Operation and MaintenanceLinux Operation and MaintenanceHow to use Docker to build a highly available distributed file storage system on Linux?How to use Docker to build a highly available distributed file storage system on Linux?
How to use Docker to build a highly available distributed file storage system on Linux?
Abstract: This article introduces how to use Docker to build a highly available distributed file storage system. We will use GlusterFS as the file system and deploy it on multiple nodes using Docker containers for high availability.
- Introduction
Before building a highly available distributed file storage system, we need to understand some corresponding concepts and technologies. GlusterFS is a powerful, scalable, distributed file system that can combine storage spaces on multiple computers into a unified file system. Docker is a lightweight containerization platform that packages applications and their dependencies into a standalone container, enabling isolation and cross-platform deployment. - Preparation
Before you begin, make sure you have the latest versions of Docker and Docker Compose installed. Verify using the following command:
docker version docker-compose version
- Create GlusterFS container
First, we need to create a GlusterFS container on each node. Create a directory calledgluster1and create a file inside it calleddocker-compose.ymland add the following content:
version: '3'
services:
glusterfs:
image: gluster/gluster-centos
volumes:
- ./data:/data
privileged: true
network_mode: "host"Then, use the following command to start the container:
docker-compose up -d
Repeat the above steps to create corresponding containers on other nodes. Make sure volumes and network_mode are set correctly in each container's docker-compose.yml file.
- Create GlusterFS volumes
Now, we need to create GlusterFS volumes on each node. Execute the following command on each node:
docker exec -it <容器名称> gluster volume create <卷名称> replica <副本数> transport tcp <IP>:<端口号>/data force
where container name is the name of the GlusterFS container, volume name is the name of the volume you want to create , Number of replicas is the number of replicas you want to create, IP and Port number are the IP address and port number of the node used for communication. You can use the docker ps command to view the name of the container.
For example, execute the following command on the gluster1 node:
docker exec -it gluster1 gluster volume create vol0 replica 2 transport tcp gluster1:49152,data gluster2:49152,data force
Execute the same command on the gluster2 node.
- Start the GlusterFS volume
Execute the following command on each node to start the GlusterFS volume:
docker exec -it <容器名称> gluster volume start <卷名称>
For example, execute on the gluster1 node The following command:
docker exec -it gluster1 gluster volume start vol0
Execute the same command on the gluster2 node.
- Configuring the File System Client
Now, we need to install the GlusterFS client on each node and mount the created volume. Execute the following command on each node:
sudo apt-get install glusterfs-client sudo mount -t glusterfs <IP>:<卷名称> /mnt/glusterfs
Where, IP is the IP address of the GlusterFS server, and Volume name is the name of the volume you created.
For example, execute the following command on the gluster1 node:
sudo apt-get install glusterfs-client sudo mount -t glusterfs gluster1:/vol0 /mnt/glusterfs
Execute the same command on the gluster2 node.
- Test File Storage System
Now, we have successfully built a highly available distributed file storage system. You can use the/mnt/glusterfsdirectory for read and write operations and verify that it is in sync on the other nodes.
echo "Hello, GlusterFS!" > /mnt/glusterfs/test.txt cat /mnt/glusterfs/test.txt
Execute the following command on another node to ensure that the file has been successfully synchronized:
cat /mnt/glusterfs/test.txt
Conclusion
This article introduces how to use Docker to build a highly available distributed file Storage System. By using GlusterFS and Docker containers, we can quickly and easily achieve high availability and data redundancy. I hope this article was helpful and I wish you a successful build!
The above is the detailed content of How to use Docker to build a highly available distributed file storage system on Linux?. For more information, please follow other related articles on the PHP Chinese website!
The 5 Core Components of the Linux Operating SystemMay 08, 2025 am 12:08 AMThe five core components of the Linux operating system are: 1. Kernel, 2. System libraries, 3. System tools, 4. System services, 5. File system. These components work together to ensure the stable and efficient operation of the system, and together form a powerful and flexible operating system.
The 5 Essential Elements of Linux: ExplainedMay 07, 2025 am 12:14 AMThe five core elements of Linux are: 1. Kernel, 2. Command line interface, 3. File system, 4. Package management, 5. Community and open source. Together, these elements define the nature and functionality of Linux.
Linux Operations: Security and User ManagementMay 06, 2025 am 12:04 AMLinux user management and security can be achieved through the following steps: 1. Create users and groups, using commands such as sudouseradd-m-gdevelopers-s/bin/bashjohn. 2. Bulkly create users and set password policies, using the for loop and chpasswd commands. 3. Check and fix common errors, home directory and shell settings. 4. Implement best practices such as strong cryptographic policies, regular audits and the principle of minimum authority. 5. Optimize performance, use sudo and adjust PAM module configuration. Through these methods, users can be effectively managed and system security can be improved.
Linux Operations: File System, Processes, and MoreMay 05, 2025 am 12:16 AMThe core operations of Linux file system and process management include file system management and process control. 1) File system operations include creating, deleting, copying and moving files or directories, using commands such as mkdir, rmdir, cp and mv. 2) Process management involves starting, monitoring and killing processes, using commands such as ./my_script.sh&, top and kill.
Linux Operations: Shell Scripting and AutomationMay 04, 2025 am 12:15 AMShell scripts are powerful tools for automated execution of commands in Linux systems. 1) The shell script executes commands line by line through the interpreter to process variable substitution and conditional judgment. 2) The basic usage includes backup operations, such as using the tar command to back up the directory. 3) Advanced usage involves the use of functions and case statements to manage services. 4) Debugging skills include using set-x to enable debugging mode and set-e to exit when the command fails. 5) Performance optimization is recommended to avoid subshells, use arrays and optimization loops.
Linux Operations: Understanding the Core FunctionalityMay 03, 2025 am 12:09 AMLinux is a Unix-based multi-user, multi-tasking operating system that emphasizes simplicity, modularity and openness. Its core functions include: file system: organized in a tree structure, supports multiple file systems such as ext4, XFS, Btrfs, and use df-T to view file system types. Process management: View the process through the ps command, manage the process using PID, involving priority settings and signal processing. Network configuration: Flexible setting of IP addresses and managing network services, and use sudoipaddradd to configure IP. These features are applied in real-life operations through basic commands and advanced script automation, improving efficiency and reducing errors.
Linux: Entering and Exiting Maintenance ModeMay 02, 2025 am 12:01 AMThe methods to enter Linux maintenance mode include: 1. Edit the GRUB configuration file, add "single" or "1" parameters and update the GRUB configuration; 2. Edit the startup parameters in the GRUB menu, add "single" or "1". Exit maintenance mode only requires restarting the system. With these steps, you can quickly enter maintenance mode when needed and exit safely, ensuring system stability and security.
Understanding Linux: The Core Components DefinedMay 01, 2025 am 12:19 AMThe core components of Linux include kernel, shell, file system, process management and memory management. 1) Kernel management system resources, 2) shell provides user interaction interface, 3) file system supports multiple formats, 4) Process management is implemented through system calls such as fork, and 5) memory management uses virtual memory technology.
Hot AI Tools
Undresser.AI Undress
AI-powered app for creating realistic nude photos
AI Clothes Remover
Online AI tool for removing clothes from photos.
Undress AI Tool
Undress images for free
Clothoff.io
AI clothes remover
Video Face Swap
Swap faces in any video effortlessly with our completely free AI face swap tool!
Hot Article
Hot Tools
Atom editor mac version download
The most popular open source editor
SublimeText3 English version
Recommended: Win version, supports code prompts!
Dreamweaver CS6
Visual web development tools
EditPlus Chinese cracked version
Small size, syntax highlighting, does not support code prompt function
DVWA
Damn Vulnerable Web App (DVWA) is a PHP/MySQL web application that is very vulnerable. Its main goals are to be an aid for security professionals to test their skills and tools in a legal environment, to help web developers better understand the process of securing web applications, and to help teachers/students teach/learn in a classroom environment Web application security. The goal of DVWA is to practice some of the most common web vulnerabilities through a simple and straightforward interface, with varying degrees of difficulty. Please note that this software
