The Ultimate RPi Installation Guide: Difference between revisions
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== | = Raspberry Pi installation = | ||
* | |||
* | == Setting up SD Card == | ||
1. Download an OS image file | |||
For example: | |||
* MINIBIAN: http://minibianpi.wordpress.com/download/ | |||
* RASPBIAN: https://www.raspberrypi.org/software/operating-systems/ | |||
2. Put image on SD Card | |||
Unzip the downloaded OS. | |||
Stick SD Card in (duh) | |||
'''mac''' | '''mac''' | ||
* First open terminal | * First open terminal | ||
* Find the disk that you are going to write to | * Find the disk that you are going to write to | ||
diskutil list | diskutil list | ||
<span style="color:red;">!!! Be careful that you find the right disk, you can overwrite the harddrive of your computer easily when you pick the wrong one !!! To make it easier, and to avoid wiping external drives, make sure you have nothing else plugged in aside from your SD Card.</span> | |||
* Find the disk name that reads something like ''/dev/disk<number>'' that ''doesn't'' have a partition on it named something like ''Macintosh HD''. For example ''/dev/disk2'' | * Find the disk name that reads something like ''/dev/disk<number>'' that ''doesn't'' have a partition on it named something like ''Macintosh HD''. For example ''/dev/disk2'' | ||
* You need to unmount the SD Card before imaging (replace ''<number>'' with the disk number found in the first step) | * You need to unmount the SD Card before imaging (replace ''<number>'' with the disk number found in the first step) | ||
sudo diskutil unmountDisk /dev/disk<number> | sudo diskutil unmountDisk /dev/disk<number> | ||
* Then to image the disk with your image put in the following command (replace the ''minibian.img'' with the full path to your downloaded image file, and the ''<number>'' with the disk number that you found in the 1st step) | * Then to image the disk with your image put in the following command (replace the ''minibian.img'' with the full path to your downloaded image file, and the ''<number>'' with the disk number that you found in the 1st step) | ||
sudo dd bs=4m if=minibian.img of=/dev/rdisk<number> | sudo dd bs=4m if=minibian.img of=/dev/rdisk<number> | ||
'''linux''' | '''linux''' | ||
* Find the disk that you are going to write to, find its path, for example '''/dev/sdb/''' | |||
You can do this using software like ''gparted'' or ''Disks'' (on Gnome), or use the command line tools ''df''. | |||
df -h | |||
<span style="color:red;">!!! Be careful that you find the right disk, you can overwrite the harddrive of your computer easily when you pick the wrong one !!! To make it easier, and to avoid wiping external drives, make sure you have nothing else plugged in aside from your SD Card.</span> | |||
* Unmount this disk | |||
umount /dev/path/to/disk | |||
* Write the image to the disk | |||
sudo dd bs=4M if=minibian.img of=/dev/sdc status=progress | sudo dd bs=4M if=minibian.img of=/dev/sdc status=progress | ||
* Figure out what's the | 3. Insert SD | ||
4. Power the RPi, wait for crazy blinking to stop | |||
== Connecting to the Pi == | |||
Connect to the Pi using the default login details: | |||
The default MINIBIAN login user is '''root''' and the passwd is '''raspberry'''.<br> | |||
Or for RASPBIAN the default login is '''pi''' with password '''raspberry'''. | |||
===With a screen + keyboard + mouse=== | |||
To connect to the Pi, you can attach a screen + keyboard + mouse, so you can go through the setup process step by step. <br> | |||
Connect the screen before you start the pi. | |||
Also connect the Pi to an ethernet cable, that will allow you to install new software. | |||
===Using SSH=== | |||
(Connecting to the Pi through the terminal) | |||
'''Enable SSH on the Pi''' | |||
You can do this in two ways: | |||
''With a screen + keyboard'' | |||
* Connect the Pi to a screen and keyboard. | |||
* Run: <code>sudo raspi-config</code> | |||
* Select <code>Interfacing Options</code> | |||
* Navigate to and select <code>SSH</code> | |||
* Choose <code>Yes</code> | |||
* Select <code>Ok</code> | |||
* Choose <code>Finish</code> | |||
or | |||
''Before putting the SD in the Pi'' | |||
'''Mac''' | |||
* <code>cd /Volumes/boot/</code> | |||
* <code>touch ssh</code> | |||
'''Linux''' | |||
* <code>cd /media/USERNAME/boot</code> | |||
* <code>touch ssh</code> | |||
Done! | |||
* put the SD card back in the Pi and boot it up | |||
Read more here: https://www.raspberrypi.org/documentation/remote-access/ssh/ | |||
'''Connect the Pi to your local network''' | |||
To connect to the Pi with SSH, you will need to connect it to a network. <br> | |||
It will ''not'' connect by automatically to any Wifi network by default. <br> | |||
You will need to connect it to a router, or other network with an ethernet cable first. | |||
'''Figure out what's the IP of the Pi''' | |||
You can do that using '''ifconfig''' (while being logged into the Pi using a screen + keyboard) or '''nmap''' (from your own computer). | |||
ifconfig | |||
nmap -sP 192.168.1.1-255 | nmap -sP 192.168.1.1-255 | ||
For Mac users: you will need to install ''nmap'' manually from [https://nmap.org/book/inst-macosx.html here]. Easiest installation method is with the ''OSX Binaries''. | |||
'''Use SSH to login into the Pi''' | |||
You can login using the ip address of the pi, or using the hostname of the machine. | |||
ssh root@192.168.1.73 | ssh root@192.168.1.73 | ||
ssh pi@192.168.2.15 | |||
ssh pi@raspberrypi.local | |||
===With an ethernet cable=== | |||
You can alternatively connect it directly to your personal machine via an ethernet cable - steps to do that can be found [https://pihw.wordpress.com/guides/direct-network-connection/ here]. | |||
==Change the hostname== | |||
The hostname is the name of the Pi. | |||
'''Change the hostname''' | |||
You can change this name, by editing these two files: | |||
sudo nano /etc/hostname | |||
sudo nano /etc/hosts | |||
Change <code>/etc/hosts</code> into: | |||
127.0.0.1 localhost | |||
::1 localhost ip6-localhost ip6-loopback | |||
ff02::1 ip6-allnodes | |||
ff02::2 ip6-allrouters | |||
127.0.1.1 newhostname | |||
'''Reboot the Pi after you made these changes!''' | |||
'''Reach your Pi using its hostname''' | |||
You can use the hostname to ssh into the Pi, if you are in the same local network as your Pi: | |||
ssh username@hostname.local | |||
You can use this hostname also in the browser, to access the webserver on the Pi. Try to visit: | |||
hostname.local | |||
hostname.lan | |||
== THIS IS IT! == | |||
Well done, you now have a Pi installation, the guideline stops here, anything past this point is just a matter of what the Pi will be used for. | |||
= Extras = | |||
All the following steps are optional and depend on the use of the RPi. | |||
==Make user accounts and file permissions== | |||
[[The Pi is installed now what do we do?]] | |||
=Use your Pi as a wireless hotspot= | |||
If you want to just install an hotspot: follow this guide: https://www.raspberrypi.com/documentation/computers/configuration.html#setting-up-a-routed-wireless-access-point | |||
and if you want it just local skip the "masquerdate" section. | |||
==rtl8812BU antenna drivers installation== | |||
===Update rpi's kernel=== | |||
sudo apt-get update && sudo apt-get install --reinstall raspberrypi-bootloader raspberrypi-kernel | |||
sudo apt-get install raspberrypi-kernel-headers | |||
sudo apt-get install -y bc build-essential dkms git | |||
===Install driver for antenna=== | |||
Follow this | |||
https://github.com/morrownr/88x2bu-20210702#user-content-installation-steps | |||
After the driver installation, change settings of the driver (https://github.com/morrownr/88x2bu#user-content-driver-options) | |||
sudo ./edit-options.sh | |||
in the first lines, change the value: | |||
rtw_vht_enable = 2 | |||
rtw_power_mgnt=0 | |||
then | |||
sudo reboot | |||
===check if the antenna is installed=== | |||
iwconfig | |||
It should appear “wlan1” and characteristics of the antenna | |||
===Disable the inner wireless interface=== | |||
sudo nano /boot/config.txt | |||
=== Expand filesystem (optional) | Paste: | ||
dtoverlay=disable-wifi | |||
Check if the antenna is the only interface: | |||
iwconfig | |||
Now again | |||
sudo reboot | |||
and configure in "master mode" the antenna | |||
sudo iwconfig wlan0 mode master | |||
==Create the access point== | |||
follow: https://www.raspberrypi.com/documentation/computers/configuration.html#setting-up-a-routed-wireless-access-point | |||
With these setting in hostapd.conf: | |||
interface=wlan0 | |||
ssid=NAMEYOUCHOOSEN | |||
driver=nl80211 | |||
hw_mode=a | |||
channel=44 | |||
macaddr_acl=0 | |||
auth_algs=1 | |||
ignore_broadcast_ssid=0 | |||
wmm_enabled=1 | |||
To debug: | |||
sudo /usr/sbin/hostapd /etc/hostapd/hostapd.conf | |||
But after: | |||
sudo systemctl enable hostapd | |||
==WebServer== | |||
If the hotspot works, install a webserver(nginx) and its fancy version: [https://pzwiki.wdka.nl/mediadesign/Fancyindex Install NGINX Fancyindex] | |||
= Expand filesystem (optional) = | |||
This is optional. Indeed, depending on the application, the little room left on the minibian image might be just enough to add a couple software and config files. '''However, it is necessary if the kernel needs to be updated''', as the process needs a bit more space than what we have by default. Also, you can repeat the process again at later stage if you need more space than the suggested 2GB total size in the example below. Just make sure you do not exceed the size of your medium/sdcard. | This is optional. Indeed, depending on the application, the little room left on the minibian image might be just enough to add a couple software and config files. '''However, it is necessary if the kernel needs to be updated''', as the process needs a bit more space than what we have by default. Also, you can repeat the process again at later stage if you need more space than the suggested 2GB total size in the example below. Just make sure you do not exceed the size of your medium/sdcard. | ||
Line 56: | Line 278: | ||
resize2fs /dev/mmcblk0p2 | resize2fs /dev/mmcblk0p2 | ||
== Base system == | |||
* flavouring | * flavouring | ||
Line 66: | Line 288: | ||
apt update | apt update | ||
apt upgrade | apt upgrade | ||
* '''DO NOT REBOOT YET''' At time of writing the upgrade makes kernel.img disappears from /boot, resulting in an unbootable RPi3 | |||
* update to latest kernel | * update to latest kernel | ||
apt install rpi-update | apt install rpi-update | ||
Line 75: | Line 298: | ||
dpkg-reconfigure tzdata | dpkg-reconfigure tzdata | ||
== Comfy environment (optional) == | |||
Now you can install all your comfy l33t command line tools and whatnot, fav editors, etc. This is just an example of what I (aymeric) always put on top of my pi, YMMV: | Now you can install all your comfy l33t command line tools and whatnot, fav editors, etc. This is just an example of what I (aymeric) always put on top of my pi, YMMV: | ||
Line 101: | Line 324: | ||
* logout and log back in | * logout and log back in | ||
== | == Wifi as client == | ||
Note: this is to use the wifi on the RPi as *client*, read further "Access Point with Captive Portal" for using wifi as hotspot. | |||
== | === RPi 2 === | ||
FIXME | |||
=== RPi 3 === | |||
Instructions on how to setup Wifi on the RasperryPi 3 can be found [https://minibianpi.wordpress.com/how-to/rpi3/ here]. | |||
== Web Server == | |||
* nginx, what else :) | * nginx, what else :) | ||
Line 119: | Line 346: | ||
'''TODO:''' fcgiwrap, proxies (for nodejs or else). | '''TODO:''' fcgiwrap, proxies (for nodejs or else). | ||
=== Access Point with Captive Portal | == Make USB soundcard the default soundcard == | ||
Built-in RPi audio is notoriously shitty, also, no line/mic in, so if your application needs sound, it might be worth getting one of these notoriously shitty (and cheap) USB soundcard, that will still beat the notoriously shitty built-in audio. | |||
* First install some basic audio software in case you started from a blank minimal debian install | |||
apt install alsa-base alsa-utils | |||
* Edit /etc/modprobe.d/alsa-base.conf (create it if needed) and put: | |||
options snd-usb-audio index=0 | |||
options snd_bcm2835 index=1 | |||
* reboot! | |||
== Drop free USB audio with jack == | |||
(only concerns systems with noticeable audio drops when using external USB soundcard/DAC/ADC) | |||
A few years ago RPi2 got infamous for their dodgy USB implementation that led to audio drops. One popular fix was to force the USB port to 1.1 (add dwc_otg.speed=1 to /boot/cmdline.txt). This was supposedly fixed, but the RPi3 seems to have issues as well, and none of the old tricks apply. However, using jack seems to provide a drop/glitch free experience: | |||
* Install jack | |||
apt install jackd2 | |||
* Default raspbian jack binary is compiled with dbus support, but we do not have or want to run X. To avoid having to run X, edit /etc/dbus-1/system.conf. Make sure you replace username with the correct user who will run jack, and make sure you point to the right sound card. Audio0 is the first/default soundcard, Audio1, the second, etc. | |||
<policy user="username"> | |||
<allow own="org.freedesktop.ReserveDevice1.Audio0"/> | |||
</policy> | |||
* when you start jack, do it like this (adjust jackd flags as needed, this is minimal): | |||
DBUS_SESSION_BUS_ADDRESS=unix:path=/run/dbus/system_bus_socket jackd -R -dalsa | |||
* start your jack compatible application, for instance: | |||
pd -jack | |||
== Access Point with Captive Portal == | |||
* Misc stuff to install | * Misc stuff to install | ||
apt-get install dnsmasq wireless-tools hostapd | apt-get install dnsmasq wireless-tools hostapd | ||
* Make your wifi key work (sorry you'll have to figure this one on your own, too many different devices, avoid mini dongles, they're usually shit with staging drivers only, "old" large USB wifi dongles (b/g not n) are usually the most reliable). However, here are some instructions for getting the built-in brcmfmac wifi chip found in the RPi3: | * Make your wifi key work (sorry you'll have to figure this one on your own, too many different devices, avoid mini dongles, they're usually shit with staging drivers only, "old" large USB wifi dongles (b/g not n) are usually the most reliable). However, here are some instructions for getting the built-in brcmfmac wifi chip found in the RPi3: | ||
apt install firmware-brcm80211 | |||
== RPi3: built-in brcmfmac wifi chip== | |||
apt-get install firmware-brcm80211 | |||
rmmod brcmfmac | rmmod brcmfmac | ||
modprobe brcmfmac | modprobe brcmfmac | ||
===Fixed IP=== | |||
* Give fixed IP to wlan0 interface, edit /etc/network/interfaces and add at the end: | * Give fixed IP to wlan0 interface, edit /etc/network/interfaces and add at the end: | ||
auto wlan0 | auto wlan0 | ||
Line 187: | Line 447: | ||
Pin: release a=testing | Pin: release a=testing | ||
Pin-Priority: 800 | Pin-Priority: 800 | ||
* Edit the apt source file, /etc/apt/sources.list, so that it looks like this: | |||
# Stable | |||
deb http://mirrordirector.raspbian.org/raspbian jessie main firmware non-free | |||
deb http://archive.raspberrypi.org/debian jessie main | |||
# Testing | |||
deb http://mirrordirector.raspbian.org/raspbian/ stretch main contrib non-free rpi | |||
* Update the local package cache: | * Update the local package cache: | ||
apt update | apt update | ||
Line 193: | Line 462: | ||
* To install a more recent whateversoftware from Debian testing: | * To install a more recent whateversoftware from Debian testing: | ||
apt install whateversoftware -t testing | apt install whateversoftware -t testing | ||
=== Read-only system === | === Read-only system === | ||
Line 201: | Line 469: | ||
=== Making and Sharing images === | === Making and Sharing images === | ||
''' | This is done off the RPi, so turn it off and take the sdcard out, then back into an adapter into any UNIX-like OS running machine that you can find: | ||
==== Backup an image: Option 1 - I'm soooo lazy ==== | |||
In this method we make a full dump of sdcard, which can be a storage waste if you only have partitioned, say 2GB of the sdcard, as you will then make an image of the full capacity of the sdcard. For instance if you're RPi image has only 3GB of partitions, but your sdcard potential full size if 16GB, using this method will create a 16GB file. '''BUT''' because we compress the image on the fly with xz, then it will in fact be not more as the partitions size, because the empty space will compress to virtually nothing. However if you need to uncompress the full image at some point, for whatever reason, you will need a diskspace of 16GB. | |||
* figure out which block device represents your sdcard (hint: run dmesg after plugging the sdcard). In this example we assume it is /dev/sdc, '''make sure you use the correct block device'''. | |||
* copy the raw content of the sdcard and compress it on the fly into the resulting image my-raspberry-pi.img.xz: | |||
dd bs=4M if=/dev/sdc status=progress | xz > my-raspberry-pi.img.xz | |||
'''Note:''' xz compression is very powerful and will create very tiny images, but compression time can be quite slow, if you're in a hurry or slow computer, and do not mind 50% efficiency loss, use gzip instead of xz in the command above. Alternatively if your processor has multiple core, using multithreading with xz can make it on run almost as fast as a direct raw copy. Use the flag -T to set the number of threads, for instance -T 8 will make it use 8 threads. | |||
==== Backup an image: Option 1 - I'm soooo anal ==== | |||
If you want to distribute your image, it might be more elegant and proper to make an image that is not bigger than what is really being used on the sdcard itself. There are two main reasons for that: | |||
# the method above is hardware specific meaning that no two sdcard capacity are exactly the same. For instance one 8GB sdcard might be a bit bigger than another. If your backup'ed sdcard is smaller than your target sdcard, that's fine, but if it is the other way around, when your image to the target, dd will complain that it ran out of space. If you've only used small partitions and grew them only as you needed, carefully managing the sdcard space, '''this will not be an issue''' as the truncated part will most likely be unpartitioned space where there is nothing of value. However if you've created an extra partition growing the partition of your OS to the max capacity of the sdcard and started to use it, well, there are quite some chance, that cutting into this space will not only result in a damaged partition (recoverable) and data loss (unrecoverable). | |||
# Another, more practical reason, is that if you need to share or manipulate the image of your RPi OS ''uncompressed'' it will be obviously more practical to work with a smaller file than with a larger one. | |||
* figure out which block device represents your sdcard (hint: run dmesg after plugging the sdcard). In this example we assume it is /dev/sdc, '''make sure you use the correct block device'''. | |||
* copy the raw content of the sdcard into the resulting image my-raspberry-pi.img: | |||
dd bs=4M if=/dev/sdc status=progress of=my-raspberry-pi.img | |||
* figure out how much space is used by partitions on the image: | |||
fdisk -lu my-raspberry-pi.img | |||
* Example of the command output, '''your result will be different'''. | |||
Disk my-raspberry-pi.img: 7.5 GiB, 8053063680 bytes, 15728640 sectors | |||
Units: sectors of 1 * 512 = 512 bytes | |||
Sector size (logical/physical): 512 bytes / 512 bytes | |||
I/O size (minimum/optimal): 512 bytes / 512 bytes | |||
Disklabel type: dos | |||
Disk identifier: 0x95f9e2e9 | |||
Device Boot Start End Sectors Size Id Type | |||
my-raspberry-pi.img1 16 124927 124912 61M b W95 FAT32 | |||
my-raspberry-pi.img2 129024 4198399 4069376 2G 83 Linux | |||
* Note the end sector of the last partition, here the last partition is '''my-raspberry-pi.img2''' and the last sector is '''4198399'''. | |||
* Add 1 sector to this value (to be on the safe size we will trim a bit less than needed), and mutiply by 512 to obtain the size in bytes: (4198399 + 1) * 512 = '''2149580800'''. | |||
* truncate the image at this value, '''adjust to your own value''': | |||
truncate my-raspberry-pi.img --size 2149580800 | |||
* Finally compress the image to make the sharing/storing less demanding (read note about xz compression in previous method): | |||
xz my-raspberry-pi.img | |||
==== Restore image ==== | |||
Regardless which method you used, you can restore or copy an image like this. '''In the commands below the target block device is /dev/sdc, make sure you adjust to the correct one on your system so that you do not overwrite another disk'''! | |||
* if the image is not compressed: | |||
dd bs=4M if=my-raspberry-pi.img of=/dev/sdc status=progress | |||
* if the image is compressed (xz): | |||
xzcat tgc.img.xz | dd bs=4M of=/dev/sdc status=progress | |||
* if the image is compressed (gzip): | |||
zcat tgc.img.xz | dd bs=4M of=/dev/sdc status=progress | |||
= TODO = | |||
* Read about overclocking settings and apply if necessary | |||
* Some devices trigger an alternative browser to sign-in when it figures out it is a captive portal, it is useless for us, but bot sure if there is a way to redirect it back to the main browser (spotted on some Android devices, but not all) | |||
[[Category:cookbook]] [[Category:Pushing the Score]] | [[Category:cookbook]] [[Category:Pushing the Score]] [[Category:Raspberry Pi]] |
Latest revision as of 13:50, 10 May 2022
Raspberry Pi installation
Setting up SD Card
1. Download an OS image file
For example:
- MINIBIAN: http://minibianpi.wordpress.com/download/
- RASPBIAN: https://www.raspberrypi.org/software/operating-systems/
2. Put image on SD Card
Unzip the downloaded OS.
Stick SD Card in (duh)
mac
- First open terminal
- Find the disk that you are going to write to
diskutil list
!!! Be careful that you find the right disk, you can overwrite the harddrive of your computer easily when you pick the wrong one !!! To make it easier, and to avoid wiping external drives, make sure you have nothing else plugged in aside from your SD Card.
- Find the disk name that reads something like /dev/disk<number> that doesn't have a partition on it named something like Macintosh HD. For example /dev/disk2
- You need to unmount the SD Card before imaging (replace <number> with the disk number found in the first step)
sudo diskutil unmountDisk /dev/disk<number>
- Then to image the disk with your image put in the following command (replace the minibian.img with the full path to your downloaded image file, and the <number> with the disk number that you found in the 1st step)
sudo dd bs=4m if=minibian.img of=/dev/rdisk<number>
linux
- Find the disk that you are going to write to, find its path, for example /dev/sdb/
You can do this using software like gparted or Disks (on Gnome), or use the command line tools df.
df -h
!!! Be careful that you find the right disk, you can overwrite the harddrive of your computer easily when you pick the wrong one !!! To make it easier, and to avoid wiping external drives, make sure you have nothing else plugged in aside from your SD Card.
- Unmount this disk
umount /dev/path/to/disk
- Write the image to the disk
sudo dd bs=4M if=minibian.img of=/dev/sdc status=progress
3. Insert SD
4. Power the RPi, wait for crazy blinking to stop
Connecting to the Pi
Connect to the Pi using the default login details:
The default MINIBIAN login user is root and the passwd is raspberry.
Or for RASPBIAN the default login is pi with password raspberry.
With a screen + keyboard + mouse
To connect to the Pi, you can attach a screen + keyboard + mouse, so you can go through the setup process step by step.
Connect the screen before you start the pi.
Also connect the Pi to an ethernet cable, that will allow you to install new software.
Using SSH
(Connecting to the Pi through the terminal)
Enable SSH on the Pi
You can do this in two ways:
With a screen + keyboard
- Connect the Pi to a screen and keyboard.
- Run:
sudo raspi-config
- Select
Interfacing Options
- Navigate to and select
SSH
- Choose
Yes
- Select
Ok
- Choose
Finish
or
Before putting the SD in the Pi
Mac
cd /Volumes/boot/
touch ssh
Linux
cd /media/USERNAME/boot
touch ssh
Done!
- put the SD card back in the Pi and boot it up
Read more here: https://www.raspberrypi.org/documentation/remote-access/ssh/
Connect the Pi to your local network
To connect to the Pi with SSH, you will need to connect it to a network.
It will not connect by automatically to any Wifi network by default.
You will need to connect it to a router, or other network with an ethernet cable first.
Figure out what's the IP of the Pi
You can do that using ifconfig (while being logged into the Pi using a screen + keyboard) or nmap (from your own computer).
ifconfig
nmap -sP 192.168.1.1-255
For Mac users: you will need to install nmap manually from here. Easiest installation method is with the OSX Binaries.
Use SSH to login into the Pi
You can login using the ip address of the pi, or using the hostname of the machine.
ssh root@192.168.1.73 ssh pi@192.168.2.15 ssh pi@raspberrypi.local
With an ethernet cable
You can alternatively connect it directly to your personal machine via an ethernet cable - steps to do that can be found here.
Change the hostname
The hostname is the name of the Pi.
Change the hostname
You can change this name, by editing these two files:
sudo nano /etc/hostname sudo nano /etc/hosts
Change /etc/hosts
into:
127.0.0.1 localhost ::1 localhost ip6-localhost ip6-loopback ff02::1 ip6-allnodes ff02::2 ip6-allrouters
127.0.1.1 newhostname
Reboot the Pi after you made these changes!
Reach your Pi using its hostname
You can use the hostname to ssh into the Pi, if you are in the same local network as your Pi:
ssh username@hostname.local
You can use this hostname also in the browser, to access the webserver on the Pi. Try to visit:
hostname.local hostname.lan
THIS IS IT!
Well done, you now have a Pi installation, the guideline stops here, anything past this point is just a matter of what the Pi will be used for.
Extras
All the following steps are optional and depend on the use of the RPi.
Make user accounts and file permissions
The Pi is installed now what do we do?
Use your Pi as a wireless hotspot
If you want to just install an hotspot: follow this guide: https://www.raspberrypi.com/documentation/computers/configuration.html#setting-up-a-routed-wireless-access-point and if you want it just local skip the "masquerdate" section.
rtl8812BU antenna drivers installation
Update rpi's kernel
sudo apt-get update && sudo apt-get install --reinstall raspberrypi-bootloader raspberrypi-kernel sudo apt-get install raspberrypi-kernel-headers sudo apt-get install -y bc build-essential dkms git
Install driver for antenna
Follow this https://github.com/morrownr/88x2bu-20210702#user-content-installation-steps
After the driver installation, change settings of the driver (https://github.com/morrownr/88x2bu#user-content-driver-options)
sudo ./edit-options.sh
in the first lines, change the value:
rtw_vht_enable = 2 rtw_power_mgnt=0
then
sudo reboot
check if the antenna is installed
iwconfig
It should appear “wlan1” and characteristics of the antenna
Disable the inner wireless interface
sudo nano /boot/config.txt
Paste:
dtoverlay=disable-wifi
Check if the antenna is the only interface:
iwconfig
Now again
sudo reboot
and configure in "master mode" the antenna
sudo iwconfig wlan0 mode master
Create the access point
With these setting in hostapd.conf:
interface=wlan0 ssid=NAMEYOUCHOOSEN driver=nl80211 hw_mode=a channel=44 macaddr_acl=0 auth_algs=1 ignore_broadcast_ssid=0 wmm_enabled=1
To debug:
sudo /usr/sbin/hostapd /etc/hostapd/hostapd.conf
But after:
sudo systemctl enable hostapd
WebServer
If the hotspot works, install a webserver(nginx) and its fancy version: Install NGINX Fancyindex
Expand filesystem (optional)
This is optional. Indeed, depending on the application, the little room left on the minibian image might be just enough to add a couple software and config files. However, it is necessary if the kernel needs to be updated, as the process needs a bit more space than what we have by default. Also, you can repeat the process again at later stage if you need more space than the suggested 2GB total size in the example below. Just make sure you do not exceed the size of your medium/sdcard.
- install parted utility
apt update apt install parted
- check that, indeed, it's a bit tight in there. The following command will show that the main system partition (partition 2 formatted as ext4) is roughly 700-800MB:
parted /dev/mmcblk0 --script print
- run the same command with unit s, to get more precise information (sectors)
parted /dev/mmcblk0 --script unit s print
- Note down the Start value of the partition Number 2. Here is an example:
Number Start End Size Type File system Flags 1 16s 125055s 125040s primary fat16 2 125056s 1626111s 1501056s primary ext4
The value to remember in this example would be 125056s.
- Delete partition 2, you will get an error and complaining about the need to reboot, IGNORE THIS
parted /dev/mmcblk0 --script rm 2
- Double check that partition 2 is gone:
parted /dev/mmcblk0 --script print
- Create a new partition that starts exactly at the point 125056s but goes until 2GB. Adjust the command with your own value. Ignore the warning for now.
parted /dev/mmcblk0 --script mkpart primary 125056s 2GiB
- Check that new partition has been created
parted /dev/mmcblk0 --script print
- Reboot to make the system aware of the changes
reboot
- ssh back in and finally resize the filesystem to benefit from the expanded partition
resize2fs /dev/mmcblk0p2
Base system
- flavouring
echo "BMO" > /etc/hostname hostname -F /etc/hostname
- don't bloat the system
echo -e 'APT::Install-Recommends "0";\nAPT::Install-Suggests "0";' > /etc/apt/apt.conf.d/90norecommend
- update system
apt update apt upgrade
- DO NOT REBOOT YET At time of writing the upgrade makes kernel.img disappears from /boot, resulting in an unbootable RPi3
- update to latest kernel
apt install rpi-update rpi-update reboot
- Support for several terminals (needed when sshing from X using non-xterm terminals like urxvt)
apt install ncurses-term
- what time is it
dpkg-reconfigure tzdata
Comfy environment (optional)
Now you can install all your comfy l33t command line tools and whatnot, fav editors, etc. This is just an example of what I (aymeric) always put on top of my pi, YMMV:
- comfy tools and stuff
ln -s /usr/bin/vim.tiny /usr/bin/vim apt install tmux tcsh git chsh -s /bin/tcsh root
- create /root/.tcshrc
if ($?prompt) then set prompt = "%N@%m:%~ %# " set promptchars = "%#" set filec set history = 1000 set savehist = (1000 merge) set autolist = ambiguous set autoexpand set autorehash if ( $?tcsh ) then bindkey "^W" backward-delete-word bindkey -k up history-search-backward bindkey -k down history-search-forward endif endif
- logout and log back in
Wifi as client
Note: this is to use the wifi on the RPi as *client*, read further "Access Point with Captive Portal" for using wifi as hotspot.
RPi 2
FIXME
RPi 3
Instructions on how to setup Wifi on the RasperryPi 3 can be found here.
Web Server
- nginx, what else :)
apt-get install nginx
- Go to http://192.168.1.20 (replace with the correct IP of your RPi), you should see the default Debian/nginx landing page
- For serving static documents, the default config can be kept and files just need to be put in:
/var/www/html
TODO: fcgiwrap, proxies (for nodejs or else).
Make USB soundcard the default soundcard
Built-in RPi audio is notoriously shitty, also, no line/mic in, so if your application needs sound, it might be worth getting one of these notoriously shitty (and cheap) USB soundcard, that will still beat the notoriously shitty built-in audio.
- First install some basic audio software in case you started from a blank minimal debian install
apt install alsa-base alsa-utils
- Edit /etc/modprobe.d/alsa-base.conf (create it if needed) and put:
options snd-usb-audio index=0 options snd_bcm2835 index=1
- reboot!
Drop free USB audio with jack
(only concerns systems with noticeable audio drops when using external USB soundcard/DAC/ADC)
A few years ago RPi2 got infamous for their dodgy USB implementation that led to audio drops. One popular fix was to force the USB port to 1.1 (add dwc_otg.speed=1 to /boot/cmdline.txt). This was supposedly fixed, but the RPi3 seems to have issues as well, and none of the old tricks apply. However, using jack seems to provide a drop/glitch free experience:
- Install jack
apt install jackd2
- Default raspbian jack binary is compiled with dbus support, but we do not have or want to run X. To avoid having to run X, edit /etc/dbus-1/system.conf. Make sure you replace username with the correct user who will run jack, and make sure you point to the right sound card. Audio0 is the first/default soundcard, Audio1, the second, etc.
<policy user="username"> <allow own="org.freedesktop.ReserveDevice1.Audio0"/> </policy>
- when you start jack, do it like this (adjust jackd flags as needed, this is minimal):
DBUS_SESSION_BUS_ADDRESS=unix:path=/run/dbus/system_bus_socket jackd -R -dalsa
- start your jack compatible application, for instance:
pd -jack
Access Point with Captive Portal
- Misc stuff to install
apt-get install dnsmasq wireless-tools hostapd
- Make your wifi key work (sorry you'll have to figure this one on your own, too many different devices, avoid mini dongles, they're usually shit with staging drivers only, "old" large USB wifi dongles (b/g not n) are usually the most reliable). However, here are some instructions for getting the built-in brcmfmac wifi chip found in the RPi3:
RPi3: built-in brcmfmac wifi chip
apt-get install firmware-brcm80211 rmmod brcmfmac modprobe brcmfmac
Fixed IP
- Give fixed IP to wlan0 interface, edit /etc/network/interfaces and add at the end:
auto wlan0 iface wlan0 inet static address 10.10.10.10 netmask 255.255.255.0
- Replace /etc/dnsmasq.conf with:
interface=wlan0 dhcp-range=10.10.10.11,10.10.10.254,12h address=/#/10.10.10.10 no-resolv
- edit the /etc/hostapd/hostapd.conf file (adjust depending on driver/hardware)
interface=wlan0 driver=nl80211 ssid=WiFeels hw_mode=g channel=6
TODO: Add a note on the hw_mode and channel options.
- make hostapd starts at boot
update-rc.d hostapd defaults
- Edit /etc/default/hostapd and add
DAEMON_CONF="/etc/hostapd/hostapd.conf"
- Reboot
- If you have followed the Web Server extra, you can join the "WiFeels" wifi network and point your browser to http://itdoesnot.matter/whatyoutype and you will see the Debian/nginx landing page.
TODO: Add more info/config for proper portal detection/redirection (mostly for mobile phones and Apple devices).
Align Partitions
Only do it for production RPi setups and when the final medium/sdcard is chosen because it is hardware dependent. Skipping this part won't affect anything. In fact, most (if not all) standard RPi installations do not have proper partition alignment and most people do not know about it or care. To know why you should care and how it will affect performances, read https://superuser.com/questions/225936/what-does-it-mean-to-align-partitions.
Note: this operation can be done at any stage. So it can be skipped for now and done later if needed.
The partition that matters the most is /dev/mmcblk0p2, the one that contains the whole OS. On the RPi, it is possible to check if this partition is aligned:
parted /dev/mmcblk0 align-check optimal 2
The result is likely to be negative:
2 not aligned
To fix this, the easiest way is to move the partition just a tiny bit and let parted do the math for correct alignment. There is catch though, because the partition will be moved, the data needs to be moved as well, and therefore the operation cannot be done live on the RPi, it must be done from another machine with the sdcard attached (directly or with a USB reader).
- take the sdcard from the RPi (after turning it off....)
- put it in the sdcard slot or USB sdcard adapter of another machine where gparted (a GUI equivalent of parted). You can do that manually with parted, resize3fs, e2image, etc, but it's kind of a PITA to do it manually in this particular case.
- Select your sdcard on the top right menu. In the examples below I will assume the sdcard is sdc, make sure you point to the right block device it will likely be different on yours.
- Select the second partition (we only need to align this one) and right-click to select resize.
- Make it so that you shrink the total size of 2MiB and that you add 1MiB empty at the beginning and 1MiB at the end.
- Right-click apply on the operation list. There will be a bunch of scary warnings, ignore them (assuming you're really working on the sdcard and not your own disk!).
- Wait, when done, quit gparted and verify alignement:
parted /dev/sdc align-check optimal 2 # will return "2 aligned" :)
Pinning
Pinning is a Debian specific method to mix packages from different versions of Debian. While this is not officially supported by Debian (ie, if you encounter an error with a software/package running on a pinned system, your bug report will be closed), it may be useful from time to time to install packages from the testing version of Debian that usually significantly more recent than the ones in the stable version of Debian.
- Create the file /etc/apt/preferences with the following content:
Package: * Pin: release a=stable Pin-Priority: 900 Package: * Pin: release a=testing Pin-Priority: 800
- Edit the apt source file, /etc/apt/sources.list, so that it looks like this:
# Stable deb http://mirrordirector.raspbian.org/raspbian jessie main firmware non-free deb http://archive.raspberrypi.org/debian jessie main # Testing deb http://mirrordirector.raspbian.org/raspbian/ stretch main contrib non-free rpi
- Update the local package cache:
apt update
- To install whateversoftware from Debian stable, proceed as usual (same behaviour as before pinning):
apt install whateversoftware
- To install a more recent whateversoftware from Debian testing:
apt install whateversoftware -t testing
Read-only system
TODO
Making and Sharing images
This is done off the RPi, so turn it off and take the sdcard out, then back into an adapter into any UNIX-like OS running machine that you can find:
Backup an image: Option 1 - I'm soooo lazy
In this method we make a full dump of sdcard, which can be a storage waste if you only have partitioned, say 2GB of the sdcard, as you will then make an image of the full capacity of the sdcard. For instance if you're RPi image has only 3GB of partitions, but your sdcard potential full size if 16GB, using this method will create a 16GB file. BUT because we compress the image on the fly with xz, then it will in fact be not more as the partitions size, because the empty space will compress to virtually nothing. However if you need to uncompress the full image at some point, for whatever reason, you will need a diskspace of 16GB.
- figure out which block device represents your sdcard (hint: run dmesg after plugging the sdcard). In this example we assume it is /dev/sdc, make sure you use the correct block device.
- copy the raw content of the sdcard and compress it on the fly into the resulting image my-raspberry-pi.img.xz:
dd bs=4M if=/dev/sdc status=progress | xz > my-raspberry-pi.img.xz
Note: xz compression is very powerful and will create very tiny images, but compression time can be quite slow, if you're in a hurry or slow computer, and do not mind 50% efficiency loss, use gzip instead of xz in the command above. Alternatively if your processor has multiple core, using multithreading with xz can make it on run almost as fast as a direct raw copy. Use the flag -T to set the number of threads, for instance -T 8 will make it use 8 threads.
Backup an image: Option 1 - I'm soooo anal
If you want to distribute your image, it might be more elegant and proper to make an image that is not bigger than what is really being used on the sdcard itself. There are two main reasons for that:
- the method above is hardware specific meaning that no two sdcard capacity are exactly the same. For instance one 8GB sdcard might be a bit bigger than another. If your backup'ed sdcard is smaller than your target sdcard, that's fine, but if it is the other way around, when your image to the target, dd will complain that it ran out of space. If you've only used small partitions and grew them only as you needed, carefully managing the sdcard space, this will not be an issue as the truncated part will most likely be unpartitioned space where there is nothing of value. However if you've created an extra partition growing the partition of your OS to the max capacity of the sdcard and started to use it, well, there are quite some chance, that cutting into this space will not only result in a damaged partition (recoverable) and data loss (unrecoverable).
- Another, more practical reason, is that if you need to share or manipulate the image of your RPi OS uncompressed it will be obviously more practical to work with a smaller file than with a larger one.
- figure out which block device represents your sdcard (hint: run dmesg after plugging the sdcard). In this example we assume it is /dev/sdc, make sure you use the correct block device.
- copy the raw content of the sdcard into the resulting image my-raspberry-pi.img:
dd bs=4M if=/dev/sdc status=progress of=my-raspberry-pi.img
- figure out how much space is used by partitions on the image:
fdisk -lu my-raspberry-pi.img
- Example of the command output, your result will be different.
Disk my-raspberry-pi.img: 7.5 GiB, 8053063680 bytes, 15728640 sectors Units: sectors of 1 * 512 = 512 bytes Sector size (logical/physical): 512 bytes / 512 bytes I/O size (minimum/optimal): 512 bytes / 512 bytes Disklabel type: dos Disk identifier: 0x95f9e2e9 Device Boot Start End Sectors Size Id Type my-raspberry-pi.img1 16 124927 124912 61M b W95 FAT32 my-raspberry-pi.img2 129024 4198399 4069376 2G 83 Linux
- Note the end sector of the last partition, here the last partition is my-raspberry-pi.img2 and the last sector is 4198399.
- Add 1 sector to this value (to be on the safe size we will trim a bit less than needed), and mutiply by 512 to obtain the size in bytes: (4198399 + 1) * 512 = 2149580800.
- truncate the image at this value, adjust to your own value:
truncate my-raspberry-pi.img --size 2149580800
- Finally compress the image to make the sharing/storing less demanding (read note about xz compression in previous method):
xz my-raspberry-pi.img
Restore image
Regardless which method you used, you can restore or copy an image like this. In the commands below the target block device is /dev/sdc, make sure you adjust to the correct one on your system so that you do not overwrite another disk!
- if the image is not compressed:
dd bs=4M if=my-raspberry-pi.img of=/dev/sdc status=progress
- if the image is compressed (xz):
xzcat tgc.img.xz | dd bs=4M of=/dev/sdc status=progress
- if the image is compressed (gzip):
zcat tgc.img.xz | dd bs=4M of=/dev/sdc status=progress
TODO
- Read about overclocking settings and apply if necessary
- Some devices trigger an alternative browser to sign-in when it figures out it is a captive portal, it is useless for us, but bot sure if there is a way to redirect it back to the main browser (spotted on some Android devices, but not all)