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What I want to achieve is to have an /etc/init.d script which more reliably starts Mongodb, even if it went down hard -- it should attempt an auto-repair in case the system is in a locked state.

Yes, I could script this myself, but I think somebody out there must have done this already.

I noticed that after a server goes down hard, that Mongodb is in a state where it doesn't restart via the /etc/init.d/mongod script. Obviously the lock file(s) need to be removed and it needs to be started with the --repair option and correct --dbpath first, before it can be successfully restarted. In some cases one also needs to change the ownership of the db-files to the user who runs mongodb. One additional problem is that the standard /etc/init.d/mongod script does not report a failure in this situation, but rather joyfully and incorrectly returns with "OK" status, reporting that Mongod was started, although it wasn't.

$ sudo /etc/init.d/mongod start
Starting mongod: forked process: 9220
all output going to: /data/mongo/log/mongod.log
                                                           [  OK  ]
$ sudo /etc/init.d/mongod status
mongod dead but subsys locked

The OS is either CentOS or Fedora.

Does anybody have modified /etc/init.d scripts or a pointer to such scripts, which attempt a repair automatically in that situation? Or is there another tool which functions as a watch dog for Mongod?

Any opinions on why it might be a bad idea to try to automatically repair mongodb?

$ sudo /etc/init.d/mongod status
mongod dead but subsys locked

$ sudo ls -l /var/lib/mongo/mongod.lock 
-rw-r--r--. 1 mongod mongod 5 Nov 19 11:52 /var/lib/mongo/mongod.lock


$ sudo tail -50 /data/mongo/log/mongod.log
************** 
old lock file: /data/mongo/db/mongod.lock.  probably means unclean shutdown
recommend removing file and running --repair
see: http://dochub.mongodb.org/core/repair for more information
*************
Sat Nov 19 11:55:44 exception in initAndListen std::exception: old lock file, terminating
Sat Nov 19 11:55:44 dbexit: 

Sat Nov 19 11:55:44 shutdown: going to close listening sockets...
Sat Nov 19 11:55:44 shutdown: going to flush oplog...
Sat Nov 19 11:55:44 shutdown: going to close sockets...
Sat Nov 19 11:55:44 shutdown: waiting for fs preallocator...
Sat Nov 19 11:55:44 shutdown: closing all files...
Sat Nov 19 11:55:44     closeAllFiles() finished

Sat Nov 19 11:55:44 dbexit: really exiting now
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2 Answers 2

up vote 4 down vote accepted

So the first bit to mention is journaling. Journaling is effectively billed as "fast repair". Journaling is on by default in 2.0+ and it will perform that "repair" by default.

So if your disks can handle the extra write-throughput of journaling this may solve your problem.

Any opinions on why it might be a bad idea to try to automatically repair mongodb?

The #1 issue with repairing MongoDB automatically is simply one of time.

If you have a 200GB database, the system will need to do the following when repairing:

  1. Allocate ~200GB of files (do you have the drive space?)
  2. Read all of the data from the existing files into memory (200GB read)
  3. Check each document for validity and write it back to the new files (200GB write)
  4. Re-create all indexes (200GB reads + large number of writes)
  5. Flush everything to disk

If you look at my notes that's a serious amount of drive thrashing to perform a repair.

But most production installs are running replica sets. In this case, instead of repairing, you can just restore from a backup. Restoring from a backup only writes the data once and it's a process you should already have in place.

Despite the init.d script returning OK, your system monitoring should tell you that the DB is not up.

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thank you for your detailed answer. Journaling looks like the way to go.. which version did they introduce journaling? –  Tilo Nov 27 '11 at 1:04
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Journaling was introduced in 1.8+, just set the journal=true in your config file. In 2.0+ journaling is active by default. Note that journaling is not "free". It does not work on 32-bit, it will use additional RAM, additional disk space and additional IO. If you do a lot of in-place updates (like counters), this could be significant. So do test the journaling mode before a blind push to production. –  Gates VP Nov 27 '11 at 1:42
    
Great answer! although it's not really a script :) The journaling will probably do the trick. 32-bit isn't an issue for me. I'll try out the journaling! thanks for your help! –  Tilo Nov 27 '11 at 19:12
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Just want to point out that journaling does work in the 32-bit version. However, it is not on by default in 32-bit.

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It's correct that journalling is disabled by default on 32-bit versions and can be enabled .. but note that enabling will reduce the amount of (already limited) memory you have available for your database. There are many limitations of the 32-bit builds, and you should always use 64-bit for production. –  Stennie Nov 28 '12 at 0:56
    
you most definitely have a typo in your answer... 32-bit vs 32-bit? ;) –  Tilo Jan 6 '13 at 21:52
    
Tilo, sorry if my wording was made awkward by repeating "32-bit". Journaling works in the 32-bit version, however it is not on by default. –  user483263 Jan 7 '13 at 16:53
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