Kestrel is based on Blaine Cook's "starling" simple, distributed message queue, with added features and bulletproofing, as well as the scalability offered by actors and the JVM.
Each server handles a set of reliable, ordered message queues. When you put a
cluster of these servers together, with no cross communication, and pick a
server at random whenever you do a set
or get
, you end up with a reliable,
loosely ordered message queue.
In many situations, loose ordering is sufficient. Dropping the requirement on cross communication makes it horizontally scale to infinity and beyond: no multicast, no clustering, no "elections", no coordination at all. No talking! Shhh!
For more information about what it is and how to use it, check out the included guide.
Kestrel has a mailing list here: [email protected] http://groups.google.com/group/kestrel-talk
Author's address: Robey Pointer <[email protected]>
Kestrel is:
-
fast
It runs on the JVM so it can take advantage of the hard work people have put into java performance.
-
small
Currently about 2K lines of scala (including comments), because it relies on Apache Mina (a rough equivalent of Danger's ziggurat or Ruby's EventMachine) and actors -- and frankly because Scala is extremely expressive.
-
durable
Queues are stored in memory for speed, but logged into a journal on disk so that servers can be shutdown or moved without losing any data.
-
reliable
A client can ask to "tentatively" fetch an item from a queue, and if that client disconnects from kestrel before confirming ownership of the item, the item is handed to another client. In this way, crashing clients don't cause lost messages.
Kestrel is not:
-
strongly ordered
While each queue is strongly ordered on each machine, a cluster will appear "loosely ordered" because clients pick a machine at random for each operation. The end result should be "mostly fair".
-
transactional
This is not a database. Item ownership is transferred with acknowledgement, but kestrel does not support grouping multiple operations into an atomic unit.
Kestrel requires java 6 and sbt 0.7.4. On OS X 10.5, you may have to hard-code
an annoying JAVA_HOME
to use java 6:
$ export JAVA_HOME=/System/Library/Frameworks/JavaVM.framework/Versions/1.6/Home
Building from source is easy:
$ sbt clean update package-dist
Scala libraries and dependencies will be downloaded from maven repositories
the first time you do a build. The finished distribution will be in dist
.
You can run kestrel by hand via:
$ java -jar ./dist/kestrel-VERSION/kestrel-VERSION.jar
To run in development mode (using development.conf
instead of
production.conf
), add a stage
variable:
$ java -Dstage=development -jar ./dist/kestrel-VERSION/kestrel-VERSION.jar
When running it as a server, a startup script is provided in
dist/kestrel-VERSION/scripts/kestrel.sh
. The script assumes you have
daemon
, a standard daemonizer for Linux, but also available
here for all common unix platforms.
The created archive kestrel-VERSION.tar.bz2
can be expanded into a place
like /usr/local
(or wherever you like) and executed within its own folder as
a self-contained package. All dependent jars are included, and the startup
script loads things from relative paths.
The default configuration puts logfiles into /var/log/kestrel/
and queue
journal files into /var/spool/kestrel/
.
The startup script logs extensive GC information to a file named stdout
in
the log folder. If kestrel has problems starting up (before it can initialize
logging), it will usually appear in error
in the same folder.
Queue configuration is described in detail in docs/guide.md
(an operational
guide). Scala docs for the config variables are here:
http://robey.github.com/kestrel/doc/main/api/net/lag/kestrel/config/KestrelConfig.html
Several performance tests are included. To run them, first start up a kestrel instance locally.
$ sbt clean update package-dist
$ VERSION="2.1.0-SNAPSHOT"
$ java -server -Xmx1024m -Dstage=development -jar ./dist/kestrel-$VERSION/kestrel-$VERSION.jar
This test just spams a kestrel server with "put" operations, to see how quickly it can absorb and journal them.
$ sbt "put-many --help"
usage: put-many [options]
spam items into kestrel
options:
-c CLIENTS
use CLIENTS concurrent clients (default: 100)
-n ITEMS
put ITEMS items into the queue (default: 10000)
-b BYTES
put BYTES per queue item (default: 1024)
A sample run on a 2010 MacBook Pro:
[info] == put-many ==
[info] Running net.lag.kestrel.load.PutMany -n 1000000
Finished in 64921 msec (64.9 usec/put throughput).
Transactions: min=95.00; max=528107.00 524847.00 521780.00;
median=3433.00; average=5551.77 usec
Transactions distribution: 5.00%=810.00 10.00%=1526.00 25.00%=2414.00
50.00%=3433.00 75.00%=4851.00 90.00%=6933.00 95.00%=9145.00
99.00%=59133.00 99.90%=208001.00 99.99%=505030.00
[info] == put-many ==
This test has one producer that trickles out one item at a time, and a pile of consumers fighting for each item. It usually takes exactly as long as the number of items times the delay, but is useful as a validation test to make sure kestrel works as advertised without blowing up.
$ sbt "many-clients --help"
usage: many-clients [options]
spin up N clients and have them do timeout reads on a queue while a
single producer trickles out.
options:
-s MILLESCONDS
sleep MILLISECONDS between puts (default: 100)
-n ITEMS
put ITEMS total items into the queue (default: 100)
-c CLIENTS
use CLIENTS consumers (default: 100)
A sample run on a 2010 MacBook Pro:
[info] == many-clients ==
[info] Running net.lag.kestrel.load.ManyClients
Finished in 11104 msec.
[info] == many-clients ==
This test starts up one producer and one consumer, and just floods items through kestrel as fast as it can.
$ sbt "flood --help"
usage: flood [options]
spin up a producer and consumer and flood N items through kestrel
options:
-n ITEMS
put ITEMS items into the queue (default: 10000)
-k KILOBYTES
put KILOBYTES per queue item (default: 1)
A sample run on a 2010 MacBook Pro:
[info] == flood ==
[info] Running net.lag.kestrel.load.Flood -n 100000
flood: 100000 items of 1kB
Finished in 16834 msec (168.3 usec/put throughput).
Consumer spun 1 times in misses.
This test starts up one producer and one consumer, seeds the queue with a bunch of items to cause it to fall behind, then does cycles of flooding items through the queue, separated by pauses. It's meant to test kestrel's behavior with a queue that's fallen behind and stays behind indefinitely, to make sure the journal files are packed periodically without affecting performance too badly.
$ sbt "packing --help"
usage: packing [options]
spin up a producer and consumer, write N items, then do read/write cycles
with pauses
options:
-q NAME
use named queue (default: spam)
-n ITEMS
put ITEMS items into the queue (default: 25000)
-k KILOBYTES
put KILOBYTES per queue item (default: 1)
-t SECONDS
pause SECONDS between cycles (default: 1)
-c CYCLES
do read/writes CYCLES times (default: 100)
-x
use transactions when fetching
A sample run on a 2010 MacBook Pro:
[info] == packing ==
[info] Running net.lag.kestrel.load.JournalPacking -c 10 -q small
packing: 25000 items of 1kB with 1 second pauses
Wrote 25000 items starting at 0.
cycle: 1
Wrote 25000 items starting at 25000.
Read 25000 items in 5402 msec. Consumer spun 0 times in misses.
cycle: 2
Wrote 25000 items starting at 50000.
Read 25000 items in 5395 msec. Consumer spun 0 times in misses.
cycle: 3
Wrote 25000 items starting at 75000.
Read 25000 items in 4584 msec. Consumer spun 0 times in misses.
cycle: 4
Wrote 25000 items starting at 100000.
Read 25000 items in 4455 msec. Consumer spun 0 times in misses.
cycle: 5
Wrote 25000 items starting at 125000.
Read 25000 items in 4742 msec. Consumer spun 0 times in misses.
cycle: 6
Wrote 25000 items starting at 150000.
Read 25000 items in 4468 msec. Consumer spun 0 times in misses.
cycle: 7
Wrote 25000 items starting at 175000.
Read 25000 items in 5127 msec. Consumer spun 0 times in misses.
cycle: 8
Wrote 25000 items starting at 200000.
Read 25000 items in 4357 msec. Consumer spun 0 times in misses.
cycle: 9
Wrote 25000 items starting at 225000.
Read 25000 items in 4500 msec. Consumer spun 0 times in misses.
cycle: 10
Wrote 25000 items starting at 250000.
Read 25000 items in 4558 msec. Consumer spun 0 times in misses.
Read 25000 items in 3141 msec. Consumer spun 0 times in misses.
[info] == packing ==
You can see the journals being packed in the kestrel log:
INF [20110405-20:36:57.420] kestrel: Setting up queue small: maxItems=2147483647 maxSize=134217728.bytes maxItemSize=922
3372036854775807.bytes maxAge=None defaultJournalSize=16777216.bytes maxMemorySize=16777216.bytes maxJournalSize=1342177
28.bytes discardOldWhenFull=true keepJournal=true syncJournal=never expireToQueue=None maxExpireSweep=2147483647 fanoutO
nly=false
INF [20110405-20:36:57.421] kestrel: Replaying transaction journal for 'small'
INF [20110405-20:36:57.422] kestrel: No transaction journal for 'small'; starting with empty queue.
INF [20110405-20:36:57.422] kestrel: Finished transaction journal for 'small' (0 items, 0 bytes) xid=0
INF [20110405-20:36:59.779] kestrel: Rotating journal file for 'small' (qsize=16440320)
INF [20110405-20:36:59.852] kestrel: Dropping to read-behind for queue 'small' (16.0 MiB)
INF [20110405-20:37:02.032] kestrel: Rotating journal file for 'small' (qsize=29139968)
INF [20110405-20:37:04.583] kestrel: Rotating journal file for 'small' (qsize=35066880)
INF [20110405-20:37:05.005] kestrel: Read-behind on 'small' moving from file small.1302061022051 to small.1302061024673
INF [20110405-20:37:08.547] kestrel: Read-behind on 'small' moving from file small.1302061024673 to small
INF [20110405-20:37:09.553] kestrel: Rotating journal file for 'small' (qsize=27975680)
INF [20110405-20:37:12.412] kestrel: Read-behind on 'small' moving from file small.1302061029571 to small
INF [20110405-20:37:14.511] kestrel: Rotating journal file for 'small' (qsize=26700800)
INF [20110405-20:37:16.384] kestrel: Read-behind on 'small' moving from file small.1302061034588 to small
INF [20110405-20:37:17.122] kestrel: Rotating journal file for 'small' (qsize=29371392)
INF [20110405-20:37:20.164] kestrel: Read-behind on 'small' moving from file small.1302061037149 to small
INF [20110405-20:37:21.410] kestrel: Rotating journal file for 'small' (qsize=26664960)
INF [20110405-20:37:23.113] kestrel: Read-behind on 'small' moving from file small.1302061041427 to small
INF [20110405-20:37:25.302] kestrel: Rotating journal file for 'small' (qsize=26168320)
INF [20110405-20:37:27.118] kestrel: Read-behind on 'small' moving from file small.1302061045321 to small
INF [20110405-20:37:27.119] kestrel: Rewriting journal file from checkpoint for 'small' (qsize=27889664)
INF [20110405-20:37:27.129] kestrel: Packing journals for 'small': small.1302061019805, small.1302061022051, small.13020
61024673, small.1302061029571, small.1302061034588, small.1302061037149, small.1302061041427, small.1302061045321
INF [20110405-20:37:27.635] kestrel: Packing 'small' -- erasing old files.
INF [20110405-20:37:27.646] kestrel: Packing 'small' done: small.1302061045321, small
INF [20110405-20:37:28.115] kestrel: Rotating journal file for 'small' (qsize=28761088)
INF [20110405-20:37:31.108] kestrel: Read-behind on 'small' moving from file small.1302061048143 to small
INF [20110405-20:37:32.202] kestrel: Rotating journal file for 'small' (qsize=27242496)
INF [20110405-20:37:34.048] kestrel: Read-behind on 'small' moving from file small.1302061052221 to small
INF [20110405-20:37:36.255] kestrel: Rotating journal file for 'small' (qsize=25759744)
INF [20110405-20:37:38.433] kestrel: Read-behind on 'small' moving from file small.1302061056360 to small
INF [20110405-20:37:39.550] kestrel: Rotating journal file for 'small' (qsize=27325440)
INF [20110405-20:37:42.266] kestrel: Read-behind on 'small' moving from file small.1302061059646 to small
INF [20110405-20:37:43.464] kestrel: Rotating journal file for 'small' (qsize=26256384)
INF [20110405-20:37:45.110] kestrel: Read-behind on 'small' moving from file small.1302061063469 to small
INF [20110405-20:37:46.110] kestrel: Rotating journal file for 'small' (qsize=27487232)
INF [20110405-20:37:48.928] kestrel: Read-behind on 'small' moving from file small.1302061066128 to small
INF [20110405-20:37:49.875] kestrel: Rotating journal file for 'small' (qsize=28101632)
INF [20110405-20:37:51.801] kestrel: Read-behind on 'small' moving from file small.1302061069893 to small
INF [20110405-20:37:51.801] kestrel: Rewriting journal file from checkpoint for 'small' (qsize=26379264)
INF [20110405-20:37:51.804] kestrel: Packing journals for 'small': small.1302061045321, small.1302061048143, small.13020
61052221, small.1302061056360, small.1302061059646, small.1302061063469, small.1302061066128, small.1302061069893
INF [20110405-20:37:52.237] kestrel: Packing 'small' -- erasing old files.
INF [20110405-20:37:52.246] kestrel: Packing 'small' done: small.1302061069893, small
INF [20110405-20:37:54.012] kestrel: Rotating journal file for 'small' (qsize=26510336)
INF [20110405-20:37:55.808] kestrel: Read-behind on 'small' moving from file small.1302061074039 to small
INF [20110405-20:37:56.594] kestrel: Rotating journal file for 'small' (qsize=29006848)
INF [20110405-20:37:59.363] kestrel: Read-behind on 'small' moving from file small.1302061076614 to small
INF [20110405-20:37:59.731] kestrel: Coming out of read-behind for queue 'small'