Important After many years of service, the PC Engines APU platform is now EOL.

This guide demonstrates how to build a wired/wireless router using the PC Engines APU platform and a free operating system like OpenBSD or Debian to be used for network address translation, as a stateful firewall, to filter Web traffic, and more.

I am not responsible for anything you do by following any part of this guide!

Overview

The completed router configuration will enable:

• An egress Ethernet interface for Internet routing - can be connected to WAN or a cable modem
• A local wireless interface on 192.168.1.0/24
• A local Ethernet interface on 172.16.1.0/24
• A local Ethernet interface on 10.8.1.0/24
• An additional (4th) Ethernet interface is available on APU4

Hardware

This guide should work on any PC Engines APU model. Here is a suggested parts list:

Part	Description	Cost
apu4c4	apu4c4 system board	$117.50
case1d2bluu	Enclosure 3 LAN, blue	$9.40
ac12vus2	AC adapter 12V 2A US plug	$4.10
msata16g	SSD M-Sata 16GB MLC, Phison S11	$15.50
wle200nx	Compex WLE200NX miniPCI express card	$19.00
2 x pigsma	Cable I-PEX -> reverse SMA	$2.70
2 x antsmadb	Antenna reverse SMA dual band	$4.10

Note WLE600VX and WLE900VX cards will likely not work due to regulatory compliance reasons.

To connect over serial, you will need a USB to Serial (9-Pin) Converter Cable and Modem Serial RS232 Cable, also available from PC Engines.

See Issue #1 for a list of alternative parts.

Assembly

Clear an area to work and unpack all the materials. Follow the apu cooling assembly instructions to install the heat conduction plate.

Attach the mSATA disk and miniPCI wireless adapter in their respective slots.

See the relevant APU series manual for detailed board information:

• APU2
• APU3
• APU4

Note Wireless radio cards are ESD sensitive, especially the RF switch and the power amplifier. To avoid damage by electrostatic discharge, the following installation procedure is recommended:

1. Touch your hands and the bag containing the radio card to a ground point on the router board (for example one of the mounting holes). This will equalize the potential of radio card and router board.
2. Install the radio card in the miniPCI express socket.
3. Install the pigtail cable in the cut-out of the enclosure. This will ground the pigtail to the enclosure.
4. Touch the I-PEX connector of the pigtail to the mounting hole to discharge, then plug onto the radio card.

To avoid arcing, plug in the DC jack first, then plug the power adapter into mains.

Press F10 during boot and select Payload [memtest] to complete at least one pass.

Connect over serial

The APU serial connection uses 115200 baud rate, 8N1 (8 data bits, no parity, 1 stop bit).

On OpenBSD, use cu:

doas cu -r -s 115200 -l cuaU0

On Linux, use screen:

screen /dev/ttyUSB0 115200 8N1

Or use minicom:

sudo minicom -D /dev/ttyUSB0

Power on the APU and make note of the firmware version displayed briefly during boot.

Updating firmware

Check for the latest PC Engines firmware version at pcengines.github.io

Note As of 2023, PC Engines firmware is no longer being updated - see announcement

To update firmware, first download and extract TinyCore Linux.

Download and import the firmware signing key, then check the file signature:

$ curl -LO https://raw.githubusercontent.com/3mdeb/3mdeb-secpack/master/customer-keys/pcengines/release-keys/pcengines-open-source-firmware-release-4.19-key.asc

$ gpg --import pcengines-open-source-firmware-release-4.19-key.asc
gpg: key 0x30A53DE2F5A6D89A: 1 signature not checked due to a missing key
gpg: key 0x30A53DE2F5A6D89A: public key "PC Engines open-source firmware release 4.19 signing key" imported
gpg: Total number processed: 1
gpg:               imported: 1

$ gpg apu4_v4.19.0.1.SHA256.sig
gpg: assuming signed data in 'apu4_v4.19.0.1.SHA256'
gpg: Signature made Thu 02 Feb 2023 03:22:57 AM PST
gpg:                using RSA key 05CF36F166C3D676A08AB70F30A53DE2F5A6D89A
gpg: Good signature from "PC Engines open-source firmware release 4.19 signing key" [unknown]
gpg: WARNING: This key is not certified with a trusted signature!
gpg:          There is no indication that the signature belongs to the owner.
Primary key fingerprint: 05CF 36F1 66C3 D676 A08A  B70F 30A5 3DE2 F5A6 D89A

$ shasum -a 256 apu4_v4.19.0.1.rom 2>/dev/null | grep -q $(cat apu4_v4.19.0.1.SHA256 | awk '{print $1}') && echo ok
ok

Mount a USB disk and write the TinyCore image, copy the .rom file:

curl -O https://pcengines.ch/file/apu2-tinycore6.4.img.gz

gzip -d apu2-tinycore6.4.img.gz

sha256sum apu2-tinycore6.4.img
f5a20eeb01dfea438836e48cb15a18c5780194fed6bf21564fc7c894a1ac06d7  apu2-tinycore6.4.img

sudo dd if=apu2-tinycore6.4.img of=/dev/sdd bs=1M

sudo mkdir /mnt/usb

sudo mount /dev/sdd1 /mnt/usb

sudo cp -v apu4_*.rom /mnt/usb

sudo umount /mnt/usb

Connect the USB disk to the APU, press F10 at boot and select the USB disk:

SeaBIOS (version rel-1.14.0.1-0-g8610266a)

Press F10 key now for boot menu

Select boot device:

1. USB MSC Drive Samsung Flash Drive DUO 1100
2. AHCI/0: SB2 ATA-11 Hard-Disk (111 GiBytes)
3. Payload [setup]
4. Payload [memtest]

Check the current version:

root@pcengines:~# dmesg | grep apu
[    0.000000] DMI: PC Engines apu4/apu4, BIOS v4.10.0.1 09/10/2019

Save the existing version and write the new one:

root@pcengines:~# cd /media/SYSLINUX

root@pcengines:/media/SYSLINUX# flashrom -p internal -r apu4.rom.$(dmidecode -s baseboard-serial-number|tail -n1).$(date +%F)
[...]
Found Winbond flash chip "W25Q64.V" (8192 kB, SPI) mapped at physical address 0xff800000.
Reading flash... done.

root@pcengines:/media/SYSLINUX# flashrom -p internal -w apu4_v4.19.0.1.rom
[...]
Found Winbond flash chip "W25Q64.V" (8192 kB, SPI) mapped at physical address 0xff800000.
Reading old flash chip contents... done.
Erasing and writing flash chip... Erase/write done.
Verifying flash... VERIFIED.

Unplug the USB disk and reboot

Optional On reboot, select F10 and Payload [setup] then w to enable BIOS write protection then s to save and reboot.

Verify the version by checking serial output during boot:

PC Engines apu4
coreboot build 20230131
BIOS version v4.19.0.1

From OpenBSD:

$ dmesg | grep bios
bios0 at mainbus0: SMBIOS rev. 2.8 @ 0xcfe8b020 (13 entries)
bios0: vendor coreboot version "v4.19.0.1" date 01/31/2023
bios0: PC Engines apu4
acpi0 at bios0: ACPI 6.0

From Debian:

$ sudo dmesg | grep apu
[    0.000000] DMI: PC Engines apu4/apu4, BIOS v4.19.0.1 01/31/2023

Note APU firmware can also be updated from Debian, without rebooting to TinyCore Linux:

sudo apt install flashrom

wget https://3mdeb.com/open-source-firmware/pcengines/apu4/apu4_v4.19.0.1.rom

sudo flashrom -p internal -w apu2_v4.19.0.1.rom

To complete the update, shut down Debian and power off the APU fully, then reboot.

Prepare OS installer

Use another computer to prepare an installer for either OpenBSD or Debian.

OpenBSD

Download the installation image - amd64/install75.img - as well as SHA256 and SHA256.sig files.

Verify the signatures file and hash of the installation image:

cat /etc/signify/openbsd-75-base.pub
untrusted comment: openbsd 7.5 base public key
RWRGj1pRpprAfgeF/rgld4ubduChLvTkigA1Zj7WLDsVA4qfYSWOEI8q

signify -C -p /etc/signify/openbsd-75-base.pub -x SHA256.sig install75.img
Signature Verified
install75.img: OK

Insert a USB disk. Run dmesg to identify its label. Then copy the installation file to the USB disk:

On OpenBSD:

doas dd if=install75.img of=/dev/rsd2c bs=1m

On Linux:

sudo dd if=install75.img of=/dev/sdd bs=1M

Debian

Download the latest network installation image - as well as SHA512SUMS and SHA512SUMS.sign files.

Verify the signatures file and hash of the installation image:

$ gpg SHA512SUMS.sign
gpg: assuming signed data in 'SHA512SUMS'
gpg: Signature made Sat 07 Oct 2023 01:24:41 PM PDT
gpg:                using RSA key DF9B9C49EAA9298432589D76DA87E80D6294BE9B
gpg: Can't check signature: No public key

$ gpg --keyserver hkps://keyserver.ubuntu.com:443 --recv DF9B9C49EAA9298432589D76DA87E80D6294BE9B
gpg: key 0xDA87E80D6294BE9B: public key "Debian CD signing key <debian-cd@lists.debian.org>" imported
gpg: Total number processed: 1
gpg:               imported: 1

$ gpg SHA512SUMS.sign
gpg: Signature made Sat 29 Jun 2024 01:50:21 PM PDT
gpg:                using RSA key DF9B9C49EAA9298432589D76DA87E80D6294BE9B
gpg: Good signature from "Debian CD signing key <debian-cd@lists.debian.org>" [unknown]
gpg: WARNING: This key is not certified with a trusted signature!
gpg:          There is no indication that the signature belongs to the owner.
Primary key fingerprint: DF9B 9C49 EAA9 2984 3258  9D76 DA87 E80D 6294 BE9B

OpenBSD:

grep $(sha512 -q debian-12.6.0-amd64-netinst.iso) SHA512SUMS
712cf43c5c9d60dbd5190144373c18b910c89051193c47534a68b0cd137c99bd8274902f59b25aba3b6ba3e5bca51d7c433c06522f40adb93aacc5e21acf57eb  debian-12.6.0-amd64-netinst.iso

Linux:

grep $(sha512sum debian-12.6.0-amd64-netinst.iso) SHA512SUMS
SHA512SUMS:712cf43c5c9d60dbd5190144373c18b910c89051193c47534a68b0cd137c99bd8274902f59b25aba3b6ba3e5bca51d7c433c06522f40adb93aacc5e21acf57eb  debian-12.6.0-amd64-netinst.iso

Insert a USB disk. Run dmesg to identify its label. Then copy the installation file to the USB disk.

OpenBSD:

doas dd if=debian-12.6.0-amd64-netinst.iso of=/dev/rsd2c bs=1m

Linux:

sudo dd if=debian-12.6.0-amd64-netinst.iso of=/dev/sdd bs=1M

Unplug the USB disk and plug it into the APU.

Installing the OS

Press F10 at boot and select the USB disk.

OpenBSD

Set the serial console parameters:

Booting from Hard Disk...
Using drive 0, partition 3.
Loading......
probing: pc0 com0 com1 mem[639K 3325M 752M a20=on]
disk: hd0+ hd1+
>> OpenBSD/amd64 BOOT 3.47
boot> stty com0 115200
boot> set tty com0
switching console to com>> OpenBSD/amd64 BOOT 3.47
boot> [Press Enter]

Select the Install option:

Welcome to the OpenBSD/amd64 7.5 installation program.
(I)nstall, (U)pgrade, (A)utoinstall or (S)hell? I

When presented with a list of network interfaces, em0 is the Ethernet port closest to the serial port:

Available network interfaces are: em0 em1 em2 em3 vlan0.

Use DHCP or configure a static route:

Network interface to configure? (name, lladdr, '?', or 'done') [done] em0
IPv4 address for em0? (or 'autoconf' or 'none') [autoconf] 192.168.1.2
Netmask for em0? [255.255.255.0]
IPv6 address for em0? (or 'autoconf' or 'none') [none]
Available network interfaces are: em0 em1 em2 em3 vlan0.
Network interface to configure? (name, lladdr, '?', or 'done') [done]
Default IPv4 route? (IPv4 address or 'none') 192.168.1.1
add net default: gateway 192.168.1.1
DNS domain name? (e.g. 'example.com') [my.domain] local
DNS nameservers? (IP address list or 'none') [none] 192.168.1.1

Configure the root password and set up a user account:

Password for root account? (will not echo)
Password for root account? (again)
Start sshd(8) by default? [yes]
Change the default console to com0? [yes]
Available speeds are: 9600 19200 38400 57600 115200.
Which speed should com0 use? (or 'done') [115200]
Setup a user? (enter a lower-case loginname, or 'no') [no] sysadm
Full name for user sysadm? [sysadm]
Password for user sysadm? (will not echo)
Password for user sysadm? (again)

Select the internal mSATA disk and default options for partitioning:

Available disks are: sd0 sd1.
Which disk is the root disk? ('?' for details) [sd0] ?
    sd0: ATA, SB2, SBFM naa.0000000000000000 (119.2G)
    sd1: PNY, USB 2.0 FD, 1100 serial.00000000000000000000 (29.9G)
Available disks are: sd0 sd1.
Which disk is the root disk? ('?' for details) [sd0]

Note The "unused" partition (/dev/sd0c) is actually the entire disk.

Select a mirror and start the installation:

HTTP Server? (hostname, list#, 'done' or '?') cdn.openbsd.org
Server directory? [pub/OpenBSD/7.5/amd64]

Select sets by entering a set name, a file name pattern or 'all'. De-select
sets by prepending a '-', e.g.: '-game*'. Selected sets are labelled '[X]'.
    [X] bsd           [X] base75.tgz    [X] game75.tgz    [X] xfont75.tgz
    [X] bsd.mp        [X] comp75.tgz    [X] xbase75.tgz   [X] xserv75.tgz
    [X] bsd.rd        [X] man75.tgz     [X] xshare75.tgz
Set name(s)? (or 'abort' or 'done') [done]

After installation is complete, unplug the USB disk and reboot. See the OpenBSD FAQ for more information.

Debian

At the install menu, select Tab to edit boot options and replace quiet with:

console=ttyS0,115200n8

Select Enter and select an available resolution:

Undefined video mode number: 314
Press <ENTER> to see video modes available, <SPACE> to continue, or wait 30 sec
Mode: Resolution:  Type:
0 F00   80x25      CGA/MDA/HGC
Enter a video mode or "scan" to scan for additional modes: 0

Configure a network adapter - enp1s0 is the interface closest to the serial port.

Select Guided - use entire disk and set up LVM as the partition method. Be sure to select internal mSATA drive and not the USB disk as the installation target (usually sda).

Select Separate /home, /var, and /tmp partitions as the partitioning scheme.

During Software selection - de-select everything except SSH server.

Select the internal mSATA drive and not the USB disk as the GRUB loader target.

First boot

OpenBSD

The following boot parameters have been appended to /etc/boot.conf by the installer and everything should just work:

stty com0 115200
set tty com0

Debian

After the GRUB menu, output may get stuck at:

Loading Linux 6.1.0-23-amd64 ...
Loading initial ramdisk ...

If so, reboot and press e at the GRUB menu to enter edit mode, scroll down and replace the word quiet with:

console=ttyS0,115200n8

Note If arrow keys do not work in GRUB, try using Emacs key bindings to navigate the text field:

• Control-B to move left
• Control-F to move right
• Control-P to move up
• Control-N to move down

Press Control-X to continue booting and you should see console output.

Note If you get an error like, Alert! /dev/sdX1 does not exist dropping to shell and are dropped to an initramfs prompt, reboot and edit the quiet line to point to /dev/sda1 or correct partition.

First login

OpenBSD

Log in as root and install pending updates or switch to -current:

syspatch

Install any pending firmware updates:

fw_update

Edit /etc/doas.conf to allow the regular user to run privileged commands without a password:

permit nopass keepenv :wheel
permit nopass keepenv root

Install any needed software:

pkg_add bash zsh vim curl free pftop vnstat

Reboot to complete any pending updates.

Debian

Log in as root to get started.

If necessary, update GRUB by editing /etc/default/grub and removing or replacing quiet with console=ttyS0,115200n8 then update the configuration:

update-grub

Install any pending updates and necessary software:

apt update && apt -y upgrade

apt -y install lshw lsof vim zsh git sudo dnsmasq net-tools iptables tcpdump hostapd firmware-atheros

Optional Change the default login shell to zsh for the primary user:

chsh -s /usr/bin/zsh sysadm

Configure network interfaces

OpenBSD

On the APU, set a local network interface address and make it permanent:

doas ifconfig em1 10.8.1.1 255.255.255.0

echo "inet 10.8.1.1 255.255.255.0" | doas tee /etc/hostname.em1

Configure an OpenBSD client with DHCP by following the Networking FAQ or using a static address:

doas ifconfig em1 10.8.1.4 255.255.255.0

ping -c 1 10.8.1.1
PING 10.8.1.1 (10.8.1.1): 56 data bytes
64 bytes from 10.8.1.1: icmp_seq=0 ttl=255 time=0.845 ms

Optional Randomize MAC addresses on boot:

echo "lladdr random" | doas tee -a /etc/hostname.em0 /etc/hostname.em1 /etc/hostname.em2

Debian

On the APU and on another computer, determine the interface names available:

lshw -C network | grep "logical name"

On the APU, edit /etc/network/interfaces to append:

auto enp2s0
iface enp2s0 inet static
address 10.8.1.1
netmask 255.255.255.0
gateway 10.8.1.1

Where enp2s0 is the network interface one port away from the serial port.

Restart networking and bring up the interface:

service networking restart

ifup enp2s0

On another Linux computer, edit /etc/network/interfaces to append:

auto eno1
iface eno1 inet static
address 10.8.1.2
netmask 255.255.255.0
gateway 10.8.1.1

Then also restart networking and bring up the interface:

sudo service networking restart

sudo ifup eno1

Or on another OpenBSD computer, edit /etc/hostname.em0 to append:

inet 10.8.1.4 255.255.255.0

It should now be possible to ping the router:

ping -c 1 10.8.1.1
PING 10.8.1.1 (10.8.1.1): 56 data bytes
64 bytes from 10.8.1.1: icmp_seq=0 ttl=64 time=0.519 ms

To configure the wireless interface, edit /etc/network/interfaces on the APU to include:

auto wlp5s0
iface wlp5s0 inet static
address 192.168.1.1
netmask 255.255.255.0
hostapd /etc/hostapd.conf

Reboot after verifying network connectivity.

Configure SSH

From a client, an SSH connection to the APU should be possible, but not yet authorized:

$ ssh sysadm@10.8.1.1
The authenticity of host '10.8.1.1 (10.8.1.1)' can't be established.
ECDSA key fingerprint is SHA256:AAAAA.
Are you sure you want to continue connecting (yes/no)? yes
Warning: Permanently added '10.8.1.1' (ECDSA) to the list of known hosts.
Permission denied (publickey,password).

If using a YubiKey, copy its public key to clipboard:

ssh-add -L | awk '{print $1" "$2}' | xclip

Or generate a new SSH key on the client and copy it to clipboard:

ssh-keygen -f -C 'sysadm' ~/.ssh/pcengines

xclip ~/.ssh/pcengines.pub

On the APU, over the serial connection, as the primary user (e.g., sysadm - not root), configure SSH to accept that key by pasting it into ~/.ssh/authorized_keys:

mkdir ~/.ssh ; cat > ~/.ssh/authorized_keys
[Paste clipboard contents using the middle mouse button or Shift-Insert]
[Then press Control-D to save]

SSH from a client will now work:

$ ssh sysadm@10.8.1.1 -i ~/.ssh/pcengines
Host key fingerprint is SHA256:AAAAA

Linux pcengines 4.9.0-8-amd64 #1 SMP Debian 4.9.130-2 (2018-10-27) x86_64
sysadm@pcengines~ %

Configure the connection on a client by editing ~/.ssh/config:

Host pcengines
  HostName 10.8.1.1
  IdentityFile ~/.ssh/pcengines
  User sysadm
  Port 22
  ControlMaster auto
  ControlPath ~/.ssh/master-%r@%h:%p
  ControlPersist 1m

Connect using the new alias:

ssh pcengines

Download configuration files:

git clone https://github.com/drduh/config

The serial connection can now be terminated. Be sure to log out with Ctrl-D or exit before disconnecting, otherwise anyone can plug in the serial cable to assume your session without a passphrase.

DHCP and DNS

Dnsmasq will provide DHCP and handle DNS for the local network(s).

Use drduh/config/dnsmasq.conf for a configuration example, including blocked domains:

cp config/dnsmasq.conf /etc/dnsmasq.conf

cat config/domains/* | tee -a /etc/dnsmasq.conf

vim /etc/dnsmasq.conf

Configure additional blocklist:

git clone https://github.com/StevenBlack/hosts

sudo cp hosts/hosts /etc/dns-blocklist

OpenBSD

To install dnsmasq as a service enabled on boot:

doas pkg_add dnsmasq

doas rcctl start dnsmasq

doas rcctl enable dnsmasq

Wireless

OpenBSD

Note Wireless performance is currently significantly worse on OpenBSD than Debian.

Edit /etc/hostname.athn0 to include:

inet 192.168.1.1 255.255.255.0
media autoselect mode 11n mediaopt hostap chan 11
nwid NAME wpakey "PASSWORD"

Restart networking:

doas sh /etc/netstart

Debian

Install the default hostapd configuration:

cat /usr/share/doc/hostapd/examples/hostapd.conf | sudo tee -a /etc/hostapd.conf

Or use drduh/config/hostapd.conf:

sudo cp config/hostapd.conf /etc/hostapd.conf

Edit the configuration to set the network name and password.

Tip Avoid passwords with the characters ' and ".

sudo vim /etc/hostapd.conf

Ensure hostapd starts:

sudo hostapd /etc/hostapd.conf

Note You may need to manually assign the interface an address:

sudo ifconfig wlp5s0 192.168.1.1

IP forwarding

In order to be a router, IP forwarding must be enabled.

OpenBSD

Enable now and on boot:

doas sysctl net.inet.ip.forwarding=1

echo "net.inet.ip.forwarding=1" | doas tee -a /etc/sysctl.conf

Debian

Enable now and on boot:

sudo sysctl -w net.ipv4.ip_forward=1

echo "net.ipv4.ip_forward=1" | sudo tee --append /etc/sysctl.conf

Configure firewall

OpenBSD

See PF - Building a Router, or use drduh/config/pf files:

doas mkdir /etc/pf

doas cp config/pf/pf.conf /etc/

doas cp config/pf/blocklist config/pf/martians config/pf/private /etc/pf/

Turn PF off and back on again:

doas pfctl -d

doas pfctl -e -f /etc/pf.conf

Optional Use drduh/config/scripts/pf-blocklist.sh to find and block unwanted networks.

To inspect blocked traffic:

doas tcpdump -ni pflog0

Debian

Use Iptables to manage a stateful firewall.

Use drduh/config/scripts/iptables.sh and edit it to your needs:

sudo cp config/scripts/iptables.sh /etc

sudo vim /etc/iptables.sh

sudo chmod +x /etc/iptables.sh

sudo /etc/iptables.sh

Save the firewall rules to apply them on boot:

sudo iptables-save | tee /etc/iptables/rules.v4

Privoxy

Privoxy is a powerful Web proxy capable of filtering and rewriting URLs to block ads, upgrade HTTP connections, and more.

Debian

Install Privoxy:

sudo apt -y install privoxy

Use drduh/config/privoxy/config and drduh/config/privoxy/user.action - or edit the configuration yourself.

sudo cp config/privoxy/config config/privoxy/user.action /etc/privoxy/

Restart the service and check the log:

sudo service privoxy restart

sudo tail -f /var/log/privoxy/logfile

Lighttpd

Lighttpd with mod_magnet makes for a highly capable Web server which can be used to replace ad images with custom content, upload and share content on the local network, act as a captive portal, and more.

Debian

Install Lighttpd with ModMagnet:

sudo apt -y install lighttpd lighttpd-mod-magnet

Use drduh/config/lighttpd/lighttpd.conf and drduh/config/lighttpd/magnet.luau - or edit the configuration yourself.

sudo cp config/lighttpd/lighttpd.conf config/lighttpd/magnet.luau /etc/lighttpd/

Restart the service and check the log:

sudo service lighttpd restart

sudo cat /var/log/lighttpd/error.log

DNSCrypt

First install minisign or build from source

Download the latest Linux release - dnscrypt-proxy-linux_x86_64-*.tar.gz, verify it and edit the configuration:

curl -LfO https://github.com/DNSCrypt/dnscrypt-proxy/releases/download/2.1.5/dnscrypt-proxy-linux_x86_64-2.1.5.tar.gz

curl -LfO https://github.com/DNSCrypt/dnscrypt-proxy/releases/download/2.1.5/dnscrypt-proxy-linux_x86_64-2.1.5.tar.gz.minisig

minisign -Vm dnscrypt-proxy-*.tar.gz -P RWTk1xXqcTODeYttYMCMLo0YJHaFEHn7a3akqHlb/7QvIQXHVPxKbjB5
Signature and comment signature verified
Trusted comment: timestamp:1691773871   file:dnscrypt-proxy-linux_x86_64-2.1.5.tar.gz   hashed

tar xf dnscrypt-proxy*.gz

cp config/dnscrypt-proxy.toml linux-x86_64/

cd linux-x86_64/

vim dnscrypt-proxy.toml

Optional Download and configure a hosts blacklist:

git clone https://github.com/DNSCrypt/dnscrypt-proxy

cd dnscrypt-proxy/utils/generate-domains-blocklists

python3 generate-domains-blocklist.py > blocklist-$(date +%F).txt

cp blocklist-$(date +%F).txt ~/linux-x86_64/blocklist.txt

Start the program and check dnscrypt.log for success or errors:

sudo ./dnscrypt-proxy

Once everything is working as expected, install and start dnscrypt-proxy as a service:

sudo ./dnscrypt-proxy -service install

sudo ./dnscrypt-proxy -service start

tail -f dnscrypt.log

Security and maintenance

To confirm the firewall is configured correctly, run port scans from an internal and external hosts, for example:

nmap -v -A -T4 192.168.1.1 -Pn

To view blocked packets, tail the system message buffer on Linux:

$ sudo dmesg -wH
[Jul 1 12:00] DROPIN>IN=enp1s0 OUT= MAC=00:00:00:00:00:00:00:00:00:00:00:00:00:00 SRC=192.168.1.10 DST=192.168.1.1 LEN=64 TOS=0x00 PREC=0x00 TTL=64 ID=29501 DF PROTO=TCP SPT=43228 DPT=554 WINDOW=16384 RES=0x00 SYN URGP=0
[...]

On OpenBSD, blocked packets will be sent to the PF log interface:

$ doas tcpdump -ni pflog0
tcpdump: listening on pflog0, link-type PFLOG
12:00:00.000000 192.168.1.10.40770 > 192.168.1.1.1720: S 3331100898:3331180098(0) win 29200 <mss 1460,sackOK,timestamp 232580000 0,nop,wscale 7> (DF)
[...]

Install a USB camera and configure Motion to detect and monitor physical access.

(Linux only) Increase system entropy with a hardware device like OneRNG.

OpenBSD

Check open network ports with doas fstat | grep net and doas netstat -a -n -p udp -p tcp

Check running processes and sessions with ps -A and last

Pay attention to OpenBSD errata and apply security fixes periodically with doas syspatch

OpenBSD releases occur approximately every six months - follow current snapshots for faster updates by periodically running doas sysupgrade -s to reboot and install updates.

Check temperatures with sysctl hw.sensors or configure sensorsd.

Debian

Check open ports and listening programs with sudo lsof -Pni and sudo netstat -npl

Check running processes and logged-in users with ps -eax and last -F

Pay attention to Debian security advisories and run sudo apt update && sudo apt upgrade periodically or configure unattended upgrades.

Install and enable SELinux:

sudo apt -y install selinux-basics selinux-policy-default

sudo selinux-activate

sudo reboot

Or, install and enable AppArmor, then reboot:

sudo apt -y install apparmor apparmor-profiles apparmor-utils

sudo mkdir -p /etc/default/grub.d

echo 'GRUB_CMDLINE_LINUX_DEFAULT="$GRUB_CMDLINE_LINUX_DEFAULT apparmor=1 security=apparmor"' | sudo tee /etc/default/grub.d/apparmor.cfg

sudo update-grub && sudo reboot

Install and enable Firejail:

sudo apt -y install firejail firejail-profiles

sudo firecfg

See also Debian SSD Optimizations.

Similar work

• elad/openbsd-apu2
• martinbaillie/homebrew-openbsd-pcengines-router
• northox/openbsd-apu2
• vedetta-com/vedetta