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I want to ensure I have done all I can to configure a system's disks for serious database use. The three areas I know of (any others?) to be concerned about are:

  1. I/O size: the database engine and disk's native size should either match, or the database's native I/O size should be a multiple of the disk's native I/O size.
  2. Disks that are capable of Direct Memory Access (eg. IDE) should be configured for it.
  3. When a disk says it has written data persistently, it must be so! No keeping it in cache and lying about it.

I have been looking for information on how to ensure these are so for CENTOS and Ubuntu, but can't seem to find anything at all!

I want to be able to check these things and change them if needed.

Any and all input appreciated.

PLEASE NOTE: The actual hardware involved is VERY modest. The point is to get the most out of what hardware we do have, even though it's "not very serious hardware" from a broader perspective.

MORE:

I appreciate the time taken to read and reply, but I'm hoping to get "answers" that aren't just good database / hardware advice but answers that actually address the specific things I asked about. Namely:

1) What's a good easy way to tell what the I/O unit size is that the OS wants to do? How can I change it? (IOW: If this exclusively a file-system-format issue, how can I tell what was used on an already-created file system? I know /etc/fstab will tell me the file system format... In this case, it's ext3.

2) How can I tell if a disk drive has DMA? If so, how can I turn it on? (I've been told that some drives have this capability, but now I want to follow up and ensure that if these drives have it, it's turned on.)

And, finally;

3) How can I tell if a drive is merely telling the writer that their material is written when it's actually still in cache? And, more importantly, how can I set the system to NOT use such features if / when they exist?

Thank you for your insights. RT

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It helps to know the database you are using, (and also which filesystem you are considering) as each has its own capabilities and options. –  codenheim Mar 31 '10 at 21:50
    
Hi MrJoltCola, I frankly don't see any link between what RDBMS is benig used and the questions I've asked, however, it's Postgres. It has the default 8K page size. (To change it, you must re-compile it.) Thanks for your insights –  Richard T Apr 1 '10 at 17:15
    
There is a big link if you want specific insight. Not sure why you seem defensive about my asking. Since you haven't found my answer useful, I'll refrain from further comment. –  codenheim Apr 1 '10 at 18:16
    
MrJoltCola, I'm not one to either intentionally offend or pass on good insights, so please, don't refrain. ...OK, unlike most, Informix can use raw disk partitions, so I suppose if I were interested in Informix, that could be useful... The file system(s) in this case are all ext3. The reason I responded the way I did is because for some reason I sometimes seem to get a whole lot of response that is not pertinent to what I had asked for - my apologies for having offended. –  Richard T Apr 1 '10 at 20:35

3 Answers 3

"serious database use" and you mention IDE in the same sentence?

SSDs or 15k SCSI in a many spindle RAID 1+0 array with separate arrays for data, log and backup. Consider a separate array for tempdb too.

You'd also switch the controller cache to 100% read too to avoid caching issues

Of course, if it's "serious" then you'd consider clustering etc: so a SAN comes in useful here but you may not be as quick as local spindles

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+1, yes, I've never had any good come of using write-back cache. –  codenheim Mar 31 '10 at 22:03
    
Hey, don't laugh! (OK, laugh away! -smile- ) This is for a customer who sells a solution including a really cheap set of hardware that the solution comes pre-installed on... No, I have nothing to do with the choices! –  Richard T Mar 31 '10 at 22:05
    
BTW, "serious" meaning not that this is for a big data center, serious as in we need to get as much out of what hardware we do have. –  Richard T Mar 31 '10 at 22:07
    
I sympathise... back in my 100% DBA days I've seen vendors sell large systems with "minimum RAID 5" and had to argue the toss with an analyst or a business person... –  gbn Mar 31 '10 at 22:08

1) Check /sys/block/sdX/queue/{max_hw_sectors_kb,max_sectors_kb}. The first is that max transfer size the hw allows, the other is the current maximum which can be set to any value <= max_hw_sectors_kb

2) hdparm -i /dev/sdX

3) Turn off write-back caching (hdparm can do it), or make sure that the filesystem issues barriers when synchronizing (as in fsync(), or journal commit).

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You didn't include any info on filesystem or database, so here are some misc pointers.

It is inevitable that you will lose a disk eventually, so its equally important to put a good backup and recovery strategy in place, and mirror your transaction logs, so you can handle a disk failure or even full datafile loss.

1) If possible, put at least one copy of your transaction log on a fixed disk. Don't put your sole transaction log to an external storage subsystem. (Assuming you use a db that supports log mirroring).

2) I agree with gbn, in practice, don't use write caching. I've lost databases on RAID arrays with battery backup. Configure the storage controller card for write-through.

3) Raw devices provide guaranteed writes, but its not worth the hassle. Some filesystems provide synchronous write options too, use one if possible. I am partial to VxFS, but I'm from the Sun world. On Linux, btrfs is eminent at least, but for now, Ext3 works fine if you setup your db properly.

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Do I gather correctly that merely using the sync option in fstab is sufficient? Somehow I doubt it! I mean; if the hardware has this cache, lie when writes complete feature, it may not honor the OS' wishes regarding sync... To clarify; are there OS / kernel level features that are used to tell drives what to do in such regards? –  Richard T Apr 1 '10 at 17:19
    
When I said sync, I meant the filesystem supports it, and the user process (the database) can open its datafiles in synchronous mode. –  codenheim Apr 1 '10 at 18:11

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