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Difference between revisions of "TWC:Sysadmin info"

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== vBulletin ==
 
== vBulletin ==
 
The one piece of software we use that's not free and open-source.  Website is [http://www.vbulletin.com vbulletin.com].  Not too much needs to be said here, because it's much easier to use than the rest of our software, with a web interface and everything.  The interesting point is that our vBulletin copy has lots of extra files added, and lots of existing files hacked.  You can see for yourself by doing <code>git log</code> in /var/www/forums.  There are dozens of changes going back to 2008.  When we upgrade, git will semi-magically transfer all of the changes to the new versions, if coaxed by suitable incantations.  <code>/usr/local/sbin/vbupgrade</code> does this, but if there's a conflict, you'll have to know what you're doing to resolve it.  (Or, alternatively, just get me to do the upgrade.)  Minor version changes shouldn't cause conflicts, so any root should be able to do those by [http://www.twcenter.net/forums/showthread.php?p=6978347#post6978347 following the procedure].  Although you'll still have to fix template conflicts.
 
The one piece of software we use that's not free and open-source.  Website is [http://www.vbulletin.com vbulletin.com].  Not too much needs to be said here, because it's much easier to use than the rest of our software, with a web interface and everything.  The interesting point is that our vBulletin copy has lots of extra files added, and lots of existing files hacked.  You can see for yourself by doing <code>git log</code> in /var/www/forums.  There are dozens of changes going back to 2008.  When we upgrade, git will semi-magically transfer all of the changes to the new versions, if coaxed by suitable incantations.  <code>/usr/local/sbin/vbupgrade</code> does this, but if there's a conflict, you'll have to know what you're doing to resolve it.  (Or, alternatively, just get me to do the upgrade.)  Minor version changes shouldn't cause conflicts, so any root should be able to do those by [http://www.twcenter.net/forums/showthread.php?p=6978347#post6978347 following the procedure].  Although you'll still have to fix template conflicts.
 +
 +
== Disk administration ==
 +
This comes up a bunch, so I'll document some of this too.
 +
 +
=== mdadm: software RAID ===
 +
mdadm can be used to control our RAID array.  One basic useful command doesn't actually use mdadm at all: <code>cat /proc/mdstat</code> (sudo not required) tells you the current status of the RAID.  Sample output:
 +
 +
$ cat /proc/mdstat
 +
Personalities : [linear] [multipath] [raid0] [raid1] [raid10] [raid6] [raid5] [raid4]
 +
md0 : active raid1 sde1[0] sdb1[1]
 +
      9767424 blocks [2/2] [UU]
 +
      bitmap: 1/1 pages [4KB], 65536KB chunk
 +
 +
md1 : active raid1 sde2[0] sdb2[1]
 +
      478616448 blocks [2/2] [UU]
 +
      bitmap: 7/29 pages [28KB], 8192KB chunk
 +
 +
md2 : active raid10 sdc3[0]
 +
      292230144 blocks super 1.1 512K chunks 2 far-copies [2/1] [U_]
 +
      bitmap: 3/3 pages [12KB], 65536KB chunk
 +
 +
unused devices: <none>
 +
 +
The RAID arrays are the things named "md0", "md1", and "md2".  It tells you what type of RAID that array uses (here raid1 or raid10), and what disks are being used for each array (sde1, sdb1, sde2, etc.).  The second line for each device contains some critical info, namely whether there are any missing devices.  The [UU] in the first two arrays here tells us that the array is supposed to have two devices and they're both present.  The [U_] in the last one says that it's supposed to have two devices, but one (represented by an underscore) is missing.  This is bad, since it means that if the second disk fails, we'll lose data.
 +
 +
If RAID is resyncing, that file will contain information about how fast the resync is going and when it's expected to complete.  In this case, <code>watch cat /proc/mdstat</code> is useful: it will display the file's contents on your screen and refresh it every few seconds, so the resync progress shows up in real time.
 +
 +
For actually using <code>mdadm</code>, the most important thing to know is how to handle a failed disk.  First you need to figure out which array had a device failure.  One disk failure might mean multiple device failures, if one disk is part of multiple arrays.  For instance, in the above output, failure of sdb would mean that sdb1 and sdb2 would both fail, and you'd need to handle both failures separately.
 +
 +
Let's say that you check /proc/mdstat and find that sdg1 has failed in the array md7.  It will have an "(F)" after its name on the first status line.  The first thing you need to do is remove it: <code>sudo mdadm /dev/md7 --remove failed</code>.  Then you can try re-adding it with <code>sudo mdadm /dev/md7 --add /dev/sdg1</code>.  If you're lucky, this will work, and it will start resyncing.  If not, probably sdg will have to be physically replaced, and then the "--add" command will have to be run on its successor, after that's partitioned.
 +
 +
For more info on mdadm, as always, check the man page.  There are a ton of options, and there's no room to explain them all here.
 +
 +
=== LVM: logical volume management ===
 +
Most of our filesystems don't lie directly on top of a RAID array.  Instead, we have the RAID array on top of a disk partition, then on top of the RAID array we have an LVM "volume group" (VG).  Within the volume group, we have "logical volumes" (LVs), which we then put filesystems on.  The advantage here is that we can expand a logical volume and the filesystem on top of it without repartitioning.  Also, a volume group can have multiple "physical volumes" (PVs), i.e., it can be placed on top of a bunch of devices.  Logical volumes can be moved between the devices while they're in use, so we don't need to shut down the server to move data around when we change our disk configuration.  There are other uses of LVM too, like snapshots, although we don't use those right now.
 +
 +
Three useful commands (must be run as root) are <code>vgdisplay</code>, <code>pvdisplay</code>, and <code>lvdisplay</code>, to show info about current VGs, PVs, and LVs respectively:
 +
 +
$ sudo vgdisplay
 +
  --- Volume group ---
 +
  VG Name              LVM
 +
  System ID           
 +
  Format                lvm2
 +
  Metadata Areas        2
 +
  Metadata Sequence No  65
 +
  VG Access            read/write
 +
  VG Status            resizable
 +
  MAX LV                0
 +
  Cur LV                6
 +
  Open LV              6
 +
  Max PV                0
 +
  Cur PV                2
 +
  Act PV                2
 +
  VG Size              735.13 GiB
 +
  PE Size              4.00 MiB
 +
  Total PE              188194
 +
  Alloc PE / Size      122112 / 477.00 GiB
 +
  Free  PE / Size      66082 / 258.13 GiB
 +
  VG UUID              dDcYBl-qdYn-6TJ3-8MwN-AfYH-l0SD-9GamfZ
 +
   
 +
0 11:46:25 ~$ sudo pvdisplay
 +
  --- Physical volume ---
 +
  PV Name              /dev/md1
 +
  VG Name              LVM
 +
  PV Size              456.44 GiB / not usable 2.88 MiB
 +
  Allocatable          yes
 +
  PE Size              4.00 MiB
 +
  Total PE              116849
 +
  Free PE              45169
 +
  Allocated PE          71680
 +
  PV UUID              WKOVus-9kwU-8wpz-W90s-pmt1-gJAR-wrAw1Y
 +
   
 +
  --- Physical volume ---
 +
  PV Name              /dev/md2
 +
  VG Name              LVM
 +
  PV Size              278.69 GiB / not usable 1.00 MiB
 +
  Allocatable          yes
 +
  PE Size              4.00 MiB
 +
  Total PE              71345
 +
  Free PE              20913
 +
  Allocated PE          50432
 +
  PV UUID              4ALWTX-serI-HoHN-tzUk-jy9H-4rk4-cvXMXr
 +
   
 +
0 11:46:29 ~$ sudo lvdisplay
 +
  --- Logical volume ---
 +
  LV Name                /dev/LVM/www
 +
  VG Name                LVM
 +
  LV UUID                C1i8qg-Isi2-o35Q-2OTd-2i21-vrz9-7xwXbp
 +
  LV Write Access        read/write
 +
  LV Status              available
 +
  # open                1
 +
  LV Size                5.00 GiB
 +
  Current LE            1280
 +
  Segments              1
 +
  Allocation            inherit
 +
  Read ahead sectors    auto
 +
  - currently set to    4096
 +
  Block device          251:0
 +
   
 +
  --- Logical volume ---
 +
  LV Name                /dev/LVM/userfiles
 +
  VG Name                LVM
 +
  LV UUID                PYeTEP-rEj2-x2kF-anh7-AMUL-3Wkw-m5RDnO
 +
  LV Write Access        read/write
 +
  LV Status              available
 +
  # open                1
 +
  LV Size                95.00 GiB
 +
  Current LE            24320
 +
  Segments              3
 +
  Allocation            inherit
 +
  Read ahead sectors    auto
 +
  - currently set to    256
 +
  Block device          251:2
 +
   
 +
  --- Logical volume ---
 +
  LV Name                /dev/LVM/log
 +
  VG Name                LVM
 +
  LV UUID                sPBgWF-l5Xl-GoJW-ys8h-WXEA-Ef9k-0ZG1cN
 +
  LV Write Access        read/write
 +
  LV Status              available
 +
  # open                1
 +
  LV Size                100.00 GiB
 +
  Current LE            25600
 +
  Segments              2
 +
  Allocation            inherit
 +
  Read ahead sectors    auto
 +
  - currently set to    256
 +
  Block device          251:3
 +
   
 +
  --- Logical volume ---
 +
  LV Name                /dev/LVM/mysql
 +
  VG Name                LVM
 +
  LV UUID                LnDgLQ-9rLv-FJxc-k3pd-ngxK-xWfX-acSc1P
 +
  LV Write Access        read/write
 +
  LV Status              available
 +
  # open                1
 +
  LV Size                80.00 GiB
 +
  Current LE            20480
 +
  Segments              2
 +
  Allocation            inherit
 +
  Read ahead sectors    auto
 +
  - currently set to    4096
 +
  Block device          251:1
 +
   
 +
  --- Logical volume ---
 +
  LV Name                /dev/LVM/backup
 +
  VG Name                LVM
 +
  LV UUID                RcfHSo-ftce-OVx5-7QTZ-Wdtv-owWX-xxLIBm
 +
  LV Write Access        read/write
 +
  LV Status              available
 +
  # open                1
 +
  LV Size                182.00 GiB
 +
  Current LE            46592
 +
  Segments              1
 +
  Allocation            inherit
 +
  Read ahead sectors    auto
 +
  - currently set to    4096
 +
  Block device          251:4
 +
   
 +
  --- Logical volume ---
 +
  LV Name                /dev/LVM/sphinx
 +
  VG Name                LVM
 +
  LV UUID                Wjukbc-BxSe-swqy-wOBd-n2Yg-z8tX-oxz7e2
 +
  LV Write Access        read/write
 +
  LV Status              available
 +
  # open                1
 +
  LV Size                15.00 GiB
 +
  Current LE            3840
 +
  Segments              2
 +
  Allocation            inherit
 +
  Read ahead sectors    auto
 +
  - currently set to    4096
 +
  Block device          251:5
 +
 +
Most of that is probably incomprehensible, but some important parts (like "Size") should make some sense.  Notice that we have only one volume group, called "LVM", and all PVs are part of it.  This lets us freely move LVs between them.
 +
 +
The command to extend a logical volume is <code>sudo lvextend -L+<var>XX</var>G /dev/LVM/<var>something</var></code>, where <var>XX</var> is the number of gigabytes you want to extend it by, and <var>something</var> is the LV name.  After you do this, you'll have to do <code>sudo resize2fs /dev/LVM/<var>something</var></code> to grow the filesystem itself.  Be parsimonious here: you can grow an ext4 filesystem without downtime, but you can't shrink it without unmounting it.  We don't want to use up the free space in the volume group and then have to take the site down for half an hour to free space up.  (This is why /dev/LVM/log is 100 gigabytes: it was grown too much because access logs were using up a lot of space at that particular moment, and now it can't be shrunk without a reboot, since programs will want to write log files as long as the system is running.)
 +
 +
There are lots of other LVM commands that do many various things.  Check <code>man lvm</code> for more thorough documentation.
  
 
== Other software ==
 
== Other software ==

Revision as of 11:53, 2 July 2010

I was bored and decided to put together this page of handy info for our active sysadmins, currently GED and me. I (Simetrical) started this page on September 20, 2008, and I cynically speculate that it will get updated approximately never after that, so I've tried to keep things relatively nonspecific as to exact versions and stuff, and to provide verification procedures where possible. But take it all with a grain of salt.

If you don't have at least shell access to the TWC server, this page is almost certainly useless to you. If you at least know what shell access is, you're probably capable of understanding at least some of it. Maybe you'll find it interesting, good for you.

Rewritten on January 24, 2010. (It indeed was updated approximately never.)

Updated and expanded on June 27, 2010. (This is getting to be slightly more often than never.)

Hardware

We currently have one dedicated server, known as thor. We own all of the hardware, bought with hard-earned pennies mostly donated by the membership in a 2009 donation drive. I've provided the command necessary to get info about the component in parentheses, where applicable.

Our bandwidth is $50/Mbps/month at the 95th percentile, and we're paying for 10 Mbps uncapped. In principle, if we use more than 10 Mbps at the 95th percentile, we get charged more than $500 for the month.

Linux

The "L" in "LAMP". We use Linux because, as Simetrical will tell you, it is both technically and morally superior to Windows in every conceivable way. (Some people who currently have root access might hold different opinions.) In fact, the old server (loki) ran Linux, and it was all Simetrical knew how to administer when he was picking out the new server (odin), so it was a fairly pragmatic choice even if he wasn't a penguin-hugging open-source hippie. The same logic went for the new new server (thor), since although GrnEyedDvl was around by that point, Simetrical was the one familiar with the existing setup.

To be more precise, we use Ubuntu, mainly because it has a huge and up-to-date package repository, and also Simetrical happens to be familiar with it because he uses it at home. Both of the old servers were RHEL5, and we have no regrets about switching to Ubuntu. The output of lsb_release -a is currently

No LSB modules are available.
Distributor ID:	Ubuntu
Description:	Ubuntu 10.04 LTS
Release:	10.04
Codename:	lucid

We were originally on 8.04 LTS (Hardy), but switched to 8.10 to fix kernel problems. Later we upgraded to 10.04 LTS, although under rather unfortunate circumstances. We kind of had to upgrade because support on the non-LTS version 8.10 expired, but a major goal was also to improve disk performance by switching from ext3 to ext4. Ironically, I/O on the new OS version was slower.

lighttpd

The "A" in "LAMP". Yes, this is fairly weird, alphabetically speaking, but nobody wants to try to pronounce "LLMP". We used to use Apache, but it used way too much memory. We switched in March 2008, saved 1.5G of RAM, got perceptibly faster page load times, and never looked back. Fiddling around with random stuff for fun can pay off sometimes.

lighttpd's config file is at /etc/lighttpd/lighttpd.conf. Documentation is at the lighttpd website (config file docs are the most useful). The binary is at /usr/sbin/lighttpd. lighttpd runs as user www-data. Access and error logs are in /var/log/lighttpd/, automagically rotated by logrotate. A handy web-based server status thing is available in the secret stuff thread in the Tech Cathedral, for those with access there (it gives IP addresses of all current connections, so not fit for public consumption).

To restart lighttpd in our current setup, for instance due to new lighttpd.conf or php.ini, use this:

sudo service lighttpd restart

Actually, replace "lighttpd" with the service name (mysql, sphinxsearch, memcached, . . .) and that's basically how all service restarts work.

Restarting lighttpd usually takes a few seconds, so no perceptible downtime for most users, but it will shut down any active connections, so anyone doing a big upload/download will get an error or bogus file or something. So don't get too trigger-happy. If you're feeling really kind, you could check the server status and see if anyone's downloading anything large, but personally I don't bother. Restarts of lighttpd are fairly rare anyway.

lighttpd usually uses a few percent CPU and a few hundred megs of memory, in my experience. It runs on a single thread and doesn't run any scripts itself, so this is pretty reasonable. I wonder what the few hundred megs are for, actually, but thinking back to Apache with mod_php I'm not even going to bother looking into it.

The version is currently:

$ lighttpd -v
lighttpd/1.4.26 (ssl) - a light and fast webserver
Build-Date: Apr  6 2010 11:42:30

We previously compiled the latest version from source to take advantage of better handling of out-of-FastCGI errors, but then we upgraded to Lucid and this became unnecessary.

MySQL

This is the "M" in LAMP. MySQL is nice in some ways, like the server process is very resilient and tends not to ever crash or go into hysterics, or if it does it automatically restarts. In terms of features, such as the ability to optimize queries or use indexes in a better than semi-retarded fashion, it's probably worse than PostgreSQL. But, vBulletin only supports MySQL, like lots of other web apps, so that's what we use.

Wherever possible, we use InnoDB (robust, sophisticated, ACID-compliant, high update concurrency) instead of MyISAM (fragile, simple, non-transactional, low update concurrency, default storage engine). "Wherever possible" means "everywhere except totalwar_vb.phrase, which is a single giant row and InnoDB doesn't like that, but that like never changes anyway so who cares". InnoDB provides lots of the lovely features that users of other database engines assume exist, like transactions, granular locking, and non-blocking reads. Unfortunately vBulletin is written with MyISAM in mind and doesn't actually use, for instance, transactions, but it benefits from the high concurrency anyway. (MyISAM has only table-level locks, so updates are serialized with all other queries, which becomes hellish if you have long-running selects.)

MySQL's config is in /etc/mysql (primary config file: /etc/mysql/my.cnf). The error logging goes to /var/log/mysql/error.log. The actual databases are in /var/lib/mysql, which is on its own logical volume in LVM.

To restart MySQL, you just need to do sudo service mysql restart. This is only necessary on config file changes, and even then it's usually not necessary, you can change most settings live. Restarting MySQL takes several minutes, during which all users will get database errors and no pages requiring the database will load. InnoDB must write all changes from the transaction log to the actual data and index files before it shuts down, and this can take quite a while. Moreover, the site can be sluggish for as much as a couple of hours after a MySQL restart, because its caches will be cleared and have to repopulate.

MySQL, being a database, loves RAM, loves it very, very much. The InnoDB buffer pool (where InnoDB caches data and index pages, being a good DB engine and not trusting the fickle OS for such a sensitive task) is 5G (grep innodb_buffer_pool_size /etc/mysql/my.cnf). Miscellaneous other stuff means that MySQL usually uses around 5.5G or 6G. It will usually a bit of CPU too, although not much, and of course lots and lots of disk space.

We use the packaged version of MySQL, to wit:

$ mysql --version
mysql  Ver 14.14 Distrib 5.1.41, for debian-linux-gnu (x86_64) using readline 6.1

FastCGI

This is the "P" in LAMP. Unlike with lighttpd above, this isn't due to creative spelling. "P" stands for "PHP", and we run PHP using FastCGI. FastCGI is basically a bunch of daemons that hang around, which lighttpd asks to execute PHP scripts for it. In Apache this is typically done with mod_php instead, so Apache executes the scripts itself, but this is a terrible idea for a general-purpose web server.

I don't actually have much of any idea how FastCGI works. I just configured lighttpd to use FastCGI and it handles spawning the processes itself. To restart FastCGI, I just use the command above to restart lighttpd. I mentally categorize FastCGI with lighttpd as "the web server". So this is mostly voodoo magic to me.

The processes are /usr/bin/php-cgi. They run as the www-data user right now, since lighttpd spawns them after it setuid()s. PHP is configured in /etc/php5/cgi/php.ini. It logs warnings and errors to the syslog, /var/log/syslog. FastCGI itself I don't know how to configure, I just set all the relevant stuff (like number of processes) in lighttpd's config file. Some info on APC status (which caches PHP files) is in the secret stuff thread in the Tech Cathedral, since it allows viewing and even changing the values of the cached stuff.

FastCGI uses a crazy lot of CPU and memory. Currently it uses maybe 8G of memory and more than half our CPU at peak. There's some low-hanging fruit to be had in the CPU department, which I hope to pursue when feasible.

We use the packaged PHP version:

$ php --version
PHP 5.3.2-1ubuntu4.2 with Suhosin-Patch (cli) (built: May 13 2010 20:03:45) 
Copyright (c) 1997-2009 The PHP Group
Zend Engine v2.3.0, Copyright (c) 1998-2010 Zend Technologies

memcached

We started using memcached a little while ago, instead of XCache/APC cache. Actually we still use APC cache for one thing because we're lazy. Not much to say about it.

git

We have some git repositories lying around in various places: /etc, /usr/local/sbin, /var/www, /var/www/forums, and /var/www/fpss, for instance. The first two are owned by root, the second two are owned by www-data. The first contains site config info like the password file, so is secret; the last two contain copyrighted code, so are also secret. /usr/local/sbin and /var/www can be viewed via gitweb, so you can track all the exciting changes I make. We also have a repository in /usr/local/src/vbulletin that I move new versions into, so that the /var/www/forums git repo can use it as a reference point for the dark art of git rebase. And there are some repos in /home/aryeh . . . and maybe others lurking elsewhere. One never knows.

The purpose of git is to be version control software. This records when all changes were made, so 1) we can figure out who made each change (hint: me), 2) we can figure out when and why a change was made (my memory isn't perfect, and I might be hit by a bus), and 3) it's easy to undo changes if they prove problematic (this happens a lot). Every time some files are changed, I try to remember to record a commit at least briefly describing the changes I made. Everyone else with shell access should ideally do this too.

Some basic git commands are:

git log
This shows you a list of all commits, nicely paginated, with the most recent ones first. You can do git log -p to get the exact changes that each commit made (i.e., the diffs).
git diff
Lists what changes have been made, but not yet recorded in git. Normally this should be empty, since people are committing everything to git when they make a change, right? (Okay, kind of tricky if you only have FTP access, so I wind up committing that stuff.) This will ignore any newly-created files: those have to be explicitly committed before they'll show up.
git commit
Creates a new commit. You can do git commit -a to commit all the changes listed by git diff, or you can list exactly which files you want to commit, like git commit file1 file2 file3. (Actually you can commit parts of files too, using git add -i, but let's not go there.) Note that you have to run this command as the repository owner, so prefix it with "sudo" if the repo is owned by root, or "sudo -u www-data" if it's owned by www-data.

vBulletin

The one piece of software we use that's not free and open-source. Website is vbulletin.com. Not too much needs to be said here, because it's much easier to use than the rest of our software, with a web interface and everything. The interesting point is that our vBulletin copy has lots of extra files added, and lots of existing files hacked. You can see for yourself by doing git log in /var/www/forums. There are dozens of changes going back to 2008. When we upgrade, git will semi-magically transfer all of the changes to the new versions, if coaxed by suitable incantations. /usr/local/sbin/vbupgrade does this, but if there's a conflict, you'll have to know what you're doing to resolve it. (Or, alternatively, just get me to do the upgrade.) Minor version changes shouldn't cause conflicts, so any root should be able to do those by following the procedure. Although you'll still have to fix template conflicts.

Disk administration

This comes up a bunch, so I'll document some of this too.

mdadm: software RAID

mdadm can be used to control our RAID array. One basic useful command doesn't actually use mdadm at all: cat /proc/mdstat (sudo not required) tells you the current status of the RAID. Sample output:

$ cat /proc/mdstat
Personalities : [linear] [multipath] [raid0] [raid1] [raid10] [raid6] [raid5] [raid4] 
md0 : active raid1 sde1[0] sdb1[1]
      9767424 blocks [2/2] [UU]
      bitmap: 1/1 pages [4KB], 65536KB chunk

md1 : active raid1 sde2[0] sdb2[1]
      478616448 blocks [2/2] [UU]
      bitmap: 7/29 pages [28KB], 8192KB chunk

md2 : active raid10 sdc3[0]
      292230144 blocks super 1.1 512K chunks 2 far-copies [2/1] [U_]
      bitmap: 3/3 pages [12KB], 65536KB chunk

unused devices: <none>

The RAID arrays are the things named "md0", "md1", and "md2". It tells you what type of RAID that array uses (here raid1 or raid10), and what disks are being used for each array (sde1, sdb1, sde2, etc.). The second line for each device contains some critical info, namely whether there are any missing devices. The [UU] in the first two arrays here tells us that the array is supposed to have two devices and they're both present. The [U_] in the last one says that it's supposed to have two devices, but one (represented by an underscore) is missing. This is bad, since it means that if the second disk fails, we'll lose data.

If RAID is resyncing, that file will contain information about how fast the resync is going and when it's expected to complete. In this case, watch cat /proc/mdstat is useful: it will display the file's contents on your screen and refresh it every few seconds, so the resync progress shows up in real time.

For actually using mdadm, the most important thing to know is how to handle a failed disk. First you need to figure out which array had a device failure. One disk failure might mean multiple device failures, if one disk is part of multiple arrays. For instance, in the above output, failure of sdb would mean that sdb1 and sdb2 would both fail, and you'd need to handle both failures separately.

Let's say that you check /proc/mdstat and find that sdg1 has failed in the array md7. It will have an "(F)" after its name on the first status line. The first thing you need to do is remove it: sudo mdadm /dev/md7 --remove failed. Then you can try re-adding it with sudo mdadm /dev/md7 --add /dev/sdg1. If you're lucky, this will work, and it will start resyncing. If not, probably sdg will have to be physically replaced, and then the "--add" command will have to be run on its successor, after that's partitioned.

For more info on mdadm, as always, check the man page. There are a ton of options, and there's no room to explain them all here.

LVM: logical volume management

Most of our filesystems don't lie directly on top of a RAID array. Instead, we have the RAID array on top of a disk partition, then on top of the RAID array we have an LVM "volume group" (VG). Within the volume group, we have "logical volumes" (LVs), which we then put filesystems on. The advantage here is that we can expand a logical volume and the filesystem on top of it without repartitioning. Also, a volume group can have multiple "physical volumes" (PVs), i.e., it can be placed on top of a bunch of devices. Logical volumes can be moved between the devices while they're in use, so we don't need to shut down the server to move data around when we change our disk configuration. There are other uses of LVM too, like snapshots, although we don't use those right now.

Three useful commands (must be run as root) are vgdisplay, pvdisplay, and lvdisplay, to show info about current VGs, PVs, and LVs respectively:

$ sudo vgdisplay
  --- Volume group ---
  VG Name               LVM
  System ID             
  Format                lvm2
  Metadata Areas        2
  Metadata Sequence No  65
  VG Access             read/write
  VG Status             resizable
  MAX LV                0
  Cur LV                6
  Open LV               6
  Max PV                0
  Cur PV                2
  Act PV                2
  VG Size               735.13 GiB
  PE Size               4.00 MiB
  Total PE              188194
  Alloc PE / Size       122112 / 477.00 GiB
  Free  PE / Size       66082 / 258.13 GiB
  VG UUID               dDcYBl-qdYn-6TJ3-8MwN-AfYH-l0SD-9GamfZ
   
0 11:46:25 ~$ sudo pvdisplay
  --- Physical volume ---
  PV Name               /dev/md1
  VG Name               LVM
  PV Size               456.44 GiB / not usable 2.88 MiB
  Allocatable           yes 
  PE Size               4.00 MiB
  Total PE              116849
  Free PE               45169
  Allocated PE          71680
  PV UUID               WKOVus-9kwU-8wpz-W90s-pmt1-gJAR-wrAw1Y
   
  --- Physical volume ---
  PV Name               /dev/md2
  VG Name               LVM
  PV Size               278.69 GiB / not usable 1.00 MiB
  Allocatable           yes 
  PE Size               4.00 MiB
  Total PE              71345
  Free PE               20913
  Allocated PE          50432
  PV UUID               4ALWTX-serI-HoHN-tzUk-jy9H-4rk4-cvXMXr
   
0 11:46:29 ~$ sudo lvdisplay
  --- Logical volume ---
  LV Name                /dev/LVM/www
  VG Name                LVM
  LV UUID                C1i8qg-Isi2-o35Q-2OTd-2i21-vrz9-7xwXbp
  LV Write Access        read/write
  LV Status              available
  # open                 1
  LV Size                5.00 GiB
  Current LE             1280
  Segments               1
  Allocation             inherit
  Read ahead sectors     auto
  - currently set to     4096
  Block device           251:0
   
  --- Logical volume ---
  LV Name                /dev/LVM/userfiles
  VG Name                LVM
  LV UUID                PYeTEP-rEj2-x2kF-anh7-AMUL-3Wkw-m5RDnO
  LV Write Access        read/write
  LV Status              available
  # open                 1
  LV Size                95.00 GiB
  Current LE             24320
  Segments               3
  Allocation             inherit
  Read ahead sectors     auto
  - currently set to     256
  Block device           251:2
   
  --- Logical volume ---
  LV Name                /dev/LVM/log
  VG Name                LVM
  LV UUID                sPBgWF-l5Xl-GoJW-ys8h-WXEA-Ef9k-0ZG1cN
  LV Write Access        read/write
  LV Status              available
  # open                 1
  LV Size                100.00 GiB
  Current LE             25600
  Segments               2
  Allocation             inherit
  Read ahead sectors     auto
  - currently set to     256
  Block device           251:3
   
  --- Logical volume ---
  LV Name                /dev/LVM/mysql
  VG Name                LVM
  LV UUID                LnDgLQ-9rLv-FJxc-k3pd-ngxK-xWfX-acSc1P
  LV Write Access        read/write
  LV Status              available
  # open                 1
  LV Size                80.00 GiB
  Current LE             20480
  Segments               2
  Allocation             inherit
  Read ahead sectors     auto
  - currently set to     4096
  Block device           251:1
   
  --- Logical volume ---
  LV Name                /dev/LVM/backup
  VG Name                LVM
  LV UUID                RcfHSo-ftce-OVx5-7QTZ-Wdtv-owWX-xxLIBm
  LV Write Access        read/write
  LV Status              available
  # open                 1
  LV Size                182.00 GiB
  Current LE             46592
  Segments               1
  Allocation             inherit
  Read ahead sectors     auto
  - currently set to     4096
  Block device           251:4
   
  --- Logical volume ---
  LV Name                /dev/LVM/sphinx
  VG Name                LVM
  LV UUID                Wjukbc-BxSe-swqy-wOBd-n2Yg-z8tX-oxz7e2
  LV Write Access        read/write
  LV Status              available
  # open                 1
  LV Size                15.00 GiB
  Current LE             3840
  Segments               2
  Allocation             inherit
  Read ahead sectors     auto
  - currently set to     4096
  Block device           251:5

Most of that is probably incomprehensible, but some important parts (like "Size") should make some sense. Notice that we have only one volume group, called "LVM", and all PVs are part of it. This lets us freely move LVs between them.

The command to extend a logical volume is sudo lvextend -L+XXG /dev/LVM/something, where XX is the number of gigabytes you want to extend it by, and something is the LV name. After you do this, you'll have to do sudo resize2fs /dev/LVM/something to grow the filesystem itself. Be parsimonious here: you can grow an ext4 filesystem without downtime, but you can't shrink it without unmounting it. We don't want to use up the free space in the volume group and then have to take the site down for half an hour to free space up. (This is why /dev/LVM/log is 100 gigabytes: it was grown too much because access logs were using up a lot of space at that particular moment, and now it can't be shrunk without a reboot, since programs will want to write log files as long as the system is running.)

There are lots of other LVM commands that do many various things. Check man lvm for more thorough documentation.

Other software

Most of the rest of our software doesn't have much to discuss. We have no software installed from source right now (not counting web apps like vB), it's all packaged. I wrote some scripts in /usr/local/sbin:

$ ls /usr/local/sbin
7zdl           bwsumm-dl      dlswitch    profile-proc  vbupgrade
bwsumm         bwsumm-totals  groupedsum  reindex.sh
bwsumm-attach  dbbackup.sh    lockupmon   rotate.sh

Actually, a few of those are originally based on scripts I got from elsewhere, namely reindex.sh, rotate.sh, and dbbackup.sh.