Mano is a simple Python library that lets you write applications that interact with the Beiwe Research Platform. You can request lists of studies, users, device settings, download files (with or without encryption) and more! (actually, not much more)
- Requirements
- Mac OS X Notes
- Installation
- Initial setup
- API for keyring access
- API for accessing study information
- API for downloading data
This software works with Python 2.6+ and 3 and has been tested on various flavors of macOS, Linux, and Linux Subsystem on Windows 10.
I've encountered old versions of OpenSSL on some macOS distrubitions that cause issues interacting with Beiwe over HTTPS. The simplest solution I found was to install one of the Miniconda Python distributions which bundles a more recent version of OpenSSL (download link).
The simplest way to install mano
is with pip
pip install mano
To interact with Beiwe and download files you will need your Beiwe Research
Platform url
, username
, password
, access key
, and secret key
in a
JSON file. Don't worry, we're going to eventually encrypt this file
{
"beiwe.onnela": {
"URL": "...",
"USERNAME": "...",
"PASSWORD": "...",
"ACCESS_KEY": "...",
"SECRET_KEY": "..."
}
}
Note that you can also use environment variables
BEIWE_URL
,BEIWE_USERNAME
,BEIWE_PASSWORD
,BEIWE_ACCESS_KEY
, andBEIWE_SECRET_KEY
to store these variables and load your keyring usingmano.keyring(None)
. You won't be able to use an environment variable for storing study-specific secrets (described next). But depending on your situation you may not even need study-specific secrets.
If you intend to use mano
to encrypt certain downloaded data stream files at
rest, you will want to add study-specific passphrases (which you're responsible
for generating) to a special SECRETS
section
{
"beiwe.onnela": {
"URL": "...",
"USERNAME": "...",
"PASSWORD": "...",
"ACCESS_KEY": "...",
"SECRET_KEY": "...",
"SECRETS": {
"FAS Buckner": "...",
}
}
}
I'm guessing that you don't want this file sitting around in plain text, so for
now this entire JSON blob must be passphrase protected using the crypt.py
utility from the cryptease
library which should be automatically installed along
with the mano
package
$ crypt.py --encrypt ~/.nrg-keyring.json --output-file ~/.nrg-keyring.enc
I'll leave it up to the reader to decide where to produce the encrypted version of this file, but I would highly recommend discarding the unencrypted version.
Before making any API calls, you need to read in your keyring file. The first parameter should be the name of the keyring section as shown above
import mano
Keyring = mano.keyring('beiwe.onnela')
You can pass keyring passphrase as an argument to this function, or it will look
for your keyring passphrase within a special NRG_KEYRING_PASS
environment
variable, or it will fallback on prompting you for the passphrase. This last
strategy could cause non-interactive invocations to hang, so watch out.
With your Keyring
loaded, you can now access information about your studies,
users (a.k.a. participants or subjects), and device settings using simple
functions defined within the mano
module
for study in mano.studies(Keyring):
print(study)
_, study_id = study # get the last printed study id
for user_id in mano.users(Keyring, study_id):
print(user_id)
for setting in mano.device_settings(Keyring, study_id):
print(setting)
With your Keyring
loaded, you can also download data from your Beiwe server
and extract it to your filesystem using the mano.sync
module. And while we're
at it, let's turn on more verbose logging so we can actually see what's
happening
import logging
import mano.sync as msync
logging.basicConfig(level=logging.INFO)
output_folder = '/tmp/beiwe-data'
zf = msync.download(Keyring, study_id, user_id, data_streams=['identifiers'])
zf.extractall(output_folder)
Notice that I passed data_streams=['identifiers']
to msync.download
. By
default, that function will request all data for all data streams if you
omit that parameter. Check out the backfill section for more
information.
The msync.download
function will hand back a standard Python
zipfile.ZipFile
object which you can extract to the filesystem as shown
above. Easy.
You can also pass the ZipFile
object to msync.save
if you wish to encrypt
data stream files at rest
lock_streams = ['gps', 'audio_recordings']
zf = msync.download(Keyring, study_id, user_id)
passphrase = Keyring['SECRETS']['FAS Buckner']
msync.save(Keyring, zf, user_id, output_folder, lock=lock_streams, passphrase=passphrase)
By default msync.download
will attempt to download all of the data for the
specified user_id
which could end up being prohibitively large either for
you or the Beiwe server. For this reason, the msync.download
function exposes
parameters for data_streams
, time_start
, and time_end
. Using these
parameters you can download only certain data streams between certain start and
end times
data_streams = ['accel', 'ios_log', 'gps']
time_start = '2015-10-01T00:00:00'
time_end = '2015-12-01T00:00:00'
zf = msync.download(Keyring, study_id, user_id, data_streams=data_streams, time_start=time_start, time_end=time_end)
zf.extractall(output_folder)
Eventually you may find yourself day-dreaming about a backfill
function that
will slide a window from some aribitrary starting point to the present time in
order to download all of your data in more digestible chunnks. You'll be happy
to know that the mano.sync
module already exposes a function for this
start_date = '2015-01-01T00:00:00'
msync.backfill(Keyring, study_id, user_id, output_folder, start_date=start_date, lock=lock_streams, passphrase=passphrase)
Note that if you don't pass anything for the lock
argument, you will not need
passphrase
either.