Generated with `pip freeze`. This is so I can pin the versions of
packages that I've tested with as well as to allow Travis to test
whether the project runs on various Pythons and to let GitHub in-
form me of vulnerabilities in some libraries.
This allows us to access records using their column name. I didn't
notice that this was not working, as I had been testing the wrong
server!
See: http://initd.org/psycopg/docs/extras.html
I've decided to use PostgreSQL instead of SQLite because the UPSERT
support is available in versions of PostgreSQL we're alread running,
whereas SQLite needs a VERY new (3.24.0) version that is not avail-
able on any recent long-term support Ubuntu releases.
I was very surprised how easy and fast and robust SQLite was, but in
the end I realized that its UPSERT support only came in version 3.24
and both Ubuntu 16.04 and 18.04 have older versions than that! I did
manage to install libsqlite3-0 from Ubuntu 18.04 cosmic on my xenial
host, but that feels dirty.
PostgreSQL has support for UPSERT since 9.5, not to mention the same
nice LIMIT and OFFSET clauses.
This route exposes all item statistics and uses the limit and offset
parameters to control paging throug the result set. The logic here
is extremely easy thanks to the brilliant LIMIT and OFFSET features
of SQLite (of course the SQL query sorts the results by some unique
field to ensure the order is already the same).
The indexer.py script was updated to use a single table because I
learned about UPSERT. This simplifies the database schema and the
Python logic, and makes it easier to page all views and downloads
at once without complicated JOIN queries.
I was using two separate tables for item views and downloads without
realizing that SQLite didn't support FULL OUTER JOIN, which would be
needed to get views and downloads for a given item in a single query.
Instead I can use one table with a default value of 0 for both views
and downloads, and then use "UPSERT" to populate the statistics. This
is a newish SQL concept that allows you to attempt an INSERT and then
specify an action to perform in case of conflict. This works well in
SQLite and actually simplifies my Python logic greatly!
Note that the "excluded" table qualifier is a special keyword that
allows you to reference the value that would have been inserted.
See: https://www.sqlite.org/lang_UPSERT.html
It is much more efficient to cache view and download statistics in
a database than to query Solr on demand (not to mention that it is
not possible to page easily with facets in Solr). I decided to use
SQLite because it is fast, native in Python 3, and doesn't require
any extra steps during provisioning (assuming permissions are ok).
Falcon's get_param_as_int() is really nice in that it gets a query
parameter and does validation for you, but I really wanted to have
cleaner URIs for API routes so I am now using a route URI template
with a field converter. This is cleaner, but means that parameters
not matching the template will return HTTP 404.
See: https://falcon.readthedocs.io/en/stable/api/routing.html#field-converters
According to dspace-api's Constants.java, items are type 2 and they
use a unique ID field of `id` instead of `owningItem`. There is no
need to check the bundleName for item types.
Also, I decided to use the main Solr query for item IDs because the
filter query parameter (fq) stores results in the filterCache and
can be quite expensive with cores storing tens of millions of docu-
ments (we currently have 149 million docs!). It makes sense to use
the filter query parameter to reduce the result set returned by the
main Solr query.