Difference between revisions of "Checking for swappers on XenServer"
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− | This article will outline the steps I take to check for swappers on my ''XenServer'' and ''XenClassic'' setups. | + | This article will outline the steps I take to check for [[Linux swap space|swappers]] on my ''XenServer'' and ''XenClassic'' setups. |
==''XenServer''== | ==''XenServer''== | ||
− | + | * Log into the host the slice/instance is located on | |
− | * Log into the host the slice/ | + | |
* Run <code>iostat</code> to check for any swappers on this host: | * Run <code>iostat</code> to check for any swappers on this host: | ||
− | iostat -xkd 1 | + | $ iostat -xkd 1 |
+ | |||
* If swappers are found, cat the device of the slice to get its minor number: | * If swappers are found, cat the device of the slice to get its minor number: | ||
− | cat /sys/block/tdk/dev | + | $ cat /sys/block/tdk/dev |
+ | 432:20 # this is the major:minor number of the device | ||
+ | |||
* Get the UUID for this slice | * Get the UUID for this slice | ||
− | tap-ctl list | grep minor=20 | + | |
+ | The <code>`tap-ctl list`</code> command can be used to list all VHDs in use along with their minor version number and the process id of the tapdisk2 process that is responsible for identifying this <code>.vhd</code> file | ||
+ | |||
+ | $ tap-ctl list | grep minor=20 | ||
# ~OR~ | # ~OR~ | ||
− | tap-ctl list -m 20 | + | $ tap-ctl list -m 20 |
+ | pid=12912 minor=20 state=0 args=vhd:/var/run/sr-mount/eee-eee-eee-eee-eee/fff-fff-fff-fff-fff.vhd | ||
+ | |||
+ | <code>`tap-ctl list`</code> will help you identify the <code>.vhd</code> file or the UUID of the VDI, which is responsible for the slice pushing heavy IO operations. In the above example, the <code>vdi-uuid=fff-fff-fff-fff-fff</code>. | ||
+ | |||
* Check if this slice is a "swap" partition (make sure it is _not_ a root partition!): | * Check if this slice is a "swap" partition (make sure it is _not_ a root partition!): | ||
− | xe vdi-list uuid= | + | $ xe vdi-list uuid=fff-fff-fff-fff-fff |
+ | uuid ( RO) : fff-fff-fff-fff-fff | ||
+ | name-label ( RW): slice01234_swap | ||
+ | name-description ( RW): | ||
+ | sr-uuid ( RO): 76fa2a40-5729-1297-a4d8-38df5ea4128c | ||
+ | virtual-size ( RO): 163208757248 | ||
+ | sharable ( RO): false | ||
+ | read-only ( RO): false | ||
* Check to make sure no other tasks are currently being performed on this host (except for "pending: reboot"-like statuses): | * Check to make sure no other tasks are currently being performed on this host (except for "pending: reboot"-like statuses): | ||
xe task-list | xe task-list | ||
− | * Now force a reboot | + | * Now force a reboot: |
xe vm-reboot --force name-label=slice01234 | xe vm-reboot --force name-label=slice01234 | ||
* Check that the slice has actually rebooted: | * Check that the slice has actually rebooted: | ||
xe vm-list name-label=slice01234 params=start-time | xe vm-list name-label=slice01234 params=start-time | ||
− | * Verify that the output from the last command is within the current timestamp | + | * Verify that the output from the last command is within the current timestamp (UTC): |
− | date | + | date -u |
+ | * As a final step, you can bring up the slice's console to check for any errors, problems, or wait times (e.g., [[fsck]]ing): | ||
+ | xl console slice01234 | ||
− | That | + | That is it! You have successfully killed a swapper and brought the slice back up to a normal load. |
* The following does the same as the above (without rebooting) as a single CLI script: | * The following does the same as the above (without rebooting) as a single CLI script: | ||
Line 41: | Line 59: | ||
This is how you do the above on a ''XenClassic'' setup. | This is how you do the above on a ''XenClassic'' setup. | ||
− | + | * Log into the host the slice/instance is located on | |
− | * Log into the host the slice/ | + | |
* Run <code>iostat</code> to check for any swappers on this host: | * Run <code>iostat</code> to check for any swappers on this host: | ||
iostat -xkd 1 | iostat -xkd 1 | ||
* If swappers are found, list the device mapper for this slice: | * If swappers are found, list the device mapper for this slice: | ||
ls -l /dev/mapper/ | grep ' 20 ' | ls -l /dev/mapper/ | grep ' 20 ' | ||
− | * Now "destroy" that slice (we are not permanently destroying this device, that | + | * Now "destroy" that slice (we are not permanently destroying this device, that is just the terminology): |
xm destroy slice01234 | xm destroy slice01234 | ||
* Finally, re-create this slice (this takes information from a configuration flatfile found under <code>/etc/xen/slice01234</code>): | * Finally, re-create this slice (this takes information from a configuration flatfile found under <code>/etc/xen/slice01234</code>): | ||
Line 54: | Line 71: | ||
xm console slice01234 | xm console slice01234 | ||
− | That | + | That is it! You have successfully killed a swapper and brought the slice back up to a normal load. |
We can accomplish the above with a single script (well, a series of CLI calls) like so: | We can accomplish the above with a single script (well, a series of CLI calls) like so: | ||
Line 72: | Line 89: | ||
xm destroy slice01234 && xm create slice01234 && xm console slice01234 | xm destroy slice01234 && xm create slice01234 && xm console slice01234 | ||
− | ===XenClassic slice configuration file=== | + | ===''XenClassic'' slice configuration file=== |
− | Below is an example of what a slice configuration flatfile (which is, by default, located at <code>/etc/xen/slice01234</code>) | + | Below is an example of what a ''XenClassic'' slice configuration flatfile would look like (which is, by default, located at <code>/etc/xen/slice01234</code>): |
name="slice01234" | name="slice01234" | ||
memory=512 | memory=512 |
Latest revision as of 04:49, 30 October 2013
This article will outline the steps I take to check for swappers on my XenServer and XenClassic setups.
XenServer
- Log into the host the slice/instance is located on
- Run
iostat
to check for any swappers on this host:
$ iostat -xkd 1
- If swappers are found, cat the device of the slice to get its minor number:
$ cat /sys/block/tdk/dev 432:20 # this is the major:minor number of the device
- Get the UUID for this slice
The `tap-ctl list`
command can be used to list all VHDs in use along with their minor version number and the process id of the tapdisk2 process that is responsible for identifying this .vhd
file
$ tap-ctl list | grep minor=20 # ~OR~ $ tap-ctl list -m 20 pid=12912 minor=20 state=0 args=vhd:/var/run/sr-mount/eee-eee-eee-eee-eee/fff-fff-fff-fff-fff.vhd
`tap-ctl list`
will help you identify the .vhd
file or the UUID of the VDI, which is responsible for the slice pushing heavy IO operations. In the above example, the vdi-uuid=fff-fff-fff-fff-fff
.
- Check if this slice is a "swap" partition (make sure it is _not_ a root partition!):
$ xe vdi-list uuid=fff-fff-fff-fff-fff uuid ( RO) : fff-fff-fff-fff-fff name-label ( RW): slice01234_swap name-description ( RW): sr-uuid ( RO): 76fa2a40-5729-1297-a4d8-38df5ea4128c virtual-size ( RO): 163208757248 sharable ( RO): false read-only ( RO): false
- Check to make sure no other tasks are currently being performed on this host (except for "pending: reboot"-like statuses):
xe task-list
- Now force a reboot:
xe vm-reboot --force name-label=slice01234
- Check that the slice has actually rebooted:
xe vm-list name-label=slice01234 params=start-time
- Verify that the output from the last command is within the current timestamp (UTC):
date -u
- As a final step, you can bring up the slice's console to check for any errors, problems, or wait times (e.g., fscking):
xl console slice01234
That is it! You have successfully killed a swapper and brought the slice back up to a normal load.
- The following does the same as the above (without rebooting) as a single CLI script:
(echo "Slice IO_Read IO_Write Total"; \ (for uuid in $(xe vbd-list params=uuid | awk '$5{print $5}'); do \ xe vbd-param-list uuid=$uuid | grep -P "^\s*(io_|vm-name-label|device)" | \ awk '{if($1=="vm-name-label") name=$4; \ if($1=="device") {\ if($4=="xvdc" || $4=="xvdd") name=name"-swap"; \ if($4=="xvda" || $4=="xvdb") name=name"-root";} \ if($1=="io_read_kbs") ioread=$4; \ if($1=="io_write_kbs") iowrite=$4}\ END{if(substr(name,0,9)!="XenServer") print name" "ioread" "iowrite" "ioread+iowrite}';\ done) | sort -k4n) | column -t
XenClassic
This is how you do the above on a XenClassic setup.
- Log into the host the slice/instance is located on
- Run
iostat
to check for any swappers on this host:
iostat -xkd 1
- If swappers are found, list the device mapper for this slice:
ls -l /dev/mapper/ | grep ' 20 '
- Now "destroy" that slice (we are not permanently destroying this device, that is just the terminology):
xm destroy slice01234
- Finally, re-create this slice (this takes information from a configuration flatfile found under
/etc/xen/slice01234
):
xm create slice01234
- You can check that the server has fully booted back up with the following command:
xm console slice01234
That is it! You have successfully killed a swapper and brought the slice back up to a normal load.
We can accomplish the above with a single script (well, a series of CLI calls) like so:
(echo "device name tps MB_read/s MB_write/s MB_total/s";\ (ls -l /dev/mapper/; iostat -m 1 2) |\ awk 'BEGIN {section=0} {\ if($3=="root") devices[$6]=$9;\ if($1=="Device:") section++;\ else if(section==2 && $0) {\ dev=$1; tps=$2; read=$3; write=$4;\ if(substr(dev,1,2)=="dm") {split(dev,parts,"-"); name=devices[parts[2]]} \ if(!name) name="unknown";\ print dev" "name" "tps" "read" "write" "read+write}}' |\ sort -k3n) | column -t
And, if the above command(s) return a slice id, then execute:
xm destroy slice01234 && xm create slice01234 && xm console slice01234
XenClassic slice configuration file
Below is an example of what a XenClassic slice configuration flatfile would look like (which is, by default, located at /etc/xen/slice01234
):
name="slice01234" memory=512 vcpus=4 kernel="/etc/xen/seeds/01/vmlinuz-2.6.35.4-generic" ramdisk="/etc/xen/seeds/01/initrd.img-2.6.35.4-generic" vif=['bridge=eth0, ip=xxx.xxx.xxx.xxx, mac=4f:d0:c4:10:ab:0c','bridge=eth1, ip=10.x.x.x, mac=4f:e0:29:9f:c3:fe'] disk=[ 'phy:slices/slice01234_root,sda1,w', 'phy:slices/slice01234_swap,sda2,w' ] root="/dev/sda1 ro" cpu_weight=512 extra="xencons=tty console=tty1 clocksource=acpi_pm "
where,
- memory = how much RAM should be allocated for the slice
- vcpus = number of virtual CPU's that should appear within the customer's environment (default: 4)
- kernel = which kernel seed the slice should use
- ramdisk = the initrd that corresponds to the kernel being used by the slice
- vif = sets IP's and MAC addresses for the various network interfaces on the slice
- disk = the storage volumes that the slice will use
- root = the storage volume that should be used as the root filesystem
- cpu_weight = helps to calculate the slice's share of the CPU (equal to RAM)
- extra_ips = if the slice has additional IP's, they will be listed here
- extra = additional Xen settings