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Anatomy of the ModelOp Runtime

At a high level, the ModelOp Runtime consists of 3 different components: the stream, the jet, and the manifold. Streams deal with the I/O, the jet is a wrapper around the model code itself, and the manifold is responsible for stitching everything together.

Streams

The runtime supports a variety of different streams, including REST, Kafka, File, S3, and ODBC. Input and output streams are typically configured independently, the main exception here being when we want a roundtrip REST call to return with the results from synchronously processed POSTed input.

Jet

The jet consists of two main pieces. There is some common engine code that handles communication with the underlying model runner, and then there is the language specific model runner code that is dynamically started/stopped by the jet. The engine code and the language specific model runner code communicate via a Unix domain socket.

Manifold

The manifold is responsible for managing the lifecycles of the various streams and the underlying jet that is running the model code.

Configuration Options

The engine is configured via several mechanisms. The preferred mechanism is via spring configuration through spring cloud config server. There are also a number of (deprecated) environment variables that affect the behavior, as well as an application.json file that can be configured with credentials the engine may need when interacting with external services.

Environment Variables

Spring Config

Deprecated Environment Variable

Example Values

Description

modelop.runtime.log-level

MODELOP_LOG_LEVEL

debug, info (default), warning, error

Log level of the engine

modelop.gateway-url

MODELOP_GATEWAY_LOCATION

http://gateway:8090 gateway:8090

The host:port of the MOC gateway

spring.application.name

MODELOP_ENGINE_NAME

engine-3

The name of the runtime that will be used to identify it in the registry

spring.cloud.config.uri

http://sccs:1234

The uri of the spring cloud config server from whence to acquire configuration (MUST BE SET LOCALLY)

spring.profiles.active

profile1,profile2,profile3

The spring profiles that contain the desired configuration (MUST BE SET LOCALLY)

modelop.runtime.group

MODELOP_RUNTIME_GROUP

modelop

The group name that owns the runtime.

modelop.runtime.initial-tags

MODELOP_RUNTIME_INITIAL_TAGS

“tag1, tag2”

A comma separated list of runtime tags that MOC should apply to the engine when it is first discovered.

server.port

MODELOP_API_PORT

8003 (default)

The port that the runtime will listen on

modelop.runtime.roundtrip-default-timeout

MODELOP_ROUNDTRIP_DEFAULT_TIMEOUT

5000 (default)

The default timeout (in milliseconds) for roundtrip REST calls

eureka.instance.ip-address

MODELOP_ENGINE_IP

0.0.0.0

The IP address the engine should use to identify itself to the registry

eureka.instance.hostname

MODELOP_ENGINE_HOSTNAME

engine-3

The hostname the engine should use to identify itself to the registry

eureka.instance.instanceId

The instance id to register with eureka (NOT TYPICALLY SET)

eureka.instance.health-check-url

{hostname:port}/1/health

Health check url (NOT TYPICALLY SET)

eureka.instance.home-page-url

{hostname:port}/

Root api url (NOT TYPICALLY SET)

eureka.instance.status-page-url

{hostname:port}/1/platforms

Status check url (NOT TYPICALLY SET)

server.ssl.enabled

MODELOP_ENGINE_USE_HTTPS

true, false (default)

Indicates whether the engine uses SSL

eureka.client.service-url.defaultZone

MODELOP_EUREKA_HOSTNAME and MODELOP_EUREKA_PORT

http://registry:8761

url indicating the registry’s hostname and port

MODELOP_EUREKA_HOSTNAME

registry

The hostname of the registry

MODELOP_EUREKA_PORT

8761 (default)

The port on which the registry is listening

modelop.runtime.log-location

MODELOP_RUNTIME_LOG_LOCATION

/tmp/logs

The directory where engine logs are stored

modelop.runtime.log-file-max-size

MODELOP_RUNTIME_LOG_FILE_MAX_SIZE

2097152

Max engine log file size

logstash.location

MODELOP_LOGSTASH_LOCATION

logstash:8093

The host:port where logstash messages should be sent. NOTE: the port is a UDP port, not a TCP port.

modelop.runtime.config-file

MODELOP_RUNTIME_CONFIG_FILE

/config/application.json (default)

The location of the application.json config file

reporting-service.websocket.url

MODELOP_REPORTING_SERVICE_MESSAGES_PATH

http://gateway:8090/reporting-service/messages

The url where internal messages should be sent

MODELOP_REPORTING_SERVICE_MESSAGES_PATH

/reporting-service/messages (default)

The path on the configured gateway to send internal messages

modelop.provider.token-uri

MODELOP_OAUTH_SERVER_URL

https://host.of.oauth.server/as/token.oauth2

The URI of the oauth server (if present)

modelop.runtime.client-id

MODELOP_OAUTH_CLIENT_ID

moc-runtime

The OAuth client id (populates the ‘client_id’ header)

modelop.runtime.client-secret

MODELOP_OAUTH_CLIENT_SECRET

The OAuth client secret (populates the ‘client_secret’) header)

modelop.runtime.scope

MODELOP_OAUTH_SCOPE

The OAuth client scope (populates the ‘scope’ header)

modelop.runtime.default-listener-idle-timeout

MODELOP_ENGINE_DEFAULT_LISTENER_IDLE_TIMEOUT

60000 (default), infinity

Number of milliseconds (or ‘infinity’) to wait before timing out incoming REST calls on the default control port (the one specified by MODELOP_API_PORT)

modelop.runtime.roundtrip-listener-idle-timeout

MODELOP_ENGINE_ROUNDTRIP_LISTENER_IDLE_TIMEOUT

60000 (default), infinity

Just like MODELOP_ENGINE_DEFAULT_LISTENER_IDLE_TIMEOUT, but for the roundtrip REST listener

modelop.runtime.allow-dynamic-library-installation

true (default)

Whether or not to attempt to install libraries identified by assets with a role of REQUIRED_LIBRARIES

modelop.runtime.max-input-file-size-bytes

MODELOP_RUNTIME_MAX_INPUT_FILE_SIZE_BYTES

1048576000

The max size of a file being used as an input to a batch job

modelop.runtime.log-input-to-stomp

false (default)

Whether or not to log input records to the STOMP queue

modelop.runtime.log-output-to-stomp

false (default)

Whether or not to log output records to the STOMP queue

modelop.runtime.odbc-enable-bulk-inserts

MODELOP_ODBC_ENABLE_BULK_INSERTS

true (default)

Whether or not to convert individual insert commands into bulk insert commands

modelop.runtime.s3-credentials.stored-credentials

    - path: ""
      authenticationType: "BASIC"
      accessKeyId: "my_key"
      secretAccessKey: "my_secret"

A list of credentials

modelop.runtime.s3-credentials.eks-service-account-credentials

    - path: "s3.us-east-2.amazonaws.com"
      roleArnEnvVariable: "TEST_ROLE_ARN"
      webIdentityTokenFileEnvVariable: "TEST_TOKEN_FILE"
      sessionPrefix: "testprefixABC"

A list of credentials

modelop.runtime.s3-https-proxy

MODELOP_S3_HTTPS_PROXY

proxy_host:port

The https proxy to use when talking to s3

modelop.runtime.s3-http-proxy

MODELOP_S3_HTTP_PROXY

proxy_host:port

The http proxy to use when talking to s3

modelop.runtime.sts-https-proxy

MODELOP_AWS_STS_HTTPS_PROXY

proxy_host:port

The https proxy to use when talking to sts

modelop.runtime.sts-http-proxy

MODELOP_AWS_STS_HTTP_PROXY

proxy_host:port

The http proxy to use when talking to sts

modelop.runtime.sql-credentials

  - host: "host1"
    username: "username1"
    password: "password1"

A list of credentials

modelop.runtime.monitoring-package

false (default)

Set to ‘true’ to enable the monitoring package

MODELOP_RUNTIME_PIP3_FREEZE

Set to ‘true’ to run pip freeze before and after installing python requirements attached to a model

MODELOP_RUNTIME_PIP3_UPGRADE

Set to ‘true’ to attempt to upgrade pip before installing python requirements attached to a model

modelop.runtime.in-production

false (default)

Informs the initial value of the Engine inProduction field

modelop.runtime.environment-name

Informs the initial value of the Engine environmentName field

modelop.runtime.pre-3.0-startup

false (default)

Set to ‘true’ to use the older/deprecated mechanism for retrieving a deployed model upon runtime startup. Newer runtimes, by default, use an API on Model Manage that doesn’t exist on pre 3.0 versions.

moc-builder

When leveraging moc-builder to generate a MOC environment, your environment’s config/config.json file can be updated with the desired values for the aforementioned environment variables. A subsequent compose command will use the values in the config.json when building kubernetes manifests.

application.json

{
  "sql-credentials": [
    {
      "host": "sql-server-abc",
      "username": "my_user",
      "password": "my_password"
    },
    {
      "host": "sql-other-server-def",
      "username": {"from_file": "/config/the-username"},
      "password": {"from_env": "THE_ENV_VAR_WHERE_MY_PASSWORD_IS"}
    }
  ],
  "s3-credentials": {
    "storedCredentials": [
      {
        "path": "",
        "authenticationType": "BASIC",
        "accessKeyId" : "my_key",
        "secretAccessKey" : "my_secret"
      }
    ],
    "eksServiceAccountCredentials": [
      {
        "path": "s3.us-east-2.amazonaws.com",
        "roleArnEnvVariable" : "TEST_ROLE_ARN",
        "webIdentityTokenFileEnvVariable" : "TEST_TOKEN_FILE",
        "sessionPrefix" : "testprefixABC"
      }
    ]
  }
}

The ‘sql-credentials’ section allows username and password credentials to be associated with specific sql database hosts. Credentials can be hardcoded directly in the config file, located in a file, or located in an environment variable.

The ‘s3-credentials’ section allows credentials to be hardcoded directly (under storedCredentials) or determined dynamically using the AWS STS service. The credentials are chosen based on the longest matching path.

API’s

The following are a list of commonly used runtime APIs. The provided curl commands assume the runtime is running at localhost:8003. When communicating with a runtime through a MOC gateway, the localhost:8003 will likely look like this: gateway:8090/engine-name, where engine-name is the name the runtime used when it registered with the registry via the env variable: MODELOP_ENGINE_NAME.

Reset the engine

Reset the engine, causing the current model to be unloaded, and the various endpoints reset. This will also cause the current batch job to complete immediately, and move on to the next batch job.

curl -X POST http://localhost:8003/2/engine/reset

Load a deployed model

Load the deployed model contained in the ‘my-deployable-model.json’ file.

curl -X PUT --data-binary "@my-deployable-model.json" -H "Content-Type: application/json" http://localhost:8003/api/deployedModels/{UUID}

There is an optional wait_for_init query parameter for the /api/deployedModels/{UUID} endpoint. The default value of true means to not return from the REST call until the model’s init function has completed successfully. A value of false means to return immediately once the model and the specified endpoints have been loaded, but before the init function returns.

Load a batch job

Load a batch job into the runtime.

curl -X POST --data-binary "@my-batch-job.json" -H "Content-Type: application/json" http://localhost:8003/api/modelBatchJobs/{UUID}

Delete a batch job

Delete the batch job with the specified UUID.

curl -X DELETE http://localhost:8003/api/modelBatchJobs/{UUID}

List all batch jobs

Return all the batch jobs known to the runtime.

curl http://localhost:8003/api/modelBatchJobs/

List a specific batch job

Return the batch job with the specified UUID.

curl http://localhost:8003/api/modelBatchJobs/{UUID}

Score data via the REST endpoint

Submit the contents of input.json to the runtime. Note that in this example, the timeout has been set to 100 seconds, overriding the default set by the MODELOP_ROUNDTRIP_DEFAULT_TIMEOUT environment variable.

curl -X POST --data-binary "@input.json" -H "Content-Type: application/json" http://localhost:8003/api/roundtrip/0/1?timeout=100000

Get current engine status

Retrieve information about the currently running model, attached streams, and overall state of the engine.

curl http://localhost:8003/1/job/status

Sample response:

{
  "streams": [
    {
      "slot": 0,
      "name": "rest",
      "eof": false,
      "descriptor": {
        "Transport": {
          "secured": false,
          "roundtrip": true,
          "port": 9003,
          "Type": "REST",
          "Mode": "simple"
        },
        "Schema": "$inherit",
        "Name": "rest",
        "Encoding": "JSON",
        "Description": "Application Restful Endpoint"
      }
    },
    {
      "slot": 1,
      "name": "rest_out",
      "eof": false,
      "descriptor": {
        "Transport": {
          "Type": "synthetic"
        },
        "Schema": "$inherit",
        "Encoding": "JSON"
      }
    }
  ],
  "state": "running",
  "model": {
    "source": "[model source code...]",
    "snapshots": "none",
    "slots": [
      {
        "slot": 0,
        "schema": null,
        "recordsets": false,
        "action": "action"
      },
      {
        "slot": 1,
        "schema": null,
        "recordsets": false,
        "action": null
      }
    ],
    "name": "test_model.py",
    "mtype": "python3",
    "attachments": []
  },
  "jets": [
    {
      "sandbox": "123472369",
      "pid": 55,
      "busy": false
    }
  ],
  "initialTags": [],
  "group": "modelop"
}

Model Definition Injection

Both the python and R runners support an optional parameter for the init function. Normally, the init function is defined with 0 arguments, but if a single argument is defined, the runner will populate that argument with a ‘model definition’ object. In python, this object is a dictionary. In R, this object is a list. In both cases, the object has two keys. There will be a ‘rawJson’ key that contains the unparsed json string that contains either the job or the deployedModel object in its serialized form. There will also be either a ‘job’ or a ‘deployedModel' key, the value of which will either be a deserialized job or deployedModel object. In python, the deserialized job or deployedModel will be the result of calling json.loads() on the contents of the ‘rawJson’ field. In R, it will be the result of calling the jsonlite fromJSON function.

Python:

def begin(model_def):
  print(model_def['rawJson'])
  print(model_def['job'])

R:

begin <- function(model_def) {
  print(model_def$rawJson)
  print(model_def$deployedModel)
}

To see an example of the above, go to https://github.com/merhi-odg/model_definition_test.

Adding Endpoints to the ModelOp Runtime

To add endpoints to the ModelOp Runtime:

  1. Open the ModelOp Runtime to which you want to add endpoints

2. Select the “Create Endpoint” button for either the input or output endpoints

3. Click the button on the right to add either an Input endpoint or Output endpoint. Choose either REST or Kafka:

REST Endpoints

  1. Add a Name, optional Description, Encoding type, and optional port. Select “Save Endpoint”

2. Repeat for the Output Endpoint, as required.

Kafka Endpoints

  1. Kafka endpoints require several fields, as detailed in the screenshot and table below.

Field

Type

Description

Example

Name

string

A user-supplied name for the endpoint

“MyKafkaEndpoint1”

Description

string

A user-supplied description for the endpoint

“Kafka Endpoint for consumer transactions”

Encoding

drop-down

The encoding used for serialization/deserialization of the kafka messages

json

BootstrapServers

string

The name and port of the Kafka bootstrap servers.

"kafka1:9002"

Group (Consumer Group)

(optional)

string

To provide a horizontally scalable solution, a Consumer Group can be used to allow load balancing of requests across multiple ModelOp runtimes. By defining a Consumer Group, ModelOp Center ensures that only one ModelOp runtime in the Consumer Group services a given message.

"fastscore-1"

Principal (optional)

string

An authenticated user in a secure cluster

"kafka/kafka@REALM"

Topic

string

The Kafka topic to consume or push to, depending on if input vs. output endpoint

"MyKafkaTopic"

Keyfile (optional)

string

The location of the keytab file containing pairs of Kerberos principals and encrypted keys

"/fastscore.keytab"

2. Repeat for the Output Endpoint, as required.

Adding Tags to a ModelOp Runtime

  1. Open the ModelOp Runtime to which you want to add tag(s).

  2. In the “tags” section begin typing the tag that you would like to add:

3. Once done typing, either hit enter on your keyboard or click your mouse in any other location on the screen.

4. Select the “Update Engine” button in the top right to save changes.

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