- uWSGI 1.9
- Non-blocking for all
- Coro::AnyEvent
- The JVM plugin
- The Mono ASP.NET plugin
- Language independent HTTP body management
- Faster uwsgi/HTTP/FastCGI/SCGI native sockets
- Request logging VS err logging
- Chain reloading
- Offloading improvements
- Better static files management/serving
- The New Generation Cache subsystem (cache2)
- The Legion subsystem
- Cygwin (windows) support
- Advanced Exceptions subsystem
- SPDY, SSL and SNI
- HTTP router keepalive, auto-chunking, auto-gzip and transparent websockets
- The SSL router (sslrouter)
- Websockets api
- New Internal Routing (turing complete ?)
- Emperor ZMQ plugin
- Total introspection via the stats server
- Nagios plugin
- Removed and deprecated features
- Working On, Issues and regressions
- Special thanks
uWSGI 1.9
This is the version that will lead to the LTS 2.0. It includes a lot of internal changes and removal of a lot of basically unused, broken, or too ugly functionality.
Options deprecated in 1.0.x have been definitely removed.
Non-blocking for all
From now on, all of the request plugins, need to be non-blocking. A new set ofC/C++/Obj-C api have been added to help the user/developer writing non-blockingcode in a safe way. Plugins like the RPC one have been rewritten using thatnew api, allowing you to use it with engines like Gevent or Coro::Anyevent Theasync mode has been rewritten to better cooperate with this new rule. More infocan be found on uWSGI asynchronous/non-blocking modes (updated to uWSGI 1.9) The new async mode requires some form ofcoroutine/greenthread/suspend engine to correctly work. Again, checkuWSGI asynchronous/non-blocking modes (updated to uWSGI 1.9)
Coro::AnyEvent
The Perl/PSGI plugin is one of the most ancient in the uWSGI project, but used to not support the async mode in advanced ways.
Thanks to the new uWSGI asynchronous/non-blocking modes (updated to uWSGI 1.9) mode, a Coro::Anyevent (coroae) loop engine has been added.
To build it you need the Coro::Anyevent package (you can use cpanm to get it), then just add –coroae <n> to your optionswhere <n> is the number of async cores to spawn.
The JVM plugin
We finally have a truly working JVM infrastructure in uWSGI 1.9. Check the newdocs at JVM in the uWSGI server (updated to 1.9) Improved The JWSGI interface support is available as well as thenew Clojure The Clojure/Ring JVM request handler plugin
The Mono ASP.NET plugin
The first Mono plugin attempt (in 2010) was a total failure. Now we have a new shining implementation.
Check docs here The Mono ASP.NET plugin
Language independent HTTP body management
One of the most annoying task in writing uWSGI request plugins, was re-implementing the management of HTTP body reader every time.
The new non-blocking api added 3 simple generic C/C++/Obj-C functions to deal with it in a language independent way:
- char *uwsgi_request_body_read(struct wsgi_request *wsgi_req, ssize_t hint, ssize_t *rlen);
- char *uwsgi_request_body_readline(struct wsgi_request *wsgi_req, ssize_t hint, ssize_t *rlen);
- void uwsgi_request_body_seek(struct wsgi_request *wsgi_req, off_t pos);
they automatically manage post-buffering, non-blocking and upload progress.
All of the request plugins have been updated to the new api
Faster uwsgi/HTTP/FastCGI/SCGI native sockets
All of the –socket protocol parsers have been rewritten to be faster (lesssyscall usage) and to use less memory. They are now more complex, but youshould note (on loaded site) a reduced amount of syscalls per-request.
The SCGI protocol support has been added, while a NPH fastcgi mode (where the output is HTTP instead of cgi) has been implemented.
The FastCGI protocol now supports true sendfile() usage
The old behaviour of storing the request body for HTTP and FastCGI on a tempfile, has been removed (unless you use post-buffering). This means you can nowhave upload progress with protocols other than uwsgi.
Request logging VS err logging
One of the most annoying problem with older uWSGI releases was the lack ofability to easily split request logs from error logs. You can now create alogger and map it only to request logging:
- [uwsgi]
- req-logger = syslog
- ...
As an example you may want to send request logging to syslog and redis, and error log to mongodb (on the foo.bar collection):
- [uwsgi]
- req-logger = syslog
- req-logger = redislog:127.0.0.1:6269
- logger = mongodblog:127.0.0.1:9090,foo.bar
- ...
Or just use (boring) files
- [uwsgi]
- req-logger = file:/tmp/reqlog
- logger = file:/tmp/errlog
- ...
Chain reloading
When in lazy/lazy_apps mode, you can simply destroy a worker to force it toreload the application code.
A new reloading system named “chain reload”, allows you to reload one worker attime (opposed to the standard way where all of the workers are destroyed inbulk)
Chain reloading can only be triggered via “touch”: –touch-chain-reload <file>
Offloading improvements
Offloading appeared in uWSGI 1.4 and is one of the most loved features. In 1.9we added a new engine: “write”, that allows you to offload the write of fileson disk. A general function api uwsgi.offload() is on work, to allowapplications to access the offload engine. All of the uWSGI parts sendingstatic files (including the language-specific implementations, like WSGIwsgi.file_wrapper) have been extended to automatically use offloading ifavailable. This means you can use your Framework’s way for serving staticfiles, without losing too much performance and (more important) withoutblocking your workers.
Better static files management/serving
uWSGI 1.9 received many improvements in static file serving.
You may want to check: Serving static files with uWSGI (updated to 1.9)
For syadmins one of the most interesting new features is the ability to use theuWSGI new generation cacheing (see below) to store request -> absolute_pathmappings
The New Generation Cache subsystem (cache2)
The uWSGI caching subsystem has been completely rewritten to be a more generalpurpose in-memory key/value store. The old caching subsystem has been re-builton top of it, and is now more of a general “web caching” system. The newcache subsystem allows you to control all of the aspects of your memory store,from the hashing algorithm to the amount of blocks.
You can now have multiple caches per-instance (identified by name)
To create a cache just use the new –cache2 option
- [uwsgi]
- cache2 = name=mycache,items=100
- cache2 = name=faster,items=200,hash=murmur2,keysize=100,blocksize=4096
- cache2 = name=fslike,items=1000,keysize=256,bitmap=1,blocks=2000,blocksize=8192
- ...
In this example we created 3 caches: mycache, faster and fslike.
The first one is a standard old-style, cache able to store 100 items of amaximum size of 64k with keys limited to 2048 bytes using djb33x hashingalgorithm The second one use the murmur2 hashing algorithm, each key can be atmost 1000 bytes, can store 200 items of max 4k The last one works like afilesystem, where each item can span over multiple blocks. That means, fslikecache can save lot of memory for boject of different size (but it will beslower than non-bitmap based caches)
The options you can specify in cache2 are the following:
name
the name of the cache (must be unique) REQUIRED
items/max_items/maxitems
set the max number of items the cache can store REQUIRED
blocksize
set the size of a single block
blocks
set the number of blocks (used only in bitmap mode)
hash
set the hashing algorithm, currently supported: djbx33 and murmur2
hashsize/hash_size
set the size of the hash table (default to 65536 items)
keysize/key_size
set the max size of a key
store
set the filename in which to persistent store the cache
store_sync/storesync
set the frequency (in seconds) at which msync() is called to flush cache on disk (when in persistent mode)
node/nodes
the new cache subsystem can send cache updates via udp packet. With this option you set one or more (separated with ;) udp addresses on which to send updates
sync
set it to the address of a cache server. Its whole content will be copied in the new cache (use it for initial sync)
udp/udpservers/udp_server/udpservers/udpserver
bind to the specified udp addresses (separated with ;_) listening for cache updates
bitmap
enable botmap mode (set it to 1)
If you are asking yourself why such low-level tunings exists, you have to take in account that the new caching subsystem is used in lot of areas, so for differentneeds you may want different tuning. Just check Scaling SSL connections (uWSGI 1.9) for an example
The old –cache-server option has been removed. The threaded cache server added in 0.9.8 has been completed superseededby the new non blocking infrastructure. If you load the “cache” plugin (enabled by default in monolithic build) a cache serverwill be available and managed by the workers.
Update docs are available here The uWSGI caching framework
The Legion subsystem
The Legion subsystem is a new whole addition to the uWSGI project. It hassuperseeded the old Clustering subsystem (which has been removed in 1.9). Itimplements a quorum system to manage shared resources in clusteredenvironments. Docs are already available: The uWSGI Legion subsystem
Cygwin (windows) support
uWSGI can be compiled on windows machines using the cygwin POSIX emulationsystem. The event subsystem uses simple poll() (mapped to select() on cygwin),while the lock engine uses windows mutexes. Albeit from our tests it lookspretty solid, we consider the porting still “experimental”
Advanced Exceptions subsystem
As well as the request body language-independent management, an exceptionmanagement system has been added. Currently supported only in the Python andRuby plugins, allows language-independent handling of exceptions cases (likereloading on a specific exception). The –catch-exception option has beenimproved to show lot of useful information. Just try it (in development !!!)Future development will allow automatic sending of exception to system likeSentry or Airbrake.
SPDY, SSL and SNI
Exciting new features have been added to the SSL system and the HTTP router
SPDY support (currently only version 3) will get lot of users attention, but SNI subsystem is what sysadmins will love
Preliminary docs are available
SNI - Server Name Identification (virtual hosting for SSL nodes)
HTTP router keepalive, auto-chunking, auto-gzip and transparent websockets
Many users have started using the HTTP/HTTPS/SPDY router in production,so we started adding features to it. Remember this is ONLY a router/proxy, NOI/O is allowed, so you may not be able to throw away yourold-good webserver.
The new options:
—http-keepalive
enable HTTP/1.1 keepalive connections
—http-auto-chunked
for backend response without content-length (or chunked encoding already enabled), transform the output in chunked mode to maintain keepalive connections
—http-auto-gzip
automatically gzip content if uWSGI-Encoding header is set to gzip, but content size (Content-Length/Transfer-Encoding) and Content-Encoding are not specified
—http-websockets
automatically detect websockets connections to put the request handler in raw mode
The SSL router (sslrouter)
A new corerouter has been added, it works in the same way as the rawrouter one,but will terminate ssl connections. The sslrouter can use sni for implementingvirtualhosting (using the –sslrouter-sni option)
Websockets api
20Tab S.r.l. (a company working on HTML5 browsers game) sponsored thedevelopment of a fast language-independent websockets api for uWSGI. The api iscurrently in very good shape (and maybe faster than any other implementation).Docs still need to be completed but you may want to check the followingexamples (a simple echo):
https://github.com/unbit/uwsgi/blob/master/tests/websockets_echo.pl (perl)
https://github.com/unbit/uwsgi/blob/master/tests/websockets_echo.py (python)
https://github.com/unbit/uwsgi/blob/master/tests/websockets_echo.ru (ruby)
New Internal Routing (turing complete ?)
The internal routing subsystem has been rewritten to be ‘programmable’. You cansee it as an apache mod_rewrite with steroids (and goto ;) Docs still need tobe ported, but the new system allows you to modify/filter CGI vars and HTTPheaders on the fly, as well as managing HTTP authentication and caching.
Updated docs here (still work in progress) uWSGI internal routing
Emperor ZMQ plugin
A new imperial monitor has been added allowing vassals to be governed over zeromq messages:
https://uwsgi-docs.readthedocs.io/en/latest/ImperialMonitors.html#zmq-zeromq
Total introspection via the stats server
The stats server now exports all of the request variables of the currentlyrunning requests for each core, so it works in multithread mode too. This is agreat way to inspect what your instance is doing and how it does it In thefuture, uwsgitop could be extended to show the currently running request inrealtime.
Nagios plugin
Ping requests sent using nagios plugin will no longer be counted in appsrequest stats. This means that if application had –idle option enabled nagiospings will no longer prevent app from going to idle state, so starting with 1.9–idle should be disabled when nagios plugin is used. Otherwise app may be putin idle state just before nagios ping request, when ping arrives it needs towake from idle and this might take longer than ping timeout, causing nagiosalerts.
Removed and deprecated features
- The –app option has been removed. To load applications on specific mountpoints use the –mount option
- The –static-offload-to-thread option has been removed. Use the more versatile –offload-threads
- The grunt mode has been removed. To accomplish the same behaviour just use threads or directly call fork() and uwsgi.disconnect()
- The send_message/recv_message api has been removed (use language-supplied functions)
Working On, Issues and regressions
We missed the timeline for a bunch of expected features:
- SPNEGO support, this is an internal routing instruction to implement SPNEGO authentication support
- Ruby 1.9 fibers support has been rewritten, but need tests
- Erlang support did not got required attention, very probably will be post-poned to 2.0
- Async sleep api is incomplete
- SPDY push is still not implemented
- RADIUS and LDAP internal routing instructions are unimplemented
- The channel subsystem (required for easy websockets communications) is still unimplemented
In addition to this we have issues that will be resolved in upcoming minor releases:
- the –lazy mode lost usefulness, now it is like –lazy-apps but with workers-reload only policy on SIGHUP
- it looks like the JVM does not cooperate well with coroutine engines, maybe we should add a check for it
- Solaris and Solaris-like systems did not get heavy testing
Special thanks
A number of users/developers helped during the 1.9 development cycle. We would like to make special thanks to:
Łukasz Mierzwa (fastrouters scalability tests)
Guido Berhoerster (making the internal routing the new skynet)
Riccardo Magliocchetti (static analysis)
André Cruz (HTTPS and gevent battle tests)
Mingli Yuan (Clojure/Ring support and test suite)