balena-labs-projects / connector

Auto-configured data connector block based on Telegraf

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balena-blocks/connector

balena

Intelligently connect data sources with data sinks in block-based balena applications. The connector block is a docker image that runs telegraf and code to find other services running on the device, and intelligently connect them.

Features

  • Automatically finds HTTP data sources on the device
  • Automatically finds supported data storage services on the device
  • Configurable HTTP listener
  • Configurable external HTTP data source(s)
  • Configurable HTTP output
  • Device metric support (CPU and Memory usage)

Usage

docker-compose file

To use this image, create a container in your docker-compose.yml file as shown below:

version: '2.1'

services:
  connector:
    image: bh.cr/balenalabs/connector-<arch>
    restart: always
    labels:
      io.balena.features.balena-api: '1' # necessary to discover services
      io.balena.features.supervisor-api: 1  # necessary to discover services in local mode
    privileged: true # necessary to change container hostname
    ports:
      - "8080" # only necessary if using ExternalHttpListener (see below)

You can also set your docker-compose.yml to build a dockerfile.template file, and use the build variable %%BALENA_ARCH%% so that the correct image is automatically built for your device type (see supported devices):

docker-compose.yml:

version: '2.1'

services:
  connector:
    build: ./
    restart: always
    labels:
      io.balena.features.balena-api: '1' # necessary to discover services
      io.balena.features.supervisor-api: 1  # necessary to discover services in local mode
    privileged: true # necessary to change container hostname
    ports:
      - "8080" # only necessary if using ExternalHttpListener (see below)

dockerfile.template

FROM bh.cr/balenalabs/connector-%%BALENA_ARCH%%

Supported devices

The connector block has been tested to work on the following devices:

Device Type Status
Raspberry Pi 3b+
Raspberry Pi 4
Intel NUC
Generic AMD64

Data Sources

Internal HTTP

This type of data source runs it's own HTTP server and provides data readings as json strings. The service must expose port 7575 like this:

  sensor:
    build: ./sensor
    expose:
      - '7575'

The connector block will find this service and configure telegraf to periodically pull from it via HTTP.

The default timeout for retrieving data is 2 seconds. You can change this by setting INTERNAL_HTTP_TIMEOUT to the number of seconds (e.g. 4).

MQTT

By adding an MQTT broker to an application, you can push data into the connector block. Add your broker such as:

mqtt:
    image: arm32v6/eclipse-mosquitto
    ports:
      - "1883:1883"
    restart: always

As long as you call the service mqtt the connector block will automatically find it and configure telegraf to pull data from the broker. Ensure the data is formatted as json strings. Telegraf will be configured to only pull from the sensors topic, so any other data you may wish to put onto the MQTT broker will not be stored (e.g. control or signalling messages).

Example code:

client = mqtt.Client("1")
client.connect("localhost")

while(True):
    value = GetReading() # code omitted for brevity
    client.publish("sensors",json.dumps(value))
    time.sleep(5)

String fields

By default any string fields recieved from MQTT are ignored. For any fields you want to be brought in you will need to specify them in a variable called MQTT_INPUT_STRINGS_FIELDS as a comma-separated list. See the section HTTP section below for a worked example.

External HTTP Pull

This type of source is pulled from a provide via the internet. It is enabled by adding an environment variable to the connector service called EXTERNAL_HTTP_PULL_URL and setting it to the URL of the source:

alt text

Setting the vaiable EXTERNAL_HTTP_PULL_NAME (as above) allows you to rename the resulting data source, otherwise it will appear in your data sinks (see below) as inputs.http.

Headers

Some HTTP APIs that you might like to use with EXTERNAL_HTTP_PULL will require authorization. For that reason you can pass additional parameters using the format EXTERNAL_HTTP_PULL_HEADER_<header-name>. For example: EXTERNAL_HTTP_PULL_HEADER_Authorization could be set to Basic: YWxhZGRpbjpvcGVuc2VzYW1l.

String fields

By default any string fields recieved from a HTTP API are ignored. For any fields you want to be brought in you will need to specify them in a variable called EXTERNAL_HTTP_PULL_STRINGS_FIELDS as a comma-separated list. Here's a worked example:

Say my weather HTTP API brings in the following JSON:

{
   "timezone":3600,
   "id":2643743,
   "name":"London",
   "cod":200
    "sys":{
      "type":1,
      "id":1414,
      "country":"GB",
      "sunrise":1597726289,
      "sunset":1597778246
   },
   "weather":[
      {
         "id":802,
         "main":"Clouds",
         "description":"scattered clouds",
         "icon":"03d"
      }
   ]  
}

In that example, to bring in the "name" field so that "London" appears in my data, I need to add name to my EXTERNAL_HTTP_PULL_STRINGS_FIELDS variable.
However, because the "country" element is nested within the "sys" element, I need to using some notation to specify that JSON path, like this sys_country.
Notice also that the "weather" element has an array of nested elements, including a description of the weather. To get that description I'll need to specify the path (like above), but I also need to specify the index of the array element, in this case "0". So I'll add weather_0_description to my environment variable. All together that will look like this:

alt text

External HTTP PUSH

This type of data source pushes to your device. It is configured by enabling a built-in HTTP listener with the environment variable ENABLE_EXTERNAL_HTTP_LISTENER set to 1:

alt text

Again, the resulting data source can be given a custom name (as above) by setting the EXTERNAL_HTTP_LISTENER_NAME variable.

Additionally, you sometimes need to specify a json_query path - which effectively limits the portion of the JSON document being parsed. This path can be specified with the EXTERNAL_HTTP_LISTENER_JSON_QUERY variable.

Device Metrics

This data source provides the in-built telegraf metrics for the CPU and Memory usage of the device. It is enabled by setting the environment variable ENABLE_DEVICE_METRICS to 1.

This data source is useful for testing connector or simply to allow device resource monitoring as part of your application.

Data Sinks

InfluxDB

Adding an influx timeseries database to your application will cause the connector block to configure telegraf to push data into it. You must name the service influxdb for it to be automatically discovered, such as:

influxdb:
    image: influxdb@sha256:73f876e0c3bd02900f829d4884f53fdfffd7098dd572406ba549eed955bf821f
    container_name: influxdb
    restart: always

By default the database used will be called balena, however you can set a custom database name by setting the INFLUXDB_DB environment variable.

HTTP Data Sink

This data sink will send the data to a URL specified with the environment variable HTTP_PUSH_URL.

Azure Monitor

This data sink pushes data into the Azure Monitor service, using an Azure Application Insights account. In order to use this sink, login (or create) to your Microsoft Azure account, create an Application Insights resource and copy the instrumentation key. Guide here: https://docs.microsoft.com/en-us/azure/azure-monitor/app/create-new-resource

Place this key into an environment variable on your balena device called APPLICATION_INSIGHTS_KEY.

You can now view the data by pointing Azure Monitor to your Application Insights account and charting the correct metrics:

alt text

Customisation

Configuring the pull interval

You can change the pull interval for internal and external HTTP endpoints by setting the PULL_INTERVAL env variable. The default value is 10s. For a list of valid inputs, refer to the telegraf documentation.

Extend image configuration

By default the connector block creates a telegraf configuration file from the combination of discovered services and device environment variables. However for custom configurations you can overload the CMD directive, as such:

dockerfile.template

FROM bh.cr/balenalabs/connector-%%BALENA_ARCH%%

COPY customTelegraf.conf .

CMD ["--config customTelegraf.conf"]

This will stop the auto-wiring code from running and cause telegraf to be run purely from the supplied configuration file.

Troubleshooting

You can turn on telegraf debugging by setting the environment variable DEBUG to 1. This turns on debug logging to the console.

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Auto-configured data connector block based on Telegraf


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