title | summary | aliases | |
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TiDB Environment and System Configuration Check |
Learn the environment check operations before deploying TiDB. |
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This document describes the environment check operations before deploying TiDB. The following steps are ordered by priorities.
For production deployments, it is recommended to use NVMe SSD of EXT4 filesystem to store TiKV data. This configuration is the best practice, whose reliability, security, and stability have been proven in a large number of online scenarios.
Log in to the target machines using the root
user account.
Format your data disks to the ext4 filesystem and add the nodelalloc
and noatime
mount options to the filesystem. It is required to add the nodelalloc
option, or else the TiUP deployment cannot pass the precheck. The noatime
option is optional.
Note:
If your data disks have been formatted to ext4 and have added the mount options, you can uninstall it by running the
umount /dev/nvme0n1p1
command, skip directly to the fifth step below to edit the/etc/fstab
file, and add the options again to the filesystem.
Take the /dev/nvme0n1
data disk as an example:
-
View the data disk.
{{< copyable "shell-root" >}}
fdisk -l
Disk /dev/nvme0n1: 1000 GB
-
Create the partition.
{{< copyable "shell-root" >}}
parted -s -a optimal /dev/nvme0n1 mklabel gpt -- mkpart primary ext4 1 -1
Note:
Use the
lsblk
command to view the device number of the partition: for a NVMe disk, the generated device number is usuallynvme0n1p1
; for a regular disk (for example,/dev/sdb
), the generated device number is usuallysdb1
. -
Format the data disk to the ext4 filesystem.
{{< copyable "shell-root" >}}
mkfs.ext4 /dev/nvme0n1p1
-
View the partition UUID of the data disk.
In this example, the UUID of nvme0n1p1 is
c51eb23b-195c-4061-92a9-3fad812cc12f
.{{< copyable "shell-root" >}}
lsblk -f
NAME FSTYPE LABEL UUID MOUNTPOINT sda ├─sda1 ext4 237b634b-a565-477b-8371-6dff0c41f5ab /boot ├─sda2 swap f414c5c0-f823-4bb1-8fdf-e531173a72ed └─sda3 ext4 547909c1-398d-4696-94c6-03e43e317b60 / sr0 nvme0n1 └─nvme0n1p1 ext4 c51eb23b-195c-4061-92a9-3fad812cc12f
-
Edit the
/etc/fstab
file and add thenodelalloc
mount options.{{< copyable "shell-root" >}}
vi /etc/fstab
UUID=c51eb23b-195c-4061-92a9-3fad812cc12f /data1 ext4 defaults,nodelalloc,noatime 0 2
-
Mount the data disk.
{{< copyable "shell-root" >}}
mkdir /data1 && \ mount -a
-
Check using the following command.
{{< copyable "shell-root" >}}
mount -t ext4
/dev/nvme0n1p1 on /data1 type ext4 (rw,noatime,nodelalloc,data=ordered)
If the filesystem is ext4 and
nodelalloc
is included in the mount options, you have successfully mount the data disk ext4 filesystem with options on the target machines.
This section describes how to disable swap.
TiDB requires sufficient memory space for operation. It is not recommended to use swap as a buffer for insufficient memory, which might reduce performance. Therefore, it is recommended to disable the system swap permanently.
Do not disable the system swap by executing swapoff -a
, or this setting will be invalid after the machine is restarted.
To disable the system swap, execute the following command:
{{< copyable "shell-regular" >}}
echo "vm.swappiness = 0">> /etc/sysctl.conf
swapoff -a && swapon -a
sysctl -p
In TiDB clusters, the access ports between nodes must be open to ensure the transmission of information such as read and write requests and data heartbeats. In common online scenarios, the data interaction between the database and the application service and between the database nodes are all made within a secure network. Therefore, if there are no special security requirements, it is recommended to stop the firewall of the target machine. Otherwise, refer to the port usage and add the needed port information to the whitelist of the firewall service.
The rest of this section describes how to stop the firewall service of a target machine.
-
Check the firewall status. Take CentOS Linux release 7.7.1908 (Core) as an example.
{{< copyable "shell-regular" >}}
sudo firewall-cmd --state sudo systemctl status firewalld.service
-
Stop the firewall service.
{{< copyable "shell-regular" >}}
sudo systemctl stop firewalld.service
-
Disable automatic start of the firewall service.
{{< copyable "shell-regular" >}}
sudo systemctl disable firewalld.service
-
Check the firewall status.
{{< copyable "shell-regular" >}}
sudo systemctl status firewalld.service
TiDB is a distributed database system that requires clock synchronization between nodes to guarantee linear consistency of transactions in the ACID model.
At present, the common solution to clock synchronization is to use the Network Time Protocol (NTP) services. You can use the pool.ntp.org
timing service on the Internet, or build your own NTP service in an offline environment.
To check whether the NTP service is installed and whether it synchronizes with the NTP server normally, take the following steps:
-
Run the following command. If it returns
running
, then the NTP service is running.{{< copyable "shell-regular" >}}
sudo systemctl status ntpd.service
ntpd.service - Network Time Service Loaded: loaded (/usr/lib/systemd/system/ntpd.service; disabled; vendor preset: disabled) Active: active (running) since 一 2017-12-18 13:13:19 CST; 3s ago
-
Run the
ntpstat
command to check whether the NTP service synchronizes with the NTP server.Note:
For the Ubuntu system, you need to install the
ntpstat
package.{{< copyable "shell-regular" >}}
ntpstat
-
If it returns
synchronised to NTP server
(synchronizing with the NTP server), then the synchronization process is normal.synchronised to NTP server (85.199.214.101) at stratum 2 time correct to within 91 ms polling server every 1024 s
-
The following situation indicates the NTP service is not synchronizing normally:
unsynchronised
-
The following situation indicates the NTP service is not running normally:
Unable to talk to NTP daemon. Is it running?
-
To make the NTP service start synchronizing as soon as possible, run the following command. Replace pool.ntp.org
with your NTP server.
{{< copyable "shell-regular" >}}
sudo systemctl stop ntpd.service && \
sudo ntpdate pool.ntp.org && \
sudo systemctl start ntpd.service
To install the NTP service manually on the CentOS 7 system, run the following command:
{{< copyable "shell-regular" >}}
sudo yum install ntp ntpdate && \
sudo systemctl start ntpd.service && \
sudo systemctl enable ntpd.service
This section describes how to manually configure the SSH mutual trust and sudo without password. It is recommended to use TiUP for deployment, which automatically configure SSH mutual trust and login without password. If you deploy TiDB clusters using TiUP, ignore this section.
-
Log in to the target machine respectively using the
root
user account, create thetidb
user and set the login password.{{< copyable "shell-root" >}}
useradd tidb && \ passwd tidb
-
To configure sudo without password, run the following command, and add
tidb ALL=(ALL) NOPASSWD: ALL
to the end of the file:{{< copyable "shell-root" >}}
visudo
tidb ALL=(ALL) NOPASSWD: ALL
-
Use the
tidb
user to log in to the control machine, and run the following command. Replace10.0.1.1
with the IP of your target machine, and enter thetidb
user password of the target machine as prompted. After the command is executed, SSH mutual trust is already created. This applies to other machines as well.{{< copyable "shell-regular" >}}
ssh-copy-id -i ~/.ssh/id_rsa.pub 10.0.1.1
-
Log in to the control machine using the
tidb
user account, and log in to the IP of the target machine usingssh
. If you do not need to enter the password and can successfully log in, then the SSH mutual trust is successfully configured.{{< copyable "shell-regular" >}}
ssh 10.0.1.1
[tidb@10.0.1.1 ~]$
-
After you log in to the target machine using the
tidb
user, run the following command. If you do not need to enter the password and can switch to theroot
user, then sudo without password of thetidb
user is successfully configured.{{< copyable "shell-regular" >}}
sudo -su root
[root@10.0.1.1 tidb]#
This section describes how to install the NUMA tool. In online environments, because the hardware configuration is usually higher than required, to better plan the hardware resources, multiple instances of TiDB or TiKV can be deployed on a single machine. In such scenarios, you can use NUMA tools to prevent the competition for CPU resources which might cause reduced performance.
Note:
- Binding cores using NUMA is a method to isolate CPU resources and is suitable for deploying multiple instances on highly configured physical machines.
- After completing deployment using
tiup cluster deploy
, you can use theexec
command to perform cluster level management operations.
-
Log in to the target node to install. Take CentOS Linux release 7.7.1908 (Core) as an example.
{{< copyable "shell-regular" >}}
sudo yum -y install numactl
-
Run the
exec
command usingtiup cluster
to install in batches.{{< copyable "shell-regular" >}}
tiup cluster exec --help
Run shell command on host in the tidb cluster Usage: cluster exec <cluster-name> [flags] Flags: --command string the command run on cluster host (default "ls") -h, --help help for exec --sudo use root permissions (default false)
To use the sudo privilege to execute the installation command for all the target machines in the
tidb-test
cluster, run the following command:{{< copyable "shell-regular" >}}
tiup cluster exec tidb-test --sudo --command "yum -y install numactl"