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Network File System (NFS) is a distributed file system that allows users to access files over a network like files on their own system. The current version of NFS, which was originally developed by Sun Microsystems, is NFS Version 4. NFS is an open standard that builds on the Open Network Computing Remote Procedure Call (ONC RPC) system. This guide provides a brief introduction to NFS and explains how to configure and use NFS on both server and client systems.

An Introduction to NFS

NFS is most commonly used with Linux distributions or macOS but is available for other operating systems. It uses an asynchronous client/server computing model for its distributed file system mechanism. NFS originally used User Datagram Protocol (UDP) for its transport mechanism, but can now also use Transmission Control Protocol (TCP). TCP improves the performance of NFS because it allows for larger read and write operations. Port 2049 is used for both protocols. Over the years, NFS has been updated to offer performance improvements, stronger security, locking mechanisms, more efficient caching, and a stateful protocol. It oversees the authentication, authorization, and management of clients.

The server administrator makes directories accessible to remote users through a configuration file, which defines access privileges for each file or directory. Clients can mount these directories and read, create, or edit files like those on their own computers. After the client sends a mount request to access the system, the server validates whether the client is authorized to mount the directory.

NFS uses a Remote Procedure Call (RPC) to assemble and process a request. Client system calls, such as read, write, open, and close, are translated into RPC function calls. These requests are sent to the server, where they are validated and directed to the correct handler. The appropriate file or metadata is then either updated or transmitted to the client. The entire process is transparent to the client.

NFS uses file handlers to identify each file. File handlers are defined in relation to the root directory of the system. The file handler uses a volume identifier and an inode number to identify the file partition and locate the file within the partition. NFS also tracks the file attributes, which contain metadata about the file. This metadata includes the creation and modification dates, file size, owner, and permissions. All clients must use the same locking and caching options to avoid inconsistency in files. This allows access to the NFS server from different clients.

More detailed information about the operational details of NFS can be found on the Linux NFS site.

Advantages and Disadvantages of NFS

NFS has been widely adopted due to its positive cost-benefit ratio. Some of its advantages include:

  • It is an open-source, low-cost solution.
  • A low-level of effort is needed to set it up and requires minimal knowledge for both administrators and clients to use. NFS has a low administrative overhead after the initial configuration has been completed.
  • Network administrators can centralize data and save on storage and network devices when using NFS.
  • It permits easy sharing of data. Multiple users can access the same files.
  • Files are kept up to date. There are no conflicts or uncertainties between different versions of a file. The possibility of an out-of-date version being accidentally used is greatly reduced.
  • NFS is interoperable with different vendors and implementations.
  • It provides for quick recovery from crashes.

Due to its flexibility, openness, and simple mechanisms, there are also some drawbacks to using NFS.

  • It is somewhat insecure, and should only be used in an internal network. Shared files should be shielded from general internet access. Organizations might want to consider whether to make highly sensitive documents available through NFS.
  • NFS can slow down during heavy use.
  • Data access is somewhat inefficient due to the amount of protocol overhead.
  • The block size of a transfer is currently capped at 1MB. This is inefficient for very large files. The transfer limit of 1.5GB/s is also on the low side.
  • The configuration parameters for locking and caching can be complex and difficult to configure.

Before You Begin

  1. If you have not already done so, create a Linode account and Compute Instance. See our Getting Started with Linode and Creating a Compute Instance guides.

  2. Follow our Setting Up and Securing a Compute Instance guide to update your system. You may also wish to set the timezone, configure your hostname, create a limited user account, and harden SSH access.

  3. To complete the server and client configuration, two Linodes are required. One Linode serves as the NFS host and server, while the other acts as a client. Note the IP addresses of both Linodes. Throughout the following sections, replace server_ip_addr with the IP address of the NFS server, and client_ip_addr with the address of the client.

Note
The steps in this guide are written for a non-root user. Commands that require elevated privileges are prefixed with sudo. If you are not familiar with the sudo command, see the Linux Users and Groups guide.

Configure the NFS Server and Client

The steps involved in configuring the NFS server and the client are as follows:

  1. Install the NFS server and client Software
  2. Configure the firewall on the NFS server
  3. Create an export directory on the NFS server
  4. Configure the NFS export settings on the server
  5. Create an NFS mount point on the client

Install the NFS Server and Client Software

The NFS package must be installed on both the server and the client. The server requires the full NFS kernel, while clients only have to install the nfs-common package.

  1. On the NFS server, update all packages.

     sudo apt update
    
  2. Install the nfs-kernel-server package on the server.

     sudo apt install nfs-kernel-server
    
    Note
    By default, the NFS server supports versions 3 and 4. Verify the versions that are enabled using the sudo cat /proc/fs/nfsd/versions command.
  3. Verify the status of the NFS server using the systemctl utility. It should display a status of active.

     sudo systemctl status nfs-kernel-server.service
    
    nfs-server.service - NFS server and services
         Loaded: loaded (/lib/systemd/system/nfs-server.service; enabled; vendor preset: enabled)
         Active: active (exited) since Tue 2021-07-06 12:57:35 UTC; 1h 18min ago
       Main PID: 2588 (code=exited, status=0/SUCCESS)
          Tasks: 0 (limit: 4615)
         Memory: 0B
         CGroup: /system.slice/nfs-server.service
        
  4. Update all packages on the Linode serving as the client.

     sudo apt update
    
  5. On the client, install the nfs-common package.

     sudo apt install nfs-common
    

Configure the Firewall on the NFS Server

NFS has an inherent security risk because it allows external servers to access some of its directories and files. Configure the ufw firewall to enforce strict NFS access based on the IP address of the client. NFS allows access through port 2049. Verified users require access to this port to use NFS.

  1. On the server, verify the current ufw settings and verify whether a rule exists for NFS yet.

     sudo ufw status
    
    Status: active
    
    To                         Action      From
    --                         ------      ----
    OpenSSH                    ALLOW       Anywhere
    Apache Full                ALLOW       Anywhere
    OpenSSH (v6)               ALLOW       Anywhere (v6)
    Apache Full (v6)           ALLOW       Anywhere (v6)
        
  2. Add a rule to allow port 2049 to accept traffic from the client’s IP address. Replace client_ip_addr with the address of the client Linode.

     sudo ufw allow from client_ip_addr to any port nfs
    
  3. Run ufw status again and confirm the rule has been added.

     sudo ufw status
    
    Status: active
    
    To                         Action      From
    --                         ------      ----
    OpenSSH                    ALLOW       Anywhere
    Apache Full                ALLOW       Anywhere
    2049                       ALLOW       client_ip_addr
    OpenSSH (v6)               ALLOW       Anywhere (v6)
    Apache Full (v6)           ALLOW       Anywhere (v6)
        

Create an Export Directory on the NFS Server

NFS client access is granted on a case-by-case basis. A directory that is shared with clients using NFS is called an export directory. Non-empty directories can be shared with NFS, but it is more typical to create an empty export directory for sharing files.

  1. Create a directory on the NFS server to contain the shared files. It is best to create a separate export directory for each project to better control user access. Because the directory is created using sudo, the root user account owns this directory.

     sudo mkdir -p /nfs/share/project1
    
  2. For security reasons, NFS translates any root credentials from a client to nobody:nogroup. This restricts the ability of remote root users to invoke root privileges on the server. To grant client root users access to the export directory, change the directory ownership to nobody:nogroup.

     sudo chown nobody:nogroup /nfs/share/project1
    
  3. Adjust the file permissions for the directory. The following command grants NFS clients full read, write and execute privileges to the directory files.

     sudo chmod 777 /nfs/share/project1
    

Configure the NFS Export Settings on the Server

The NFS component maintains a configuration file containing the Access Control Lists (ACL) for each export directory. Each entry indicates the name of the export directory, the clients who are authorized to access it, and the file-sharing options. The format of each line is export_directory_name client1(sharing_options) client2(sharing_options_2). Access can be provided to several clients in the same entry. A client can be identified either through a specific IP address, an entire subnet, or a domain name.

A detailed explanation of all the export options can be found in the Setting Up an NFS Server documentation. Some of the main sharing options include the following:

  • rw/ro: The rw option grants read and write access to the share, but ro only allows read access.
  • sync: The sync option guarantees changes are committed on the server before any further requests for the file are answered. The async option provides better performance but data loss or corruption might occur under certain circumstances.
  • subtree_check: The subtree_check option verifies a user can mount subdirectories within a system. It also validates whether a given file exists within the sub-tree. This choice is more secure, but it could present some performance issues in a deep directory with frequent changes. The no_subtree_check option turns this checkoff.
  • noexec: This prevents any files in the export directory from being executed.
  • no_root_squash: This permits client root users to maintain their root privileges on the server. This overrides the default settings and permits them to modify root-owned files on the server. This option has serious security implications on a multi-user system.

To add the new export directory to NFS, execute the following commands on the server.

  1. Edit the /etc/exports file.

     vi /etc/exports
    
  2. Add the following line and save the file. Replace client_ip_addr with the actual IP address or subnet of the client.

    File: /etc/exports
    1
    2
    
    /nfs/share/project1  client_ip_addr(rw,sync,no_subtree_check)
        
  3. Apply the configuration changes using the exportfs command.

     sudo exportfs -a
    
  4. View all the active exports and verify the /nfs/share/project1 directory has export status.

     sudo exportfs -v
    
    /nfs/share/project1
    client_ip_addr(rw,wdelay,root_squash,no_subtree_check,sec=sys,rw,secure,root_squash,no_all_squash)
        
  5. Restart the NFS utility using systemctl.

     sudo systemctl restart nfs-kernel-server
    

Create an NFS Mount Point on the Client

To access the export directory on the server, the client must first map the drive to a local directory. This directory is called a mount point. To create a mount point, create a new directory on the client and bind the server’s export directory to it. Execute the following commands on the client to mount the server’s export directory.

Important
Use an empty directory for the mount point. Any pre-existing files or subdirectories in the mounted directory are hidden while the mount point is in use.
  1. Create a new directory on the client to serve as the mount point.

     sudo mkdir -p /nfs/mnt/project1
    
  2. Mount the export directory to the new directory using the mount command. As the first argument, specify the IP address of the NFS server, a : symbol, and the path to the export directory. The second parameter is the local mount point directory on the client.

     sudo mount -t nfs  server_ip_addr:/nfs/share/project1  /nfs/mnt/project1
    
  3. Use the df command to confirm the export directory is mounted correctly. The remote directory should be listed somewhere in the list of drives.

     df -h
    
    Filesystem                         Size  Used Avail Use% Mounted on
    ...
    server_ip_addr:/nfs/share/project1   79G   13G   63G  17% /nfs/mnt/project1
        
  4. The mount only persists until the system reboots. To automatically mount the directory when the system activates, add the mount point to the /etc/fstab file. The entry should consist of the export directory, the local mount point, a list of options, and two 0’s. To see all the available options for this file, run man nfs on the client.

     sudo vi /etc/fstab
    
    File: /etc/fstab
    1
    2
    
    server_ip_addr:/nfs/share/project1  /nfs/mnt/project1 nfs timeo=900,intr,actimeo=1800 0 0
        
  5. To confirm the export directory is mounted properly upon system bootup, reboot the system and run the df command again. The export directory should appear in the output.

Verify the NFS Service

To validate NFS is working, make changes to the file on the server and confirm they are reflected on the client. Then edit the file on the client and verify the changes on the server.

  1. Log in to the server and create a new file within the export directory.

     cd /nfs/share/project1
     "Test data for testfile.text" > testfile.text
    
  2. Change to a console on the client, and cd to the mounted directory. Run the ls command, and ensure the testfile.text file appears.

     cd /nfs/mnt/project1
     ls -l
    
    -rw-rw-r-- 1 user1 user1 27 Jul  7 13:06 testfile.text
        
  3. Remain on the client, and use a text editor to add some additional text to the testfile.text file.

     vi testfile.text
    
  4. Return to the server console and ensure the testfile.text file in the export directory reflects the changes that were made on the client.

     cd /nfs/share/project1
     cat testfile.text
    
    Test data for testfile.text
    New test data for testfile.text
        

Unmount an NFS Share on the Client

A mount point can be removed when it is no longer required. Any unmounted directories must also be removed from the /etc/fstab file.

  1. On the client, remove the mount point using the umount command. Note the spelling of this command. Specify the name of the local mount point, not the name of the export directory on the server.

     sudo umount /nfs/mnt/project1
    
  2. Use the df command to confirm the mount point has been removed.

     df -h
    
  3. Edit the /etc/fstab file and either remove the line referring to the export directory or comment it out with the # symbol.

     sudo vi /etc/fstab
    
    File: /etc/fstab
    1
    2
    3
    
    # server_ip_addr:/nfs/share/project1  /nfs/mnt/project1 nfs timeo=900,intr,actimeo=1800 0 0
    
        

More Information

You may wish to consult the following resources for additional information on this topic. While these are provided in the hope that they will be useful, please note that we cannot vouch for the accuracy or timeliness of externally hosted materials.

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