There are two ways to get pytokio:
- The source distribution, which contains everything needed to install pytokio, use its bundled CLI tools, and begin developing new applications with it. This tarball is available on the pytokio release page.
- The full repository, which includes tests, example notebooks, and this
documentation. This is most easily obtained via git
git clone https://github.com/nersc/pytokio).
If you are just kicking the tires on pytokio, download #1. If you want to create your own connectors or tools, contribute to development, or run into any issues that you would like to debug, install #2.
Editing the Site Configuration¶
site.json file, located in the
tokio/ directory, contains optional
parameters that allow various pytokio tools to automatically discover the
location of specific monitoring data and expose a more fully integrated feel
through its APIs.
The file is set up as JSON containing key-value pairs. No one key has to be specified (or set to a valid value), as each key is only consulted when a specific tool requests it. If you simply never use a tool, its configuration keys will never be examined.
As of pytokio 0.10, the following keys can be defined:
- Number of seconds between successive measurements contained in
the LMT database. Only used by
summarize_jobtool to establish padding to account for cache flushes.
- Dictionary that maps mount points (expressed as regular expressions) to logical file system names. Used by several CLI tools to made output more digestible for humans.
- Dictionary that maps logical file system names to backend file system names. Needed for cases where the name of a file system as described to users (e.g., “the scratch file system”) has a different backend name (“snx11168”) that monitoring tools may use. Allows users to access data from file systems without knowing names used only by system admins.
- Time-indexed file path template describing where TOKIO Time Series HDF5 files are stored, and where in the file path their timestamp is encoded.
- Time-indexed file path template describing where NERSC-style ISDCT tar files files are stored, and where in the file path their timestamp is encoded.
- Time-indexed file path template describing where NERSC-style Lustre file system fullness logs are stored, and where in the file path their timestamp is encoded.
- Time-indexed file path template describing where NERSC-style Lustre file system OSS-OST mapping logs are stored, and where in the file path their timestamp is encoded.
- Time-indexed file path template describing where HPSS daily report logs are stored, and where in the file path their timestamp is encoded.
- Provider list to inform which TOKIO connectors should be used to find job
info through the
- Provider list to inform which TOKIO connectors should be used to find file
system fullness data through the
Special Configuration Values¶
There are two special types of value described above:
Time-indexed file path templates are strings that describe a file path
that is passed through
strftime with a user-specified time to resolve
where pytokio can find a specific file containing data relevant to that
time. Consider the following example:
If pytokio is asked to find the ISDCT log file generated for January 14, 2017, it will use this template string and try to extract the requested data from the following file:
Time-indexed file path templates need not only be strings; they can be lists or dicts as well with the following behavior:
- str: search for files matching this template
- list of str: search for files matching each template
- dict: use the key to determine the element in the dictionary to use as the template. That value is treated as a new template and is processed recursively.
This is documented in more detail in
Provider lists are used by tools that can extract the same piece of
information from multiple data sources. For example,
provides an API to convert a job id into a start and end time, and it can do this
by either consulting Slurm’s sacct command or a site-specific jobs database.
The provider list for this tool would look like
"jobinfo_jobid_providers": [ "slurm", "nersc_jobsdb" ],
nersc_jobsdb are magic strings recognized by the
pytokio can be used either as an installed Python package or as just an
unraveled tarball. It has no components that require compilation and its only
path-dependent component is
site.json which can be overridden using the
PYTOKIO_CONFIG environment variable.
As described above, installing the Python package is accomplished by any one of the following:
$ pip install /path/to/pytokio-0.10.1/ $ pip install --user /path/to/pytokio-0.10.1/ $ cd /path/to/pytokio-0.10.1/ && python setup.py install --prefix=/path/to/installdir
You may also wish to install a single packaged blob. In these cases though,
you will not be able to edit the default
site.json and will have to create
site.json and define its path in the
$ pip install pytokio $ pip install /path/to/pytokio-0.10.1.tar.gz $ vi ~/pytokio-config.json ... $ export PYTOKIO_CONFIG=$HOME/pytokio-config.json
For this reason, pytokio is not distributed as wheels or eggs. While they
should work without problems when
PYTOKIO_CONFIG is defined (or you never
use any features that require looking up configuration values), installing
such bdists is not officially supported.
Testing the Installation¶
$ pip install /path/to/pytokio-0.10.1 ... $ git clone https://github.com/nersc/pytokio $ cd pytokio/tests $ ./run_tests.sh ........
This test suite also contains a number of small sample inputs in the tests/inputs/ subdirectory that may be helpful for basic testing.