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install arch finish
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@ -41,3 +41,256 @@ sequenceDiagrams:
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---
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<!--more-->
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Installing Arch Linux on a KVM/QEMU virtual macin eis a fairly startightforward process. We will use command line approach in this post.
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## Create a virtual machine
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Here we use `virt-install` to create a virtual machine. Run the following as root:
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```bash
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virt-install -n arch \
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--os-type=linux \
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--os-variant=archlinux \
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--ram=2048 \
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--vcpus=4 \
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--disk path=/var/lib/libvirt/images/arch.qcow2,bus=virtio,size=32 \
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--graphics=spice \
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--cdrom /path/to/image.iso \
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--network default
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```
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### What is happening here?
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- Here we specify name for the virtual machine, which is *arch*.
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- Next we specify type and variant.
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- The amount of RAM is specified in megabytes.
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- We assign four virtual CPUs to the VM.
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- In `disk path` we have given the default location where the virtual machine image is stored.
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- Size is in gigabyes.
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- We have used *spice* for graphics. Alternatively, VNC can be used.
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- In `cdrom` we have provided the location of the boot media.
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- Finally we asked `virt-install` to use the default network profile.
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Pressing Enter will start the creation of the virtual machine. When done, it will start *virt-viewer* with live media running.
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## Install Arch Linux
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This part is the same as any Arch Linux installation. We partition disks, run bootstrap script, generate locales, set timezone, hostname, install bootloader and optionally a desktop environment.
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### Partition disks
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The virtual storage goes by `/dev/sda`. We partition disks using `cfdisk`. Select **dos** partition tabke since we are not using UEFI. Create just one partition and use it as root. Write then quit the program.
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Now we format the partition.
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```bash
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mkfs.ext4 /dev/vda1
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```
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### Mount root partition and install
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Now we are ready to install Arch Linux. Mount root partition on `/mnt` with `mount /dev/vda1 /mnt`. Then we run the bootstrap script that will create the necessary files and install the specified packages.
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```bash
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pacstrap /mnt base base-devel linux vim dhcpcd
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```
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#### What is happening here?
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- Here we asked `pacstrap` to install Arch Linux on `/mnt`.
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- Then we specified the packages to be installed.
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- The meta package `base` contains a minimal package set that defines a basic Arch Linux installation. It includes basic utilities like glibc, bash, coreutils, networking tools, systemd, etc.
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- Next is the `base-devel` group. It contains tools to build many packages like gcc, make, binutils, etc.
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- `linux` is the kernel.
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- We require `vim` to configure various things. Any text editor will do.
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- `dhcpcd` will allow us to connect to the internet. Alternatively, `networkmanager` can be used.
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### Generate fstab
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This file tells which partitions to mount during boot. Instead of writing by hand, we use a tool to simplify things for us. Running the following
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```bash
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genfstab -U /mnt >> /mnt/etc/fstab
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```
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will generate a fstab file. We asked it to use `/mnt` partition. Any partition under `/mnt` will also be included, so if you created separate `/home` and `/var` partitions, they will also be included. The `-U` parameter tells `genfstab` to use UUID.
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## Configuration
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In this section we set timezones, locale and hostname.
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Chroot into new root
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```bash
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arch-chroot /mnt
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```
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### Set timezone
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List timezones by running `timedatectl list-timezones`. Set timezone with
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```bash
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timedatectl set-timezone Asia/Kolkata
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```
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Replace **Asia/Kolkata** with your timezone.
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### Set locale
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Uncomment the desired locales in `locale.gen`
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```bash
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vim /etc/locale.gen
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```
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Save and exit then generate them by running
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```bash
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locale-gen
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```
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And set locale config
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```bash
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echo LANG=en_US.UTF-8 > /etc/locale.conf
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export LANG=en_US.UTF-8
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```
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Replace **en_US.UTF-8** with your locale.
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### Configure network
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#### Set hostname
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Your virtual machine will be identified by this name on the network
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```bash
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echo arch-vm > /etc/hostname
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```
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#### Create /etc/hosts
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Your computer will look here for resolving domain names before looking out on the internet. Put the following information in `/etc/hosts`:
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```bash
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127.0.0.1 localhost
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::1 localhost
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127.0.1.1 arch-vm
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```
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#### Enable dhcpcd
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This will enable the virtual machine to connect to the internet
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```bash
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systemctl enable dhcpcd.service
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```
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### Create a user
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Before we create a regular user, it becomes necessary to set a root password. Set it by running
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```bash
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passwd
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```
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Create a new user with
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```bash
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useradd -m -G wheel,storage,power -s /bin/bash <username>
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```
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#### What is happening here?
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- `-m` tells `useradd` ro create a home directory for this user.
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- `-G` tells which groups this user will belong to.
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- `-s` specifies the login shell for this user.
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- Replace <username> with a username of your choice.
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Set a password for this user with
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```bash
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passwd <username>
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```
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### Install ssh server
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If working on command line is all you have to do, then working via SSH is more convenient than using Spice client (or VNC if you chose that). Install it
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```bash
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pacman -S openssh
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```
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and enable it
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```bash
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systemctl enable sshd.service
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```
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### Install bootloader
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The instructions thus far will provide us a working bare minimum Arch Linux environment. Now it is time to install a bootloadet and finish the installation. We will go with grub.
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```bash
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pacman -S grub
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grub-install /dev/vda
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grub-mkconfig -p /boot/grub/grub.cfg
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```
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#### What is happening here?
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- First we install grub package.
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- Then we install it on the device `/dev/vda`.
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- Next we create a configuration file. It can be modified at `/etc/default/grub`. Every time we modify the configuration, it must be generated with the last command for the changes to take place.
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### Reboot
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The installation is complete. Next time we boot, we will be dropped into a working Ach Linux environment.
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Exit chroot.
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```bash
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exit
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```
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Unmount partition
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```bash
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umoount /mnt
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```
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And reboot
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```bash
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reboot
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```
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## Connecting to the virtual machine
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Wait for a minute and the virtual machine will be up. FInd the virtual machine's IP address on host machine (assuming **arch** is the name of your virtual machine)
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```bash
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virsh domifaddr arch
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```
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Save the IP address in your host's `/etc/hosts`
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```bash
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printf "<ip-address>\t<guest hostname>\n" | sudo tee -a /etc/hosts
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```
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Replace `<ip-address>` with the IP address of the virtual machine and `<guest hostname>` with the hostname you set while installing the virtual machine. It wuold be something like
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```bash
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printf "192.168.122.43\tarch-vm\n" | sudo tee -a /etc/hosts
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```
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### Create SSH key pair
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While not necessary on a local network, it is generally a good habit to use key pair instead of password authentication.
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Go to `~/.ssh` and create a key pair.
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```bash
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cd ~/.ssh
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ssh-keygen -t ed25519 -f arch-vm -C "arch linux virtual machine"
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```
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#### What is happening here?
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- `ssh-keygen` generates keys.
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- `-t` specifies the type of the key. We chose Ed25519. Other popular types are EdDSA, RSA, DSA, etc.
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- `-f` specifies the filename of this key pair.
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- `-C` is used to put comment in the key.
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This process will ask for a passphrase and generates a private key and a public key. The public key will have extension `.pub`.
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Create a config file. This will tell SSH which key to use with respect to host. The file is named `config`. Put the following in the file
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```
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Host arch-vm
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IdentityFile ~/.ssh/arch-vm
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```
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The private key is used to identify you. Anybody with your private key will be impersonate you so keep it safe.
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Now copy the public key over to your virtual machine. It can be achieved by programs like `scp` or `rsync`. However, we will use `ssh-copy-id` to conveniently put our key while abstracting most parts.
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```bash
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ssh-copy-id -f -i ~/.ssh/arch arch@arch-vm
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```
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It is assuming **arch** is the username of the normal user of the virtual machine.
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Now log in by running
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```bash
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ssh arch@arch-vm
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```
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Modify `/etc/ssh/sshd_config` to only use public key for authentication.
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- Change `PubkeyAuthentication` to `yes`
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- Change `PasswordAuthentication` to `no`
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- Change `X11Forwarding` to `yes`
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Now restart `sshd` for changes to take place.
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```bash
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systemctl restart sshd.config
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```
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Exit and try logging in again. This time it should ask for passphrase.
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## Install a desktop environment
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This part is entirely optional if you wish to use GUI. In this post, we will install MATE desktop environment.
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```bash
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pacman -S mate mate-extra
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```
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The desktop environment can be started by running `exec mate-session`. If you want to use xinit then put the command in `~/.xinitrc`. Then install `xorg-xinit` package. Start it with `startx`.
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Alternatively you can use a display manager like GDM, LightDM, SDDM. etc. Install `sddm`, enable and start it
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```bash
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systemctl enable sddm.service
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systemctl start sddm.service
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```
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If you wish to run GUI programs over X11 forwarding, a desktop environment might be overkill. In that case just install `xorg`, `xorg-server`. To use X11 forwarding, log in via ssh with
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```bash
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ssh -Y arch@arch-vm
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```
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