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author | samis <samis@web> |
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date | Sat, 02 Sep 2017 01:38:16 +0000 |
parents | 2307e281b4b7 |
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Samuel Hodgkins <samuel.hodgkins@sky.com>
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1 [[!tag tech linux gentoo old]] |
3 | 2 I'm not a distro-hopper by any means, but even so I have tested/tasted a number of Linux distributions. |
3 Primarily, these have been in the Debian family: X/K/Ubuntu, Debian itself, Raspbian and likely more that I'm forgetting. | |
4 I was recommended and used very happily for a good while Arch Linux (experiments with GNU Guix on it notwithstanding), until my hard drive began dying one day. | |
5 I had heard that Tumbleweed was also rolling-release, and provided interesting rollback functionality out of the box using BTRFS and Snapper, so I installed it on a spare USB stick. | |
6 Recently, I was thinking about Gentoo Linux. I was mainly thinking of the perhaps not-entirely-accurate idea that it would take substantial time to install due to the requisite amounts of compiling | |
7 I also thought that the difficulty level of the installation was roughly equivalent to that of Arch,. I wanted to see if my thoughts/perceptions were right, so I planned to install and migrate to Gentoo. | |
8 This led to a sequence of events that can be divided into approximately 3 parts. | |
9 | |
10 # Part I: The actual installation of Gentoo | |
11 Much like Arch Linux, Gentoo has a [comprehensive wiki]() filled with documentation about not only the installation procedures but also a large number of other things that are needed post-install. | |
12 This is a very good thing, because documentation is very useful when installing either distribution (especially if you haven't done it before). | |
13 As such, I mostly ended up following the [Gentoo Handbook]() which provides a well-written resource much like Arch's own installation guide (except it seemed more organized and structured into steps). | |
14 Seeing as I was going to install Gentoo onto an existing filesystem (as a BTRFS subvolume) and was installing from an existing Linux rather than a CD, I could ignore 3 segments of the first part. | |
15 The remaining installation steps looked like this: | |
16 | |
17 1. Download (and extract) a precompiled base system (a stage3 tarball) | |
18 This stage was very easy, only a couple of commands to execute with no decisions to make. | |
19 2. Set appropriate compiliation settings | |
20 At this point I needed to select what compiliation flags I would be using as well as decide how many parallel jobs `make` should be running. | |
21 I decided to go with the default set of flags, only tweaking it to target GCC towards my specific CPU type (`-march=amdfam10`) and to also follow the recommendation for job count so that `make` could run up to 5 tasks in parallel. | |
22 This was a very good decision - for one thing it made sure that compiling felt very fast and also ensured that all of my CPU's capacity could be used by the process if needed. | |
23 3. Enter the installed base system and configure/update Portage (Gentoo's package manager) | |
24 This step was also rather easy, a bit of copying files around and a few commands. I selected the generic 'desktop' profile, not seeing one more accurate. | |
25 4. Rebuild the world | |
26 Now that I had selected my profile, I needed to update my system to include the changed settings/flags that came with the new profile. | |
27 Additionally, I needed to install the additional software selected to my profile. | |
28 In short, what I (or Gentoo's portage) actually did could be succinctly explained with this image: | |
29 | |
30 ![COMPILE ALL THE THINGS](https://cdn.meme.am/instances/500x/71652744.jpg) | |
31 | |
32 I expected that this would be the longest part of the installation, and that was a correct expectation. Compiling 164 packages does take some time. | |
33 However, it didn't take as much time as I imagined it to, things felt pretty fast actually. Building a generic linux kernel from scratch and installing it only took ~1h. | |
34 I attribute this unexpected speediness to the benefits of passing `-j5` to make - Allowing 4 files to be compiled at once while using an entire CPU core speeded things up very nicely, while a 5th task meant there was almost always something to do when it was otherwise idle. | |
35 5. Configuration of USE flags/locale/timezone | |
36 At the present time, I decided to not really touch the USE flags immediately as they could be easily modified later as an when I needed to. | |
37 I set the locale & timezone in accordance with my physical location (the UK). | |
38 6. Compiling and installation of the kernel | |
39 I decided that rather than start with a custom kernel configuration that may or may not boot, I would instead start with Genkernel, which would provide me a base from which to customise my own kernel. | |
40 Considering that the result was a rather generic kernel, it was a bit surprising that it only took an hour or so to compile and install the kernel from scratch. | |
41 7. General system configuration | |
42 In this stage, I wrote /etc/fstab as well as configuring the network (simply automatically running DHCP on the only ethernet interface). | |
43 I also assigned the system a hostname, and made sure that OpenRC used the correct keymap and started the network at boot-time. | |
44 Before moving on to bootloader configuration, I selected what initial optional services I wanted installed and running at boot. These included a system logger, a cron daemon as well as `mlocate`. | |
45 | |
46 The next stage was bootloader configuration, but I think discussion of that would fit better in Part II. This post is getting somewhat long, so that'll be in another post in a short while. |