User:Sakaki/Sakaki's EFI Install Guide/Configuring systemd and Installing Necessary Tools

In this section, we'll be following along with Chapter 9 of the Gentoo handbook, although of course you are at this point already booted into your new system (in contrast to the handbook flow).

The steps we'll be undertaking are:
 * 1) Re-establishing networking, and setting up an  session from the helper PC;
 * 2) Setting up  configuration options, such as locale;
 * 3) Emerging additional system tools, such a logger,  daemon etc.;
 * 4) Ensuring the system is fully up-to-date (using  from );
 * 5) Performing a precautionary reboot without the  graphical boot manager;
 * 6) Enabling the graphical boot manager, and restarting.

Once this is complete, we'll be in a position to configure secure boot, and bring up GNOME 3.

So, let's get going with the configuration!

Re-establishing Networking and
Our first order of business is to get back our network connection, then, so we can log in remotely, and use the facilities of the helper machine to complete the install.

To bring up your network interface, issue (directly at the keyboard of the target PC):

Next, if you are performing this install over WiFi, we need to ensure that can be started by  (NB: if using wired Ethernet for the install, you should skip the following commands). Issue:

Also, as of version 6.10.0 of, you need to ensure that the appropriate 'hook' script is in place to start and stop on each wireless interface. (NB: if using wired Ethernet for the install, you should skip the following command.) So, to ensure that you have this file in place, issue:

Now we need to ensure that the DHCP service is started (by ), both immediately, and also automatically whenever the system starts up. We use the Systemd command to achieve this. Issue:

Wait for a minute or so, and then check to see that you have been allocated an IP address:

Hopefully, it will have autoconfigured an interface, as above. You should of course look for the name corresponding to the interface brought up above, as opposed to (which is simply an example). If using WiFi for the install, the name will start with, not. You are looking for the 'inet' (assuming IPv4) entry; in this case 192.168.1.106 (yours will almost certainly differ). Make a note of this address, you will need it shortly.

Right, we can now start the daemon (and ensure it auto-starts on boot). Issue:

Now take note of the RSA, ED25519 and ECDSA fingerprints (which one is used when you try to connect, will depend upon the settings and recency of the system in your helper PC). These will have been generated automatically when you started for the first time, above (and of course will be different from those created by the  instance we started in the outer, 'host' system earlier):

Now switch back to your helper PC. Note that, if the target PC's IP address is the same as it was originally, then the helper will already have a note of its previous fingerprint (from the previous run), and will refuse to connect via  (since a mismatched fingerprint might suggest a man-in-the-middle attack). Therefore, we need to remove the old fingerprint record for the IP from. Issue:

Now we can connect via. From the helper, issue:

Check the (relevant) key fingerprint and then, if it matches, continue as below:

Setting Up Configuration Options
Next, and before we invoke again, we'll want to set up our locale (and a number of other  options). Note that all subsequent commands should be issued via the connection on the helper PC, unless otherwise specified.

Hostname
We'll begin by setting our hostname. Choose whatever name you like; I'm going to use. Issue:

Check that it worked:

The name change will not immediately reflect in your prompt until you enter another login shell. So let's do that now:

Locale, Keymap and Console Font
We set up some locale data earlier in the tutorial, but elected to use the default 'C' locale then, for simplicity. Now, we'll switch to use the 'real' locale.

Begin by listing the available locales. Issue:

The current LANG target is shown with a. Now choose a UTF-8 variant from the list (per the Gentoo handbook). For my particular case, that's option 5 in the list,, but yours will most likely vary. Issue:

Now we need to inform of our choice. Issue:

We also need to setup a keymap, both for the virtual consoles and for use with the X11 windowing system (which we haven't brought up yet, but will be using shortly).

Note that the virtual console keymap here is the one that will be used after has started - it does not replace that used in the initramfs (which is necessary to allow correct entry of the LUKS password); see this earlier comment.

We begin by displaying a list of keymaps, and filtering out those of interest. The Panasonic CF-AX3 has a Japanese layout, but obviously your machine may differ. Issue:

In my case, this shows one result, (yours will obviously vary, depending on your choice of  string). Now we can set the ( virtual console) keymap. Issue:

It's important that you double-check your layout will operate correctly, so issue:

Assuming that worked ( did not report an error), we now need to make sure our X11 setup is also correct. Confusingly, X Windows uses a different naming system for keyboard layouts from the virtual console. will try to infer the correct X11 layout for you, but you should check that it hasn't chosen anything bizarre. Issue:

and verify that all is well. For example, in the case above, the X11 Layout will have been guessed as, based on the keymap passed to. That happens to be fine, but in my case, I'd also like to add a second X11 keymap, for use with a plug-in keyboard (which happens to have a UK keymapping), so I issue:

We are nearly done - the last step is to ensure that the virtual console font and font mapper are set up appropriately.

If the text output displayed directly on your target PC already looks OK, and you can press (directly at the target machine's keyboard) and delete characters successfully, then you need do nothing further here, the default settings are already appropriate for you, and you should click here to skip directly to the next step (regenerating your environment).

This involves setting the and  variables in the  file (which is read by the   service). See the manpage, and the discussions "Into the Mist: How Linux Console Fonts Work" and the "UTF-8 and Unicode FAQ for Unix/Linux" for more background on this. Issue:

And append the following lines to the file:



Save and exit the editor.

Finally, whether or not you modified above, re-generate your environment, and check all looks good with the locale settings:

Post-Boot Script
At this point, it's useful to setup an script (and invoking  service) that will be run each time the main boot process has concluded. We will use this to address three minor glitches:
 * 1) Often, the  service (which reads the  file that we set up above) can end up being run too early, meaning that these settings get applied, but are then overridden.
 * 2) The virtual console does not always fully clear the frame buffer properly (particularly, when taking over from ), meaning that you sometimes get grey lines at the top or bottom of the console screen.
 * 3) Depending on the version of  (which we'll set up shortly),  may remain running in the background (even though  has completed). This can consume CPU and cause screen glitches.

Whereas the first of these problems could be solved by changing the scheduling dependencies of the service, that's risky, since other services depend on it and we might cause a scheduling loop.

Instead, we'll create a new service, which we'll instruct to run as part of the  (boot synchronization point, similar to runlevel 3), and specify that it should run after the. Per the Gentoo wiki, we'll place the service file in.

Issue:

Then place the following text in the file:

Save and exit. Next, we need to set up the script itself. Issue:

and place the following text in the file:

Save and exit. Now make sure the script is executable, and writeable by root only:

Finally, we need to enable the service (so will invoke it). Issue:

You can of course add your own commands to the script, if you like.

<span id="set_time_date_systemd">Time and Date
Next, check that the date, time and timezone are OK (they should have been carried across successfully from when you set them earlier for OpenRC (here and here), but it is best to check). Issue:

If the time is not correct, issue:

to set it.

If the timezone reported in the output of is incorrect (or shows as ""), you can correct it now; to do so, issue:

We also <span id="systemd_utc">need to tell to save the time in UTC format to the system's real-time-clock (RTC). Issue:

This command should have forced the hardware RTC into sync. To check that this is the case, issue:

and check that the reported and  are in close agreement.

<span id="misc_networking_systemd">Networking
As this tutorial covers the setup of a non-server-configuration machine, most users will not need to set an explicit domain name or NIS domain (if you do, see this section of the Gentoo handbook).

However, their absence results in the appearance of an annoying ""-style message at console login. To fix this, enter:

and remove the string from that file, so it reads:

Save and exit.

Lastly, although networking will automatically start up on boot, we do need to setup some local hostname information. Issue:

And modify the and  lines in the 'localhost aliases' section, so they read:

Save and exit.

<span id="emerge_misc_system_tools">Emerging Additional System Tools
Next, we will some additional system tools that are not yet installed, but which are generally useful (many of these are covered in Chapter 9 of the Gentoo handbook).

However, before we start any heavy compilation, let's get our environment back. Issue:

As before, setup a second virtual console inside, which will be useful to e.g., monitor the status of long s. Press then  to start a new console. Then in that new console enter:

Now hit then  to get back to the original console.

We'll begin by installing as the logger, so that we can view and parse regular textual log files as well as 's somewhat controversial (and not entirely crash-resistant) binary log format. Issue:

As long as the use flag is set (which it will be, given your choice of profile earlier),  will automatically hook up to the correct socket.

Per, we need to make a minor configuration change to avoid binary zero characters getting written to the file (making it look like a binary file to tools like ). Issue:

Now start it up (and enable at boot):

Next, we need a daemon for scheduled commands. We'll choose, a fork of. Issue:

Enable and start it:

Next, we add file indexing, so that you can quickly search for files with the tool. Issue:

There is no service to explicitly enable for. It automatically adds an entry (for ) to  on installation.

Next, we add a program to manage log rotation (important to stop files like from growing to an unwieldy size). Issue:

Again, there is no need to activate any service here, as this creates a daily job (via ) upon installation.

We have already activated, and as I will assume you have no need for serial console access (as this tutorial is not aimed at configuring server machines); if you do, however, please see this section of the Gentoo handbook.

Next, as the handbook notes, we already have necessary file system utilities (for checking integrity, formatting etc.) installed to deal with ext2, ext3 and ext4 filesystems. If you need to support other file systems (e.g., XFS), you should, per the handbook, emerge the necessary package(s) now.

One set of filesystem tools we will definitely need, since we're forced to deal with fat32-formatted partitions for UEFI, is. Issue:

We have already installed and activated, and I will assume you do not require any additional networking tools installed at this point (if you do, please see the relevant section of the Gentoo handbook for more details).

Next, we'll add some useful utilities that let you discover information about the hardware in your system (this will come in handy when e.g., pruning kernel drivers). Issue:

As it's name suggests, provides similar facilities to the  package (present in the @system set), but for USB devices. In particular, the command it includes is very useful. The package provides (inter alia) the eponymous  tool, which can be used to generate a system overview log.

Check that these work. Issue:

and review the output, then:

and do the same (you can press and  to page through the output here, and  to quit).

Now we'll some useful Portage tools. Issue:

Here's what these packages provide:
 *  we've already used (in the minimal install image system) - it is a tool to simplify the selection of Gentoo mirror servers;
 *  is a set of utilities for searching, diffing and updating a binary cache of your local Portage tree (and overlays, if you have them); it is fast and convenient to use;
 *  is a set of miscellaneous administration scripts for Gentoo; these allow you to show package dependency graphs, find out which package installed a particular file, view package changelogs, show package use flags, and many other useful things;
 *  is a simple tool that allows you to query for use flag descriptions quickly.

<span id="ensure_system_up_to_date">Ensuring the System is Fully Up-to-Date
If you have been following these instructions, then it is very likely that you have a completely current system at this point. Nevertheless, let's make double-sure this is so. To do this, we'll make use of the utility script, from the  overlay. To install it, issue:

Next, execute the script to bring your system up to date (we'll avoid checking for kernel updates at this point). Issue:

You can read more about via its manpage. However, in summary, when invoked in non-interactive ('batch') mode (as here), and with the flag, it will:
 * update your Portage tree (including any active overlays, such as ) and the cache (using );
 * remove any prior resume history (using )
 * ensure Portage itself is up-to-date (using );
 * emerge any packages which have been updated, or whose use flags have changed (using );
 * rebuild any external modules if necessary (such as those for VirtualBox) (using )
 * rebuild any packages depending on stale libraries (using );
 * update old Perl and Python modules not caught by (using  and );
 * not attempt to rebuild the kernel, even if a new version of has become available (because we specified );
 * remove any unreferenced packages (using );
 * re-emerge any packages depending on libraries removed by the previous step (using );
 * rebuild any packages depending on stale libraries again (using );
 * remove any unused source tarballs (using ); and
 * update environment settings as a precautionary measure (using ).

Assuming that completed successfully (you receive the message ""), look at the preceding few lines of output from. If you see:

then there's nothing more to do; however, if instead you see:

then (as instructed) you need to run (this is an inherently interactive process, and so is not called by  when running in batch mode, as here). To do so, issue:

and follow the prompts to accept, zap (ignore) or merge each proposed change.

<span id="reboot_sans_plymouth">Performing a Precautionary Reboot without
To be cautious, we will now reboot the system to check that our changes to the configuration have not caused any issues. This will then also ensure that we have a 'known good' version to fall back to, should any problems arise when we enable the boot splash manager in the next step.

Ensure that the boot USB key is still inserted in the target machine, then close out the two virtual terminals, and then the  connection itself. Issue:

which will close the first terminal, then:

to close the second one. Then exit the enclosing session itself:

Now, ensure your boot USB key is inserted, and then, directly on the target machine (i.e., at it's keyboard), issue:

If all is OK, your target system should restart, and boot the UEFI stub kernel off the USB boot key as before. After some initialization, you should be prompted for a passphrase to unlock the keyfile for your LUKS partition (this is the passphrase you set up earlier). Type this in (directly at the target machine keyboard), and press. Shortly after, assuming that your passphrase is correct, you'll be presented with a login prompt. Enter 'root' as the user (again, directly at the keyboard, without quotes), and then type the root password you set up earlier.

Next, check that everything -related started up OK (do this directly at the target machine's keyboard, there's no need to re-establish / for this short interlude):

If this reports "" (or simply returns, printing nothing) then all is well.

<span id="reboot_with_plymouth">Enabling, Rebuilding the Kernel, and Restarting (Optional Step)
If you do not want to use a graphical boot splash manager, then you can safely skip this step, and stay with a textual boot. Otherwise, let's continue, and set up. We'll also <span id="change_bootfile_path">take this chance to migrate our bootfile from to the less generic.

Still directly at the target machine, use the tool to turn on Plymouth (the following is an example only; the values shown will vary for your machine). Issue:

Specifying a theme will have  automatically turn on the ../Configuring_and_Building_the_Kernel and ../Configuring_and_Building_the_Kernel kernel command line options, disable the 'penguin logo' display on boot (via ../Configuring_and_Building_the_Kernel) and instruct Genkernel to ensure that the necessary modules are installed into the initramfs. Of course, we need to run to make these changes take effect, so let's do that now. Ensure that the boot USB key is still inserted in your target machine, and then (directly at the keyboard) issue:

Wait for the process to complete (it will not do a by default, so it shouldn't take long).

When you get the message "", reboot. Issue:

When <span id="entering_plymouth_LUKS_password">the target system restarts, you should now see a graphical password entry screen, as shown below. Enter your LUKS keyfile passphrase (the one you created earlier), directly at the target machine keyboard, and you should then get a brief animation before the textual login console appears:

Once you receive the login prompt, enter 'root' as the user (again, directly at the keyboard, without quotes), and then type the root password you set up earlier.

<span id="if_plymouth_fails">If Doesn't Work Properly
If you encounter problems when using (for example, it failing to accept your -encrypted LUKS keyfile passphrase), you'll need to fall back to the textual boot manager (as debugging  is beyond the scope of this tutorial). Fortunately, because automatically preserves the prior kernel on the USB boot key, you should be able to do this easily, without having to remount the system using the minimal install image USB key /.

<span id="revert_to_previous_kernel">Simply remove the boot USB key, insert it into the helper PC, and then issue (I am assuming that you need to be the superuser to on your helper PC):

Enter the password (for the helper PC, that is), and then as, on the helper, mount the USB boot key's EFI system partition at :

Next, delete the old (failed) kernel and config (the one that tries to use during ) and replace it with the previous version. If you have only run once since changing the path of the bootfile (from  to ) in the last step, then issue:

otherwise, if you have run more than once since changing the path, issue:

Finally, ensure the data has been written, unmount the USB key, and remove the temporary mountpoint you created, then exit back to the normal user. Issue

Remove the boot USB key from the helper, and re-insert it into the target machine. Power cycle the target machine, and you should now be able to boot up successfully.

Once you have got your target machine environment back online, you will need to ensure that any subsequent kernels (created by ) will not attempt to use during. Issue (the details in the below will obviously differ on your machine):

Ensure that the boot USB key is still inserted in your target machine, and then issue:

Once the build completes, reboot:

and you should be back to a textual boot (where you of course need to enter the LUKS keyfile passphrase, then login as root, as before). You can then continue with the remainder of the tutorial (having a graphical boot splash is nice, but not necessary for what follows).

<span id="next_steps">Next Steps
Now that we have standard EFI boot operational, we will next set up secure boot, to ensure (as a safeguard) that the integrity of our bootable kernel will be checked by the system at startup. Click here to go to the next chapter, "Configuring Secure Boot".