How To get your Realtek RTL8111/RTL8168 working (updated guide)

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A lot of people will remember my guide how to get a RTL8111/RTL8168 running under your Linux box. This guide is almost 5 years old now and I wanted to make a complete overhaul, because a lot of things has changed since then.

Why do I need this driver anyway?

Some people asked me, “Why do I need this driver anyway? Doesn’t the Linux Kernel ship it?”. This is of course a valid question. As far as I can see this, the RTL8111/RTL8168 is not Open Source and this would be of course the reason why the driver isn’t included into the Linux Kernel. As long as the driver isn’t Open Sourced, we have to build it on our own.

The installation methods

A lot of things have changed since I written the initial article about how to compile the driver under Ubuntu / Debian. Today we can use 2 methods for installing the driver. The following lines describes both of them.

The automatic way

NOTE: Thanks to the user “Liyu” who gave me this hint!
NOTE2: For this way you need a working internet connection. You could use WLAN or a USB ethernet card like this one to get a temporary internet connection. You could also download every needed single package onto USB from another PC and install them in the right order.

As I said ealier, 5 years is a long time. And today Ubuntu and Debian have the driver included in it’s repository. For Debian you have to enable the non-free package sources. For Ubuntu you have to enable the universe package sources. You can easily do this by open your /etc/apt/sources.list as root with your editor of choice and add for each line starting with “deb” non-free or universe at the end. So for example, if you use Debian a line like:

deb jessie main contrib

would become to

deb jessie main contrib non-free

The same for Ubuntu:

deb xenial main restricted

would become to

deb xenial main restricted universe

After this you have to do a:

sudo apt-get update

You can of course use graphical ways to enable non-free or universe. After you enabled the missing package repository, you will be ready to install the driver. This can be easily done with the following command:

sudo apt-get install r8168-dkms

The procedure will take some time, depending on your CPU because the driver will be build for your working Kernel. The good side is, that if any Kernel update happens on your machine, the kernel will be rebuild against the new Kernel automatically after the update because of the use of dkms.
After the procedure is finished, you should be able to use your network card instantly. If not, you should consider a reboot of your PC then.

The manual way

Well, the manual way is almost the same as it was before in the initial article. Anyway, I want to rewrite the steps here again. This is also tested against newer Kernels ( >= 4.0) which caused a lot of trouble for some people in the past.

  • 1. Install dependencies: Once more you need a working internet connection for this. You could also use the Debian or Ubuntu DVD which includes the needed packages. To install the dependencies just enter the following command:
    sudo apt-get install build-essential linux-headers-$(uname -r)
  • 2. Download the driver: You can download the driver from the official Realtek homepage. This is the link: click me. From the table, select the “LINUX driver for kernel 3.x and 2.6.x and 2.4.x” for download.
  • 3. Blacklisting the r8169 driver: The r8169 is loaded when the r8168 is not found on your system. This will give you a network and internet connection, but with the r8169 driver your RTL8168 card will be very unstable. This means slow download rates, homepages taking hours to load and so on. To avoid that the r8169 is loaded, we blacklist it. This is be done by entering the following command:
    user@linux:~$ sudo sh -c 'echo blacklist r8169 >> /etc/modprobe.d/blacklist.conf'
  • 4. Untar the archive: After you successfully downloaded the driver, cd into the directory where the driver is downloaded and untar the driver with the following command:
    user@linux:~$ tar xfvj 0005-r8168-8.042.00.tar.bz2

    NOTE: Your tar filename can of course differs if you download a newer version in the future for e.g.

  • 5. Compiling and installing the driver: Now we have to start compiling the driver. For this you cd into the extracted directory:
    user@linux:~$ cd r8168-8.042.00

    NOTE: Don’t forget to change your version number in the future here.
    Now that you are in the right directory, we can start with the real compiling process. For this Realtek brings an easy to use script which is called So, to start compiling and installing the driver enter:

    user@linux:~/r8168-8.042.000$ sudo ./

    You should see a output which looks like this:

    Check old driver and unload it.
    rmmod r8168
    Build the module and install
    At main.c:222:
    - SSL error:02001002:system library:fopen:No such file or directory: bss_file.c:175
    - SSL error:2006D080:BIO routines:BIO_new_file:no such file: bss_file.c:178
    sign-file: certs/signing_key.pem: No such file or directory
    Backup r8169.ko
    rename r8169.ko to r8169.bak
    DEPMOD 4.4.0-31-generic
    load module r8168
    Updating initramfs. Please wait.
    update-initramfs: Generating /boot/initrd.img-4.4.0-31-generic

    You can ignore the SSL error for now. The driver should be successfully compiled and installed into your system. The driver is already loaded and should work.

  • 6. Check the driver: As a final step, you could start checking if the driver is really loaded into your Kernel. For this you can use the command lsmod. lsmod lists all drivers, which are usable by your Kernel. So, if everything was successful, you should see an output like this:
    user@linux:~/r8168-8.042.000$ lsmod | grep r8168
    r8168                 491520  0

    You can also check as well your ethernet device directly to see if the correct driver is loaded (special thanks goes to Tim which posted this in the comment section):

    user@linux:~$ sudo ethtool -i enp1s0
    driver: r8168
    version: 8.042.00-NAPI
    bus-info: 0000:07:00.0
    supports-statistics: yes
    supports-test: no
    supports-eeprom-access: yes
    supports-register-dump: yes
    supports-priv-flags: no

    NOTE: You have to the change enp1s0 to the device name of your network card of course. This can be eth0, eth1, enp2s0, and so on.

    If your driver isn’t loaded until now, you should go with a reboot before further investigation.

That’s it

And that’s it. Now you’re ready to use your RTL8168/RTL8111 with the official Realtek drivers. If you have any questions and / or suggestions, please let me know in the comments.

The pain of an Realtek (RTL8111/RTL8168) ethernet card

WARNING: This post is really old and it happens that it doesn’t work with newer Kernels ( >= 4.0). You should check out my new article if you want to install the driver for your RTL8111/RTL8168. You can check out the new article here: Click me (updated guide).

The most of the Realtek ethernet cards are working out of the box on a Linux machine. But some of them, for e. g. the RTL8111/RTL8168, making some troubles.

In the last three Ubuntu Versions (11.10, 11.04 and 10.10) and the latest Debian testing, you will have the problem, that the noticed ethernet card above will only work with round about 200kb/s and after a while the whole network connection will break down for more than a minute and than you will be back with your 200kb/s again.

So, this is really annoying and it’s nearly impossible to work with your machine. To solve this problem you have to use the official Realtek (r8168) driver instead of the r8169 driver, which is included in the Linux Kernel.

This tutorial will show you in a few steps, how you can build the official Realtek driver for the RTL8111/RTL8168 ethernet card for Ubuntu or Debian:

1. Get root privileges
Get root privileges, while typing “su” or (when you use Ubuntu) “sudo -s” in a terminal.

2. Get the requirements
To build and install the driver, we need the kernel headers and the build tools like gcc. To get them, just easily type in a terminal:

apt-get install build-essential

3. Get the driver
Now, go to the official download page from Realtek for the Linux/UNIX Driver for the RTL8111/RTL8168 ethernet card and download the latest driver version.
Link: Realtek Download Page

4. Untar the archive
The driver is compressed to an archive. So uncompress it with the following command:

tar xfvj r8168-8.025.00.tar.bz2

NOTE: Please do not forget to replace the “r8168-8.025.00.tar.bz2” with the driver version which you have downloaded!

5. Blacklist old driver
We have to blacklist the old driver (r8169) to prevent the system to load it. To do this, easily set a new entry in “/etc/modprobe.d/blacklist.conf” which is called:

blacklist r8169

or just enter in the terminal again

echo “blacklist r8169” >> /etc/modprobe.d/blacklist.conf

to do this in only one command.

6. Build and install the new driver
Now, the whole requirements to install the new driver are done. Let us now change in the driver directory, which we have uncompressed in a few steps before:

cd r8168-8.025.00

NOTE: Again, please do not forget, to change “r8168-8.025.00” to the version which you have downloaded.

The only think we have to do now is, to build the driver and install it. To build it, just type:

make clean modules

after a few secondes (depending on your CPU), the driver is build and you can install it with:

make install

7. Welcome r8168
One of our last steps is, to let the system know about the r8168 driver. With the command

depmod -a

you rebuild the kernel module dependencies and with an

insmod ./src/r8168.ko

you insert the new kernel module (the driver) into the kernel.

8. Make it available for boot
To always use the new module, you have to make a new initrd boot file. Just do

mkinitramfs -o /boot/initrd.img-`uname -r` `uname -r`

in a terminal. Here we make the initrd file with the help of the “uname -r” command, which allows us to get the version of the actually running kernel.
At least, you have to add in the “/etc/modules” file a new entry, which is called “r8168”, to get the driver automatically loaded after boot. As an alternative you can do the last step again with only one command:

echo “r8168” >> /etc/modules

That’s it! After a reboot you should have the best possible performance with the RTL8111/RTL8168 and additionally no other network problems should be available anymore (no break down).
After the reboot you can check if the right driver is loaded with this command:

lspci -v

with this command you should find your RTL8111/RTL8168 network card in a list and the additional command “Kernel driver in use: r8168”.