Skip to main content

No project description provided

Project description

dtn7zero

This is a DTN7 RFC9171 compliant python implementation (work-in-progress) with a NetworkZero like API.

The current features are:

  • a full bundle protocol agent (without fragment, CRC, and status-report generation support -> todo)
  • a minimal TCP convergence layer
  • a dtn7-rs convergence layer, using the HTTP/REST interface
  • automatic local-network node-discovery via ipnd module
  • a standalone 'external' endpoint (which connects to a dtn7-rs via the HTTP/REST) interface
  • a simplified NetworkZero like API to easily get started
  • full MicroPython support (tested on an ESP32-GENERIC)
  • (currently uses epidemic routing and in-memory storage managing)
  • (with extendability for new convergence layer adapters, routing algorithms, and storage managers)

Getting Started

To use dtn7zero in your CPython environment, simply install it via pip (or pip3 on linux):

$ pip install --upgrade dtn7zero

The most simple example on what you can do:

import time

from dtn7zero import setup, start_background_update_thread

node_endpoint = setup("dtn://node1/", print)

start_background_update_thread()

node_endpoint.send(b'hello world', "dtn://node1/")

time.sleep(1)

Further examples for the 'simple' API can be found under ./examples in the GitHub repository.

For a deeper dive into the underlying concepts and the fully fletched dtn implementation, take a look at the dtn7zero.api module implementation and the tests under ./tests.

MicroPython Installation Guide

This whole project was tested on an ESP32 (GENERIC) and this installation guide is tailored for the ESP32. If you plan to use another microcontroller you might need to do adjustments (most certainly the MicroPython installation, and the MPY_MARCH in esp-deployment.py).

Important note for linux: it may be that mpremote assumes another USB device with higher priority than the ESP32. In that case all mpremote commands (especially inside esp-deployment.py) will fail as no communication is possible. Check all USB devices mpremote considers in priority order with mpremote devs.

First Time MicroPython Installation For ESP32 (GENERIC)

  1. download the newest firmware
  2. install the esp flash tool: pip install esptool
  3. connect your ESP32 via USB and start a terminal at the location of the downloaded firmware
  4. start the following command (with the correct USB port), then hold boot until it starts erasing:
    esptool --chip esp32 --port /dev/ttyUSB0 erase_flash
  5. start the following command (with the correct USB port and firmware name), then hold boot until it starts flashing:
    esptool --chip esp32 --port /dev/ttyUSB0 --baud 460800 write_flash -z 0x1000 esp32-20220618-v1.19.1.bin
  6. done, you may now connect to it via: mpremote (installation via pip: pip install mpremote)

Update To New MicroPython Version

  1. download the newest firmware
  2. start the following command (with the correct USB port and firmware name), then hold boot until it starts flashing:
    esptool --chip esp32 --port /dev/ttyUSB0 --baud 460800 write_flash -z 0x1000 esp32-20220618-v1.19.1.bin
  3. done

First Time dtn7zero Deployment

  1. make sure you check out the repository and the submodules (especially py-dtn7)
  2. install the mpremote tool: pip install mpremote
  3. install the mpy-cross compiler tool: pip install mpy-cross
  4. populate wlan.json with an appropriate hostname and at least one ssid -> password mapping
  5. check your connection to the ESP32 with: mpremote
  6. copy wlan.json to your ESP32: mpremote fs cp wlan.json :wlan.json
  7. copy boot.py to your ESP32: mpremote fs cp boot.py :boot.py
  8. deploy the dtn7zero and dependencies onto the ESP32 (this can take a while): python scripts/esp-deployment.py
  9. done

Continuous dtn7zero Deployment

  1. check your connection to the ESP32 with: mpremote
  2. deploy the changes of dtn7zero and dependencies onto the ESP32 (this can take a while): python scripts/esp-deployment.py
  3. done

First dtn7zero Functionality Check On MicroPython

  1. you may check that wlan is connecting correctly (connect via mpremote and press enable for a soft reset)
  2. you may also check that you can import dtn7zero (connect via mpremote and import dtn7zero)
  3. you can also check that everything works (run the test script mpremote run examples/local_ping_echo.py)

Additional MicroPython Tips & Tricks

The mpremote tool is normally interrupted by using ctrl+c. A special case is the REPL (simply call mpremote), which can be exited by using ctrl+~ (tested on windows).

If you start a script on MicroPython (mpremote run ...) and disconnect the console (mpremote -> ctrl+c) then the script keeps running.

If you must access the REPL via mpremote, but a script is blocking, then call mpremote and press EN (enable) on the ESP32 for a soft-reset. Press ctrl+c a few times to interrupt the boot.py or main.py script execution. The session state is stored, so any subsequent mpremote call will start at REPL as long as no power disconnect is performed.

You can deploy a script as main.py on MicroPython to be run every time the microcontroller gets power.
You can also remove the script. MicroPython will only execute the script if it is present.

$ mpremote fs cp examples/remote_echo_callback.py :main.py
$ mpremote fs rm :main.py

Regarding boot.py, it is used for user-specific setup code and this framework uses a generic boot script that adjusts the ESP32's frequency and connects to a Wi-Fi network (blocking until success). MicroPython will create a dummy boot.py if none is present. MicroPython will not create a dummy main.py is none is present. MicroPython will first execute the boot.py and then the main.py if it is present.

Development Information

Development Mode

You can install this project locally to directly reflect code changes in your environment. Simply run this in the project root folder (requires at least pip v21.1):

$ pip install --editable .

Build

To build this project yourself you need the python build tool, as well as setuptools:

$ pip install --upgrade setuptools
$ pip install --upgrade build

Then you can simply run this command to build the project:

$ python -m build

Publish

To publish this project you will probably update the version in pyproject.toml, build the project, and then use twine to upload the build:

$ pip install --upgrade twine
$ python -m twine upload dist/*

Useful Links

the DTN7 website: https://dtn7.github.io
dtn7 go implementation: https://github.com/dtn7/dtn7-go
dtn7 rust implementation: https://github.com/dtn7/dtn7-rs
dtn7 python bundle implementation and dtn7rs-rest-api access: https://github.com/teschmitt/py-dtn7

Bundle Protocol 7 RFC: https://datatracker.ietf.org/doc/html/rfc9171
Bundle Protocol Security (BPSec) RFC: https://datatracker.ietf.org/doc/html/rfc9172
Default Security Contexts for BPSec RFC: https://datatracker.ietf.org/doc/html/rfc9173
TCP Convergence-Layer Protocol Version 4 RFC: https://datatracker.ietf.org/doc/html/rfc9174
Minimal TCP Convergence-Layer Protocol RFC (draft): https://datatracker.ietf.org/doc/html/draft-ietf-dtn-mtcpcl-01
UDP Convergence Layer RFC (draft): https://datatracker.ietf.org/doc/html/draft-sipos-dtn-udpcl-01

Outdated Standards:
DTN URI Scheme: https://www.ietf.org/archive/id/draft-irtf-dtnrg-dtn-uri-scheme-00.html

Further Research

This is some information gathered about future mesh extensions:

  1. ESP-Mesh(ESP-WIFI-Mesh)

    • a special mesh standard which is based of Wi-Fi and uses the special AP_STA mode
    • no micropython implementation known
  2. ESP-NOW

    • a special p2p mode, which is based of Wi-Fi and can send data to neighbouring devices via MAC addressing
    • no mesh protocol, but broadcast is possible, looks promising to build an esp32-dtn-mesh
    • non-official, but tested micropython library available, as well as builds with the current firmware
  3. Alternative: AP_STA mode for simultaneous AP and STA without explicit ESP-MESH usage

Open End Topics / Known Issues

  • fragment, CRC, status-report generation support
  • dtn7rs-rest-cla and in-memory storage together use too much RAM for MicroPython (therefore the dtn7rs-rest-cla is disabled in the simple API)
  • public repository
  • public documentation (currently all information must be gathered from doc-strings and examples)

Project details


Download files

Download the file for your platform. If you're not sure which to choose, learn more about installing packages.

Source Distribution

dtn7zero-0.0.3.tar.gz (52.2 kB view details)

Uploaded Source

Built Distribution

dtn7zero-0.0.3-py3-none-any.whl (43.9 kB view details)

Uploaded Python 3

File details

Details for the file dtn7zero-0.0.3.tar.gz.

File metadata

  • Download URL: dtn7zero-0.0.3.tar.gz
  • Upload date:
  • Size: 52.2 kB
  • Tags: Source
  • Uploaded using Trusted Publishing? No
  • Uploaded via: twine/4.0.2 CPython/3.7.6

File hashes

Hashes for dtn7zero-0.0.3.tar.gz
Algorithm Hash digest
SHA256 789b5380c71ac45df01b33fd80bc4797513c368b33ffb4ff5edab62532008211
MD5 93aa2a5234cba71cd3741b3157be7b29
BLAKE2b-256 9dd5ca1d97d4eed7011d953c1b0c3c9b831b2be4e45c4a4fd020e00e3ea169de

See more details on using hashes here.

File details

Details for the file dtn7zero-0.0.3-py3-none-any.whl.

File metadata

  • Download URL: dtn7zero-0.0.3-py3-none-any.whl
  • Upload date:
  • Size: 43.9 kB
  • Tags: Python 3
  • Uploaded using Trusted Publishing? No
  • Uploaded via: twine/4.0.2 CPython/3.7.6

File hashes

Hashes for dtn7zero-0.0.3-py3-none-any.whl
Algorithm Hash digest
SHA256 6575e06197d9b1d15a9dd20c22fc11152dc03139d4de78960c56487445fbe1ca
MD5 0bb5e8f5287432ac37f8b8fcad3de866
BLAKE2b-256 6146540c721541222020b8636b67d5d4cdcf72b055b395ee855a9e188c938c04

See more details on using hashes here.

Supported by

AWS AWS Cloud computing and Security Sponsor Datadog Datadog Monitoring Fastly Fastly CDN Google Google Download Analytics Microsoft Microsoft PSF Sponsor Pingdom Pingdom Monitoring Sentry Sentry Error logging StatusPage StatusPage Status page