Difference between revisions of "TCP-Tuning"
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− | This page describes how to enhance the performance of data transfers. It mainly focus on the | + | This page describes how to enhance the performance of data transfers between distant computing sites. It mainly focus on the tuning of Linux kernel parameters, leading to the improvement of TCP and disk I/O performances. Additional informations specific to hardware retailers are detailed at the end of the document. |
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= TCP Performance = | = TCP Performance = | ||
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== Quattor == | == Quattor == | ||
The [http://lcg.in2p3.fr/wiki/images/Quattor_tcp_tuning.pdf Quattor TCP Tuning guide] aims to be a good documentation for helping you tuning your TCP Performance with Quattor. | The [http://lcg.in2p3.fr/wiki/images/Quattor_tcp_tuning.pdf Quattor TCP Tuning guide] aims to be a good documentation for helping you tuning your TCP Performance with Quattor. | ||
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== Kernel tuning == | == Kernel tuning == | ||
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* http://onlamp.com/pub/a/onlamp/2005/11/17/tcp_tuning.html | * http://onlamp.com/pub/a/onlamp/2005/11/17/tcp_tuning.html | ||
* http://en.wikipedia.org/wiki/TCP_tuning | * http://en.wikipedia.org/wiki/TCP_tuning | ||
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= Tuning disk I/O = | = Tuning disk I/O = | ||
+ | |||
+ | This section details disk I/O tuning. The benchmarking of disk is detailed on a [[Storage-Benches|separate page]]. | ||
== Kernel tuning == | == Kernel tuning == | ||
− | + | Few kernel parameters have a big impact on I/O performance: | |
− | + | * getra | |
− | + | * queue_depth | |
− | + | * nr_request | |
− | * getra | + | * scheduler |
− | * queue_depth | ||
− | * | ||
− | * scheduler | ||
− | |||
− | |||
+ | To get your current configuration (i. e. on a /dev/sdb disk): | ||
<pre> | <pre> | ||
blockdev --getra /dev/sdb | blockdev --getra /dev/sdb | ||
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</pre> | </pre> | ||
− | + | To modify your current configuration: | |
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<pre> | <pre> | ||
blockdev=sdb | blockdev=sdb | ||
− | blockdev --setra 16384 /dev/$ | + | blockdev --setra 16384 /dev/$sdb |
− | echo 512 > /sys/block/ | + | echo 512 > /sys/block/sdb/queue/nr_requests |
− | echo deadline > /sys/block/ | + | echo deadline > /sys/block/sdb/queue/scheduler |
− | echo 256 > /sys/block/ | + | echo 256 > /sys/block/sdb/device/queue_depth |
</pre> | </pre> | ||
− | + | Note that for the queue_depth parameter, there is a maximal value (i.e. for the old Sun X4500 server, the queue_depth cannot 31). | |
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− | + | Tuning the kernel parameters should be done for each block devices on each boot. The most simple is to create a script that can be called on boot and that set the parameters for each device. Below is an example of such a script used at [http://ipnwww.in2p3.fr/|IPNO]. | |
<pre> | <pre> | ||
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#!/bin/bash | #!/bin/bash | ||
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=== R510 + PowerVault MD1200 === | === R510 + PowerVault MD1200 === | ||
− | * RAID | + | * RAID with a stripe size of 1MB and using the adaptive read ahead mode |
+ | * XFS filesystem (take care of partition alignment and use <code>noatime</code> mount option) | ||
+ | * Increase the read_ahead kernel parameter | ||
+ | * Modify the scheduler and the number of request | ||
− | + | Filesystem tuning: | |
− | |||
<pre> | <pre> | ||
− | #parted /dev/sdb mklabel gpt | + | # parted /dev/sdb mklabel gpt |
− | #parted /dev/sdb mkpart primary xfs 1m 50% | + | # parted /dev/sdb mkpart primary xfs 1m 50% |
− | #parted /dev/sdb mkpart primary xfs 50% 100% | + | # parted /dev/sdb mkpart primary xfs 50% 100% |
# mkfs.xfs -d su=1m,sw=10 /dev/sdb1 -L R510_sdb1 | # mkfs.xfs -d su=1m,sw=10 /dev/sdb1 -L R510_sdb1 | ||
# mkfs.xfs -d su=1m,sw=10 /dev/sdb2 -L R510_sdb2 | # mkfs.xfs -d su=1m,sw=10 /dev/sdb2 -L R510_sdb2 | ||
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</pre> | </pre> | ||
− | + | Kernel tuning: | |
− | |||
− | |||
<pre> | <pre> | ||
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In order to enhance the performance of the MDS 600 based systems, the following tunings have been applied: | In order to enhance the performance of the MDS 600 based systems, the following tunings have been applied: | ||
− | * Upgrading the hard disk firmware (HPD3). All hard disks should have the same firmware version | + | * Upgrading the hard disk firmware (HPD3). All hard disks should have the same firmware version |
− | * | + | * Change the power management profile (max cpu power) |
− | * | + | * Use XFS filesystem aligned with the RAID strip |
+ | * Use RAID units composed of 5 disks wisely selected on different columns | ||
+ | * Use the following kernel parameters for each disk: | ||
<pre> | <pre> | ||
echo "cfq" > /sys/block/cciss\!${disk}/queue/scheduler | echo "cfq" > /sys/block/cciss\!${disk}/queue/scheduler | ||
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echo 4096 > /sys/block/cciss\!${disk}/queue/read_ahead_kb | echo 4096 > /sys/block/cciss\!${disk}/queue/read_ahead_kb | ||
</pre> | </pre> | ||
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Latest revision as of 13:08, 24 juin 2016
This page describes how to enhance the performance of data transfers between distant computing sites. It mainly focus on the tuning of Linux kernel parameters, leading to the improvement of TCP and disk I/O performances. Additional informations specific to hardware retailers are detailed at the end of the document.
Sommaire
TCP Performance
Quattor
The Quattor TCP Tuning guide aims to be a good documentation for helping you tuning your TCP Performance with Quattor.
Kernel tuning
The following parameters are important for TCP tuning:
net.ipv4.tcp_rmem
net.ipv4.tcp_wmem
net.core.rmem_default
net.core.wmem_default
net.core.rmem_max
net.core.wmem_max
net.ipv4.tcp_dsack
net.ipv4.tcp_sack
net.ipv4.tcp_timestamps
net.core.netdev_max_backlog
They can be modified:
- By directly passing the parameter to the sysctl command. This method is useful for testing a parameter, as the modification will not persist after the next reboot.
- By adding the parameter to the
/etc/sysctl.conf
file and loading it with the sysctl command. This way is interesting when you want to preserve the modification over a reboot.
The following values are recommended:
net.ipv4.tcp_rmem = 131072 1048576 2097152
net.ipv4.tcp_wmem = 131072 1048576 2097152
net.core.rmem_default = 1048576
net.core.wmem_default = 1048576
net.core.rmem_max = 2097152
net.core.wmem_max = 2097152
net.ipv4.tcp_dsack = 0
net.ipv4.tcp_sack = 0
net.ipv4.tcp_timestamps = 0
net.core.netdev_max_backlog = 10000
External links
- http://fasterdata.es.net/
- http://monalisa.cern.ch/FDT/documentation_syssettings.html
- http://indico.cern.ch/contributionDisplay.py?sessionId=31&contribId=55&confId=61917
- http://www.psc.edu/networking/projects/tcptune/
- http://onlamp.com/pub/a/onlamp/2005/11/17/tcp_tuning.html
- http://en.wikipedia.org/wiki/TCP_tuning
Tuning disk I/O
This section details disk I/O tuning. The benchmarking of disk is detailed on a separate page.
Kernel tuning
Few kernel parameters have a big impact on I/O performance:
- getra
- queue_depth
- nr_request
- scheduler
To get your current configuration (i. e. on a /dev/sdb disk):
blockdev --getra /dev/sdb cat /sys/block/sdb/device/queue_depth cat /sys/block/sdb/queue/nr_requests cat /sys/block/sdb/queue/scheduler
To modify your current configuration:
blockdev=sdb blockdev --setra 16384 /dev/$sdb echo 512 > /sys/block/sdb/queue/nr_requests echo deadline > /sys/block/sdb/queue/scheduler echo 256 > /sys/block/sdb/device/queue_depth
Note that for the queue_depth parameter, there is a maximal value (i.e. for the old Sun X4500 server, the queue_depth cannot 31).
Tuning the kernel parameters should be done for each block devices on each boot. The most simple is to create a script that can be called on boot and that set the parameters for each device. Below is an example of such a script used at [1].
#!/bin/bash function f_get_disks_list { # Obtenir la liste des disques de donnes # Je suppose qu'il n'y a pas de melange RAID linux (/dev/mdXX) et hardware (/dev/sdXX) sur la meme machine # On supprime les disques systemes de la liste fournie par df # Liste des disks avec le type de fs (xfs, ext3, ext4) local l_disks_type_list=$(df -P -T |egrep -v "Filesystem|\/$|\/opt|\/tmp|\/var|\/usr|\/boot|tmpfs|varvol|tmpvol|usrvol|optvol" |egrep 'xfs|ext4|ext3' | awk '{print $1 " " $2 }') echo ${l_disks_type_list} } function f_tune_io { # Usage : f_tune_io block_device # Exemple : f_tune_io.sh sdb [ $# != 1 ] && echo "Usage: f_tune_io block_device" && return 1 local blockdev=$1 #echo ${blockdev} echo "....................... Avant le tuning .........................." f_check_tune ${blockdev} QUEUE_DEPTH=$(cat /sys/block/${blockdev}/device/queue_depth) [ $QUEUE_DEPTH -lt 128 ] && QUEUE_DEPTH=128 # si c'est plus grand on le garde dmidecode -s system-product-name | egrep -q 'Sun Fire X4500' [ $? -eq 0 ] && QUEUE_DEPTH=31 dmidecode -s system-product-name | egrep -q 'Sun Fire X4540' [ $? -eq 0 ] && QUEUE_DEPTH=127 echo ${QUEUE_DEPTH} > /sys/block/${blockdev}/device/queue_depth # 31 sur les SUN X4500, 128 ou 256 sur Dell echo 512 > /sys/block/${blockdev}/queue/nr_requests # (au lieu de 128) echo deadline > /sys/block/${blockdev}/queue/scheduler #(au lieu de cfq) blockdev --setra 16384 /dev/${blockdev} #(au lieu de 256) echo "....................... Apres le tuning .........................." f_check_tune ${blockdev} } function f_tune_md_io { # Usage : f_tune_md_io md_device # Exemple : f_tune_md_io .sh md11 [ $# != 1 ] && echo "Usage: $0 md_device. Exemple: f_tune_md_io md11" && return 1 local mddev=$1 echo "+++++++++++++++++++++++++ MD DEVICE = ${mddev} +++++++++++++++++++++++" local disks=$(mdadm --query --detail /dev/${mddev}|grep 'active sync'|awk '{print $NF}') local i local j for i in ${disks}; do # /dev/sde1 deviendra sde j=$(echo $i | awk -F/ '{print $NF}') # /dev/sde1 ==> sde1 j=${j%%[0-9]} # sde1 ==> sde echo "Tuning ${j} ....................................................." f_tune_io $j done } function f_check_tune { # Usage : f_check_tune block_device # Exemple : f_check_tune sdb [ $# != 1 ] && echo "Usage: f_check_tune block_device. Exemple: f_check_tune sdb" && return 1 local i=$1 echo -n "blockdev --getra /dev/$i : " blockdev --getra /dev/$i echo -n "cat /sys/block/$i/device/queue_depth : " cat /sys/block/$i/device/queue_depth echo -n "cat /sys/block/$i/queue/nr_requests : " cat /sys/block/$i/queue/nr_requests echo -n "cat /sys/block/$i/queue/scheduler : " cat /sys/block/$i/queue/scheduler } # Debut tuning echo " ======= I/O tuning : $(date) ======= " disks_type_list=$(f_get_disks_list) disks_list=$(echo ${disks_type_list} | sed -e 's/\b\(xfs\|ext4\|ext3\)\b//g' |sort -u) echo ${disks_list} #NB: effet su sed :remplace par exemple /dev/sda1 par sda sd_devices=$(echo ${disks_list} | grep "\/dev\/sd" | sed 's/\(\/dev\/\|[0-9]\)//g' | tr '[:space:]' "\n" | sort -u | tr "\n" " ") #NB: effet su sed :remplace par exemple /dev/md11 par md11 md_devices=$(echo ${disks_list} | grep "\/dev\/md" | sed 's/\/dev\///g') lvm_devices=$(echo ${disks_list} | grep "\/dev\/mapper") echo "sd_devices = ${sd_devices}" echo "md_devices = ${md_devices}" echo "lvm_devices = ${lvm_devices}" [ ! -z "${sd_devices}" ] && for d in ${sd_devices}; do echo f_tune_io ${d} f_tune_io ${d} done [ ! -z "${md_devices}" ] && for d in ${md_devices}; do echo f_tune_md_io ${d} f_tune_md_io ${d} done # Rechercher les VG puis les PV et les disque entiers puis tuner #[ ! -z "${lvm_devices}" ] && for d in ${lvm_devices}; do # echo "tune_lvm_io ${d} not implemented yet" #done
External links
- https://access.redhat.com/documentation/en-US/Red_Hat_Enterprise_Linux/6/html/Performance_Tuning_Guide/main-io.html
- https://access.redhat.com/documentation/en-US/Red_Hat_Enterprise_Linux/6/html/Performance_Tuning_Guide/main-fs.html
- http://www.gluster.org/community/documentation/index.php/Linux_Kernel_Tuning
- http://insights.oetiker.ch/linux/raidoptimization/
- http://mylabfr.kaminoweb.com/increase-disk-queue-depth-on-linux/
- http://www.redhat.com/magazine/008jun05/features/schedulers/
Hardware recommendations
DELL Systems
R510 + PowerVault MD1200
- RAID with a stripe size of 1MB and using the adaptive read ahead mode
- XFS filesystem (take care of partition alignment and use
noatime
mount option) - Increase the read_ahead kernel parameter
- Modify the scheduler and the number of request
Filesystem tuning:
# parted /dev/sdb mklabel gpt # parted /dev/sdb mkpart primary xfs 1m 50% # parted /dev/sdb mkpart primary xfs 50% 100% # mkfs.xfs -d su=1m,sw=10 /dev/sdb1 -L R510_sdb1 # mkfs.xfs -d su=1m,sw=10 /dev/sdb2 -L R510_sdb2 # cat /etc/fstab | grep noatime LABEL=R510_sdb1 /fs1 xfs defaults,noatime 0 0 LABEL=R510_sdb2 /fs2 xfs defaults,noatime 0 0
Kernel tuning:
# tail -6 /etc/rc.d/rc.local blockdev --setra 16384 /dev/sdb blockdev --setra 16384 /dev/sdc echo 512 > /sys/block/sdb/queue/nr_requests echo 512 > /sys/block/sdc/queue/nr_requests echo deadline > /sys/block/sdb/queue/scheduler echo deadline > /sys/block/sdc/queue/scheduler
HP Systems
MDS 600 based system
In order to enhance the performance of the MDS 600 based systems, the following tunings have been applied:
- Upgrading the hard disk firmware (HPD3). All hard disks should have the same firmware version
- Change the power management profile (max cpu power)
- Use XFS filesystem aligned with the RAID strip
- Use RAID units composed of 5 disks wisely selected on different columns
- Use the following kernel parameters for each disk:
echo "cfq" > /sys/block/cciss\!${disk}/queue/scheduler echo 256 > /sys/block/cciss\!${disk}/queue/nr_requests echo 4096 > /sys/block/cciss\!${disk}/queue/read_ahead_kb