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vs_Unicorn
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vs_Unicorn
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= \Rainbows! is like Unicorn, but Different...
While \Rainbows! depends on Unicorn for its process/socket management,
HTTP parser and configuration language; \Rainbows! is more ambitious.
== Architectural Diagrams
=== Unicorn uses a 1:1 mapping of processes to clients
unicorn master
\_ unicorn worker[0]
| \_ client[0]
\_ unicorn worker[1]
| \_ client[1]
\_ unicorn worker[2]
| \_ client[2]
...
\_ unicorn worker[M]
\_ client[M]
=== \Rainbows! uses a M:N mapping of processes to clients
rainbows master
\_ rainbows worker[0]
| \_ client[0,0]
| \_ client[0,1]
| \_ client[0,2]
| ...
| \_ client[0,N]
\_ rainbows worker[1]
| \_ client[1,0]
| \_ client[1,1]
| \_ client[1,2]
| \_ client[1,3]
| ...
| \_ client[1,N]
\_ rainbows worker[2]
| \_ client[2,0]
| \_ client[2,1]
| \_ client[2,2]
| ...
| \_ client[2,N]
...
\_ rainbows worker[M]
\_ client[M,0]
\_ client[M,1]
\_ client[M,2]
...
\_ client[M,N]
In both cases, workers share common listen sockets with the master and
pull connections off the listen queue only if the worker has resources
available.
== Differences from Unicorn
* log rotation is handled immediately in \Rainbows! whereas Unicorn has
the luxury of delaying it until the current request is finished
processing to prevent log entries for one request to be split across
files.
* load balancing between workers is imperfect, certain worker processes
may be servicing more requests than others so it is important to not
set +worker_connections+ too high. Unicorn worker processes can never
be servicing more than one request at once.
* speculative, non-blocking accept() is not used, this is to help
load balance between multiple worker processes.
* HTTP pipelining and keepalive may be used for GET and HEAD requests.
* Less heavily-tested and inherently more complex.
== Similarities with Unicorn
While some similarities are obvious (we depend on and subclass off
Unicorn code), some things are not:
* Does not attempt to accept() connections when pre-configured limits
are hit (+worker_connections+). This will first help balance load
to different worker processes, and if your listen() +:backlog+ is
overflowing: to other machines in your cluster.
* Accepts the same {signals}[http://unicorn.bogomips.org/SIGNALS.html]
for process management, so you can share scripts to manage them (and
nginx, too).
* supports per-process listeners, allowing an external load balancer
like haproxy or nginx to be used to balance between multiple
worker processes.
* Exposes a streaming "rack.input" to the Rack application that reads
data off the socket as the application reads it (while retaining
rewindable semantics as required by Rack). This allows Rack-compliant
apps/middleware to implement things such as real-time upload progress
monitoring.