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208 lines
5.8 KiB
Markdown
208 lines
5.8 KiB
Markdown
# BITE - A Basic/IoT/Example
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Playing with IoT
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[![Build Status](https://travis-ci.com/daniviga/bite.svg?branch=master)](https://travis-ci.com/daniviga/bite)
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![AGPLv3](./docs/.badges/agpl3.svg)
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![Python 3.9](./docs/.badges/python.svg)
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![MQTT](./docs/.badges/mqtt.svg)
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![Moby](./docs/.badges/moby.svg)
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![docker-compose 3.7+](./docs/.badges/docker-compose.svg)
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This project is for educational purposes only. It does not implement any
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authentication and/or encryption protocol, so it is not suitable for real
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production.
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![Application Schema](./docs/application_chart.png)
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### Future implementations
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- Broker HA via [VerneMQ clustering](https://docs.vernemq.com/clustering/introduction)
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- Stream analytics via [Apache Spark](https://spark.apache.org/)
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## Installation
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### Requirements
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- `moby-engine` or `podman-docker` (recommended)
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- `docker-compose`
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The project is compatible with Docker for Windows (using Linux executors),
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but it is advised to directly use a minimal Linux VM instead
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(via the preferred hypervisor).
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### Podman
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`podman`, with `podman-docker` is the recommended way to run BITE, in rootless mode.
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```bash
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systemctl start --user podman.socket
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export DOCKER_HOST=unix://run/user/$UID/podman/podman.sock
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```
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### Application stack
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The application stack is composed by the following components:
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- [Django](https://www.djangoproject.com/) with
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[Django REST framework](https://www.django-rest-framework.org/)
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web application (running via `gunicorn` in production mode)
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- `mqtt-to-db` custom daemon to dump telemetry into the timeseries database
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- telemetry payload is stored as json object (via PostgreSQL JSON data type)
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- [Timescale](https://www.timescale.com/) DB,
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a [PostgreSQL](https://www.postgresql.org/) database with a timeseries extension
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- [Mosquitto](https://mosquitto.org/) MQTT broker (see alternatives below)
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- [Nginx](http://nginx.org/) as ingress for HTTP (see alternative below)
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- [Chrony](https://chrony.tuxfamily.org/) as NTP server
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(with optional `MD5` encryption)
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## Deployment
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The `$CUSTOM_DOCKER_IP` environment variable can be used to set a custom
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IP address to bind ports. Default is `0.0.0.0`; `127.0.0.1` is a
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safe configuration (see https://github.com/docker/compose/issues/2999).
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### Development, using image code
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```bash
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docker-compose -f docker/docker-compose.yml build
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docker-compose -f docker/docker-compose.yml up -d [--scale {bite,mqtt-to-db)=N]
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```
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It exposes:
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- `http://localhost:80` (HTTP and MQTT over Websockets)
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- `tcp://localhost:1883` (MQTT)
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- `udp://localhost:123` (NTP)
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Django runs with `DEBUG = True` and `SKIP_WHITELIST = True`
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### Development with direct access to services and autoreload
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```bash
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docker-compose -f docker/docker-compose.yml -f docker-compose.dev.yml up -d [--scale {bite,mqtt-to-db)=N]
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```
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It exposes:
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- `http://localhost:80` (HTTP and MQTT over Websockets)
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- `http://localhost:8080` (Django's `runserver`)
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- `tcp://localhost:1883` (MQTT)
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- `tcp://localhost:9001` (MQTT over Websockets)
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- `udp://localhost:123` (NTP)
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- `tcp://localhost:5432` (PostgreSQL/Timescale)
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Django runs with `DEBUG = True` and `SKIP_WHITELIST = True`
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### Production (kind of...)
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```bash
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docker-compose -f docker/docker-compose.yml -f docker-compose.prod.yml up -d [--scale {bite,mqtt-to-db)=N]
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```
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It exposes:
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- `http://localhost:80` (HTTP and MQTT over Websockets)
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- `tcp://localhost:1883` (MQTT)
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- `udp://localhost:123` (NTP)
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Django runs with `DEBUG = False` and `SKIP_WHITELIST = False`
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## Extra features
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The project provides multiple modules that can be combined with the fore-mentioned configurations.
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### Traefik
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To use [Traefik](https://containo.us/traefik/) instead of Nginx use:
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```bash
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docker-compose -f docker/docker-compose.yml up -f docker/ingress/docker-compose.traefik.yml -d
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```
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### VerneMQ
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A ~8x memory usage can be expected compared to Mosquitto.
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To use [VerneMQ](https://vernemq.com/) instead of Mosquitto run:
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```bash
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docker-compose -f docker/docker-compose.yml up -f docker/mqtt/docker-compose.vernemq.yml -d
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```
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### RabbitMQ
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RabbitMQ does provide AMQP protocol too, but ingestion on the application side
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is not implemented yet.
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A ~10x memory usage can be expected compared to Mosquitto.
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To use [RabbitMQ](https://www.rabbitmq.com/) (with the MQTT plugin enabled)
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instead of Mosquitto run:
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```bash
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docker-compose -f docker/docker-compose.yml up -f docker/mqtt/docker-compose.rabbitmq.yml -d
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```
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## EDGE gateway simulation (via dind)
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An EDGE gateway, with containers as modules, may be simulated via dind
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(docker-in-docker).
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### Start the EDGE
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```bash
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docker-compose -f docker/docker-compose.yml up -f docker/edge/docker-compose.edge.yml -d
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```
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### Run the modules inside the EDGE
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```bash
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DOCKER_HOST='127.0.0.1:22375' docker-compose -f docker-compose.modules.yml up -d [--scale {device-http,device-ws,device-mqtt}=N]
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```
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## Arduino
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A simple Arduino UNO sketch is provided in the `arduino/tempLightSensor` folder.
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The sketch reads temperature and light from sensors.
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```c
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/* ... */
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void loop(void) {
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const int postDelay = TELEMETRY_DELAY * 1000;
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unsigned int tempReading = analogRead(A0);
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unsigned int photocellReading = analogRead(A1);
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float tempVoltage = tempReading * AREF_VOLTAGE / 1024.0;
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float tempC = (tempVoltage - 0.5) * 100 ;
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if (NTPValid) {
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telemetry["clock"] = timeClient.getEpochTime();
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} else {
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telemetry["clock"] = NULL; // converted into 0
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}
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payload["light"] = photocellReading;
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temp["celsius"] = tempC;
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temp["raw"] = tempReading;
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temp["volts"] = tempVoltage;
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#if USE_MQTT
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publishData(config, telemetry);
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#else
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postData(config, telemetryURL, telemetry);
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#endif
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/* ... */
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```
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[Read more ...](./arduino/README.md)
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## Testing
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Application tests are part of the Django suite:
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```bash
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python manage.py test
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```
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End-to-End tests are performed via Travis-CI. See [`.travis.yml`](.travis.yml)
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for further explanations.
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