Optimizing Kallithea performance
When serving a large amount of big repositories, Kallithea can start performing slower than expected. Because of the demanding nature of handling large amounts of data from version control systems, here are some tips on how to get the best performance.
Fast storage
Kallithea is often I/O bound, and hence a fast disk (SSD/SAN) and plenty of RAM is usually more important than a fast CPU.
Caching
Tweak beaker cache settings in the ini file. The actual effect of that is questionable.
Note
Beaker has no upper bound on cache size and will never drop any caches. For memory cache, the only option is to regularly restart the worker process. For file cache, it must be cleaned manually, as described in the Beaker documentation:
find data/cache -type f -mtime +30 -print -exec rm {} \;
Database
SQLite is a good option when having a small load on the system. But due to locking issues with SQLite, it is not recommended to use it for larger deployments.
Switching to MySQL or PostgreSQL will result in an immediate performance increase. A tool like SQLAlchemyGrate can be used for migrating to another database platform.
Horizontal scaling
Scaling horizontally means running several Kallithea instances and let them share the load. That can give huge performance benefits when dealing with large amounts of traffic (many users, CI servers, etc.). Kallithea can be scaled horizontally on one (recommended) or multiple machines.
It is generally possible to run WSGI applications multithreaded, so that several HTTP requests are served from the same Python process at once. That can in principle give better utilization of internal caches and less process overhead.
One danger of running multithreaded is that program execution becomes much more complex; programs must be written to consider all combinations of events and problems might depend on timing and be impossible to reproduce.
Kallithea can't promise to be thread-safe, just like the embedded Mercurial backend doesn't make any strong promises when used as Kallithea uses it. Instead, we recommend scaling by using multiple server processes.
Web servers with multiple worker processes (such as mod_wsgi with the WSGIDaemonProcess processes parameter) will work out of the box.
In order to scale horizontally on multiple machines, you need to do the following:
- Each instance's data storage needs to be configured to be stored on a shared disk storage, preferably together with repositories. This data dir contains template caches, sessions, whoosh index and is used for task locking (so it is safe across multiple instances). Set the cache_dir, index_dir, beaker.cache.data_dir, beaker.cache.lock_dir variables in each .ini file to a shared location across Kallithea instances
- If using several Celery instances, the message broker should be common to all of them (e.g., one shared RabbitMQ server)
- Load balance using round robin or IP hash, recommended is writing LB rules that will separate regular user traffic from automated processes like CI servers or build bots.
Serve static files directly from the web server
With the default static_files ini setting, the Kallithea WSGI application will take care of serving the static files from kallithea/public/ at the root of the application URL.
The actual serving of the static files is very fast and unlikely to be a problem in a Kallithea setup - the responses generated by Kallithea from database and repository content will take significantly more time and resources.
To serve static files from the web server, use something like this Apache config snippet:
Alias /images/ /srv/kallithea/kallithea/kallithea/public/images/ Alias /css/ /srv/kallithea/kallithea/kallithea/public/css/ Alias /js/ /srv/kallithea/kallithea/kallithea/public/js/ Alias /codemirror/ /srv/kallithea/kallithea/kallithea/public/codemirror/ Alias /fontello/ /srv/kallithea/kallithea/kallithea/public/fontello/
Then disable serving of static files in the .ini app:main section:
static_files = false
If using Kallithea installed as a package, you should be able to find the files under site-packages/kallithea, either in your Python installation or in your virtualenv. When upgrading, make sure to update the web server configuration too if necessary.
It might also be possible to improve performance by configuring the web server to compress responses (served from static files or generated by Kallithea) when serving them. That might also imply buffering of responses - that is more likely to be a problem; large responses (clones or pulls) will have to be fully processed and spooled to disk or memory before the client will see any response. See the documentation for your web server.