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nmt-wizard

nmt-wizard is a Docker-based task launcher and monitor on a variety of remote platforms (called services) such as SSH servers, Torque clusters, or EC2 instances. Each service is providing access to compute resources. The launcher is meant to be used with nmt-wizard-docker images, but without a strong dependency.

The project provides:

  • a RESTful server that queues incoming requests in a Redis database;
  • a client to the REST server providing a simple textual visualization interface;
  • workers that launch and manage tasks on the requested service and updates their status.

Once launched, the tasks are sending progress and updated information to the launcher.

Services configuration

Service configurations are provided by the system administrators. A service is declared and configured by a JSON file in the config directory. The REST server and worker automatically discover existing configuration files, provided that their filename ends with .json. A special default.json file defines parameters shared by all services.

The configuration file has the following structure:

{
    "name": "my-service",  // The short name the user will select.
    "description": "My service",  // Display name of the service.
    "module": "services.XXX",  // Name of the Python module managing the service.
    "variables": { // Non-Service specific configurations.
        "key1": [ "value1", "value2" ],
        ...
    },
    "docker": {
        "registries": {  // Docker registries: ECS, Docker Hub.
            "aws": {
                "type": "aws",
                "credentials": {
                    "AWS_ACCESS_KEY_ID": "XXXXX",
                    "AWS_SECRET_ACCESS_KEY": "XXXXX"
                },
                "uri": "XXXXX.dkr.ecr.eu-west-3.amazonaws.com",
                "region": "eu-west-3"
            },
            "dockerhub": {
                "type": "dockerhub",
                "uri": "",
                "default_for": [ "nmtwizard" ]
            },
            "mydockerprivate": {
                "type": "dockerprivate",
                "uri": "",
                "credentials": {
                    "password": "XXXXX",
                    "username": "XXXXX"
                },
                "default_for": [ "systran" ]
            }
        },
        "mount": [  // Volumes to mount when running the Docker image.
            "/home/devling/corpus:/root/corpus",
            "/home/devling/models:/root/models"
        ],
        "envvar": {  // Environment variables to set when running the Docker image.
            "key1": "value1",
            "specific": {
                "image": {
                    "key": "value"
                }
            }
        },
        "path": "" // if provided, will be used to select default path for docker command on remote service.
    },
    "skey1": "svalue1",  // Non-Service specific configurations.
    ...,
    "disabled": [01],  // Boolean field to disable/enable the service.
    "storages": {  // Storage configuration as described in single-training-docker.
    },
    "cpu_allocation": { // define default number of cpu allocated for the different tasks
          "gpu_task": 2,
          "preprocess_task": 4,
          "trans_task": 4,
          "buildvocab_task": 4,
          "release_task": 2
    },
    "callback_url": "http://LAUNCHER_URL",
    "callback_interval": 60,
    "ttl_policy" : [ // define the time to live policy for completed task in the database
        { 
            "pattern": {
                "status": "stopped",
                "message": "dependency_error"
            },
            "ttl": 10
        }
    ]
}

where variables is a list of possible options for the service. The structure of some of these options is specific to each service. Common options are described below.

Template files are provided in config/templates and can be used as a basis for configuring services.

Note:

  • it is possible to add a field "default_ms":true to one storage definition. If no model storage parameter (-ms) is provided to the docker, this storage will be used by default.
  • to avoid exposing credentials in the task logs, annotate with "[[private:xxxx]]" all the values that are sensitive, these values will be masked as "[[private]]" in training logs.
  • specific environment variables can be passed to specific image (for instance credentials) - use "specific" dict for that.
  • ttl_policy defines the time to leave (ttl) for stopped tasks in the redis database. Each pattern defines a config to match on the stopped task, if all conditions applies, the corresponding ttl is applied.

Server configuration

  • The REST server and workers are configured by settings.ini. The default configuration for all of the pools is stored in default.json. This file is read by the launcher when the launcher is started and stored in REDIS database together with a timestamp. Whenever this file is changed, the corresponding timestamp must be modified - and this modification will be detected by all workers that are then restarting.

Using the launcher

Worker

The first component to launch is the worker that should always be running. It handles:

  • the launch of tasks
  • the termination of tasks
  • the update of active resources
cd server && python worker.py configfile.json

One worker has to be launched for every service pool. To monitor each worker and allow to be relaunched in case it stops (either because of an issue/exception in the code, or simply for updating its parameter) - the worker should be launcher using runworker.py as following:

python runworker.py service_name

runworker.py and worker.py are requesting following:

  • a configurations directory in which the different configurations for the service will be copied
  • a logs directory in which worker logs will be saved
  • an active configuration file for the service in the current directory with name service_name.json. Not that a service name should be composed of letters, digits, - and _ characters only
  • the settings.ini file
  • the logger configuration file logging.conf

To administer multiple services: create a main directory with above-mentioned structure, and launch as many workers as pool to create.

Server

The server has the following HTTP routes:

METHOD ROUTE PARAM Description
GET status Check service availability
GET service/list Returns available services
GET service/describe/{service_id} Returns user selectable options for a specified service
GET service/check/{service_id} Checks availability of a given service with provided user options
POST task/launch Launches a task on a given service with provided user options
GET task/status/{task_id} Checks the status of a task
GET task/list prefix Returns the list of tasks in the database
GET task/terminate/{task_id} Terminates a task, the process and/or instance associated with a task
DELETE task/{task_id} Delete a task from the database
PUT task/beat/{task_id} Provides a beat back to the launcher to notify the task activity and announce the next beat to expect
GET
POST
task/file/{task_id} Gets or set a file associated to a task
POST task/stat/{task_id} post json statistics for a task
GET
PATCH
POST
task/log/{task_id} Gets, appends or sets the log associated to a task
GET service/listconfig/{service} List all configurations associated to a given service
GET service/selectconfig/{service}/{configname} Select a named configuration associated to a given service
POST service/addconfig/{service}/{configname} config Register a new named configuration for a given service
GET service/delconfig/{service}/{configname} Delete a new named configuration for a given service
GET service/restart/{service} Restart a service
GET service/disable/{service}/{resource} message Disable a resource for a given service
GET service/enable/{service}/{resource} Enable a disabled resource for a given service

The server uses Flask. See the Flask documentation to deploy it for production. For development purpose, it can be run as follows (single thread):

export LAUNCHER_CONFIG=${PWD}/settings.ini
FLASK_APP=main.py flask run [--host=0.0.0.0]

Here are the available routes. Also see the next section

GET /service/list

Lists available services.

  • Arguments: None
  • Input: None
  • Output: A dictionary of service name to description (JSON), their usage and capacity
  • Example:
$ curl -X GET 'http://127.0.0.1:5000/service/list'
{
    "demogpu02": {
        "capacity": 1,
        "name": "OVH-hosted extra training server",
        "queued": 2,
        "usage": 1
    },
    "localhost": {
        "capacity": 2,
        "name": "test local environment",
        "queued": 0,
        "usage": 0
    },
    "ec2": {
        "capacity": 15,
        "name": "Instance on AWS EC2",
        "queued": 0,
        "usage": 7
    }
}

GET /service/describe/<service_name>

Returns possible options for a service as a JSON Form. This can be used to easily implement a GUI to select options for the target service.

  • Arguments:
    • service_name: the service name
  • Input: None
  • Output: A JSON form (or an empty dictionary if the service has no possible options).
  • Example:
$ curl -X GET 'http://127.0.0.1:5000/service/describe/ec2'
{
  "launchTemplate": {
    "description": "The name of the EC2 launch template to use",
    "enum": [
      "SingleTrainingDev"
    ],
    "title": "EC2 Launch Template",
    "type": "string"
  }
}

GET /service/check/<service_name>

Checks if the service is available and can be used with the provided options. In case of success, it returns information about the service and the corresponding resource.

  • Arguments:
    • service_name: the service name
  • Input: The selected service options (see service/describe/<service_name>) (JSON)
  • Output:
    • On invalid option, a HTTP 400 code with the error message (JSON)
    • On server error, a HTTP 500 code with the error message (JSON)
    • On success, an optional message with details about the service (JSON)
  • Example:
$ curl -X GET http://127.0.0.1:5000/service/check/ec2
{
  "message": "missing launchTemplateName option",
}
$ curl -X GET -d '{"launchTemplateName": "InvalidLaunchTemplate"}' \
    -H "Content-Type: application/json" 'http://127.0.0.1:5000/service/check/ec2'
{
  "message": "An error occurred (InvalidLaunchTemplateId.NotFound) when calling the RunInstances operation: LaunchTemplate null not found"
}
$ curl -X GET -d '{"launchTemplateName": "SingleTrainingDev"}' \
    -H "Content-Type: application/json" 'http://127.0.0.1:5000/service/check/ec2'
{
  "message": ""
}

POST /task/launch/<service_name>

Launches a Docker-based task on the specified service. In case of success, it returns a task identifier that can be used to monitor the task using the status or terminate routes.

  • Arguments:
    • service_name: the service name
  • Input: the input is either a simple json body or a multi-part request with content field containing JSON task configuration. The other fields of the multi-part requests are binary files to be uploaded on the remote service at task-launch time.

The task configuration (JSON)

$ cat body.json
{
  "docker": {
    "registry": "dockerhub"
    "image": "opennmt/opennmt-lua",
    "tag": "latest",
    "command": [
      ...
    ]
  },
  "wait_after_launch": 2,
  "trainer_id": "OpenNMT",
  "options": {
    "launchTemplateName": "SingleTrainingDev"
  },
  "name": 'TaskName', // optional
  "iterations": 4,    // number of training iterations, default 1
  "priority": 100     // task priority
}

docker.tag and wait_after_launch are optional.

  • Output:
    • On invalid task configuration, a HTTP 400 code with an error message (JSON)
    • On success, a task identifier (string)
  • Example:
$ curl -X POST -d @invalid_body.json -H "Content-Type: application/json" \
    http://127.0.0.1:5000/task/launch/ec2
{
  "message": "missing trainer_id field"
}
$ curl -X POST -d @body.json -H "Content-Type: application/json" \
    'http://127.0.0.1:5000/task/launch/ec2'
"SSJS_enyy_HelloWorld_01_0f32d3f6b84ab91d4"
$ curl -X POST -d content=@body.json -F input.txt=@input.txt 'http://127.0.0.1:5000/task/launch/ec2'
"SSJS_xxyy_GreenCat_01_085a8:60c06412a2b74"

Notes:

  • the task identifier is structured, when possible, and contains the following 5 fields separated by _:
    • TID - trainer identifier provided through client application
    • XXYY - the language pair, found in the configuration file or from parent model
    • NAME - model name: generated randomly, or set manually, or inherited from parent
    • NN - number showing the number of iterations
    • UUID or UUID:PRID, unique identifier (possibly suffixed by initial of parent UUID)
  • if a iterations value is passed to the launch service, several tasks will be created each one starting with previous generated one. The tasks are executed iteratively. It is also possible to use a non-yet generated model as a starting point to launch another task: in that case, the task will start only upon successful termination of the parent task.

GET /task/list/<pattern>

Lists available services.

  • Arguments:
    • pattern: pattern for the tasks to match. See KEYS pattern for syntax.
  • Input: None
  • Output: A list of tasks matching the pattern with minimal information (task_id, queued_time, status, service, message, pid)
  • Example:
$ curl -X GET 'http://127.0.0.1:5000/task/list/jean_*'
[
  {
    "message": "completed", 
    "queued_time": "1519652594.957615", 
    "status": "stopped",
    "service": "ec2",
    "task_id": "jean_5af69495-3304-4118-bd6c-37d0e6"
  }, 
  {
    "message": "error", 
    "queued_time": "1519652097.672299", 
    "status": "stopped",
    "service": "mysshgpu", 
    "task_id": "jean_99b822bc-51ac-4049-ba39-980541"
  }
]

DELETE /task/<pattern>

Lists available services.

  • Arguments:
    • pattern: pattern for the tasks to match - only stopped tasks will be deleted. See KEYS pattern for syntax.
  • Input: None
  • Output: list of deleted tasks
  • Example:
$ curl -X DELETE 'http://127.0.0.1:5000/task/jean_*'
[
  "jean_5af69495-3304-4118-bd6c-37d0e6",
  "jean_99b822bc-51ac-4049-ba39-980541"
]

GET /task/status/<task_id>

Returns the status of a task.

  • Arguments:
    • task_id: the task ID returned by /task/launch/<service_name>
  • Input: None
  • Output:
    • On invalid task_id, a HTTP 404 code dictionary with an error message (JSON)
    • On success, a dictionary with the task status (JSON)
  • Example:
curl -X GET http://127.0.0.1:5000/task/status/unknwon-task-id
{
  "message": "task unknwon-task-id unknown"
}
curl -X GET http://127.0.0.1:5000/task/status/130d4400-9aad-4654-b124-d258cbe4b1e3
{
  "allocated_time": "1519148201.9924579",
  "content": "{\"docker\": {\"command\": [], \"registry\": \"dockerhub\", \"image\": \"opennmt/opennmt-lua\", \"tag\": \"latest\"}, \"service\": \"ec2\", \"wait_after_launch\": 2, \"trainer_id\": \"OpenNMT\", \"options\": {\"launchTemplateName\": \"SingleTrainingDev\"}}", 
  "message": "unknown registry",
  "queued_time": "1519148144.483396",
  "resource": "SingleTrainingDev",
  "service": "ec2",
  "status": "stopped",
  "stopped_time": "1519148201.9977396",
  "ttl": null
}

(Here the task was quickly stopped due to an incorrect Docker registry.)

The main fields are:

  • status: (timestamp for each status can be found in <status>_time)
    • queued,
    • allocated,
    • running,
    • terminating,
    • stopped (additional information can be found in message field);
  • service: name of the service the task is running on;
  • resource: name of the resource the task is using;
  • content: the actual task definition;
  • update_time: if the task is sending beat requests;
  • ttl if a time to live was passed in the beat request.

GET /task/terminate/<task_id>(?phase=status)

Terminates a task. If the task is already stopped, it does nothing. Otherwise, it changes the status of the task to terminating (actual termination is asynchronous) and returns a success message.

  • Arguments:
    • task_id: the task identifier returned by /task/launch/<service_name>
    • (optionnal) phase: indicate if the termination command is corresponding to an error or natural completion (completed)
  • Input: None
  • Output:
    • On invalid task_id, a HTTP 404 code with an error message (JSON)
    • On success, a HTTP 200 code with a message (JSON)
curl -X GET http://127.0.0.1:5000/task/terminate/130d4400-9aad-4654-b124-d258cbe4b1e3
{
  "message": "130d4400-9aad-4654-b124-d258cbe4b1e3 already stopped"
}

DELETE /task/<task_id>

Deletes a task. If the task is not stopped, it does nothing.

  • Arguments:
    • task_id: the task identifier returned by /task/launch/<service_name>
  • Input: None
  • Output:
    • On invalid task_id, a HTTP 404 code with an error message (JSON)
    • On success, a HTTP 200 code with a message (JSON)

PUT /task/beat/<task_id>(?duration=XXX&container_id=CID)

Notifies a beat back to the launcher. Tasks should invoke this route wih a specific interval to notify that they are still alive and working. This makes it easier for the launcher to identify and handle dead tasks.

  • Arguments
    • task_id: the task identifier returned by /task/launch/<service_name>
    • (optional) duration: if no beat is received for this task after this duration the task is assumed to be dead
    • (optional) container_id: the ID of the Docker container
  • Input: None
  • Output:
    • On invalid duration, a HTTP 400 code with an error message (JSON)
    • On invalid task_id, a HTTP 404 code with an error message (JSON)
    • On success, a HTTP 200 code

POST /task/file/<task_id>/<filename>

Registers a file for a task - typically used for log, or posting translation output using http storage.

  • Arguments
    • task_id: the task identifier returned by /task/launch/<service_name>
    • filename: a filename
  • Input: None
  • Output:
    • On invalid task_id, a HTTP 404 code with an error message (JSON)
    • On success, a HTTP 200 code

GET /task/file/<task_id>/<filename>

Retrieves file attached to a task

  • Arguments
    • task_id: the task identifier returned by /task/launch/<service_name>
    • filename: a filename
  • Input: None
  • Output:
    • On invalid task_id, a HTTP 404 code with an error message (JSON)
    • On missing files, a HTTP 404 code with an error message (JSON)
    • On success, the actual file

GET/POST/PATCH /task/log/<task_id>

Gets/Posts/Append log attached to a task. Logs are saved in a special log:<task_id> key in the redis table allowing for fast implementation of append operation.

Launcher

The launcher is a simple client to the REST server. See:

python client/launcher.py -h

Notes:

  • The address of the launcher REST service is provided either by the environment variable LAUNCHER_URL or the command line parameter -u URL.
  • By default, the request response are formatted in text-table for better readibility, the option -j displays raw JSON response
  • The trainer_id field to the launch command is either coming from --trainer_id option or using LAUNCHER_TID environment variable. Also, by default, the same environment variable is used as a default value of the prefix parameter of the lt command.
  • By default, the command parameter are expected as inline values, but can also be obtained from a file, in that case, the corresponding option will take the value @FILEPATH.
  • File identified as local files, are transfered to the launcher using TMP_DIR on the remote server

Development

Redis database

The Redis database contains the following task fields:

Field Type Description
active:<service> list Active tasks for a given service
beat:<task_id> int Specific ttl-key for a given task
lock:<resource...,task:...> value Temporary lock on a resource or task
queued:<service> list Tasks waiting for a resource
gpu_resource:<service>:<resourceid> dict Tasks using GPU on this resource, key is (pseudo) GPU-id
cpu_resource:<service>:<resourceid> list Tasks using CPU (only) on this resource
reserved:<service>:<resourceid> value id of a task reserving a specific resource
ncpus:<service>:<resourceid> value number of cpus available for a specific resource
busy:<service>:<resourceid> string expirable timestamp on a resource indicating that the resource has been seen unavailable
task:<taskid> dict
  • status: [queued, allocated, allocating, running, terminating, stopped]
  • job: json of jobid (if status>=waiting)
  • service:the name of the service
  • resource: the name of the resource - or auto before allocating one message: error message (if any), ‘completed’ if successfully finished
  • container_id: container in which the task run send back by docker notifier
  • (queued
files:<task_id> dict files associated to a task, "log" is generated when training is complete
queue:<task_id> str expirable timestamp on the task - is used to regularily check status
work:<service> list Tasks being processed on a given service

and the following admin fields - all prefixed by admin::

Field Type Description
admin:storages JSON Description of storages block as defined in default.json
admin:service:<service> dict
  • beat_time: last beat time of the corresponding worker
  • worker_pid: pid of the corresponding worker
  • launch_time: time of the worker launch
  • def: pickle of the corresponding service class definition
admin:resources:<service> list list of the attached resources