- How does Mojolicious compare to other Perl web frameworks?
- Why doesn't Mojolicious have any dependencies?
- Why reinvent wheels?
- What about backwards compatibility?
- Why not split up Mojolicious into many smaller distributions?
- What does the error "Maximum message size exceeded" mean?
- What does the error "Maximum line size exceeded" mean?
- What does the error "Maximum buffer size exceeded" mean?
- What does the error "EV does not work with ithreads" mean?
- What does "Your secret passphrase needs to be changed" mean?
- What does "Nothing has been rendered, expecting delayed response" mean?
- What does "Inactivity timeout" mean?
- What does "Premature connection close" mean?
- What does "Worker 31842 has no heartbeat, restarting" mean?
Mojolicious::Guides::FAQ - Frequently Asked Questions
This document contains answers for the most frequently asked questions about Mojolicious.
The short answer is "it doesn't", because we interpret the words "web framework" much more literally than others. With the emergence of the
real-time web and new technologies such as
WebSockets, we are facing new challenges that go way beyond what commonly used modules like LWP were designed for. Because of this, Mojolicious contains a whole new HTTP client/server stack called Mojo, which was heavily inspired by the original
LWPng effort and carefully designed with these new requirements in mind. So while some of the higher abstraction layers might look similar to other web frameworks, it actually defines a whole new category and could even be the foundation for more advanced ones in the future.
We are optimizing Mojolicious for user-friendliness and development speed, without compromises. While there are no rules in Mojolicious::Guides::Contributing that forbid dependencies, we do currently discourage adding non-optional ones in favor of a faster and more painless installation process. And we do in fact already use several optional CPAN modules such as EV, IO::Socket::IP, IO::Socket::SSL and Plack to provide advanced functionality if they are installed.
Because we can make them rounder. Components specifically designed for user-friendliness and development speed are not easy to come by. We are strong believers of the Perl mantra "There is more than one way to do it", and our quest is to develop the best possible solutions for these two criteria.
In conformance with Mojolicious::Guides::Contributing, we will always deprecate a feature before removing or changing it in incompatible ways between major releases. New features can however be marked as experimental to explicitly exclude them from these rules. This gives us the necessary freedom to ensure a healthy future for Mojolicious. So, as long as you are not using anything marked experimental, untested or undocumented, you can always count on backwards compatibility, everything else would be considered a bug.
Because there are no advantages, it drastically increases maintenance costs and installation times without giving us anything in return. It would only make sense if we wanted to pass ownership of a module to a new maintainer, which we already have done in the past.
To protect your applications from excessively large requests and responses, our HTTP parser has a cap after which it will automatically stop accepting new data, and in most cases force the connection to be closed. This limit is around
10MB by default, you can use the MOJO_MAX_MESSAGE_SIZE environment variable to change this value.
This is a very similar protection mechanism to the one described in the previous answer, but a little more specific. It limits the maximum length of any
\x0d\x0a terminated part of a HTTP message, such as request line, status line and headers. This limit is around
10KB by default, you can use the MOJO_MAX_LINE_SIZE environment variable to change this value.
This protection mechanism is very similar to those mentioned in the two previous answers. It limits how much content the HTTP parser is allowed to buffer when parsing chunked, compressed and multipart messages. This limit is around
256KB by default, you can use the MOJO_MAX_BUFFER_SIZE environment variable to change this value.
The Mojolicious user agent and web servers are based on an event loop that supports multiple reactor backends. One of these backends is EV, it is very fast and will be automatically used if installed. On Windows however, the
fork() emulation can interfere with it, and you may have to use the MOJO_REACTOR environment variable to enforce a more portable one.
Mojolicious uses a secret passphrase for security features such as signed cookies. It defaults to the moniker of your application, which is not very secure, so we added this log message as a reminder. You can change the passphrase with the attribute "secret" in Mojolicious.
app->secret('My very secret passphrase.');
Mojolicious has been designed from the ground up for non-blocking I/O and event loops. So when a new request comes in and no response is generated right away, it will assume that this was intentional and return control to the web server, which can then handle other requests while waiting for events such as timers to finally generate a response.
To protect your applications from denial-of-service attacks, all connections have an inactivity timeout which limits how long a connection may be inactive before being closed automatically. It defaults to
20 seconds for the user agent and
15 seconds for all built-in web servers, and is commonly referred to as
inactivity_timeout. This timeout always applies, so you might have to tweak it for applications that take a long time to process a request.
This error message is often related to the one above, and means that the web server closed the connection before the user agent could receive the whole response.
As long as they are accepting new connections, Hypnotoad worker processes send heartbeat messages to the manager process at regular intervals, to signal that they are still responsive. A blocking operation such as an infinite loop in your application (or active connections after a worker has stopped accepting new connections) can prevent this, and will force the affected worker to be restarted after a timeout. This
heartbeat_timeout defaults to
20 seconds and can be extended if your application requires it.
If you have any questions the documentation might not yet answer, don't hesitate to ask on the mailing-list or the official IRC channel