|Version 4 (modified by 9 years ago) ( diff ),|
Blueprint for extending the message parsing framework
Table of Contents
The inbound message parsing framework was developed during GSoC 2012. See the 2012 GSoC message parser project.
- The framework is highly extensible and the parsing workflows are customisable per deployment in the templates. A nice example of this is the NLTK synonym matching filter developed during the H4D2 hackathon ( See https://github.com/flavour/eden/blob/master/private/templates/default/parser.py#L67).
- The system supports multiple communication channels i.e Emails, SMS and Twitter.But, certainly a number of incoming feeds (so not just SMS/Tweets, but also RSS feeds, etc.) can be integrated with the system.So, plugging in the RSS feeds would be one useful step.
- Things that we want to extract and are essential requirements for the framework are discussed below.
Reliability/trustworthiness of the message sources/senders
- Currently, this is done manually through the CRUD interface with the msg_sender data model. However , implementing a UI which prioritises message parsing for starred senders is also really useful.
- Is this something that we can actually do something with?
- Its important to manage the content coming from various message sources and separate the ones that are actionable and contains useful information from the rest of them.
- An OpenGeoSMS parser already exists in the default parser template(also available as an API within s3msg.py) which is able to parse lat-lon information of the location from OpenGeoSMS formatted messages. But , it would be great if it could be linked with the database (look the location up from the database).
Parsing bounced messages
- This is very important for IFRC Africa who send out bulk emails to their volunteer base from Eden & want to know which mails are mis-typed / users moved / etc