/oref0

oref0: The open reference implementation of the OpenAPS reference design.

Primary LanguageJavaScriptMIT LicenseMIT

oref0

Javascript plugins for openaps

Installing

Install tools globally:

sudo npm install -g oref0

Usage

oref0

The open reference implementation of the reference design.

  Usage:
oref0 <cmd>

 ______   ______   ______  ______ 0
/ |  | \ | |  | \ | |     | |      
| |  | | | |__| | | |---- | |----  
\_|__|_/ |_|  \_\ |_|____ |_|      

Valid commands:
  oref0 env - print information about environment.
  oref0 pebble
  oref0 ifttt-notify
  oref0 get-profile
  oref0 calculate-iob
  oref0 determine-basal
  oref0 help - this message

mm-stick

Tools to work with carelink stick.

Usage: mm-stick [{scan,diagnose,help},...]

    scan      - Print the local location of a plugged in stick.
    diagnose  - Run python -m decocare.stick $(python -m decocare.scan)
    warmup    - Runs scan and diagnose with no output.
                Exits 0 on success, non-zero exit code
                otherwise.
    insert    - Insert usbserial kernel module.
    remove    - Remove usbserial kernel module.
    udev-info - Print udev information about the stick.
    list-usb  - List usb information about the stick.
    reset-usb - Reset entire usb stack. WARNING, be careful.
    fail      - Always return a failing exit code.
    help      - This message.

mm-format-ns-glucose

Reformat medtronic's glucose records into format Nightscout prefers. The result is suitable for sending to Nightscout's entries api, eg, using ns-upload-entries.

mm-format-ns-glucose <input> <output>


mm-format-ns-pump-history

Reformat medtronic's pump history records into format Nightscout prefers. The result is suitable for sending to Nightscout's entries api, eg, using ns-upload-entries.

mm-format-ns-pump-history <input> <output>

ns-upload-entries

Upload to Nightscout entries.

This requires two environment variables to be set: Set API_SECRET to the hashed version of your API_SECRET. Set NIGHTSCOUT_HOST to your Nightscout base URL. These can be defined in crontab, or in a simple file, eg /etc/default/openaps.

API_SECRET="..." NIGHTSCOUT_HOST=localhost:1337 ns-upload-entries <input> <output>

Contributing

See the CONTRIBUTING document

Get the source

git clone git://github.com/openaps/oref0.git
git checkout dev
git checkout -b wip/my-enhancement-fix-or-proposal

This command installs new versions from source: sudo npm install -g

Alternately, sudo npm link or sudo npm link oref0 should allow you to edit from your checkout while using your checkout globally on your system.

Fork on github.

Fork the repository on github. Add your personal "remote" with something like this:

git remote rename origin author
git remote add origin git@github.com:<github-user>/oref0.git
git push origin -u wip/my-enhancement-fix-or-proposal

Then target our dev branch for a pull request/peer review.

openaps

This is part of a series of tools to support a self-driven DIY implementation based on the OpenAPS reference design. The tools may be categorized as monitor (collecting data about environment, and operational status of devices and/or aggregating as much data as is relevant into one place), predict (make predictions about what should happen next), or control (enacting changes, and feeding more data back into the monitor).

By proceeding using these tools or any piece within, you agree to the copyright (see LICENSE.txt for more information) and release any contributors from liability.

Note: This is intended to be a set of tools to support a self-driven DIY implementation and any person choosing to use these tools is solely responsible for testing and implement these tools independently or together as a system. The [DIY part of OpenAPS is important] (http://bit.ly/1NBbZtO). While formal training or experience as an engineer or a developer is not required, what is required is a growth mindset to learn what are essentially "building blocks" to implement an OpenAPS instance. This is not a "set and forget" system; it requires diligent and consistent testing and monitoring to ensure each piece of the system is monitoring, predicting, and performing as desired. The performance and quality of your system lies solely with you.