/** * Copyright 2015 Google Inc. All Rights Reserved. * * 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 { AxiosPromise } from 'axios'; import { GoogleApis } from '../..'; import { BodyResponseCallback, GlobalOptions, MethodOptions } from '../../lib/api'; /** * Genomics API * * Upload, process, query, and search Genomics data in the cloud. * * @example * const google = require('googleapis'); * const genomics = google.genomics('v2alpha1'); * * @namespace genomics * @type {Function} * @version v2alpha1 * @variation v2alpha1 * @param {object=} options Options for Genomics */ export declare class Genomics { _options: GlobalOptions; google: GoogleApis; root: this; pipelines: Resource$Pipelines; projects: Resource$Projects; workers: Resource$Workers; constructor(options: GlobalOptions, google: GoogleApis); getRoot(): this; } /** * Action specifies a single action that runs a docker container. */ export interface Schema$Action { /** * If specified, overrides the CMD specified in the container. If the * container also has an ENTRYPOINT the values are used as entrypoint * arguments. Otherwise, they are used as a command and arguments to run * inside the container. */ commands: string[]; /** * If specified, overrides the ENTRYPOINT specified in the container. */ entrypoint: string; /** * The environment to pass into the container. This environment is merged * with any values specified in the Pipeline message. These values overwrite * any in the Pipeline message. In addition to the values passed here, a few * other values are automatically injected into the environment. These cannot * be hidden or overwritten. `GOOGLE_PIPELINE_FAILED` will be set to * "1" if the pipeline has failed because an action has exited with * a non-zero status (and did not have the IGNORE_EXIT_STATUS flag set). This * can be used to determine if additional debug or logging actions should * execute. `GOOGLE_LAST_EXIT_STATUS` will be set to the exit status of the * last non-background action that executed. This can be used by workflow * engine authors to determine whether an individual action has succeeded or * failed. */ environment: any; /** * The set of flags to apply to this action. */ flags: string[]; /** * The URI to pull the container image from. Note that all images referenced * by actions in the pipeline are pulled before the first action runs. If * multiple actions reference the same image, it is only pulled once, ensuring * that the same image is used for all actions in a single pipeline. */ imageUri: string; /** * Labels to associate with the action. This field is provided to assist * workflow engine authors in identifying actions (for example, to indicate * what sort of action they perform: eg. localization, debugging, etc). They * are returned in the operation metadata but are otherwise ignored. */ labels: any; /** * A list of mounts to make available to the action. In addition to the * values specified here, every action has a special virtual disk mounted * under /google that contains log files and other operational components. * <ul> <li><code>/google/logs</code>: all logs * written during the pipeline execution are stored here.</li> * <li><code>/google/logs/output</code>: the combined * standard output and standard error of all actions run as part of the * pipeline execution.</li> * <li><code>/google/logs/action/x/stdout</code>: the * complete contents of each individual action's standard * output</li> * <li><code>/google/logs/action/x/stderr</code>: the * complete contents of each individual action's standard error * output</li> </ul> */ mounts: Schema$Mount[]; /** * An optional name for the container. The container hostname will be set to * this name, making it useful for inter-container communication. The name * must contain only upper and lowercase alphanumeric characters and hypens * and cannot start with a hypen. */ name: string; /** * The PID namespace to run the action inside. If unspecified, a separate * isolated namespace is used. */ pidNamespace: string; /** * A map of container to host port mappings for this container. Note that if * the container already specifies exposed ports, the PUBLISH_EXPOSED_PORTS * flag should be used instead. The host port number must be less than 65536. * If it is zero, an unused random port is assigned. To determine the * resulting port number, consult the ContainerStartedEvent in the operation * metadata. */ portMappings: any; } /** * The request message for Operations.CancelOperation. */ export interface Schema$CancelOperationRequest { } /** * The parameters to the CheckIn method. */ export interface Schema$CheckInRequest { /** * The deadline has expired and the worker needs more time. */ deadlineExpired: Schema$Empty; /** * A workflow specific event occurred. */ event: any; /** * The operation has finished with the given result. */ result: Schema$Status; } /** * The response to the CheckIn method. */ export interface Schema$CheckInResponse { /** * The deadline by which the worker must request an extension. The backend * will allow for network transmission time and other delays, but the worker * must attempt to transmit the extension request no later than the deadline. */ deadline: string; /** * The metadata that describes the operation assigned to the worker. */ metadata: any; } /** * Describes a Compute Engine resource that is being managed by a running * pipeline. */ export interface Schema$ComputeEngine { /** * The names of the disks that were created for this pipeline. */ diskNames: string[]; /** * The instance on which the operation is running. */ instanceName: string; /** * The machine type of the instance. */ machineType: string; /** * The availability zone in which the instance resides. */ zone: string; } /** * This event is generated when a container starts. */ export interface Schema$ContainerStartedEvent { /** * The numeric ID of the action that started this container. */ actionId: number; /** * The public IP address that can be used to connect to the container. This * field is only populated when at least one port mapping is present. If the * instance was created with a private address this field will be empty even * if port mappings exist. */ ipAddress: string; /** * The container to host port mappings installed for this container. This set * will contain any ports exposed using the PUBLISH_EXPOSED_PORTS flag as well * as any specified in the Action definition. */ portMappings: any; } /** * This event is generated when a container exits. */ export interface Schema$ContainerStoppedEvent { /** * The numeric ID of the action that started this container. */ actionId: number; /** * The exit status of the container. */ exitStatus: number; } /** * This event is generated whenever a resource limitation or transient error * delays execution of a pipeline that was otherwise ready to run. */ export interface Schema$DelayedEvent { /** * A textual description of the cause of the delay. The string may change * without notice since it is often generated by another service (such as * Compute Engine). */ cause: string; /** * If the delay was caused by a resource shortage, this field lists the * Compute Engine metrics that are preventing this operation from running (for * example, CPUS or INSTANCES). If the particular metric is not known, a * single UNKNOWN metric will be present. */ metrics: string[]; } /** * Carries information about a disk that can be attached to a VM. */ export interface Schema$Disk { /** * A user supplied name for the disk, used when mounting it into actions. The * name must contain only upper and lowercase alphanumeric characters and * hypens and cannot start with a hypen. */ name: string; /** * The size, in gigabytes, of the disk to attach. Note that this value is not * configurable for some disk types such as local-ssd. If the size is not * specified, a size of at least 500gb is used to ensure reasonable I/O * performance. */ sizeGb: number; /** * An optional image to put on the disk before attaching it to the VM. */ sourceImage: string; /** * The Compute Engine disk type. If unspecified, 'standard-pd' is * used. */ type: string; } /** * A generic empty message that you can re-use to avoid defining duplicated * empty messages in your APIs. A typical example is to use it as the request or * the response type of an API method. For instance: service Foo { rpc * Bar(google.protobuf.Empty) returns (google.protobuf.Empty); } The JSON * representation for `Empty` is empty JSON object `{}`. */ export interface Schema$Empty { } /** * Event carries information about events that occur during pipeline execution. */ export interface Schema$Event { /** * A human readable description of the event. Note that these strings may * change at any time without notice. Any application logic must use the * information in the details field. */ description: string; /** * Machine readable details about the event. */ details: any; /** * The time that the event occurred. */ timestamp: string; } /** * This event is generated when the execution of a pipeline has failed. Note * that other events may continue to occur after this event. */ export interface Schema$FailedEvent { /** * The human readable description of the cause of the failure. */ cause: string; /** * The Google standard error code that best describes this failure. */ code: string; } /** * The read group set import response. */ export interface Schema$ImportReadGroupSetsResponse { /** * IDs of the read group sets that were created. */ readGroupSetIds: string[]; } /** * The variant data import response. */ export interface Schema$ImportVariantsResponse { /** * IDs of the call sets created during the import. */ callSetIds: string[]; } /** * The response message for Operations.ListOperations. */ export interface Schema$ListOperationsResponse { /** * The standard List next-page token. */ nextPageToken: string; /** * A list of operations that matches the specified filter in the request. */ operations: Schema$Operation[]; } /** * Metadata carries information about the pipeline execution that is returned in * the long running operation's metadata field. */ export interface Schema$Metadata { /** * The time that the operation was created by the API. */ createTime: string; /** * The list of events that have happened so far during the execution of this * operation. */ events: Schema$Event[]; /** * The user defined labels associated with this operation. */ labels: any; /** * The pipeline this operation represents. */ pipeline: Schema$Pipeline; } /** * Mount carries information about a particular disk mount inside a container. */ export interface Schema$Mount { /** * The name of the disk to mount, as specified in the resources section. */ disk: string; /** * The path to mount the disk at inside the container. */ path: string; /** * If true, the disk is mounted read only inside the container. */ readOnly: boolean; } /** * VM networking options. */ export interface Schema$Network { /** * The network name to attach the VM's network interface to. If * unspecified, the global default network is used. */ name: string; /** * If set to true, do not attach a public IP address to the VM. Note that * without an public IP address, additional configuration is required to allow * the VM to access Google services. See * https://cloud.google.com/vpc/docs/configure-private-google-access for more * information. */ usePrivateAddress: boolean; } /** * This resource represents a long-running operation that is the result of a * network API call. */ export interface Schema$Operation { /** * 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$Status; /** * An OperationMetadata or Metadata object. This will always be returned with * the Operation. */ metadata: any; /** * The server-assigned name, which is only unique within the same service that * originally returns it. For example&#58; * `operations/CJHU7Oi_ChDrveSpBRjfuL-qzoWAgEw` */ name: string; /** * If importing ReadGroupSets, an ImportReadGroupSetsResponse is returned. If * importing Variants, an ImportVariantsResponse is returned. For pipelines * and exports, an Empty response is returned. */ response: any; } /** * An event that occurred during an Operation. */ export interface Schema$OperationEvent { /** * Required description of event. */ description: string; /** * Optional time of when event finished. An event can have a start time and no * finish time. If an event has a finish time, there must be a start time. */ endTime: string; /** * Optional time of when event started. */ startTime: string; } /** * Metadata describing an Operation. */ export interface Schema$OperationMetadata { /** * This field is deprecated. Use `labels` instead. Optionally provided by the * caller when submitting the request that creates the operation. */ clientId: string; /** * The time at which the job was submitted to the Genomics service. */ createTime: string; /** * The time at which the job stopped running. */ endTime: string; /** * Optional event messages that were generated during the job's execution. * This also contains any warnings that were generated during import or * export. */ events: Schema$OperationEvent[]; /** * Optionally provided by the caller when submitting the request that creates * the operation. */ labels: any; /** * The Google Cloud Project in which the job is scoped. */ projectId: string; /** * The original request that started the operation. Note that this will be in * current version of the API. If the operation was started with v1beta2 API * and a GetOperation is performed on v1 API, a v1 request will be returned. */ request: any; /** * Runtime metadata on this Operation. */ runtimeMetadata: any; /** * The time at which the job began to run. */ startTime: string; } /** * The Pipeline object describes a series of actions to execute, expressed as * docker containers. */ export interface Schema$Pipeline { /** * The list of actions to execute, in the order they are specified. */ actions: Schema$Action[]; /** * The environment to pass into every action. Each action may also specify * additional environment variables but cannot delete an entry from this map * (though they may overwrite it with a different value). */ environment: any; /** * The resources required for execution. */ resources: Schema$Resources; } /** * This event is generated when the worker starts pulling an image. */ export interface Schema$PullStartedEvent { /** * The URI of the image that was pulled. */ imageUri: string; } /** * This event is generated when the worker stops pulling an image. */ export interface Schema$PullStoppedEvent { /** * The URI of the image that was pulled. */ imageUri: string; } /** * The system resources for the pipeline run. At least one zone or region must * be specified or the pipeline run will fail. */ export interface Schema$Resources { /** * The customer project ID to allocate resources in. */ projectId: string; /** * The list of regions allowed for VM allocation. If set, the zones field * must not be set. */ regions: string[]; /** * The virtual machine specification. */ virtualMachine: Schema$VirtualMachine; /** * The list of zones allowed for VM allocation. If set, the regions field * must not be set. */ zones: string[]; } /** * The arguments to the RunPipeline method. The requesting user must have the * iam.serviceAccounts.actAs permission for the Google Genomics Service Account * or the request will fail. */ export interface Schema$RunPipelineRequest { /** * User defined labels to associate with the returned operation. These labels * are not propagated to any Google Cloud Platform resources used by the * operation, and may be modified at any time. To associate labels with * resources created while executing the operation, see the appropriate * resource message (i.e., VirtualMachine). */ labels: any; /** * The description of the pipeline to run. */ pipeline: Schema$Pipeline; } /** * Runtime metadata that will be populated in the runtimeMetadata field of the * Operation associated with a RunPipeline execution. */ export interface Schema$RuntimeMetadata { /** * Execution information specific to Google Compute Engine. */ computeEngine: Schema$ComputeEngine; } /** * Carries information about a Google Cloud Service Account. */ export interface Schema$ServiceAccount { /** * Email address of the service account. If not specified, the default * compute engine service account for the project will be used. */ email: string; /** * List of scopes to be enabled for this service account on the VM, in * addition to the Google Genomics API scope. */ scopes: string[]; } /** * 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). The error model is designed to be: * - Simple to use and understand for most users - Flexible enough to meet * unexpected needs # Overview The `Status` message contains three pieces of * data: error code, error message, and error details. The error code should be * an enum value of google.rpc.Code, but it may accept additional error codes if * needed. The error message should be a developer-facing English message that * helps developers *understand* and *resolve* the error. If a localized * user-facing error message is needed, put the localized message in the error * details or localize it in the client. The optional error details may contain * arbitrary information about the error. There is a predefined set of error * detail types in the package `google.rpc` that can be used for common error * conditions. # Language mapping The `Status` message is the logical * representation of the error model, but it is not necessarily the actual wire * format. When the `Status` message is exposed in different client libraries * and different wire protocols, it can be mapped differently. For example, it * will likely be mapped to some exceptions in Java, but more likely mapped to * some error codes in C. # Other uses The error model and the `Status` * message can be used in a variety of environments, either with or without * APIs, to provide a consistent developer experience across different * environments. Example uses of this error model include: - Partial errors. * If a service needs to return partial errors to the client, it may embed * the `Status` in the normal response to indicate the partial errors. - * Workflow errors. A typical workflow has multiple steps. Each step may have a * `Status` message for error reporting. - Batch operations. If a client uses * batch request and batch response, the `Status` message should be used * directly inside batch response, one for each error sub-response. - * Asynchronous operations. If an API call embeds asynchronous operation results * in its response, the status of those operations should be represented * directly using the `Status` message. - Logging. If some API errors are * stored in logs, the message `Status` could be used directly after any * stripping needed for security/privacy reasons. */ export interface Schema$Status { /** * The status code, which should be an enum value of google.rpc.Code. */ code: number; /** * A list of messages that carry the error details. There is a common set of * message types for APIs to use. */ details: any[]; /** * A developer-facing error message, which should be in English. Any * user-facing error message should be localized and sent in the * google.rpc.Status.details field, or localized by the client. */ message: string; } /** * This event is generated when the execution of a container results in a * non-zero exit status that was not otherwise ignored. Execution will * continue, but only actions that are flagged as ALWAYS_RUN will be executed: * other actions will be skipped. */ export interface Schema$UnexpectedExitStatusEvent { /** * The numeric ID of the action that started the container. */ actionId: number; /** * The exit status of the container. */ exitStatus: number; } /** * Carries information about a Compute Engine VM resource. */ export interface Schema$VirtualMachine { /** * The size of the boot disk, in gigabytes. The boot disk must be large enough * to accommodate all of the docker images from each action in the pipeline at * the same time. If not specified, a small but reasonable default value is * used. */ bootDiskSizeGb: number; /** * The host operating system image to use. At present, only Container * Optimized OS images may be used. The default value is * "projects/cos-cloud/global/images/family/cos-stable" which * selects the latest stable release of Container Optimized OS. This option * is provided to allow testing against the beta release of the operating * system to ensure that the new version does not interact negatively with * production pipelines. To test a pipeline against the beta release of COS, * use the value "projects/cos-cloud/global/images/family/cos-beta". */ bootImage: string; /** * The CPU platform to request. An instance based on a newer platform may be * allocated but never one with less capabilities. The value of this * parameter must be a valid Compute Engine CPU platform name (such as * "Intel Skylake"). This parameter is only useful for carefully * optimized work loads where the CPU platform has a significant impact. For * more information about the effect of this parameter, please visit * https://cloud.google.com/compute/docs/instances/specify-min-cpu-platform. */ cpuPlatform: string; /** * The list of disks to create and attach to the VM. */ disks: Schema$Disk[]; /** * Optional set of labels to apply to the VM and any attached disk resources. * These labels must adhere to the name and value restrictions on VM labels * imposed by Compute Engine. These labels are applied at creation time to * the VM and are applied on a best-effort basis to attached disk resources * shortly after VM creation. */ labels: any; /** * The machine type of the virtual machine to create. Must be the short name * of a standard machine type (such as "n1-standard-1") or a custom * machine type (such as "custom-1-4096"). */ machineType: string; /** * The VM network configuration. */ network: Schema$Network; /** * If true, allocate a preemptible VM. */ preemptible: boolean; /** * The service account to install on the VM. This account does not need any * permissions other than those required by the pipeline. */ serviceAccount: Schema$ServiceAccount; } /** * This event is generated once a worker VM has been assigned to run the * pipeline. */ export interface Schema$WorkerAssignedEvent { /** * The worker's instance name. */ instance: string; /** * The zone the worker is running in. */ zone: string; } /** * This event is generated when the worker VM that was assigned to the pipeline * has been released (i.e., deleted). */ export interface Schema$WorkerReleasedEvent { /** * The worker's instance name. */ instance: string; /** * The zone the worker was running in. */ zone: string; } export declare class Resource$Pipelines { root: Genomics; constructor(root: Genomics); getRoot(): Genomics; /** * genomics.pipelines.run * @desc Runs a pipeline. **Note:** In order to use this method, the Genomics * Service Agent must have access to your project. This is done automatically * when the Genomics API is first enabled, but if you delete this permission, * or if you have already enabled the Genomics API prior to the launch of the * v2alpha1 API, you must disable and re-enable the API to grant the Genomics * Service Agent the required permissions. [1]: /genomics/gsa * @alias genomics.pipelines.run * @memberOf! () * * @param {object} params Parameters for request * @param {().RunPipelineRequest} params.resource Request body data * @param {object} [options] Optionally override request options, such as `url`, `method`, and `encoding`. * @param {callback} callback The callback that handles the response. * @return {object} Request object */ run(params?: any, options?: MethodOptions): AxiosPromise; run(params?: any, options?: MethodOptions | BodyResponseCallback, callback?: BodyResponseCallback): void; } export declare class Resource$Projects { root: Genomics; operations: Resource$Projects$Operations; constructor(root: Genomics); getRoot(): Genomics; } export declare class Resource$Projects$Operations { root: Genomics; constructor(root: Genomics); getRoot(): Genomics; /** * genomics.projects.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. Clients may use Operations.GetOperation or * Operations.ListOperations to check whether the cancellation succeeded or * the operation completed despite cancellation. * @alias genomics.projects.operations.cancel * @memberOf! () * * @param {object} params Parameters for request * @param {string} params.name The name of the operation resource to be cancelled. * @param {().CancelOperationRequest} 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?: any, options?: MethodOptions): AxiosPromise; cancel(params?: any, options?: MethodOptions | BodyResponseCallback, callback?: BodyResponseCallback): void; /** * genomics.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 genomics.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?: any, options?: MethodOptions): AxiosPromise; get(params?: any, options?: MethodOptions | BodyResponseCallback, callback?: BodyResponseCallback): void; /** * genomics.projects.operations.list * @desc Lists operations that match the specified filter in the request. * @alias genomics.projects.operations.list * @memberOf! () * * @param {object} params Parameters for request * @param {string=} params.filter A string for filtering Operations. In v2alpha1, the following filter fields are supported: * createTime: The time this job was created * events: The set of event (names) that have occurred while running the pipeline. The : operator can be used to determine if a particular event has occurred. * error: If the pipeline is running, this value is NULL. Once the pipeline finishes, the value is the standard Google error code. * labels.key or labels."key with space" where key is a label key. In v1 and v1alpha2, the following filter fields are supported: * projectId: Required. Corresponds to OperationMetadata.projectId. * createTime: The time this job was created, in seconds from the [epoch](http://en.wikipedia.org/wiki/Unix_time). Can use `>=` and/or `<=` operators. * status: Can be `RUNNING`, `SUCCESS`, `FAILURE`, or `CANCELED`. Only one status may be specified. * labels.key where key is a label key. Examples: * `projectId = my-project AND createTime >= 1432140000` * `projectId = my-project AND createTime >= 1432140000 AND createTime <= 1432150000 AND status = RUNNING` * `projectId = my-project AND labels.color = *` * `projectId = my-project AND labels.color = red` * @param {string} params.name The name of the operation's parent resource. * @param {integer=} params.pageSize The maximum number of results to return. If unspecified, defaults to 256. The maximum value is 2048. * @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?: any, options?: MethodOptions): AxiosPromise; list(params?: any, options?: MethodOptions | BodyResponseCallback, callback?: BodyResponseCallback): void; } export declare class Resource$Workers { root: Genomics; constructor(root: Genomics); getRoot(): Genomics; /** * genomics.workers.checkIn * @desc The worker uses this method to retrieve the assigned operation and * provide periodic status updates. * @alias genomics.workers.checkIn * @memberOf! () * * @param {object} params Parameters for request * @param {string} params.id The worker id, assigned when it was created. * @param {().CheckInRequest} 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 */ checkIn(params?: any, options?: MethodOptions): AxiosPromise; checkIn(params?: any, options?: MethodOptions | BodyResponseCallback, callback?: BodyResponseCallback): void; }