How to install and configure samba on RHEL 8 / CentOS 8
How to install and configure samba on RHEL 8 / CentOS 8
- Egidio Docile
- Redhat / CentOS
- 22 September 2019
Samba provides server and client software to allow file sharing between Linux and Windows machines. Installing and configuring it on RHEL 8 / CentOS 8, is quite easy. Keep reading to learn how to share a directory with samba, and how to apply the appropriate SELinux context to it.
In this tutorial you will learn:- How to install samba on RHEL8
- How to enable and start the smb and nmb daemons
- How to create a samba share
- How to setup the firewall to allow samba share to be accessed
- How to setup the correct SELinux context for samba to work correctly
Software Requirements and Conventions Used
Category | Requirements, Conventions or Software Version Used |
---|---|
System | Red Hat Enterprise Linux 8 |
Software | Samba, coreutils and policycoreutils-python-utils packages |
Other | Permission to run command with root privileges. |
Conventions | # - requires given linux commands to be executed with root privileges either directly as a root user or by use of sudo command$ - requires given linux commands to be executed as a regular non-privileged user |
Introducing Samba
Samba, as stated in the homepage of the project, is an open source software, released under the GPL
license, which allow us to share files and print services using the SMB/CIFS
protocol.
The project provides both server and client software to allow interoperation with Windows machines, representing the ideal solution in mixed environments. In this tutorial we will see how to install Samba on Red Hat Enterprise Linux 8, how to setup a samba share, how the setup the firewall to allow access to shared resources, and how to apply the appropriate SELinux context.
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Installation
The first thing we have to do is to install samba on our machine. The package and the needed libraries are available in the official RHEL 8 / CentOS 8 repositories, therefore we can install them just by using yum or dnf. In this version of RHEL/CentOS, the first command it's just a "link" to the second:
$ sudo dnf install samba samba-client
The samba-client package is not strictly needed, but the utilities provided by it can be useful. Once the packages are installed, we have to start and enable the smb
and the nmb
daemons at boot. The first is the daemon which takes care of performing the actual transfers and the sharing operations, while the second performs the NetBIOS
name resolutions, allowing the resources to appear when browsing the network on Windows. We can now enable and start both systemd services with just one command:
$ sudo systemctl enable --now {smb,nmb}
Configuring the firewall
The next step is the firewall configuration. We must open the appropriate ports, so that the samba-shared resources can be accessible from other machines. The default firewall management software onRHEL 8 / CentOS 8, is firewalld.
Luckily for us, there is no need to open ports manually: all we have to do is to add the "samba" service to our zone. A "service" is just an abstraction which let us allow traffic through all the ports needed by a service, by referencing the service name, instead of having to setup (and remember) each port used by it. In case we want to gather information about a "service", we can run:
$ sudo firewall-cmd --info-service samba
samba
ports: 137/udp 138/udp 139/tcp 445/tcp
protocols:
source-ports:
modules: netbios-ns
destination:
From the output of the command we see that the service will allow traffic through ports 173/udp, 138/udp, 139/tcp and 445/tcp. To permanently add the service to the default zone, we can run:
$ sudo firewall-cmd --permanent --add-service=samba
When running the command we used the --permanent
switch in order to make our change persistent. We also assumed the default
zone to be in use. If we wanted to specify another zone for the action to be applied on, we would have used the --zone
option, and provided the zone name as argument (e.g. --zone=external). Since our change is set to be permanent, in order for it to become effective, we must reload the firewall configuration:
$ sudo firewall-cmd --reload
We can verify that the "samba" service is now part of our zone, by running:
$ sudo firewall-cmd --list-services
cockpit dhcpv6-client http samba ssh
Again, if no zone is specified, the command is applied to the default zone.
Configuring a shared directory accessible by guests
Let's say we want to share a directory via samba, and we want to let free access to this directory to guest users, without them having to provide a password. To obtain the desired result, we must make some changes to the /etc/samba/smb.conf
file, and add a "stanza" for our share. Open the file with your favorite editor, and in the [global]
section, add the highlighted text:
[global]
workgroup = SAMBA
security = user
passdb backend = tdbsam
printing = cups
printcap name = cups
load printers = yes
cups options = raw
map to guest = bad user
The map to guest = bad user
instruction, will map login attempts with bad usernames to the default guest user, which, by default is nobody
. This is needed to allow anonymous access without having to provide a password.
After this change, we must append a new stanza dedicated to our share at the end of the file. We will name the shared resource "linuxconfig":
[linuxconfig]
path = /mnt/shared
guest only = yes
With the above setup we declared that we want to share the content of the /mnt/shared
directory, without the need of user authentication. This setup is obviously risky, and is here reported only as an example: in a real world scenario, you may want to at least deny write access to guests (you can do it by adding the writeable = no
instruction). To make the changes effective, we must restart the daemons:
$ sudo systemctl restart {smb,nmb}
Configure a share accessible only by registered users
To protect access to a resource with a login prompt, when samba is running as a standalone server, we must add an existing user to the samba database. The credentials of this user will be necessary to access the shared directory. For security reasons, it's a good practice to create a dedicated user for the task, omitting the creation of his home directory, and assigning him a fake shell:
sudo adduser -M sambauser -s /sbin/nologin
The -M
option passed to the command is the short form for --no-create-home
, which is quite self-explanatory; the -s
option, instead, let us specify a shell, in this case an invalid one on purpose: /sbin/nologin
. At this point the user doesn't even need to have a password set on our system.
Once the user is created, we need to add it to the samba database: we can perform the operation by using the smbpasswd
command:
$ sudo smbpasswd -a sambauser
New SMB password:
Retype new SMB password:
Added user sambauser.
After running the command, we are prompted to assign a password for the user, and also to confirm it: this password will only be valid in the samba context, doesn't have anything to do with the user account on our system. To restrict the share we previously created, we have to make a little change in the dedicated section:
[linuxconfig]
path = /mnt/shared
guest ok = no
We can verify that our setup is valid, by using the testparm
command:
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$ testparm
Load smb config files from /etc/samba/smb.conf
rlimit_max: increasing rlimit_max (1024) to minimum Windows limit (16384)
Processing section "[homes]"
Processing section "[printers]"
Processing section "[print$]"
Processing section "[linuxconfig]"
Loaded services file OK.
Server role: ROLE_STANDALONE
Again, we must restart the smb
and nmb
daemons for our changes to be effective. The shared directory will now be accessible only after providing the correct credentials.
Setup SELinux for samba
SELinux is often saw like a complication, and disabled right away. This is not necessary: we only must learn how to configure it, and take advantage of the enhancement in security it provides. In order for our samba share to work when SELinux is in "enforcing" mode, we must assign the appropriate context to our shared directory and files:
$ sudo chcon -R -t samba_share_t /mnt/shared
In the example above, we used the chcon
command with the -t
option, to change the TYPE
section of the SELinux context to samba_share_t
. We also used the -R
switch to make the command recursive. This change will survive a reboot, but not a relabeling of the system if a default policy exists for our directory and files, because in such case the default setup would be re-applied.
If we want our change to survive a relabeling event, we must add our rule to the policy. We can do this by using the semanage
command:
$ sudo semanage fcontext -a -t samba_share_t "/mnt/shared(/.*)?"
Since we used the (/.*)?
regex, the rule will be applied to all the content of the "shared" directory, and to the directory itself. We can verify that our rule has been added to the policy by listing the labels in use on our system:
$ sudo semanage fcontext -l | grep /mnt/shared
/mnt/shared(/.*)? all files system_u:object_r:samba_share_t:s0
We should now have a working samba setup. To further tweak samba configuration we may need to also manipulate SELinux booleans. For example, when adding existent users to samba, to let their home directories be shared, we must enable the dedicated SELinux boolean. To list all booleans related to samba, we can run:
sudo semanage boolean -l|grep samba
samba_create_home_dirs (off , off) Allow samba to create home dirs
samba_domain_controller (off , off) Allow samba to domain controller
samba_enable_home_dirs (off , off) Allow samba to enable home dirs
samba_export_all_ro (off , off) Allow samba to export all ro
samba_export_all_rw (off , off) Allow samba to export all rw
samba_load_libgfapi (off , off) Allow samba to load libgfapi
samba_portmapper (off , off) Allow samba to portmapper
samba_run_unconfined (off , off) Allow samba to run unconfined
samba_share_fusefs (off , off) Allow samba to share fusefs
samba_share_nfs (off , off) Allow samba to share nfs
sanlock_use_samba (off , off) Allow sanlock to use samba
tmpreaper_use_samba (off , off) Allow tmpreaper to use samba
use_samba_home_dirs (off , off) Allow use to samba home dirs
virt_use_samba (off , off) Allow virt to use samba
In the output above, the second column indicates the current value of the boolean, while the third the default one (both are off, in this case). The boolean we want to activate, to enable the sharing of home directories, is samba_enable_home_dirs
. We can perform the operation by using the setsebool
command:
$ sudo setsebool samba_enable_home_dirs=1
Conclusions
In this tutorial we saw how to install samba on a RHEL 8 / CentOS 8 system. We also saw how to share a directory, allowing access to guests or restricting it to authenticated users. We also saw how to configure the firewall in order for the share to be accessible from other machines on the network.
Finally, we saw how to perform the needed changes in order to have a working samba setup with SELinux in "enforcing" mode. If you are interested SELinux, you can also read our article on the subject.
tips:
https://linuxconfig.org/install-samba-on-redhat-8