemoteExecutionV2OutputFile[]; /** * The output files of the action that are symbolic links to other files. Those may be links to other output files, or input files, or even absolute paths outside of the working directory, if the server supports SymlinkAbsolutePathStrategy.ALLOWED. For each output file requested in the `output_files` field of the Action, if the corresponding file existed after the action completed, a single entry will be present either in this field, or in the `output_files` field, if the file was not a symbolic link. If an output symbolic link of the same name was found, but its target type was not a regular file, the server will return a FAILED_PRECONDITION. If the action does not produce the requested output, then that output will be omitted from the list. The server is free to arrange the output list as desired; clients MUST NOT assume that the output list is sorted. */ outputFileSymlinks?: Schema$BuildBazelRemoteExecutionV2OutputSymlink[]; /** * The digest for a blob containing the standard error of the action, which can be retrieved from the ContentAddressableStorage. */ stderrDigest?: Schema$BuildBazelRemoteExecutionV2Digest; /** * The standard error buffer of the action. The server SHOULD NOT inline stderr unless requested by the client in the GetActionResultRequest message. The server MAY omit inlining, even if requested, and MUST do so if inlining would cause the response to exceed message size limits. */ stderrRaw?: string; /** * The digest for a blob containing the standard output of the action, which can be retrieved from the ContentAddressableStorage. */ stdoutDigest?: Schema$BuildBazelRemoteExecutionV2Digest; /** * The standard output buffer of the action. The server SHOULD NOT inline stdout unless requested by the client in the GetActionResultRequest message. The server MAY omit inlining, even if requested, and MUST do so if inlining would cause the response to exceed message size limits. */ stdoutRaw?: string; } /** * A `Command` is the actual command executed by a worker running an Action and specifications of its environment. Except as otherwise required, the environment (such as which system libraries or binaries are available, and what filesystems are mounted where) is defined by and specific to the implementation of the remote execution API. */ interface Schema$BuildBazelRemoteExecutionV2Command { /** * The arguments to the command. The first argument must be the path to the executable, which must be either a relative path, in which case it is evaluated with respect to the input root, or an absolute path. */ arguments?: string[]; /** * The environment variables to set when running the program. The worker may provide its own default environment variables; these defaults can be overridden using this field. Additional variables can also be specified. In order to ensure that equivalent Commands always hash to the same value, the environment variables MUST be lexicographically sorted by name. Sorting of strings is done by code point, equivalently, by the UTF-8 bytes. */ environmentVariables?: Schema$BuildBazelRemoteExecutionV2CommandEnvironmentVariable[]; /** * A list of the output directories that the client expects to retrieve from the action. Only the listed directories will be returned (an entire directory structure will be returned as a Tree message digest, see OutputDirectory), as well as files listed in `output_files`. Other files or directories that may be created during command execution are discarded. The paths are relative to the working directory of the action execution. The paths are specified using a single forward slash (`/`) as a path separator, even if the execution platform natively uses a different separator. The path MUST NOT include a trailing slash, nor a leading slash, being a relative path. The special value of empty string is allowed, although not recommended, and can be used to capture the entire working directory tree, including inputs. In order to ensure consistent hashing of the same Action, the output paths MUST be sorted lexicographically by code point (or, equivalently, by UTF-8 bytes). An output directory cannot be duplicated or have the same path as any of the listed output files. An output directory is allowed to be a parent of another output directory. Directories leading up to the output directories (but not the output directories themselves) are created by the worker prior to execution, even if they are not explicitly part of the input root. */ outputDirectories?: string[]; /** * A list of the output files that the client expects to retrieve from the action. Only the listed files, as well as directories listed in `output_directories`, will be returned to the client as output. Other files or directories that may be created during command execution are discarded. The paths are relative to the working directory of the action execution. The paths are specified using a single forward slash (`/`) as a path separator, even if the execution platform natively uses a different separator. The path MUST NOT include a trailing slash, nor a leading slash, being a relative path. In order to ensure consistent hashing of the same Action, the output paths MUST be sorted lexicographically by code point (or, equivalently, by UTF-8 bytes). An output file cannot be duplicated, be a parent of another output file, or have the same path as any of the listed output directories. Directories leading up to the output files are created by the worker prior to execution, even if they are not explicitly part of the input root. */ outputFiles?: string[]; /** * The platform requirements for the execution environment. The server MAY choose to execute the action on any worker satisfying the requirements, so the client SHOULD ensure that running the action on any such worker will have the same result. A detailed lexicon for this can be found in the accompanying platform.md. */ platform?: Schema$BuildBazelRemoteExecutionV2Platform; /** * The working directory, relative to the input root, for the command to run in. It must be a directory which exists in the input tree. If it is left empty, then the action is run in the input root. */ workingDirectory?: string; } /** * An `EnvironmentVariable` is one variable to set in the running program's environment. */ interface Schema$BuildBazelRemoteExecutionV2CommandEnvironmentVariable { /** * The variable name. */ name?: string; /** * The variable value. */ value?: string; } /** * A content digest. A digest for a given blob consists of the size of the blob and its hash. The hash algorithm to use is defined by the server, but servers SHOULD use SHA-256. The size is considered to be an integral part of the digest and cannot be separated. That is, even if the `hash` field is correctly specified but `size_bytes` is not, the server MUST reject the request. The reason for including the size in the digest is as follows: in a great many cases, the server needs to know the size of the blob it is about to work with prior to starting an operation with it, such as flattening Merkle tree structures or streaming it to a worker. Technically, the server could implement a separate metadata store, but this results in a significantly more complicated implementation as opposed to having the client specify the size up-front (or storing the size along with the digest in every message where digests are embedded). This does mean that the API leaks some implementation details of (what we consider to be) a reasonable server implementation, but we consider this to be a worthwhile tradeoff. When a `Digest` is used to refer to a proto message, it always refers to the message in binary encoded form. To ensure consistent hashing, clients and servers MUST ensure that they serialize messages according to the following rules, even if there are alternate valid encodings for the same message: * Fields are serialized in tag order. * There are no unknown fields. * There are no duplicate fields. * Fields are serialized according to the default semantics for their type. Most protocol buffer implementations will always follow these rules when serializing, but care should be taken to avoid shortcuts. For instance, concatenating two messages to merge them may produce duplicate fields. */ interface Schema$BuildBazelRemoteExecutionV2Digest { /** * The hash. In the case of SHA-256, it will always be a lowercase hex string exactly 64 characters long. */ hash?: string; /** * The size of the blob, in bytes. */ sizeBytes?: string; } /** * A `Directory` represents a directory node in a file tree, containing zero or more children FileNodes, DirectoryNodes and SymlinkNodes. Each `Node` contains its name in the directory, either the digest of its content (either a file blob or a `Directory` proto) or a symlink target, as well as possibly some metadata about the file or directory. In order to ensure that two equivalent directory trees hash to the same value, the following restrictions MUST be obeyed when constructing a a `Directory`: * Every child in the directory must have a path of exactly one segment. Multiple levels of directory hierarchy may not be collapsed. * Each child in the directory must have a unique path segment (file name). Note that while the API itself is case-sensitive, the environment where the Action is executed may or may not be case-sensitive. That is, it is legal to call the API with a Directory that has both "Foo" and "foo" as children, but the Action may be rejected by the remote system upon execution. * The files, directories and symlinks in the directory must each be sorted in lexicographical order by path. The path strings must be sorted by code point, equivalently, by UTF-8 bytes. A `Directory` that obeys the restrictions is said to be in canonical form. As an example, the following could be used for a file named `bar` and a directory named `foo` with an executable file named `baz` (hashes shortened for readability): ```json // (Directory proto) { files: [ { name: "bar", digest: { hash: "4a73bc9d03...", size: 65534 } } ], directories: [ { name: "foo", digest: { hash: "4cf2eda940...", size: 43 } } ] } // (Directory proto with hash "4cf2eda940..." and size 43) { files: [ { name: "baz", digest: { hash: "b2c941073e...", size: 1294, }, is_executable: true } ] } ``` */ interface Schema$BuildBazelRemoteExecutionV2Directory { /** * The subdirectories in the directory. */ directories?: Schema$BuildBazelRemoteExecutionV2DirectoryNode[]; /** * The files in the directory. */ files?: Schema$BuildBazelRemoteExecutionV2FileNode[]; /** * The symlinks in the directory. */ symlinks?: Schema$BuildBazelRemoteExecutionV2SymlinkNode[]; } /** * A `DirectoryNode` represents a child of a Directory which is itself a `Directory` and its associated metadata. */ interface Schema$BuildBazelRemoteExecutionV2DirectoryNode { /** * The digest of the Directory object represented. See Digest for information about how to take the digest of a proto message. */ digest?: Schema$BuildBazelRemoteExecutionV2Digest; /** * The name of the directory. */ name?: string; } /** * ExecutedActionMetadata contains details about a completed execution. */ interface Schema$BuildBazelRemoteExecutionV2ExecutedActionMetadata { /** * When the worker completed executing the action command. */ executionCompletedTimestamp?: string; /** * When the worker started executing the action command. */ executionStartTimestamp?: string; /** * When the worker finished fetching action inputs. */ inputFetchCompletedTimestamp?: string; /** * When the worker started fetching action inputs. */ inputFetchStartTimestamp?: string; /** * When the worker finished uploading action outputs. */ outputUploadCompletedTimestamp?: string; /** * When the worker started uploading action outputs. */ outputUploadStartTimestamp?: string; /** * When was the action added to the queue. */ queuedTimestamp?: string; /** * The name of the worker which ran the execution. */ worker?: string; /** * When the worker completed the action, including all stages. */ workerCompletedTimestamp?: string; /** * When the worker received the action. */ workerStartTimestamp?: string; } /** * Metadata about an ongoing execution, which will be contained in the metadata field of the Operation. */ interface Schema$BuildBazelRemoteExecutionV2ExecuteOperationMetadata { /** * The digest of the Action being executed. */ actionDigest?: Schema$BuildBazelRemoteExecutionV2Digest; /** * The current stage of execution. */ stage?: string; /** * If set, the client can use this name with ByteStream.Read to stream the standard error. */ stderrStreamName?: string; /** * If set, the client can use this name with ByteStream.Read to stream the standard output. */ stdoutStreamName?: string; } /** * The response message for Execution.Execute, which will be contained in the response field of the Operation. */ interface Schema$BuildBazelRemoteExecutionV2ExecuteResponse { /** * True if the result was served from cache, false if it was executed. */ cachedResult?: boolean; /** * Freeform informational message with details on the execution of the action that may be displayed to the user upon failure or when requested explicitly. */ message?: string; /** * The result of the action. */ result?: Schema$BuildBazelRemoteExecutionV2ActionResult; /** * An optional list of additional log outputs the server wishes to provide. A server can use this to return execution-specific logs however it wishes. This is intended primarily to make it easier for users to debug issues that may be outside of the actual job execution, such as by identifying the worker executing the action or by providing logs from the worker's setup phase. The keys SHOULD be human readable so that a client can display them to a user. */ serverLogs?: { [key: string]: Schema$BuildBazelRemoteExecutionV2LogFile; }; /** * If the status has a code other than `OK`, it indicates that the action did not finish execution. For example, if the operation times out during execution, the status will have a `DEADLINE_EXCEEDED` code. Servers MUST use this field for errors in execution, rather than the error field on the `Operation` object. If the status code is other than `OK`, then the result MUST NOT be cached. For an error status, the `result` field is optional; the server may populate the output-, stdout-, and stderr-related fields if it has any information available, such as the stdout and stderr of a timed-out action. */ status?: Schema$GoogleRpcStatus; } /** * A `FileNode` represents a single file and associated metadata. */ interface Schema$BuildBazelRemoteExecutionV2FileNode { /** * The digest of the file's content. */ digest?: Schema$BuildBazelRemoteExecutionV2Digest; /** * True if file is executable, false otherwise. */ isExecutable?: boolean; /** * The name of the file. */ name?: string; } /** * A `LogFile` is a log stored in the CAS. */ interface Schema$BuildBazelRemoteExecutionV2LogFile { /** * The digest of the log contents. */ digest?: Schema$BuildBazelRemoteExecutionV2Digest; /** * This is a hint as to the purpose of the log, and is set to true if the log is human-readable text that can be usefully displayed to a user, and false otherwise. For instance, if a command-line client wishes to print the server logs to the terminal for a failed action, this allows it to avoid displaying a binary file. */ humanReadable?: boolean; } /** * An `OutputDirectory` is the output in an `ActionResult` corresponding to a directory's full contents rather than a single file. */ interface Schema$BuildBazelRemoteExecutionV2OutputDirectory { /** * The full path of the directory relative to the working directory. The path separator is a forward slash `/`. Since this is a relative path, it MUST NOT begin with a leading forward slash. The empty string value is allowed, and it denotes the entire working directory. */ path?: string; /** * The digest of the encoded Tree proto containing the directory's contents. */ treeDigest?: Schema$BuildBazelRemoteExecutionV2Digest; } /** * An `OutputFile` is similar to a FileNode, but it is used as an output in an `ActionResult`. It allows a full file path rather than only a name. */ interface Schema$BuildBazelRemoteExecutionV2OutputFile { /** * The contents of the file if inlining was requested. The server SHOULD NOT inline file contents unless requested by the client in the GetActionResultRequest message. The server MAY omit inlining, even if requested, and MUST do so if inlining would cause the response to exceed message size limits. */ contents?: string; /** * The digest of the file's content. */ digest?: Schema$BuildBazelRemoteExecutionV2Digest; /** * True if file is executable, false otherwise. */ isExecutable?: boolean; /** * The full path of the file relative to the working directory, including the filename. The path separator is a forward slash `/`. Since this is a relative path, it MUST NOT begin with a leading forward slash. */ path?: string; } /** * An `OutputSymlink` is similar to a Symlink, but it is used as an output in an `ActionResult`. `OutputSymlink` is binary-compatible with `SymlinkNode`. */ interface Schema$BuildBazelRemoteExecutionV2OutputSymlink { /** * The full path of the symlink relative to the working directory, including the filename. The path separator is a forward slash `/`. Since this is a relative path, it MUST NOT begin with a leading forward slash. */ path?: string; /** * The target path of the symlink. The path separator is a forward slash `/`. The target path can be relative to the parent directory of the symlink or it can be an absolute path starting with `/`. Support for absolute paths can be checked using the Capabilities API. The canonical form forbids the substrings `/./` and `//` in the target path. `..` components are allowed anywhere in the target path. */ target?: string; } /** * A `Platform` is a set of requirements, such as hardware, operating system, or compiler toolchain, for an Action's execution environment. A `Platform` is represented as a series of key-value pairs representing the properties that are required of the platform. */ interface Schema$BuildBazelRemoteExecutionV2Platform { /** * The properties that make up this platform. In order to ensure that equivalent `Platform`s always hash to the same value, the properties MUST be lexicographically sorted by name, and then by value. Sorting of strings is done by code point, equivalently, by the UTF-8 bytes. */ properties?: Schema$BuildBazelRemoteExecutionV2PlatformProperty[]; } /** * A single property for the environment. The server is responsible for specifying the property `name`s that it accepts. If an unknown `name` is provided in the requirements for an Action, the server SHOULD reject the execution request. If permitted by the server, the same `name` may occur multiple times. The server is also responsible for specifying the interpretation of property `value`s. For instance, a property describing how much RAM must be available may be interpreted as allowing a worker with 16GB to fulfill a request for 8GB, while a property describing the OS environment on which the action must be performed may require an exact match with the worker's OS. The server MAY use the `value` of one or more properties to determine how it sets up the execution environment, such as by making specific system files available to the worker. */ interface Schema$BuildBazelRemoteExecutionV2PlatformProperty { /** * The property name. */ name?: string; /** * The property value. */ value?: string; } /** * An optional Metadata to attach to any RPC request to tell the server about an external context of the request. The server may use this for logging or other purposes. To use it, the client attaches the header to the call using the canonical proto serialization: * name: `build.bazel.remote.execution.v2.requestmetadata-bin` * contents: the base64 encoded binary `RequestMetadata` message. Note: the gRPC library serializes binary headers encoded in base 64 by default (https://github.com/grpc/grpc/blob/master/doc/PROTOCOL-HTTP2.md#requests). Therefore, if the gRPC library is used to pass/retrieve this metadata, the user may ignore the base64 encoding and assume it is simply serialized as a binary message. */ interface Schema$BuildBazelRemoteExecutionV2RequestMetadata { /** * An identifier that ties multiple requests to the same action. For example, multiple requests to the CAS, Action Cache, and Execution API are used in order to compile foo.cc. */ actionId?: string; /** * An identifier to tie multiple tool invocations together. For example, runs of foo_test, bar_test and baz_test on a post-submit of a given patch. */ correlatedInvocationsId?: string; /** * The details for the tool invoking the requests. */ toolDetails?: Schema$BuildBazelRemoteExecutionV2ToolDetails; /** * An identifier that ties multiple actions together to a final result. For example, multiple actions are required to build and run foo_test. */ toolInvocationId?: string; } /** * A `SymlinkNode` represents a symbolic link. */ interface Schema$BuildBazelRemoteExecutionV2SymlinkNode { /** * The name of the symlink. */ name?: string; /** * The target path of the symlink. The path separator is a forward slash `/`. The target path can be relative to the parent directory of the symlink or it can be an absolute path starting with `/`. Support for absolute paths can be checked using the Capabilities API. The canonical form forbids the substrings `/./` and `//` in the target path. `..` components are allowed anywhere in the target path. */ target?: string; } /** * Details for the tool used to call the API. */ interface Schema$BuildBazelRemoteExecutionV2ToolDetails { /** * Name of the tool, e.g. bazel. */ toolName?: string; /** * Version of the tool used for the request, e.g. 5.0.3. */ toolVersion?: string; } /** * A `Tree` contains all the Directory protos in a single directory Merkle tree, compressed into one message. */ interface Schema$BuildBazelRemoteExecutionV2Tree { /** * All the child directories: the directories referred to by the root and, recursively, all its children. In order to reconstruct the directory tree, the client must take the digests of each of the child directories and then build up a tree starting from the `root`. */ children?: Schema$BuildBazelRemoteExecutionV2Directory[]; /** * The root directory in the tree. */ root?: Schema$BuildBazelRemoteExecutionV2Directory; } /** * Media resource. */ interface Schema$GoogleBytestreamMedia { /** * Name of the media resource. */ resourceName?: string; } /** * CommandDuration contains the various duration metrics tracked when a bot performs a command. */ interface Schema$GoogleDevtoolsRemotebuildbotCommandDurations { /** * The time spent preparing the command to be run in a Docker container (includes pulling the Docker image, if necessary). */ dockerPrep?: string; /** * The time spent downloading the input files and constructing the working directory. */ download?: string; /** * The time spent executing the command (i.e., doing useful work). */ execution?: string; /** * The timestamp when preparation is done and bot starts downloading files. */ isoPrepDone?: string; /** * The time spent completing the command, in total. */ overall?: string; /** * The time spent uploading the stdout logs. */ stdout?: string; /** * The time spent uploading the output files. */ upload?: string; } /** * CommandEvents contains counters for the number of warnings and errors that occurred during the execution of a command. */ interface Schema$GoogleDevtoolsRemotebuildbotCommandEvents { /** * Indicates whether we are using a cached Docker image (true) or had to pull the Docker image (false) for this command. */ dockerCacheHit?: boolean; /** * The input cache miss ratio. */ inputCacheMiss?: number; /** * The number of errors reported. */ numErrors?: string; /** * The number of warnings reported. */ numWarnings?: string; } /** * The internal status of the command result. */ interface Schema$GoogleDevtoolsRemotebuildbotCommandStatus { /** * The status code. */ code?: string; /** * The error message. */ message?: string; } /** * The request used for `CreateInstance`. */ interface Schema$GoogleDevtoolsRemotebuildexecutionAdminV1alphaCreateInstanceRequest { /** * Specifies the instance to create. The name in the instance, if specified in the instance, is ignored. */ instance?: Schema$GoogleDevtoolsRemotebuildexecutionAdminV1alphaInstance; /** * ID of the created instance. A valid `instance_id` must: be 6-50 characters long, contain only lowercase letters, digits, hyphens and underscores, start with a lowercase letter, and end with a lowercase letter or a digit. */ instanceId?: string; /** * Resource name of the project containing the instance. Format: `projects/[PROJECT_ID]`. */ parent?: string; } /** * The request used for `CreateWorkerPool`. */ interface Schema$GoogleDevtoolsRemotebuildexecutionAdminV1alphaCreateWorkerPoolRequest { /** * Resource name of the instance in which to create the new worker pool. Format: `projects/[PROJECT_ID]/instances/[INSTANCE_ID]`. */ parent?: string; /** * ID of the created worker pool. A valid pool ID must: be 6-50 characters long, contain only lowercase letters, digits, hyphens and underscores, start with a lowercase letter, and end with a lowercase letter or a digit. */ poolId?: string; /** * Specifies the worker pool to create. The name in the worker pool, if specified, is ignored. */ workerPool?: Schema$GoogleDevtoolsRemotebuildexecutionAdminV1alphaWorkerPool; } /** * The request used for `DeleteInstance`. */ interface Schema$GoogleDevtoolsRemotebuildexecutionAdminV1alphaDeleteInstanceRequest { /** * Name of the instance to delete. Format: `projects/[PROJECT_ID]/instances/[INSTANCE_ID]`. */ name?: string; } /** * The request used for DeleteWorkerPool. */ interface Schema$GoogleDevtoolsRemotebuildexecutionAdminV1alphaDeleteWorkerPoolRequest { /** * Name of the worker pool to delete. Format: `projects/[PROJECT_ID]/instances/[INSTANCE_ID]/workerpools/[POOL_ID]`. */ name?: string; } /** * The request used for `GetInstance`. */ interface Schema$GoogleDevtoolsRemotebuildexecutionAdminV1alphaGetInstanceRequest { /** * Name of the instance to retrieve. Format: `projects/[PROJECT_ID]/instances/[INSTANCE_ID]`. */ name?: string; } /** * The request used for GetWorkerPool. */ interface Schema$GoogleDevtoolsRemotebuildexecutionAdminV1alphaGetWorkerPoolRequest { /** * Name of the worker pool to retrieve. Format: `projects/[PROJECT_ID]/instances/[INSTANCE_ID]/workerpools/[POOL_ID]`. */ name?: string; } /** * Instance conceptually encapsulates all Remote Build Execution resources for remote builds. An instance consists of storage and compute resources (for example, `ContentAddressableStorage`, `ActionCache`, `WorkerPools`) used for running remote builds. All Remote Build Execution API calls are scoped to an instance. */ interface Schema$GoogleDevtoolsRemotebuildexecutionAdminV1alphaInstance { /** * The location is a GCP region. Currently only `us-central1` is supported. */ location?: string; /** * Output only. Whether stack driver logging is enabled for the instance. */ loggingEnabled?: boolean; /** * Output only. Instance resource name formatted as: `projects/[PROJECT_ID]/instances/[INSTANCE_ID]`. Name should not be populated when creating an instance since it is provided in the `instance_id` field. */ name?: string; /** * Output only. State of the instance. */ state?: string; } interface Schema$GoogleDevtoolsRemotebuildexecutionAdminV1alphaListInstancesRequest { /** * Resource name of the project. Format: `projects/[PROJECT_ID]`. */ parent?: string; } interface Schema$GoogleDevtoolsRemotebuildexecutionAdminV1alphaListInstancesResponse { /** * The list of instances in a given project. */ instances?: Schema$GoogleDevtoolsRemotebuildexecutionAdminV1alphaInstance[]; } interface Schema$GoogleDevtoolsRemotebuildexecutionAdminV1alphaListWorkerPoolsRequest { /** * Optional. A filter to constrain the pools returned. Filters have the form: <field> <operator> <value> [[AND|OR] <field> <operator> <value>]... <field> is the path for a field or map key in the Pool proto message. e.g. "configuration.disk_size_gb" or "configuration.labels.key". <operator> can be one of "<", "<=", ">=", ">", "=", "!=", ":". ":" is a HAS operation for strings and repeated primitive fields. <value> is the value to test, case-insensitive for strings. "*" stands for any value and can be used to test for key presence. Parenthesis determine AND/OR precedence. In space separated restrictions, AND is implicit, e.g. "a = b x = y" is equivalent to "a = b AND x = y". Example filter: configuration.labels.key1 = * AND (state = RUNNING OR state = UPDATING) */ filter?: string; /** * Resource name of the instance. Format: `projects/[PROJECT_ID]/instances/[INSTANCE_ID]`. */ parent?: string; } interface Schema$GoogleDevtoolsRemotebuildexecutionAdminV1alphaListWorkerPoolsResponse { /** * The list of worker pools in a given instance. */ workerPools?: Schema$GoogleDevtoolsRemotebuildexecutionAdminV1alphaWorkerPool[]; } /** * The request used for UpdateWorkerPool. */ interface Schema$GoogleDevtoolsRemotebuildexecutionAdminV1alphaUpdateWorkerPoolRequest { /** * The update mask applies to worker_pool. For the `FieldMask` definition, see https://developers.google.com/protocol-buffers/docs/reference/google.protobuf#fieldmask If an empty update_mask is provided, only the non-default valued field in the worker pool field will be updated. Note that in order to update a field to the default value (zero, false, empty string) an explicit update_mask must be provided. */ updateMask?: string; /** * Specifies the worker pool to update. */ workerPool?: Schema$GoogleDevtoolsRemotebuildexecutionAdminV1alphaWorkerPool; } /** * Defines the configuration to be used for a creating workers in the worker pool. */ interface Schema$GoogleDevtoolsRemotebuildexecutionAdminV1alphaWorkerConfig { /** * Required. Size of the disk attached to the worker, in GB. See https://cloud.google.com/compute/docs/disks/ */ diskSizeGb?: string; /** * Required. Disk Type to use for the worker. See [Storage options](https://cloud.google.com/compute/docs/disks/#introduction). Currently only `pd-standard` is supported. */ diskType?: string; /** * Labels associated with the workers. Label keys and values can be no longer than 63 characters, can only contain lowercase letters, numeric characters, underscores and dashes. International letters are permitted. Keys must start with a letter but values are optional. There can not be more than 64 labels per resource. */ labels?: { [key: string]: string; }; /** * Required. Machine type of the worker, such as `n1-standard-2`. See https://cloud.google.com/compute/docs/machine-types for a list of supported machine types. Note that `f1-micro` and `g1-small` are not yet supported. */ machineType?: string; /** * Minimum CPU platform to use when creating the worker. See [CPU Platforms](https://cloud.google.com/compute/docs/cpu-platforms). */ minCpuPlatform?: string; /** * Determines whether the worker is reserved (equivalent to a Compute Engine on-demand VM and therefore won't be preempted). See [Preemptible VMs](https://cloud.google.com/preemptible-vms/) for more details. */ reserved?: boolean; } /** * A worker pool resource in the Remote Build Execution API. */ interface Schema$GoogleDevtoolsRemotebuildexecutionAdminV1alphaWorkerPool { /** * WorkerPool resource name formatted as: `projects/[PROJECT_ID]/instances/[INSTANCE_ID]/workerpools/[POOL_ID]`. name should not be populated when creating a worker pool since it is provided in the `poolId` field. */ name?: string; /** * Output only. State of the worker pool. */ state?: string; /** * Specifies the properties, such as machine type and disk size, used for creating workers in a worker pool. */ workerConfig?: Schema$GoogleDevtoolsRemotebuildexecutionAdminV1alphaWorkerConfig; /** * The desired number of workers in the worker pool. Must be a value between 0 and 1000. */ workerCount?: string; } /** * An ActionResult represents the result of an Action being run. */ interface Schema$GoogleDevtoolsRemoteexecutionV1testActionResult { /** * The exit code of the command. */ exitCode?: number; /** * The output directories of the action. For each output directory requested in the `output_directories` field of the Action, if the corresponding directory existed after the action completed, a single entry will be present in the output list, which will contain the digest of a Tree message containing the directory tree, and the path equal exactly to the corresponding Action output_directories member. As an example, suppose the Action had an output directory `a/b/dir` and the execution produced the following contents in `a/b/dir`: a file named `bar` and a directory named `foo` with an executable file named `baz`. Then, output_directory will contain (hashes shortened for readability): ```json // OutputDirectory proto: { path: "a/b/dir" tree_digest: { hash: "4a73bc9d03...", size: 55 } } // Tree proto with hash "4a73bc9d03..." and size 55: { root: { files: [ { name: "bar", digest: { hash: "4a73bc9d03...", size: 65534 } } ], directories: [ { name: "foo", digest: { hash: "4cf2eda940...", size: 43 } } ] } children : { // (Directory proto with hash "4cf2eda940..." and size 43) files: [ { name: "baz", digest: { hash: "b2c941073e...", size: 1294, }, is_executable: true } ] } } ``` */ outputDirectories?: Schema$GoogleDevtoolsRemoteexecutionV1testOutputDirectory[]; /** * The output files of the action. For each output file requested in the `output_files` field of the Action, if the corresponding file existed after the action completed, a single entry will be present in the output list. If the action does not produce the requested output, or produces a directory where a regular file is expected or vice versa, then that output will be omitted from the list. The server is free to arrange the output list as desired; clients MUST NOT assume that the output list is sorted. */ outputFiles?: Schema$GoogleDevtoolsRemoteexecutionV1testOutputFile[]; /** * The digest for a blob containing the standard error of the action, which can be retrieved from the ContentAddressableStorage. See `stderr_raw` for when this will be set. */ stderrDigest?: Schema$GoogleDevtoolsRemoteexecutionV1testDigest; /** * The standard error buffer of the action. The server will determine, based on the size of the buffer, whether to return it in raw form or to return a digest in `stderr_digest` that points to the buffer. If neither is set, then the buffer is empty. The client SHOULD NOT assume it will get one of the raw buffer or a digest on any given request and should be prepared to handle either. */ stderrRaw?: string; /** * The digest for a blob containing the standard output of the action, which can be retrieved from the ContentAddressableStorage. See `stdout_raw` for when this will be set. */ stdoutDigest?: Schema$GoogleDevtoolsRemoteexecutionV1testDigest; /** * The standard output buffer of the action. The server will determine, based on the size of the buffer, whether to return it in raw form or to return a digest in `stdout_digest` that points to the buffer. If neither is set, then the buffer is empty. The client SHOULD NOT assume it will get one of the raw buffer or a digest on any given request and should be prepared to handle either. */ stdoutRaw?: string; } /** * A `Command` is the actual command executed by a worker running an Action. Except as otherwise required, the environment (such as which system libraries or binaries are available, and what filesystems are mounted where) is defined by and specific to the implementation of the remote execution API. */ interface Schema$GoogleDevtoolsRemoteexecutionV1testCommand { /** * The arguments to the command. The first argument must be the path to the executable, which must be either a relative path, in which case it is evaluated with respect to the input root, or an absolute path. The working directory will always be the input root. */ arguments?: string[]; /** * The environment variables to set when running the program. The worker may provide its own default environment variables; these defaults can be overridden using this field. Additional variables can also be specified. In order to ensure that equivalent `Command`s always hash to the same value, the environment variables MUST be lexicographically sorted by name. Sorting of strings is done by code point, equivalently, by the UTF-8 bytes. */ environmentVariables?: Schema$GoogleDevtoolsRemoteexecutionV1testCommandEnvironmentVariable[]; } /** * An `EnvironmentVariable` is one variable to set in the running program's environment. */ interface Schema$GoogleDevtoolsRemoteexecutionV1testCommandEnvironmentVariable { /** * The variable name. */ name?: string; /** * The variable value. */ value?: string; } /** * A content digest. A digest for a given blob consists of the size of the blob and its hash. The hash algorithm to use is defined by the server, but servers SHOULD use SHA-256. The size is considered to be an integral part of the digest and cannot be separated. That is, even if the `hash` field is correctly specified but `size_bytes` is not, the server MUST reject the request. The reason for including the size in the digest is as follows: in a great many cases, the server needs to know the size of the blob it is about to work with prior to starting an operation with it, such as flattening Merkle tree structures or streaming it to a worker. Technically, the server could implement a separate metadata store, but this results in a significantly more complicated implementation as opposed to having the client specify the size up-front (or storing the size along with the digest in every message where digests are embedded). This does mean that the API leaks some implementation details of (what we consider to be) a reasonable server implementation, but we consider this to be a worthwhile tradeoff. When a `Digest` is used to refer to a proto message, it always refers to the message in binary encoded form. To ensure consistent hashing, clients and servers MUST ensure that they serialize messages according to the following rules, even if there are alternate valid encodings for the same message. - Fields are serialized in tag order. - There are no unknown fields. - There are no duplicate fields. - Fields are serialized according to the default semantics for their type. Most protocol buffer implementations will always follow these rules when serializing, but care should be taken to avoid shortcuts. For instance, concatenating two messages to merge them may produce duplicate fields. */ interface Schema$GoogleDevtoolsRemoteexecutionV1testDigest { /** * The hash. In the case of SHA-256, it will always be a lowercase hex string exactly 64 characters long. */ hash?: string; /** * The size of the blob, in bytes. */ sizeBytes?: string; } /** * A `Directory` represents a directory node in a file tree, containing zero or more children FileNodes and DirectoryNodes. Each `Node` contains its name in the directory, the digest of its content (either a file blob or a `Directory` proto), as well as possibly some metadata about the file or directory. In order to ensure that two equivalent directory trees hash to the same value, the following restrictions MUST be obeyed when constructing a a `Directory`: - Every child in the directory must have a path of exactly one segment. Multiple levels of directory hierarchy may not be collapsed. - Each child in the directory must have a unique path segment (file name). - The files and directories in the directory must each be sorted in lexicographical order by path. The path strings must be sorted by code point, equivalently, by UTF-8 bytes. A `Directory` that obeys the restrictions is said to be in canonical form. As an example, the following could be used for a file named `bar` and a directory named `foo` with an executable file named `baz` (hashes shortened for readability): ```json // (Directory proto) { files: [ { name: "bar", digest: { hash: "4a73bc9d03...", size: 65534 } } ], directories: [ { name: "foo", digest: { hash: "4cf2eda940...", size: 43 } } ] } // (Directory proto with hash "4cf2eda940..." and size 43) { files: [ { name: "baz", digest: { hash: "b2c941073e...", size: 1294, }, is_executable: true } ] } ``` */ interface Schema$GoogleDevtoolsRemoteexecutionV1testDirectory { /** * The subdirectories in the directory. */ directories?: Schema$GoogleDevtoolsRemoteexecutionV1testDirectoryNode[]; /** * The files in the directory. */ files?: Schema$GoogleDevtoolsRemoteexecutionV1testFileNode[]; } /** * A `DirectoryNode` represents a child of a Directory which is itself a `Directory` and its associated metadata. */ interface Schema$GoogleDevtoolsRemoteexecutionV1testDirectoryNode { /** * The digest of the Directory object represented. See Digest for information about how to take the digest of a proto message. */ digest?: Schema$GoogleDevtoolsRemoteexecutionV1testDigest; /** * The name of the directory. */ name?: string; } /** * Metadata about an ongoing execution, which will be contained in the metadata field of the Operation. */ interface Schema$GoogleDevtoolsRemoteexecutionV1testExecuteOperationMetadata { /** * The digest of the Action being executed. */ actionDigest?: Schema$GoogleDevtoolsRemoteexecutionV1testDigest; stage?: string; /** * If set, the client can use this name with ByteStream.Read to stream the standard error. */ stderrStreamName?: string; /** * If set, the client can use this name with ByteStream.Read to stream the standard output. */ stdoutStreamName?: string; } /** * The response message for Execution.Execute, which will be contained in the response field of the Operation. */ interface Schema$GoogleDevtoolsRemoteexecutionV1testExecuteResponse { /** * True if the result was served from cache, false if it was executed. */ cachedResult?: boolean; /** * The result of the action. */ result?: Schema$GoogleDevtoolsRemoteexecutionV1testActionResult; /** * An optional list of additional log outputs the server wishes to provide. A server can use this to return execution-specific logs however it wishes. This is intended primarily to make it easier for users to debug issues that may be outside of the actual job execution, such as by identifying the worker executing the action or by providing logs from the worker's setup phase. The keys SHOULD be human readable so that a client can display them to a user. */ serverLogs?: { [key: string]: Schema$GoogleDevtoolsRemoteexecutionV1testLogFile; }; /** * If the status has a code other than `OK`, it indicates that the action did not finish execution. For example, if the operation times out during execution, the status will have a `DEADLINE_EXCEEDED` code. Servers MUST use this field for errors in execution, rather than the error field on the `Operation` object. If the status code is other than `OK`, then the result MUST NOT be cached. For an error status, the `result` field is optional; the server may populate the output-, stdout-, and stderr-related fields if it has any information available, such as the stdout and stderr of a timed-out action. */ status?: Schema$GoogleRpcStatus; } /** * A `FileNode` represents a single file and associated metadata. */ interface Schema$GoogleDevtoolsRemoteexecutionV1testFileNode { /** * The digest of the file's content. */ digest?: Schema$GoogleDevtoolsRemoteexecutionV1testDigest; /** * True if file is executable, false otherwise. */ isExecutable?: boolean; /** * The name of the file. */ name?: string; } /** * A `LogFile` is a log stored in the CAS. */ interface Schema$GoogleDevtoolsRemoteexecutionV1testLogFile { /** * The digest of the log contents. */ digest?: Schema$GoogleDevtoolsRemoteexecutionV1testDigest; /** * This is a hint as to the purpose of the log, and is set to true if the log is human-readable text that can be usefully displayed to a user, and false otherwise. For instance, if a command-line client wishes to print the server logs to the terminal for a failed action, this allows it to avoid displaying a binary file. */ humanReadable?: boolean; } /** * An `OutputDirectory` is the output in an `ActionResult` corresponding to a directory's full contents rather than a single file. */ interface Schema$GoogleDevtoolsRemoteexecutionV1testOutputDirectory { /** * DEPRECATED: This field is deprecated and should no longer be used. */ digest?: Schema$GoogleDevtoolsRemoteexecutionV1testDigest; /** * The full path of the directory relative to the working directory. The path separator is a forward slash `/`. Since this is a relative path, it MUST NOT begin with a leading forward slash. The empty string value is allowed, and it denotes the entire working directory. */ path?: string; /** * The digest of the encoded Tree proto containing the directory's contents. */ treeDigest?: Schema$GoogleDevtoolsRemoteexecutionV1testDigest; } /** * An `OutputFile` is similar to a FileNode, but it is tailored for output as part of an `ActionResult`. It allows a full file path rather than only a name, and allows the server to include content inline. `OutputFile` is binary-compatible with `FileNode`. */ interface Schema$GoogleDevtoolsRemoteexecutionV1testOutputFile { /** * The raw content of the file. This field may be used by the server to provide the content of a file inline in an ActionResult and avoid requiring that the client make a separate call to [ContentAddressableStorage.GetBlob] to retrieve it. The client SHOULD NOT assume that it will get raw content with any request, and always be prepared to retrieve it via `digest`. */ content?: string; /** * The digest of the file's content. */ digest?: Schema$GoogleDevtoolsRemoteexecutionV1testDigest; /** * True if file is executable, false otherwise. */ isExecutable?: boolean; /** * The full path of the file relative to the input root, including the filename. The path separator is a forward slash `/`. Since this is a relative path, it MUST NOT begin with a leading forward slash. */ path?: string; } /** * An optional Metadata to attach to any RPC request to tell the server about an external context of the request. The server may use this for logging or other purposes. To use it, the client attaches the header to the call using the canonical proto serialization: name: google.devtools.remoteexecution.v1test.requestmetadata-bin contents: the base64 encoded binary RequestMetadata message. */ interface Schema$GoogleDevtoolsRemoteexecutionV1testRequestMetadata { /** * An identifier that ties multiple requests to the same action. For example, multiple requests to the CAS, Action Cache, and Execution API are used in order to compile foo.cc. */ actionId?: string; /** * An identifier to tie multiple tool invocations together. For example, runs of foo_test, bar_test and baz_test on a post-submit of a given patch. */ correlatedInvocationsId?: string; /** * The details for the tool invoking the requests. */ toolDetails?: Schema$GoogleDevtoolsRemoteexecutionV1testToolDetails; /** * An identifier that ties multiple actions together to a final result. For example, multiple actions are required to build and run foo_test. */ toolInvocationId?: string; } /** * Details for the tool used to call the API. */ interface Schema$GoogleDevtoolsRemoteexecutionV1testToolDetails { /** * Name of the tool, e.g. bazel. */ toolName?: string; /** * Version of the tool used for the request, e.g. 5.0.3. */ toolVersion?: string; } /** * A `Tree` contains all the Directory protos in a single directory Merkle tree, compressed into one message. */ interface Schema$GoogleDevtoolsRemoteexecutionV1testTree { /** * All the child directories: the directories referred to by the root and, recursively, all its children. In order to reconstruct the directory tree, the client must take the digests of each of the child directories and then build up a tree starting from the `root`. */ children?: Schema$GoogleDevtoolsRemoteexecutionV1testDirectory[]; /** * The root directory in the tree. */ root?: Schema$GoogleDevtoolsRemoteexecutionV1testDirectory; } /** * AdminTemp is a prelimiary set of administration tasks. It's called "Temp" because we do not yet know the best way to represent admin tasks; it's possible that this will be entirely replaced in later versions of this API. If this message proves to be sufficient, it will be renamed in the alpha or beta release of this API. This message (suitably marshalled into a protobuf.Any) can be used as the inline_assignment field in a lease; the lease assignment field should simply be `"admin"` in these cases. This message is heavily based on Swarming administration tasks from the LUCI project (http://github.com/luci/luci-py/appengine/swarming). */ interface Schema$GoogleDevtoolsRemoteworkersV1test2AdminTemp { /** * The argument to the admin action; see `Command` for semantics. */ arg?: string; /** * The admin action; see `Command` for legal values. */ command?: string; } /** * Describes a blob of binary content with its digest. */ interface Schema$GoogleDevtoolsRemoteworkersV1test2Blob { /** * The contents of the blob. */ contents?: string; /** * The digest of the blob. This should be verified by the receiver. */ digest?: Schema$GoogleDevtoolsRemoteworkersV1test2Digest; } /** * DEPRECATED - use CommandResult instead. Describes the actual outputs from the task. */ interface Schema$GoogleDevtoolsRemoteworkersV1test2CommandOutputs { /** * exit_code is only fully reliable if the status' code is OK. If the task exceeded its deadline or was cancelled, the process may still produce an exit code as it is cancelled, and this will be populated, but a successful (zero) is unlikely to be correct unless the status code is OK. */ exitCode?: number; /** * The output files. The blob referenced by the digest should contain one of the following (implementation-dependent): * A marshalled DirectoryMetadata of the returned filesystem * A LUCI-style .isolated file */ outputs?: Schema$GoogleDevtoolsRemoteworkersV1test2Digest; } /** * DEPRECATED - use CommandResult instead. Can be used as part of CompleteRequest.metadata, or are part of a more sophisticated message. */ interface Schema$GoogleDevtoolsRemoteworkersV1test2CommandOverhead { /** * The elapsed time between calling Accept and Complete. The server will also have its own idea of what this should be, but this excludes the overhead of the RPCs and the bot response time. */ duration?: string; /** * The amount of time *not* spent executing the command (ie uploading/downloading files). */ overhead?: string; } /** * All information about the execution of a command, suitable for providing as the Bots interface's `Lease.result` field. */ interface Schema$GoogleDevtoolsRemoteworkersV1test2CommandResult { /** * The elapsed time between calling Accept and Complete. The server will also have its own idea of what this should be, but this excludes the overhead of the RPCs and the bot response time. */ duration?: string; /** * The exit code of the process. An exit code of "0" should only be trusted if `status` has a code of OK (otherwise it may simply be unset). */ exitCode?: number; /** * Implementation-dependent metadata about the task. Both servers and bots may define messages which can be encoded here; bots are free to provide metadata in multiple formats, and servers are free to choose one or more of the values to process and ignore others. In particular, it is *not* considered an error for the bot to provide the server with a field that it doesn't know about. */ metadata?: Array<{ [key: string]: any; }>; /** * The output files. The blob referenced by the digest should contain one of the following (implementation-dependent): * A marshalled DirectoryMetadata of the returned filesystem * A LUCI-style .isolated file */ outputs?: Schema$GoogleDevtoolsRemoteworkersV1test2Digest; /** * The amount of time *not* spent executing the command (ie uploading/downloading files). */ overhead?: string; /** * An overall status for the command. For example, if the command timed out, this might have a code of DEADLINE_EXCEEDED; if it was killed by the OS for memory exhaustion, it might have a code of RESOURCE_EXHAUSTED. */ status?: Schema$GoogleRpcStatus; } /** * Describes a shell-style task to execute, suitable for providing as the Bots interface's `Lease.payload` field. */ interface Schema$GoogleDevtoolsRemoteworkersV1test2CommandTask { /** * The expected outputs from the task. */ expectedOutputs?: Schema$GoogleDevtoolsRemoteworkersV1test2CommandTaskOutputs; /** * The inputs to the task. */ inputs?: Schema$GoogleDevtoolsRemoteworkersV1test2CommandTaskInputs; /** * The timeouts of this task. */ timeouts?: Schema$GoogleDevtoolsRemoteworkersV1test2CommandTaskTimeouts; } /** * Describes the inputs to a shell-style task. */ interface Schema$GoogleDevtoolsRemoteworkersV1test2CommandTaskInputs { /** * The command itself to run (e.g., argv). This field should be passed directly to the underlying operating system, and so it must be sensible to that operating system. For example, on Windows, the first argument might be "C:\Windows\System32\ping.exe" - that is, using drive letters and backslashes. A command for a *nix system, on the other hand, would use forward slashes. All other fields in the RWAPI must consistently use forward slashes, since those fields may be interpretted by both the service and the bot. */ arguments?: string[]; /** * All environment variables required by the task. */ environmentVariables?: Schema$GoogleDevtoolsRemoteworkersV1test2CommandTaskInputsEnvironmentVariable[]; /** * The input filesystem to be set up prior to the task beginning. The contents should be a repeated set of FileMetadata messages though other formats are allowed if better for the implementation (eg, a LUCI-style .isolated file). This field is repeated since implementations might want to cache the metadata, in which case it may be useful to break up portions of the filesystem that change frequently (eg, specific input files) from those that don't (eg, standard header files). */ files?: Schema$GoogleDevtoolsRemoteworkersV1test2Digest[]; /** * Inline contents for blobs expected to be needed by the bot to execute the task. For example, contents of entries in `files` or blobs that are indirectly referenced by an entry there. The bot should check against this list before downloading required task inputs to reduce the number of communications between itself and the remote CAS server. */ inlineBlobs?: Schema$GoogleDevtoolsRemoteworkersV1test2Blob[]; /** * Directory from which a command is executed. It is a relative directory with respect to the bot's working directory (i.e., "./"). If it is non-empty, then it must exist under "./". Otherwise, "./" will be used. */ workingDirectory?: string; } /** * An environment variable required by this task. */ interface Schema$GoogleDevtoolsRemoteworkersV1test2CommandTaskInputsEnvironmentVariable { /** * The envvar name. */ name?: string; /** * The envvar value. */ value?: string; } /** * Describes the expected outputs of the command. */ interface Schema$GoogleDevtoolsRemoteworkersV1test2CommandTaskOutputs { /** * A list of expected directories, relative to the execution root. All paths MUST be delimited by forward slashes. */ directories?: string[]; /** * A list of expected files, relative to the execution root. All paths MUST be delimited by forward slashes. */ files?: string[]; /** * The destination to which any stderr should be sent. The method by which the bot should send the stream contents to that destination is not defined in this API. As examples, the destination could be a file referenced in the `files` field in this message, or it could be a URI that must be written via the ByteStream API. */ stderrDestination?: string; /** * The destination to which any stdout should be sent. The method by which the bot should send the stream contents to that destination is not defined in this API. As examples, the destination could be a file referenced in the `files` field in this message, or it could be a URI that must be written via the ByteStream API. */ stdoutDestination?: string; } /** * Describes the timeouts associated with this task. */ interface Schema$GoogleDevtoolsRemoteworkersV1test2CommandTaskTimeouts { /** * This specifies the maximum time that the task can run, excluding the time required to download inputs or upload outputs. That is, the worker will terminate the task if it runs longer than this. */ execution?: string; /** * This specifies the maximum amount of time the task can be idle - that is, go without generating some output in either stdout or stderr. If the process is silent for more than the specified time, the worker will terminate the task. */ idle?: string; /** * If the execution or IO timeouts are exceeded, the worker will try to gracefully terminate the task and return any existing logs. However, tasks may be hard-frozen in which case this process will fail. This timeout specifies how long to wait for a terminated task to shut down gracefully (e.g. via SIGTERM) before we bring down the hammer (e.g. SIGKILL on *nix, CTRL_BREAK_EVENT on Windows). */ shutdown?: string; } /** * The CommandTask and CommandResult messages assume the existence of a service that can serve blobs of content, identified by a hash and size known as a "digest." The method by which these blobs may be retrieved is not specified here, but a model implementation is in the Remote Execution API's "ContentAddressibleStorage" interface. In the context of the RWAPI, a Digest will virtually always refer to the contents of a file or a directory. The latter is represented by the byte-encoded Directory message. */ interface Schema$GoogleDevtoolsRemoteworkersV1test2Digest { /** * A string-encoded hash (eg "1a2b3c", not the byte array [0x1a, 0x2b, 0x3c]) using an implementation-defined hash algorithm (eg SHA-256). */ hash?: string; /** * The size of the contents. While this is not strictly required as part of an identifier (after all, any given hash will have exactly one canonical size), it's useful in almost all cases when one might want to send or retrieve blobs of content and is included here for this reason. */ sizeBytes?: string; } /** * The contents of a directory. Similar to the equivalent message in the Remote Execution API. */ interface Schema$GoogleDevtoolsRemoteworkersV1test2Directory { /** * Any subdirectories */ directories?: Schema$GoogleDevtoolsRemoteworkersV1test2DirectoryMetadata[]; /** * The files in this directory */ files?: Schema$GoogleDevtoolsRemoteworkersV1test2FileMetadata[]; } /** * The metadata for a directory. Similar to the equivalent message in the Remote Execution API. */ interface Schema$GoogleDevtoolsRemoteworkersV1test2DirectoryMetadata { /** * A pointer to the contents of the directory, in the form of a marshalled Directory message. */ digest?: Schema$GoogleDevtoolsRemoteworkersV1test2Digest; /** * The path of the directory, as in FileMetadata.path. */ path?: string; } /** * The metadata for a file. Similar to the equivalent message in the Remote Execution API. */ interface Schema$GoogleDevtoolsRemoteworkersV1test2FileMetadata { /** * If the file is small enough, its contents may also or alternatively be listed here. */ contents?: string; /** * A pointer to the contents of the file. The method by which a client retrieves the contents from a CAS system is not defined here. */ digest?: Schema$GoogleDevtoolsRemoteworkersV1test2Digest; /** * Properties of the file */ isExecutable?: boolean; /** * The path of this file. If this message is part of the CommandOutputs.outputs fields, the path is relative to the execution root and must correspond to an entry in CommandTask.outputs.files. If this message is part of a Directory message, then the path is relative to the root of that directory. All paths MUST be delimited by forward slashes. */ path?: string; } /** * The request message for Operations.CancelOperation. */ interface Schema$GoogleLongrunningCancelOperationRequest { } /** * The response message for Operations.ListOperations. */ interface Schema$GoogleLongrunningListOperationsResponse { /** * The standard List next-page token. */ nextPageToken?: string; /** * A list of operations that matches the specified filter in the request. */ operations?: Schema$GoogleLongrunningOperation[]; } /** * This resource represents a long-running operation that is the result of a network API call. */ interface Schema$GoogleLongrunningOperation { /** * If the value is `false`, it means the operation is still in progress. If `true`, the operation is completed, and either `error` or `response` is available. */ done?: boolean; /** * The error result of the operation in case of failure or cancellation. */ error?: Schema$GoogleRpcStatus; /** * Service-specific metadata associated with the operation. It typically contains progress information and common metadata such as create time. Some services might not provide such metadata. Any method that returns a long-running operation should document the metadata type, if any. */ metadata?: { [key: string]: any; }; /** * The server-assigned name, which is only unique within the same service that originally returns it. If you use the default HTTP mapping, the `name` should be a resource name ending with `operations/{unique_id}`. */ name?: string; /** * The normal response of the operation in case of success. If the original method returns no data on success, such as `Delete`, the response is `google.protobuf.Empty`. If the original method is standard `Get`/`Create`/`Update`, the response should be the resource. For other methods, the response should have the type `XxxResponse`, where `Xxx` is the original method name. For example, if the original method name is `TakeSnapshot()`, the inferred response type is `TakeSnapshotResponse`. */ response?: { [key: string]: any; }; } /** * A generic empty message that you can re-use to avoid defining duplicated empty messages in your APIs. A typical example is to use it as the request or the response type of an API method. For instance: service Foo { rpc Bar(google.protobuf.Empty) returns (google.protobuf.Empty); } The JSON representation for `Empty` is empty JSON object `{}`. */ interface Schema$GoogleProtobufEmpty { } /** * The `Status` type defines a logical error model that is suitable for different programming environments, including REST APIs and RPC APIs. It is used by [gRPC](https://github.com/grpc). Each `Status` message contains three pieces of data: error code, error message, and error details. You can find out more about this error model and how to work with it in the [API Design Guide](https://cloud.google.com/apis/design/errors). */ interface Schema$GoogleRpcStatus { /** * The status code, which should be an enum value of google.rpc.Code. */ code?: number; /** * A list of messages that carry the error details. There is a common set of message types for APIs to use. */ details?: Array<{ [key: string]: any; }>; /** * A developer-facing error message, which should be in English. Any user-facing error message should be localized and sent in the google.rpc.Status.details field, or localized by the client. */ message?: string; } /** * A Change indicates the most recent state of an element. */ interface Schema$GoogleWatcherV1Change { /** * If true, this Change is followed by more Changes that are in the same group as this Change. */ continued?: boolean; /** * The actual change data. This field is present only when `state() == EXISTS` or `state() == ERROR`. Please see google.protobuf.Any about how to use the Any type. */ data?: { [key: string]: any; }; /** * Name of the element, interpreted relative to the entity's actual name. "" refers to the entity itself. The element name is a valid UTF-8 string. */ element?: string; /** * If present, provides a compact representation of all the messages that have been received by the caller for the given entity, e.g., it could be a sequence number or a multi-part timestamp/version vector. This marker can be provided in the Request message, allowing the caller to resume the stream watching at a specific point without fetching the initial state. */ resumeMarker?: string; /** * The state of the `element`. */ state?: string; } /** * A batch of Change messages. */ interface Schema$GoogleWatcherV1ChangeBatch { /** * A list of Change messages. */ changes?: Schema$GoogleWatcherV1Change[]; } class Resource$Media { context: APIRequestContext; constructor(context: APIRequestContext); /** * remotebuildexecution.media.download * @desc Downloads media. Download is supported on the URI `/v1/media/{+name}?alt=media`. * @alias remotebuildexecution.media.download * @memberOf! () * * @param {object} params Parameters for request * @param {string} params.resourceName Name of the media that is being downloaded. See ReadRequest.resource_name. * @param {object} [options] Optionally override request options, such as `url`, `method`, and `encoding`. * @param {callback} callback The callback that handles the response. * @return {object} Request object */ download(params?: Params$Resource$Media$Download, options?: MethodOptions): GaxiosPromise; download(params: Params$Resource$Media$Download, options: MethodOptions | BodyResponseCallback, callback: BodyResponseCallback): void; download(params: Params$Resource$Media$Download, callback: BodyResponseCallback): void; download(callback: BodyResponseCallback): void; /** * remotebuildexecution.media.upload * @desc Uploads media. Upload is supported on the URI `/upload/v1/media/{+name}`. * @alias remotebuildexecution.media.upload * @memberOf! () * * @param {object} params Parameters for request * @param {string} params.resourceName Name of the media that is being downloaded. See ReadRequest.resource_name. * @param {object} params.resource Media resource metadata * @param {object} params.media Media object * @param {string} params.media.mimeType Media mime-type * @param {string|object} params.media.body Media body contents * @param {object} [options] Optionally override request options, such as `url`, `method`, and `encoding`. * @param {callback} callback The callback that handles the response. * @return {object} Request object */ upload(params?: Params$Resource$Media$Upload, options?: MethodOptions): GaxiosPromise; upload(params: Params$Resource$Media$Upload, options: MethodOptions | BodyResponseCallback, callback: BodyResponseCallback): void; upload(params: Params$Resource$Media$Upload, callback: BodyResponseCallback): void; upload(callback: BodyResponseCallback): void; } interface Params$Resource$Media$Download extends StandardParameters { /** * Auth client or API Key for the request */ auth?: string | OAuth2Client | JWT | Compute | UserRefreshClient; /** * Name of the media that is being downloaded. See ReadRequest.resource_name. */ resourceName?: string; } interface Params$Resource$Media$Upload extends StandardParameters { /** * Auth client or API Key for the request */ auth?: string | OAuth2Client | JWT | Compute | UserRefreshClient; /** * Name of the media that is being downloaded. See ReadRequest.resource_name. */ resourceName?: string; /** * Request body metadata */ requestBody?: Schema$GoogleBytestreamMedia; /** * Media metadata */ media?: { /** * Media mime-type */ mimeType?: string; /** * Media body contents */ body?: any; }; } class Resource$Operations { context: APIRequestContext; constructor(context: APIRequestContext); /** * remotebuildexecution.operations.cancel * @desc Starts asynchronous cancellation on a long-running operation. The server makes a best effort to cancel the operation, but success is not guaranteed. If the server doesn't support this method, it returns `google.rpc.Code.UNIMPLEMENTED`. Clients can use Operations.GetOperation or other methods to check whether the cancellation succeeded or whether the operation completed despite cancellation. On successful cancellation, the operation is not deleted; instead, it becomes an operation with an Operation.error value with a google.rpc.Status.code of 1, corresponding to `Code.CANCELLED`. * @alias remotebuildexecution.operations.cancel * @memberOf! () * * @param {object} params Parameters for request * @param {string} params.name The name of the operation resource to be cancelled. * @param {().GoogleLongrunningCancelOperationRequest} params.resource Request body data * @param {object} [options] Optionally override request options, such as `url`, `method`, and `encoding`. * @param {callback} callback The callback that handles the response. * @return {object} Request object */ cancel(params?: Params$Resource$Operations$Cancel, options?: MethodOptions): GaxiosPromise; cancel(params: Params$Resource$Operations$Cancel, options: MethodOptions | BodyResponseCallback, callback: BodyResponseCallback): void; cancel(params: Params$Resource$Operations$Cancel, callback: BodyResponseCallback): void; cancel(callback: BodyResponseCallback): void; /** * remotebuildexecution.operations.delete * @desc Deletes a long-running operation. This method indicates that the client is no longer interested in the operation result. It does not cancel the operation. If the server doesn't support this method, it returns `google.rpc.Code.UNIMPLEMENTED`. * @alias remotebuildexecution.operations.delete * @memberOf! () * * @param {object} params Parameters for request * @param {string} params.name The name of the operation resource to be deleted. * @param {object} [options] Optionally override request options, such as `url`, `method`, and `encoding`. * @param {callback} callback The callback that handles the response. * @return {object} Request object */ delete(params?: Params$Resource$Operations$Delete, options?: MethodOptions): GaxiosPromise; delete(params: Params$Resource$Operations$Delete, options: MethodOptions | BodyResponseCallback, callback: BodyResponseCallback): void; delete(params: Params$Resource$Operations$Delete, callback: BodyResponseCallback): void; delete(callback: BodyResponseCallback): void; /** * remotebuildexecution.operations.list * @desc Lists operations that match the specified filter in the request. If the server doesn't support this method, it returns `UNIMPLEMENTED`. NOTE: the `name` binding allows API services to override the binding to use different resource name schemes, such as `users/x/operations`. To override the binding, API services can add a binding such as `"/v1/{name=users/x}/operations"` to their service configuration. For backwards compatibility, the default name includes the operations collection id, however overriding users must ensure the name binding is the parent resource, without the operations collection id. * @alias remotebuildexecution.operations.list * @memberOf! () * * @param {object} params Parameters for request * @param {string=} params.filter The standard list filter. * @param {string} params.name The name of the operation's parent resource. * @param {integer=} params.pageSize The standard list page size. * @param {string=} params.pageToken The standard list page token. * @param {object} [options] Optionally override request options, such as `url`, `method`, and `encoding`. * @param {callback} callback The callback that handles the response. * @return {object} Request object */ list(params?: Params$Resource$Operations$List, options?: MethodOptions): GaxiosPromise; list(params: Params$Resource$Operations$List, options: MethodOptions | BodyResponseCallback, callback: BodyResponseCallback): void; list(params: Params$Resource$Operations$List, callback: BodyResponseCallback): void; list(callback: BodyResponseCallback): void; } interface Params$Resource$Operations$Cancel extends StandardParameters { /** * Auth client or API Key for the request */ auth?: string | OAuth2Client | JWT | Compute | UserRefreshClient; /** * The name of the operation resource to be cancelled. */ name?: string; /** * Request body metadata */ requestBody?: Schema$GoogleLongrunningCancelOperationRequest; } interface Params$Resource$Operations$Delete extends StandardParameters { /** * Auth client or API Key for the request */ auth?: string | OAuth2Client | JWT | Compute | UserRefreshClient; /** * The name of the operation resource to be deleted. */ name?: string; } interface Params$Resource$Operations$List extends StandardParameters { /** * Auth client or API Key for the request */ auth?: string | OAuth2Client | JWT | Compute | UserRefreshClient; /** * The standard list filter. */ filter?: string; /** * The name of the operation's parent resource. */ name?: string; /** * The standard list page size. */ pageSize?: number; /** * The standard list page token. */ pageToken?: string; } class Resource$Projects { context: APIRequestContext; operations: Resource$Projects$Operations; constructor(context: APIRequestContext); } class Resource$Projects$Operations { context: APIRequestContext; constructor(context: APIRequestContext); /** * remotebuildexecution.projects.operations.get * @desc Gets the latest state of a long-running operation. Clients can use this method to poll the operation result at intervals as recommended by the API service. * @alias remotebuildexecution.projects.operations.get * @memberOf! () * * @param {object} params Parameters for request * @param {string} params.name The name of the operation resource. * @param {object} [options] Optionally override request options, such as `url`, `method`, and `encoding`. * @param {callback} callback The callback that handles the response. * @return {object} Request object */ get(params?: Params$Resource$Projects$Operations$Get, options?: MethodOptions): GaxiosPromise; get(params: Params$Resource$Projects$Operations$Get, options: MethodOptions | BodyResponseCallback, callback: BodyResponseCallback): void; get(params: Params$Resource$Projects$Operations$Get, callback: BodyResponseCallback): void; get(callback: BodyResponseCallback): void; } interface Params$Resource$Projects$Operations$Get extends StandardParameters { /** * Auth client or API Key for the request */ auth?: string | OAuth2Client | JWT | Compute | UserRefreshClient; /** * The name of the operation resource. */ name?: string; } class Resource$V1 { context: APIRequestContext; constructor(context: APIRequestContext); /** * remotebuildexecution.watch * @desc Start a streaming RPC to get watch information from the server. * @alias remotebuildexecution.watch * @memberOf! () * * @param {object} params Parameters for request * @param {string=} params.resumeMarker The `resume_marker` specifies how much of the existing underlying state is delivered to the client when the watch request is received by the system. The client can set this marker in one of the following ways to get different semantics: * Parameter is not specified or has the value "". Semantics: Fetch initial state. The client wants the entity's initial state to be delivered. See the description in "Initial State". * Parameter is set to the string "now" (UTF-8 encoding). Semantics: Fetch new changes only. The client just wants to get the changes received by the system after the watch point. The system may deliver changes from before the watch point as well. * Parameter is set to a value received in an earlier `Change.resume_marker` field while watching the same entity. Semantics: Resume from a specific point. The client wants to receive the changes from a specific point; this value must correspond to a value received in the `Change.resume_marker` field. The system may deliver changes from before the `resume_marker` as well. If the system cannot resume the stream from this point (e.g., if it is too far behind in the stream), it can raise the `FAILED_PRECONDITION` error. An implementation MUST support an unspecified parameter and the empty string "" marker (initial state fetching) and the "now" marker. It need not support resuming from a specific point. * @param {string=} params.target The `target` value **must** be a valid URL path pointing to an entity to watch. Note that the service name **must** be removed from the target field (e.g., the target field must say "/foo/bar", not "myservice.googleapis.com/foo/bar"). A client is also allowed to pass system-specific parameters in the URL that are only obeyed by some implementations. Some parameters will be implementation-specific. However, some have predefined meaning and are listed here: * recursive = true|false [default=false] If set to true, indicates that the client wants to watch all elements of entities in the subtree rooted at the entity's name in `target`. For descendants that are not the immediate children of the target, the `Change.element` will contain slashes. Note that some namespaces and entities will not support recursive watching. When watching such an entity, a client must not set recursive to true. Otherwise, it will receive an `UNIMPLEMENTED` error. Normal URL encoding must be used inside `target`. For example, if a query parameter name or value, or the non-query parameter portion of `target` contains a special character, it must be %-encoded. We recommend that clients and servers use their runtime's URL library to produce and consume target values. * @param {object} [options] Optionally override request options, such as `url`, `method`, and `encoding`. * @param {callback} callback The callback that handles the response. * @return {object} Request object */ watch(params?: Params$Resource$V1$Watch, options?: MethodOptions): GaxiosPromise; watch(params: Params$Resource$V1$Watch, options: MethodOptions | BodyResponseCallback, callback: BodyResponseCallback): void; watch(params: Params$Resource$V1$Watch, callback: BodyResponseCallback): void; watch(callback: BodyResponseCallback): void; } interface Params$Resource$V1$Watch extends StandardParameters { /** * Auth client or API Key for the request */ auth?: string | OAuth2Client | JWT | Compute | UserRefreshClient; /** * The `resume_marker` specifies how much of the existing underlying state is delivered to the client when the watch request is received by the system. The client can set this marker in one of the following ways to get different semantics: * Parameter is not specified or has the value "". Semantics: Fetch initial state. The client wants the entity's initial state to be delivered. See the description in "Initial State". * Parameter is set to the string "now" (UTF-8 encoding). Semantics: Fetch new changes only. The client just wants to get the changes received by the system after the watch point. The system may deliver changes from before the watch point as well. * Parameter is set to a value received in an earlier `Change.resume_marker` field while watching the same entity. Semantics: Resume from a specific point. The client wants to receive the changes from a specific point; this value must correspond to a value received in the `Change.resume_marker` field. The system may deliver changes from before the `resume_marker` as well. If the system cannot resume the stream from this point (e.g., if it is too far behind in the stream), it can raise the `FAILED_PRECONDITION` error. An implementation MUST support an unspecified parameter and the empty string "" marker (initial state fetching) and the "now" marker. It need not support resuming from a specific point. */ resumeMarker?: string; /** * The `target` value **must** be a valid URL path pointing to an entity to watch. Note that the service name **must** be removed from the target field (e.g., the target field must say "/foo/bar", not "myservice.googleapis.com/foo/bar"). A client is also allowed to pass system-specific parameters in the URL that are only obeyed by some implementations. Some parameters will be implementation-specific. However, some have predefined meaning and are listed here: * recursive = true|false [default=false] If set to true, indicates that the client wants to watch all elements of entities in the subtree rooted at the entity's name in `target`. For descendants that are not the immediate children of the target, the `Change.element` will contain slashes. Note that some namespaces and entities will not support recursive watching. When watching such an entity, a client must not set recursive to true. Otherwise, it will receive an `UNIMPLEMENTED` error. Normal URL encoding must be used inside `target`. For example, if a query parameter name or value, or the non-query parameter portion of `target` contains a special character, it must be %-encoded. We recommend that clients and servers use their runtime's URL library to produce and consume target values. */ target?: string; } }