kratos/third_party/google/devtools/remoteworkers/v1test2/worker.proto

// Copyright 2018 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.

syntax = "proto3";

package google.devtools.remoteworkers.v1test2;

option csharp_namespace = "Google.DevTools.RemoteWorkers.V1Test2";
option go_package = "google.golang.org/genproto/googleapis/devtools/remoteworkers/v1test2;remoteworkers";
option java_multiple_files = true;
option java_outer_classname = "RemoteWorkersWorker";
option java_package = "com.google.devtools.remoteworkers.v1test2";
option objc_class_prefix = "RW";

// Describes a worker, which is a list of one or more devices and the
// connections between them. A device could be a computer, a phone, or even an
// accelerator like a GPU; it's up to the farm administrator to decide how to
// model their farm. For example, if a farm only has one type of GPU, the GPU
// could be modelled as a "has_gpu" property on its host computer; if it has
// many subproperties itself, it might be better to model it as a separate
// device.
//
// The first device in the worker is the "primary device" - that is, the device
// running a bot and which is responsible for actually executing commands. All
// other devices are considered to be attached devices, and must be controllable
// by the primary device.
//
// This message (and all its submessages) can be used in two contexts:
//
// * Status: sent by the bot to report the current capabilities of the device to
// allow reservation matching.
// * Request: sent by a client to request a device with certain capabilities in
// a reservation.
//
// Several of the fields in this message have different semantics depending on
// which of which of these contexts it is used. These semantics are described
// below.
//
// Several messages in Worker and its submessages have the concept of keys and
// values, such as `Worker.Property` and `Device.Property`. All keys are simple
// strings, but certain keys are "standard" keys and should be broadly supported
// across farms and implementations; these are listed below each relevant
// message. Bot implementations or farm admins may add *additional* keys, but
// these SHOULD all begin with an underscore so they do not conflict with
// standard keys that may be added in the future.
//
// Keys are not context sensitive.
//
// See http://goo.gl/NurY8g for more information on the Worker message.
message Worker {
  // A global property; see the `properties` field for more information.
  message Property {
    // For general information on keys, see the documentation to `Worker`.
    //
    // The current set of standard keys are:
    //
    // * pool: different workers can be reserved for different purposes. For
    // example, an admin might want to segregate long-running integration tests
    // from short-running unit tests, so unit tests will always get some
    // throughput. To support this, the server can assign different values for
    // `pool` (such as "itest" and "utest") to different workers, and then have
    // jobs request workers from those pools.
    string key = 1;

    // The property's value.
    string value = 2;
  }

  // A configuration request or report; see the `configs` field for more
  // information.
  message Config {
    // For general information on keys, see the documentation to `Worker`.
    //
    // The current set of standard keys are:
    //
    // * DockerImage: the image of the container. When being reported by the
    // bot, the empty value should always be included if the bot is able to pull
    // its own images; the bot may optionally *also* report images that are
    // present in its cache. When being requested in a lease, the value is the
    // URI of the image (eg `gcr.io/user/image@sha256:hash`).
    string key = 1;

    // The configuration's value.
    string value = 2;
  }

  // A list of devices; the first device is the primary device. See the `Device`
  // message for more information.
  repeated Device devices = 1;

  // A worker may contain "global" properties. For example, certain machines
  // might be reserved for certain types of jobs, like short-running compilation
  // versus long-running integration tests. This property is known as a "pool"
  // and is not related to any one device within the worker; rather, it applies
  // to the worker as a whole.
  //
  // The behaviour of repeated keys is identical to that of Device.Property.
  repeated Property properties = 2;

  // Bots can be configured in certain ways when accepting leases. For example,
  // many leases are executed inside a Docker container. To support this, the
  // bot needs to be able to report that it has Docker installed (and knows how
  // to execute something inside a container), and the task submitter needs to
  // specify which image should be used to start the container. Similarly, a
  // lease may be able to run as one of several users on the worker; in such
  // cases, the bot needs to report what users are available, and the submitter
  // needs to choose one.
  //
  // Therefore, when this message is reported by the bot to the service, each
  // key represents a *type* of configuration that the bot knows how to set,
  // while each *value* represents a legal value for that configuration (the
  // empty string is interpretted as a wildcard, such as for Docker images).
  // When this message is sent by the server to the bot in the context of a
  // lease, it represents a command to the bot to apply the setting. Keys may
  // be repeated during reporting but not in a lease.
  repeated Config configs = 3;
}

// Any device, including computers, phones, accelerators (e.g. GPUs), etc. All
// names must be unique.
message Device {
  // A device property; see `properties` for more information.
  message Property {
    // For general information on keys, see the documentation to `Worker`.
    //
    // The current set of standard keys are:
    //
    // * os: a human-readable description of the OS. Examples include `linux`,
    // `ubuntu` and `ubuntu 14.04` (note that a bot may advertise itself as more
    // than one). This will be replaced in the future by more well-structured
    // keys and values to represent OS variants.
    //
    // * has-docker: "true" if the bot has Docker installed. This will be
    // replaced in the future by a more structured message for Docker support.
    string key = 1;

    // The property's value.
    string value = 2;
  }

  // The handle can be thought of as the "name" of the device, and must be
  // unique within a Worker.
  //
  // In the Status context, the handle should be some human-understandable name,
  // perhaps corresponding to a label physically written on the device to make
  // it easy to locate. In the Request context, the name should be the
  // *logical* name expected by the task. The bot is responsible for mapping the
  // logical name expected by the task to a machine-readable name that the task
  // can actually use, such as a USB address. The method by which this mapping
  // is communicated to the task is not covered in this API.
  string handle = 1;

  // Properties of this device that don't change based on the tasks that are
  // running on it, e.g. OS, CPU architecture, etc.
  //
  // Keys may be repeated, and have the following interpretation:
  //
  //    * Status context: the device can support *any* the listed values. For
  //    example, an "ISA" property might include "x86", "x86-64" and "sse4".
  //
  //    * Request context: the device *must* support *all* of the listed values.
  repeated Property properties = 2;
}
add third_party proto 6 years ago			`// Copyright 2018 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.`

			`syntax = "proto3";`

			`package google.devtools.remoteworkers.v1test2;`

			`option csharp_namespace = "Google.DevTools.RemoteWorkers.V1Test2";`
			`option go_package = "google.golang.org/genproto/googleapis/devtools/remoteworkers/v1test2;remoteworkers";`
			`option java_multiple_files = true;`
			`option java_outer_classname = "RemoteWorkersWorker";`
			`option java_package = "com.google.devtools.remoteworkers.v1test2";`
			`option objc_class_prefix = "RW";`

			`// Describes a worker, which is a list of one or more devices and the`
			`// connections between them. A device could be a computer, a phone, or even an`
			`// accelerator like a GPU; it's up to the farm administrator to decide how to`
			`// model their farm. For example, if a farm only has one type of GPU, the GPU`
			`// could be modelled as a "has_gpu" property on its host computer; if it has`
			`// many subproperties itself, it might be better to model it as a separate`
			`// device.`
			`//`
			`// The first device in the worker is the "primary device" - that is, the device`
			`// running a bot and which is responsible for actually executing commands. All`
			`// other devices are considered to be attached devices, and must be controllable`
			`// by the primary device.`
			`//`
			`// This message (and all its submessages) can be used in two contexts:`
			`//`
			`// * Status: sent by the bot to report the current capabilities of the device to`
			`// allow reservation matching.`
			`// * Request: sent by a client to request a device with certain capabilities in`
			`// a reservation.`
			`//`
			`// Several of the fields in this message have different semantics depending on`
			`// which of which of these contexts it is used. These semantics are described`
			`// below.`
			`//`
			`// Several messages in Worker and its submessages have the concept of keys and`
			// values, such as `Worker.Property` and `Device.Property`. All keys are simple
			`// strings, but certain keys are "standard" keys and should be broadly supported`
			`// across farms and implementations; these are listed below each relevant`
			`// message. Bot implementations or farm admins may add additional keys, but`
			`// these SHOULD all begin with an underscore so they do not conflict with`
			`// standard keys that may be added in the future.`
			`//`
			`// Keys are not context sensitive.`
			`//`
			`// See http://goo.gl/NurY8g for more information on the Worker message.`
			`message Worker {`
			// A global property; see the `properties` field for more information.
			`message Property {`
			// For general information on keys, see the documentation to `Worker`.
			`//`
			`// The current set of standard keys are:`
			`//`
			`// * pool: different workers can be reserved for different purposes. For`
			`// example, an admin might want to segregate long-running integration tests`
			`// from short-running unit tests, so unit tests will always get some`
			`// throughput. To support this, the server can assign different values for`
			// `pool` (such as "itest" and "utest") to different workers, and then have
			`// jobs request workers from those pools.`
			`string key = 1;`

			`// The property's value.`
			`string value = 2;`
			`}`

			// A configuration request or report; see the `configs` field for more
			`// information.`
			`message Config {`
			// For general information on keys, see the documentation to `Worker`.
			`//`
			`// The current set of standard keys are:`
			`//`
			`// * DockerImage: the image of the container. When being reported by the`
			`// bot, the empty value should always be included if the bot is able to pull`
			`// its own images; the bot may optionally also report images that are`
			`// present in its cache. When being requested in a lease, the value is the`
			// URI of the image (eg `gcr.io/user/image@sha256:hash`).
			`string key = 1;`

			`// The configuration's value.`
			`string value = 2;`
			`}`

			// A list of devices; the first device is the primary device. See the `Device`
			`// message for more information.`
			`repeated Device devices = 1;`

			`// A worker may contain "global" properties. For example, certain machines`
			`// might be reserved for certain types of jobs, like short-running compilation`
			`// versus long-running integration tests. This property is known as a "pool"`
			`// and is not related to any one device within the worker; rather, it applies`
			`// to the worker as a whole.`
			`//`
			`// The behaviour of repeated keys is identical to that of Device.Property.`
			`repeated Property properties = 2;`

			`// Bots can be configured in certain ways when accepting leases. For example,`
			`// many leases are executed inside a Docker container. To support this, the`
			`// bot needs to be able to report that it has Docker installed (and knows how`
			`// to execute something inside a container), and the task submitter needs to`
			`// specify which image should be used to start the container. Similarly, a`
			`// lease may be able to run as one of several users on the worker; in such`
			`// cases, the bot needs to report what users are available, and the submitter`
			`// needs to choose one.`
			`//`
			`// Therefore, when this message is reported by the bot to the service, each`
			`// key represents a type of configuration that the bot knows how to set,`
			`// while each value represents a legal value for that configuration (the`
			`// empty string is interpretted as a wildcard, such as for Docker images).`
			`// When this message is sent by the server to the bot in the context of a`
			`// lease, it represents a command to the bot to apply the setting. Keys may`
			`// be repeated during reporting but not in a lease.`
			`repeated Config configs = 3;`
			`}`

			`// Any device, including computers, phones, accelerators (e.g. GPUs), etc. All`
			`// names must be unique.`
			`message Device {`
			// A device property; see `properties` for more information.
			`message Property {`
			// For general information on keys, see the documentation to `Worker`.
			`//`
			`// The current set of standard keys are:`
			`//`
			// * os: a human-readable description of the OS. Examples include `linux`,
			// `ubuntu` and `ubuntu 14.04` (note that a bot may advertise itself as more
			`// than one). This will be replaced in the future by more well-structured`
			`// keys and values to represent OS variants.`
			`//`
			`// * has-docker: "true" if the bot has Docker installed. This will be`
			`// replaced in the future by a more structured message for Docker support.`
			`string key = 1;`

			`// The property's value.`
			`string value = 2;`
			`}`

			`// The handle can be thought of as the "name" of the device, and must be`
			`// unique within a Worker.`
			`//`
			`// In the Status context, the handle should be some human-understandable name,`
			`// perhaps corresponding to a label physically written on the device to make`
			`// it easy to locate. In the Request context, the name should be the`
			`// logical name expected by the task. The bot is responsible for mapping the`
			`// logical name expected by the task to a machine-readable name that the task`
			`// can actually use, such as a USB address. The method by which this mapping`
			`// is communicated to the task is not covered in this API.`
			`string handle = 1;`

			`// Properties of this device that don't change based on the tasks that are`
			`// running on it, e.g. OS, CPU architecture, etc.`
			`//`
			`// Keys may be repeated, and have the following interpretation:`
			`//`
			`// * Status context: the device can support any the listed values. For`
			`// example, an "ISA" property might include "x86", "x86-64" and "sse4".`
			`//`
			`// * Request context: the device must support all of the listed values.`
			`repeated Property properties = 2;`
			`}`