pivpn/auto_install/install.sh
2019-10-14 12:11:16 +02:00

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45 KiB
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Executable file

#!/usr/bin/env bash
# PiVPN: Trivial OpenVPN or WireGUard setup and configuration
# Easiest setup and mangement of OpenVPN or WireGuard on Raspberry Pi
# http://pivpn.io
# Heavily adapted from the pi-hole.net project and...
# https://github.com/StarshipEngineer/OpenVPN-Setup/
#
# Install with this command (from your Pi):
#
# curl -L https://install.pivpn.io | bash
# Make sure you have `curl` installed
######## VARIABLES #########
setupVars=/etc/pivpn/setupVars.conf
pivpnFilesDir="/etc/.pivpn"
### PKG Vars ###
PKG_MANAGER="apt-get"
PKG_CACHE="/var/lib/apt/lists/"
UPDATE_PKG_CACHE="${PKG_MANAGER} update"
PKG_INSTALL="${PKG_MANAGER} --yes --no-install-recommends install"
PKG_COUNT="${PKG_MANAGER} -s -o Debug::NoLocking=true upgrade | grep -c ^Inst || true"
BASE_DEPS=(git tar wget grep iptables-persistent dnsutils whiptail net-tools dhcpcd5)
pivpnGitUrl="https://github.com/orazioedoardo/pivpn.git"
easyrsaVer="3.0.6"
easyrsaRel="https://github.com/OpenVPN/easy-rsa/releases/download/v${easyrsaVer}/EasyRSA-unix-v${easyrsaVer}.tgz"
# Raspbian's unattended-upgrades package downloads Debian's config, so this is the link for the proper config
UNATTUPG_RELEASE="1.14"
UNATTUPG_CONFIG="https://github.com/mvo5/unattended-upgrades/archive/${UNATTUPG_RELEASE}.tar.gz"
WG_SNAPSHOT="0.0.20190913"
WG_SOURCE="https://git.zx2c4.com/WireGuard/snapshot/WireGuard-${WG_SNAPSHOT}.tar.xz"
# Find the rows and columns. Will default to 80x24 if it can not be detected.
screen_size=$(stty size 2>/dev/null || echo 24 80)
rows=$(echo $screen_size | awk '{print $1}')
columns=$(echo $screen_size | awk '{print $2}')
# Divide by two so the dialogs take up half of the screen, which looks nice.
r=$(( rows / 2 ))
c=$(( columns / 2 ))
# Unless the screen is tiny
r=$(( r < 20 ? 20 : r ))
c=$(( c < 70 ? 70 : c ))
# Find IP used to route to outside world
IPv4dev=$(ip route get 8.8.8.8 | awk '{for(i=1;i<=NF;i++)if($i~/dev/)print $(i+1)}')
IPv4addr=$(ip route get 8.8.8.8| awk '{print $7}')
IPv4gw=$(ip route get 8.8.8.8 | awk '{print $3}')
availableInterfaces=$(ip -o link | grep "state UP" | awk '{print $2}' | cut -d':' -f1 | cut -d'@' -f1)
dhcpcdFile=/etc/dhcpcd.conf
# Next see if we are on a tested and supported OS
noOSSupport(){
whiptail --msgbox --backtitle "INVALID OS DETECTED" --title "Invalid OS" "We have not been able to detect a supported OS.
Currently this installer supports Raspbian (Buster).
If you think you received this message in error, you can post an issue on the GitHub at https://github.com/pivpn/pivpn/issues." ${r} ${c}
exit 1
}
maybeOSSupport(){
if (whiptail --backtitle "Not Supported OS" --title "Not Supported OS" --yesno "You are on an OS that we have not tested but MAY work.
Currently this installer supports Raspbian (Buster).
Would you like to continue anyway?" ${r} ${c}) then
echo "::: Did not detect perfectly supported OS but,"
echo "::: Continuing installation at user's own risk..."
else
echo "::: Exiting due to unsupported OS"
exit 1
fi
}
# Compatibility
distroCheck(){
# if lsb_release command is on their system
if hash lsb_release 2>/dev/null; then
PLAT=$(lsb_release -si)
OSCN=$(lsb_release -sc) # We want this to be trusty xenial or jessie
else # else get info from os-release
source /etc/os-release
PLAT=$(awk '{print $1}' <<< "$NAME")
VER="$VERSION_ID"
declare -A VER_MAP=(["10"]="buster")
OSCN=${VER_MAP["${VER}"]}
fi
case ${PLAT} in
Raspbian)
case ${OSCN} in
buster)
;;
*)
maybeOS_Support
;;
esac
;;
*)
noOS_Support
;;
esac
echo "PLAT=${PLAT}" > /tmp/setupVars.conf
echo "OSCN=${OSCN}" >> /tmp/setupVars.conf
}
checkHostname(){
###Checks for hostname size
host_name=$(hostname -s)
if [[ ! ${#host_name} -le 28 ]]; then
until [[ ${#host_name} -le 28 && $host_name =~ ^[a-zA-Z0-9][a-zA-Z0-9-]{1,28}$ ]]; do
host_name=$(whiptail --inputbox "Your hostname is too long.\nEnter new hostname with less then 28 characters\nNo special characters allowed." \
--title "Hostname too long" ${r} ${c} 3>&1 1>&2 2>&3)
$SUDO hostnamectl set-hostname "${host_name}"
if [[ ${#host_name} -le 28 && $host_name =~ ^[a-zA-Z0-9][a-zA-Z0-9-]{1,28}$ ]]; then
echo "::: Hostname valid and length OK, proceeding..."
fi
done
else
echo "::: Hostname length OK"
fi
}
####### FUNCTIONS ##########
spinner(){
local pid=$1
local delay=0.50
local spinstr='/-\|'
while [ "$(ps a | awk '{print $1}' | grep "${pid}")" ]; do
local temp=${spinstr#?}
printf " [%c] " "${spinstr}"
local spinstr=${temp}${spinstr%"$temp"}
sleep ${delay}
printf "\b\b\b\b\b\b"
done
printf " \b\b\b\b"
}
verifyFreeDiskSpace(){
# If user installs unattended-upgrades we'd need about 60MB so will check for 75MB free
echo "::: Verifying free disk space..."
local required_free_kilobytes=76800
local existing_free_kilobytes=$(df -Pk | grep -m1 '\/$' | awk '{print $4}')
# - Unknown free disk space , not a integer
if ! [[ "${existing_free_kilobytes}" =~ ^([0-9])+$ ]]; then
echo "::: Unknown free disk space!"
echo "::: We were unable to determine available free disk space on this system."
echo "::: You may continue with the installation, however, it is not recommended."
read -r -p "::: If you are sure you want to continue, type YES and press enter :: " response
case $response in
[Y][E][S])
;;
*)
echo "::: Confirmation not received, exiting..."
exit 1
;;
esac
# - Insufficient free disk space
elif [[ ${existing_free_kilobytes} -lt ${required_free_kilobytes} ]]; then
echo "::: Insufficient Disk Space!"
echo "::: Your system appears to be low on disk space. PiVPN recommends a minimum of $required_free_kilobytes KiloBytes."
echo "::: You only have ${existing_free_kilobytes} KiloBytes free."
echo "::: If this is a new install on a Raspberry Pi you may need to expand your disk."
echo "::: Try running 'sudo raspi-config', and choose the 'expand file system option'"
echo "::: After rebooting, run this installation again. (curl -L https://install.pivpn.io | bash)"
echo "Insufficient free space, exiting..."
exit 1
fi
}
updatePackageCache(){
#Running apt-get update/upgrade with minimal output can cause some issues with
#requiring user input
#Check to see if apt-get update has already been run today
#it needs to have been run at least once on new installs!
timestamp=$(stat -c %Y ${PKG_CACHE})
timestampAsDate=$(date -d @"${timestamp}" "+%b %e")
today=$(date "+%b %e")
if [ ! "${today}" == "${timestampAsDate}" ]; then
#update package lists
echo ":::"
echo -ne "::: ${PKG_MANAGER} update has not been run today. Running now...\n"
$SUDO ${UPDATE_PKG_CACHE} &> /dev/null
echo " done!"
fi
}
notifyPackageUpdatesAvailable(){
# Let user know if they have outdated packages on their system and
# advise them to run a package update at soonest possible.
echo ":::"
echo -n "::: Checking ${PKG_MANAGER} for upgraded packages...."
updatesToInstall=$(eval "${PKG_COUNT}")
echo " done!"
echo ":::"
if [[ ${updatesToInstall} -eq "0" ]]; then
echo "::: Your system is up to date! Continuing with PiVPN installation..."
else
echo "::: There are ${updatesToInstall} updates available for your system!"
echo "::: We recommend you update your OS after installing PiVPN! "
echo ":::"
fi
}
packageCheckInstall(){
dpkg-query -W -f='${Status}' "${1}" 2>/dev/null | grep -c "ok installed" || ${PKG_INSTALL} "${1}"
}
preconfigurePackages(){
# Add support for https repositories if there are any that use it otherwise the installation will silently fail
if grep -q https /etc/apt/sources.list; then
BASE_DEPS+=("apt-transport-https")
fi
if [[ ${OSCN} == "buster" ]]; then
$SUDO update-alternatives --set iptables /usr/sbin/iptables-legacy
$SUDO update-alternatives --set ip6tables /usr/sbin/ip6tables-legacy
fi
echo iptables-persistent iptables-persistent/autosave_v4 boolean true | $SUDO debconf-set-selections
echo iptables-persistent iptables-persistent/autosave_v6 boolean false | $SUDO debconf-set-selections
}
installDependentPackages(){
# Install packages passed in via argument array
# No spinner - conflicts with set -e
declare -a argArray1=("${!1}")
if command -v debconf-apt-progress &> /dev/null; then
$SUDO debconf-apt-progress -- ${PKG_INSTALL} "${argArray1[@]}"
else
for i in "${argArray1[@]}"; do
echo -n "::: Checking for $i..."
$SUDO packageCheckInstall "${i}" &> /dev/null
echo " installed!"
done
fi
}
welcomeDialogs(){
# Display the welcome dialog
whiptail --msgbox --backtitle "Welcome" --title "PiVPN Automated Installer" "This installer will transform your Raspberry Pi into an OpenVPN or WireGuard server!" ${r} ${c}
# Explain the need for a static address
whiptail --msgbox --backtitle "Initiating network interface" --title "Static IP Needed" "The PiVPN is a SERVER so it needs a STATIC IP ADDRESS to function properly.
In the next section, you can choose to use your current network settings (DHCP) or to manually edit them." ${r} ${c}
}
chooseInterface(){
# Turn the available interfaces into an array so it can be used with a whiptail dialog
local interfacesArray=()
# Number of available interfaces
local interfaceCount
# Whiptail variable storage
local chooseInterfaceCmd
# Temporary Whiptail options storage
local chooseInterfaceOptions
# Loop sentinel variable
local firstloop=1
if [[ $(echo "${availableInterfaces}" | wc -l) -eq 1 ]]; then
PHYS_INT="${availableInterfaces}"
echo "PHYS_INT=${PHYS_INT}" >> /tmp/setupVars.conf
return
fi
while read -r line; do
mode="OFF"
if [[ ${firstloop} -eq 1 ]]; then
firstloop=0
mode="ON"
fi
interfacesArray+=("${line}" "available" "${mode}")
done <<< "${availableInterfaces}"
# Find out how many interfaces are available to choose from
interfaceCount=$(echo "${availableInterfaces}" | wc -l)
chooseInterfaceCmd=(whiptail --separate-output --radiolist "Choose An Interface (press space to select):" ${r} ${c} ${interfaceCount})
chooseInterfaceOptions=$("${chooseInterfaceCmd[@]}" "${interfacesArray[@]}" 2>&1 >/dev/tty)
if [[ $? = 0 ]]; then
for desiredInterface in ${chooseInterfaceOptions}; do
PHYS_INT=${desiredInterface}
echo "::: Using interface: $PHYS_INT"
echo "PHYS_INT=${PHYS_INT}" >> /tmp/setupVars.conf
done
else
echo "::: Cancel selected, exiting...."
exit 1
fi
}
getStaticIPv4Settings() {
local ipSettingsCorrect
# Grab their current DNS Server
IPv4dns=$(nslookup 127.0.0.1 | grep Server: | awk '{print $2}')
# Ask if the user wants to use DHCP settings as their static IP
if (whiptail --backtitle "Calibrating network interface" --title "Static IP Address" --yesno "Do you want to use your current network settings as a static address?
IP address: ${IPv4addr}
Gateway: ${IPv4gw}" ${r} ${c}); then
# If they choose yes, let the user know that the IP address will not be available via DHCP and may cause a conflict.
whiptail --msgbox --backtitle "IP information" --title "FYI: IP Conflict" "It is possible your router could still try to assign this IP to a device, which would cause a conflict. But in most cases the router is smart enough to not do that.
If you are worried, either manually set the address, or modify the DHCP reservation pool so it does not include the IP you want.
It is also possible to use a DHCP reservation, but if you are going to do that, you might as well set a static address." ${r} ${c}
# Nothing else to do since the variables are already set above
else
# Otherwise, we need to ask the user to input their desired settings.
# Start by getting the IPv4 address (pre-filling it with info gathered from DHCP)
# Start a loop to let the user enter their information with the chance to go back and edit it if necessary
until [[ ${ipSettingsCorrect} = True ]]; do
# Ask for the IPv4 address
IPv4addr=$(whiptail --backtitle "Calibrating network interface" --title "IPv4 address" --inputbox "Enter your desired IPv4 address" ${r} ${c} "${IPv4addr}" 3>&1 1>&2 2>&3)
if [[ $? = 0 ]]; then
echo "::: Your static IPv4 address: ${IPv4addr}"
# Ask for the gateway
IPv4gw=$(whiptail --backtitle "Calibrating network interface" --title "IPv4 gateway (router)" --inputbox "Enter your desired IPv4 default gateway" ${r} ${c} "${IPv4gw}" 3>&1 1>&2 2>&3)
if [[ $? = 0 ]]; then
echo "::: Your static IPv4 gateway: ${IPv4gw}"
# Give the user a chance to review their settings before moving on
if (whiptail --backtitle "Calibrating network interface" --title "Static IP Address" --yesno "Are these settings correct?
IP address: ${IPv4addr}
Gateway: ${IPv4gw}" ${r} ${c}); then
# If the settings are correct, then we need to set the pivpnIP
echo "pivpnIP=${IPv4addr%/*}" >> /tmp/setupVars.conf
# After that's done, the loop ends and we move on
ipSettingsCorrect=True
else
# If the settings are wrong, the loop continues
ipSettingsCorrect=False
fi
else
# Cancelling gateway settings window
ipSettingsCorrect=False
echo "::: Cancel selected. Exiting..."
exit 1
fi
else
# Cancelling IPv4 settings window
ipSettingsCorrect=False
echo "::: Cancel selected. Exiting..."
exit 1
fi
done
# End the if statement for DHCP vs. static
fi
}
setDHCPCD(){
# Append these lines to dhcpcd.conf to enable a static IP
echo "interface ${PHYS_INT}
static ip_address=${IPv4addr}
static routers=${IPv4gw}
static domain_name_servers=${IPv4dns}" | $SUDO tee -a ${dhcpcdFile} >/dev/null
}
setStaticIPv4(){
# Tries to set the IPv4 address
if [[ -f /etc/dhcpcd.conf ]]; then
if grep -q "${IPv4addr}" ${dhcpcdFile}; then
echo "::: Static IP already configured."
else
setDHCPCD
$SUDO ip addr replace dev "${PHYS_INT}" "${IPv4addr}"
echo ":::"
echo "::: Setting IP to ${IPv4addr}. You may need to restart after the install is complete."
echo ":::"
fi
else
echo "::: Critical: Unable to locate configuration file to set static IPv4 address!"
exit 1
fi
}
chooseUser(){
# Explain the local user
whiptail --msgbox --backtitle "Parsing User List" --title "Local Users" "Choose a local user that will hold your ovpn configurations." ${r} ${c}
# First, let's check if there is a user available.
numUsers=$(awk -F':' 'BEGIN {count=0} $3>=1000 && $3<=60000 { count++ } END{ print count }' /etc/passwd)
if [ "$numUsers" -eq 0 ]
then
# We don't have a user, let's ask to add one.
if userToAdd=$(whiptail --title "Choose A User" --inputbox "No non-root user account was found. Please type a new username." ${r} ${c} 3>&1 1>&2 2>&3)
then
# See http://askubuntu.com/a/667842/459815
PASSWORD=$(whiptail --title "password dialog" --passwordbox "Please enter the new user password" ${r} ${c} 3>&1 1>&2 2>&3)
CRYPT=$(perl -e 'printf("%s\n", crypt($ARGV[0], "password"))' "${PASSWORD}")
$SUDO useradd -m -p "${CRYPT}" -s /bin/bash "${userToAdd}"
if [[ $? = 0 ]]; then
echo "Succeeded"
((numUsers+=1))
else
exit 1
fi
else
exit 1
fi
fi
availableUsers=$(awk -F':' '$3>=1000 && $3<=60000 {print $1}' /etc/passwd)
local userArray=()
local firstloop=1
while read -r line
do
mode="OFF"
if [[ $firstloop -eq 1 ]]; then
firstloop=0
mode="ON"
fi
userArray+=("${line}" "" "${mode}")
done <<< "${availableUsers}"
chooseUserCmd=(whiptail --title "Choose A User" --separate-output --radiolist "Choose (press space to select):" ${r} ${c} ${numUsers})
chooseUserOptions=$("${chooseUserCmd[@]}" "${userArray[@]}" 2>&1 >/dev/tty)
if [[ $? = 0 ]]; then
for desiredUser in ${chooseUserOptions}; do
install_user=${desiredUser}
echo "::: Using User: $install_user"
install_home=$(grep -m1 "^${install_user}:" /etc/passwd | cut -d: -f6)
install_home=${install_home%/} # remove possible trailing slash
echo "install_user=${install_user}" >> /tmp/setupVars.conf
echo "install_home=${install_home}" >> /tmp/setupVars.conf
done
else
echo "::: Cancel selected, exiting...."
exit 1
fi
}
isRepo(){
# If the directory does not have a .git folder it is not a repo
echo -n "::: Checking $1 is a repo..."
cd "${1}" &> /dev/null || return 1
$SUDO git status &> /dev/null && echo " OK!"; return 0 || echo " not found!"; return 1
}
updateRepo(){
# Pull the latest commits
echo -n "::: Updating repo in $1..."
$SUDO rm -rf "${1}"
# Go back to /etc otherwhise git will complain when the current working
# directory has just been deleted (/etc/.pivpn).
cd /etc
$SUDO git clone -q --depth 1 --no-single-branch "${2}" "${1}" > /dev/null & spinner $!
cd "${1}" || exit 1
if [ -z "${TESTING}" ]; then
:
elif [ "${TESTING}" = "test" ]; then
${SUDOE} git checkout test
elif [ "${TESTING}" = "test-wireguard" ]; then
${SUDOE} git checkout test-wireguard
fi
echo " done!"
}
makeRepo(){
# Remove the non-repos interface and clone the interface
echo -n "::: Cloning $2 into $1..."
$SUDO rm -rf "${1}"
$SUDO git clone -q --depth 1 --no-single-branch "${2}" "${1}" > /dev/null & spinner $!
if [ -z "${TESTING}" ]; then
:
elif [ "${TESTING}" = "test" ]; then
${SUDOE} git checkout test
elif [ "${TESTING}" = "test-wireguard" ]; then
${SUDOE} git checkout test-wireguard
fi
echo " done!"
}
getGitFiles(){
# Setup git repos for base files
echo ":::"
echo "::: Checking for existing base files..."
if isRepo "${1}"; then
updateRepo "${1}" "${2}"
else
makeRepo "${1}" "${2}"
fi
}
cloneOrUpdateRepos(){
# Get Git files
getGitFiles ${pivpnFilesDir} ${pivpnGitUrl} || \
{ echo "!!! Unable to clone ${pivpnGitUrl} into ${pivpnFilesDir}, unable to continue."; \
exit 1; \
}
}
askWhichVPN(){
if (whiptail --backtitle "Setup PiVPN" --title "Installation mode" --yesno "WireGuard is a new kind of VPN that provides near-istantaneous connection speed, high performance, modern cryptography.\n\nIt's the recommended choise expecially if you use mobile devices where WireGuard is easier on battery than OpenVPN.\n\nOpenVPN is still available if you need the traditional, flexible, trusted VPN protocol. Or if you need features like TCP and custom search domain.\n\nChoose 'Yes' to use WireGuard of 'No' to use OpenVPN." ${r} ${c});
then
VPN="WireGuard"
pivpnINT="wg0"
else
VPN="OpenVPN"
pivpnINT="tun0"
fi
echo "VPN=${VPN}" >> /tmp/setupVars.conf
echo "pivpnINT=${pivpnINT}" >> /tmp/setupVars.conf
}
installOpenVPN(){
echo "::: Installing OpenVPN from Debian package... "
# grepcidr is used to redact IPs in the debug log, whereas expect is used
# to feed easy-rsa with passwords
PIVPN_DEPS=(openvpn grepcidr expect)
installDependentPackages PIVPN_DEPS[@]
}
installWireGuard(){
# If this Raspberry Pi uses armv7l we can use the package from the repo
# https://lists.zx2c4.com/pipermail/wireguard/2017-November/001885.html
# Otherwhise compile and build the kernel module via DKMS (so it will
# be recompiled on kernel upgrades)
if [ "$(uname -m)" = "armv7l" ]; then
echo "::: Installing WireGuard from Debian package... "
# dirmngr is used to download repository keys, whereas qrencode is used to generate qrcodes
# from config file, for use with mobile clients
PIVPN_DEPS=(dirmngr qrencode)
installDependentPackages PIVPN_DEPS[@]
# Do not upgrade packages from the unstable repository except for wireguard
echo "::: Adding Debian repository... "
echo "deb http://deb.debian.org/debian/ unstable main" | $SUDO tee -a /etc/apt/sources.list.d/unstable.list > /dev/null
echo "Package: *
Pin: release a=unstable
Pin-Priority: 1
Package: wireguard wireguard-dkms wireguard-tools
Pin: release a=unstable
Pin-Priority: 500" | $SUDO tee -a /etc/apt/preferences.d/limit-unstable > /dev/null
$SUDO apt-key adv --keyserver keyserver.ubuntu.com --recv-keys 04EE7237B7D453EC 648ACFD622F3D138
$SUDO ${UPDATE_PKG_CACHE} &> /dev/null
PIVPN_DEPS=(wireguard)
installDependentPackages PIVPN_DEPS[@]
elif [ "$(uname -m)" = "armv6l" ]; then
echo "::: Installing WireGuard from source... "
PIVPN_DEPS=(libmnl-dev libelf-dev raspberrypi-kernel-headers build-essential pkg-config qrencode)
installDependentPackages PIVPN_DEPS[@]
# Delete any leftover code
$SUDO rm -rf /usr/src/wireguard-*
echo -n "::: Downloading source code... "
wget -O- "${WG_SOURCE}" | $SUDO tar Jxf - --directory /usr/src
echo "done!"
cd /usr/src
$SUDO mv WireGuard-"${WG_SNAPSHOT}" wireguard-"${WG_SNAPSHOT}"
cd wireguard-"${WG_SNAPSHOT}"
$SUDO mv src/* .
$SUDO rmdir src
# We install the userspace tools manually since DKMS only compiles and
# installs the kernel module
echo -n "::: Compiling WireGuard tools... "
if $SUDO make tools; then
echo "done!"
else
echo "failed!"
exit 1
fi
echo -n "::: Installing WireGuard tools... "
if $SUDO make install tools; then
echo "done!"
else
echo "failed!"
exit 1
fi
echo -n "::: Adding WireGuard modules via DKMS... "
if $SUDO dkms add wireguard/"${WG_SNAPSHOT}"; then
echo "done!"
else
echo "failed!"
$SUDO dkms remove wireguard/"${WG_SNAPSHOT}" --all
exit 1
fi
echo -n "::: Compiling WireGuard modules via DKMS... "
if $SUDO dkms build wireguard/"${WG_SNAPSHOT}"; then
echo "done!"
else
echo "failed!"
$SUDO dkms remove wireguard/"${WG_SNAPSHOT}" --all
exit 1
fi
echo -n "::: Installing WireGuard modules via DKMS... "
if $SUDO dkms install wireguard/"${WG_SNAPSHOT}"; then
echo "done!"
else
echo "failed!"
$SUDO dkms remove wireguard/"${WG_SNAPSHOT}" --all
exit 1
fi
fi
}
validIP(){
local ip=$1
local stat=1
if [[ $ip =~ ^[0-9]{1,3}\.[0-9]{1,3}\.[0-9]{1,3}\.[0-9]{1,3}$ ]]; then
OIFS=$IFS
IFS='.'
ip=($ip)
IFS=$OIFS
[[ ${ip[0]} -le 255 && ${ip[1]} -le 255 \
&& ${ip[2]} -le 255 && ${ip[3]} -le 255 ]]
stat=$?
fi
return $stat
}
#Call this function to use a regex to check user input for a valid custom domain
validDomain(){
local domain=$1
local stat=1
if [[ $domain =~ ^[a-zA-Z0-9][a-zA-Z0-9-]{1,61}\.[a-zA-Z]{2,}$ ]]; then
stat=$?
fi
return $stat
}
askCustomProto(){
# Set the available protocols into an array so it can be used with a whiptail dialog
if protocol=$(whiptail --title "Protocol" --radiolist \
"Choose a protocol (press space to select). Please only choose TCP if you know why you need TCP." ${r} ${c} 2 \
"UDP" "" ON \
"TCP" "" OFF 3>&1 1>&2 2>&3)
then
# Convert option into lowercase (UDP->udp)
pivpnPROTO="${protocol,,}"
echo "::: Using protocol: $pivpnPROTO"
echo "pivpnPROTO=${pivpnPROTO}" >> /tmp/setupVars.conf
else
echo "::: Cancel selected, exiting...."
exit 1
fi
}
askCustomPort(){
until [[ $PORTNumCorrect = True ]]
do
portInvalid="Invalid"
if [ "$VPN" = "WireGuard" ]; then
DEFAULT_PORT=51820
elif [ "$VPN" = "OpenVPN" ]; then
if [ "$pivpnPROTO" = "udp" ]; then
DEFAULT_PORT=1194
else
DEFAULT_PORT=443
fi
fi
if pivpnPORT=$(whiptail --title "Default $VPN Port" --inputbox "You can modify the default $VPN port. \nEnter a new value or hit 'Enter' to retain the default" ${r} ${c} $DEFAULT_PORT 3>&1 1>&2 2>&3)
then
if [[ "$pivpnPORT" =~ ^[0-9]+$ ]] && [ "$pivpnPORT" -ge 1 ] && [ "$pivpnPORT" -le 65535 ]; then
:
else
pivpnPORT=$portInvalid
fi
else
echo "::: Cancel selected, exiting...."
exit 1
fi
if [[ $pivpnPORT == "$portInvalid" ]]; then
whiptail --msgbox --backtitle "Invalid Port" --title "Invalid Port" "You entered an invalid Port number.\n Please enter a number from 1 - 65535.\n If you are not sure, please just keep the default." ${r} ${c}
PORTNumCorrect=False
else
if (whiptail --backtitle "Specify Custom Port" --title "Confirm Custom Port Number" --yesno "Are these settings correct?\n PORT: $pivpnPORT" ${r} ${c}) then
PORTNumCorrect=True
else
# If the settings are wrong, the loop continues
PORTNumCorrect=False
fi
fi
done
# write out the port
echo "pivpnPORT=${pivpnPORT}" >> /tmp/setupVars.conf
}
askClientDNS() {
DNSChoseCmd=(whiptail --separate-output --radiolist "Select the DNS Provider for your VPN Clients (press space to select). To use your own, select Custom." ${r} ${c} 6)
DNSChooseOptions=(Google "" on
OpenDNS "" off
Level3 "" off
DNS.WATCH "" off
Norton "" off
FamilyShield "" off
CloudFlare "" off
Custom "" off)
if DNSchoices=$("${DNSChoseCmd[@]}" "${DNSChooseOptions[@]}" 2>&1 >/dev/tty)
then
if [[ ${DNSchoices} != "Custom" ]]; then
echo "::: Using ${DNSchoices} servers."
declare -A DNS_MAP=(["Google"]="8.8.8.8 8.8.4.4"
["OpenDNS"]="208.67.222.222 208.67.220.220"
["Level3"]="209.244.0.3 209.244.0.4"
["DNS.WATCH"]="84.200.69.80 84.200.70.40"
["Norton"]="199.85.126.10 199.85.127.10"
["FamilyShield"]="208.67.222.123 208.67.220.123"
["CloudFlare"]="1.1.1.1 1.0.0.1")
pivpnDNS1=$(awk '{print $1}' <<< "${DNS_MAP["${DNSchoices}"]}")
pivpnDNS2=$(awk '{print $2}' <<< "${DNS_MAP["${DNSchoices}"]}")
else
until [[ $DNSSettingsCorrect = True ]]; do
strInvalid="Invalid"
if pivpnDNS=$(whiptail --backtitle "Specify Upstream DNS Provider(s)" --inputbox "Enter your desired upstream DNS provider(s), separated by a comma.\n\nFor example '8.8.8.8, 8.8.4.4'" ${r} ${c} "" 3>&1 1>&2 2>&3)
then
pivpnDNS1=$(echo "$pivpnDNS" | sed 's/[, \t]\+/,/g' | awk -F, '{print$1}')
pivpnDNS2=$(echo "$pivpnDNS" | sed 's/[, \t]\+/,/g' | awk -F, '{print$2}')
if ! validIP "$pivpnDNS1" || [ ! "$pivpnDNS1" ]; then
pivpnDNS1=$strInvalid
fi
if ! validIP "$pivpnDNS2" && [ "$pivpnDNS2" ]; then
pivpnDNS2=$strInvalid
fi
else
echo "::: Cancel selected, exiting...."
exit 1
fi
if [[ $pivpnDNS1 == "$strInvalid" ]] || [[ $pivpnDNS2 == "$strInvalid" ]]; then
whiptail --msgbox --backtitle "Invalid IP" --title "Invalid IP" "One or both entered IP addresses were invalid. Please try again.\n\n DNS Server 1: $pivpnDNS1\n DNS Server 2: $pivpnDNS2" ${r} ${c}
if [[ $pivpnDNS1 == "$strInvalid" ]]; then
pivpnDNS1=""
fi
if [[ $pivpnDNS2 == "$strInvalid" ]]; then
pivpnDNS2=""
fi
DNSSettingsCorrect=False
else
if (whiptail --backtitle "Specify Upstream DNS Provider(s)" --title "Upstream DNS Provider(s)" --yesno "Are these settings correct?\n DNS Server 1: $pivpnDNS1\n DNS Server 2: $pivpnDNS2" ${r} ${c}) then
DNSSettingsCorrect=True
else
# If the settings are wrong, the loop continues
DNSSettingsCorrect=False
fi
fi
done
fi
else
echo "::: Cancel selected. Exiting..."
exit 1
fi
echo "pivpnDNS1=${pivpnDNS1}" >> /tmp/setupVars.conf
echo "pivpnDNS2=${pivpnDNS2}" >> /tmp/setupVars.conf
}
#This procedure allows a user to specify a custom search domain if they have one.
askCustomDomain(){
DomainSettingsCorrect=False
if (whiptail --backtitle "Custom Search Domain" --title "Custom Search Domain" --yesno "Would you like to add a custom search domain? \n (This is only for advanced users who have their own domain)\n" ${r} ${c}); then
until [[ $DomainSettingsCorrect = True ]]
do
if pivpnDOMAIN=$(whiptail --inputbox "Enter Custom Domain\nFormat: mydomain.com" ${r} ${c} --title "Custom Domain" 3>&1 1>&2 2>&3); then
if validDomain "$pivpnDOMAIN"; then
if (whiptail --backtitle "Custom Search Domain" --title "Custom Search Domain" --yesno "Are these settings correct?\n Custom Search Domain: $pivpnDOMAIN" ${r} ${c}); then
DomainSettingsCorrect=True
echo "pivpnDOMAIN=${pivpnDOMAIN}" >> /tmp/setupVars.conf
else
# If the settings are wrong, the loop continues
DomainSettingsCorrect=False
fi
else
whiptail --msgbox --backtitle "Invalid Domain" --title "Invalid Domain" "Domain is invalid. Please try again.\n\n DOMAIN: $pivpnDOMAIN\n" ${r} ${c}
DomainSettingsCorrect=False
fi
else
echo "::: Cancel selected. Exiting..."
exit 1
fi
done
else
echo sleep 0.1
fi
}
askPublicIPOrDNS(){
if ! IPv4pub=$(dig +short myip.opendns.com @208.67.222.222) || ! validIP "$IPv4pub"; then
echo "dig failed, now trying to curl checkip.amazonaws.com"
if ! IPv4pub=$(curl -s https://checkip.amazonaws.com) || ! validIP "$IPv4pub"; then
echo "checkip.amazonaws.com failed, please check your internet connection/DNS"
exit 1
fi
fi
METH=$(whiptail --title "Public IP or DNS" --radiolist "Will clients use a Public IP or DNS Name to connect to your server (press space to select)?" ${r} ${c} 2 \
"$IPv4pub" "Use this public IP" "ON" \
"DNS Entry" "Use a public DNS" "OFF" 3>&1 1>&2 2>&3)
exitstatus=$?
if [ $exitstatus != 0 ]; then
echo "::: Cancel selected. Exiting..."
exit 1
fi
if [ "$METH" == "$IPv4pub" ]; then
pivpnHOST="${IPv4pub}"
else
until [[ $publicDNSCorrect = True ]]
do
PUBLICDNS=$(whiptail --title "PiVPN Setup" --inputbox "What is the public DNS name of this Server?" ${r} ${c} 3>&1 1>&2 2>&3)
exitstatus=$?
if [ $exitstatus != 0 ]; then
echo "::: Cancel selected. Exiting..."
exit 1
fi
if (whiptail --backtitle "Confirm DNS Name" --title "Confirm DNS Name" --yesno "Is this correct?\n\n Public DNS Name: $PUBLICDNS" ${r} ${c}) then
publicDNSCorrect=True
pivpnHOST="${PUBLICDNS}"
else
publicDNSCorrect=False
fi
done
fi
echo "pivpnHOST=${pivpnHOST}" >> /tmp/setupVars.conf
}
askEncryption(){
pivpnENCRYPT=$(whiptail --backtitle "Setup OpenVPN" --title "RSA certificate size" --radiolist \
"Choose the desired size of your certificate (press space to select):\nThis is a certificate that will be generated on your system. The larger the certificate, the more time this will take. For most applications, it is recommended to use 2048 bits. If you are paranoid about ... things... then grab a cup of joe and pick 4096 bits." ${r} ${c} 3 \
"2048" "Use a 2048-bit certificate (recommended level)" ON \
"3072" "Use a 3072-bit certificate " OFF \
"4096" "Use a 4096-bit certificate (paranoid level)" OFF 3>&1 1>&2 2>&3)
exitstatus=$?
if [ $exitstatus != 0 ]; then
echo "::: Cancel selected. Exiting..."
exit 1
fi
if ([ "$pivpnENCRYPT" -ge "3072" ] && whiptail --backtitle "Setup OpenVPN" --title "Download Diffie-Hellman Parameters" --yesno --defaultno "Download Diffie-Hellman parameters from a public DH parameter generation service?\n\nGenerating DH parameters for a $pivpnENCRYPT-bit key can take many hours on a Raspberry Pi. You can instead download DH parameters from \"2 Ton Digital\" that are generated at regular intervals as part of a public service. Downloaded DH parameters will be randomly selected from their database.\nMore information about this service can be found here: https://2ton.com.au/safeprimes/\n\nIf you're paranoid, choose 'No' and Diffie-Hellman parameters will be generated on your device." ${r} ${c}); then
DOWNLOAD_DH_PARAM=true
else
DOWNLOAD_DH_PARAM=false
fi
echo "pivpnENCRYPT=${pivpnENCRYPT}" >> /tmp/setupVars.conf
echo "DOWNLOAD_DH_PARAM=${DOWNLOAD_DH_PARAM}" >> /tmp/setupVars.conf
}
confOpenVPN(){
# Grab the existing Hostname
host_name=$(hostname -s)
# Generate a random UUID for this server so that we can use verify-x509-name later that is unique for this server installation.
NEW_UUID=$(</proc/sys/kernel/random/uuid)
# Create a unique server name using the host name and UUID
SERVER_NAME="${host_name}_${NEW_UUID}"
# If easy-rsa exists, remove it
if [[ -d /etc/openvpn/easy-rsa/ ]]; then
$SUDO rm -rf /etc/openvpn/easy-rsa/
fi
# Get easy-rsa
wget -q -O - "${easyrsaRel}" | $SUDO tar xz -C /etc/openvpn && $SUDO mv /etc/openvpn/EasyRSA-v${easyrsaVer} /etc/openvpn/easy-rsa
# fix ownership
$SUDO chown -R root:root /etc/openvpn/easy-rsa
$SUDO mkdir /etc/openvpn/easy-rsa/pki
cd /etc/openvpn/easy-rsa || exit
# Write out new vars file
echo "if [ -z \"\$EASYRSA_CALLER\" ]; then
echo \"Nope.\" >&2
return 1
fi
set_var EASYRSA \"/etc/openvpn/easy-rsa\"
set_var EASYRSA_PKI \"\$EASYRSA/pki\"
set_var EASYRSA_CRL_DAYS 3650
set_var EASYRSA_ALGO rsa
set_var EASYRSA_KEY_SIZE ${pivpnENCRYPT}" | $SUDO tee vars >/dev/null
# Remove any previous keys
${SUDOE} ./easyrsa --batch init-pki
# Build the certificate authority
printf "::: Building CA...\n"
${SUDOE} ./easyrsa --batch build-ca nopass
printf "\n::: CA Complete.\n"
whiptail --msgbox --backtitle "Setup OpenVPN" --title "Server Information" "The server key, Diffie-Hellman parameters, and HMAC key will now be generated." ${r} ${c}
# Build the server
EASYRSA_CERT_EXPIRE=3650 ${SUDOE} ./easyrsa build-server-full ${SERVER_NAME} nopass
if [[ ${DOWNLOAD_DH_PARAM} == true ]]; then
# Downloading parameters
${SUDOE} curl "https://2ton.com.au/getprimes/random/dhparam/${pivpnENCRYPT}" -o "/etc/openvpn/easy-rsa/pki/dh${pivpnENCRYPT}.pem"
else
# Generate Diffie-Hellman key exchange
${SUDOE} ./easyrsa gen-dh
${SUDOE} mv pki/dh.pem pki/dh${pivpnENCRYPT}.pem
fi
# Generate static HMAC key to defend against DDoS
${SUDOE} openvpn --genkey --secret pki/ta.key
# Generate an empty Certificate Revocation List
${SUDOE} ./easyrsa gen-crl
${SUDOE} cp pki/crl.pem /etc/openvpn/crl.pem
${SUDOE} chown nobody:nogroup /etc/openvpn/crl.pem
# Write config file for server using the template.txt file
$SUDO cp /etc/.pivpn/server_config.txt /etc/openvpn/server.conf
# Apply client DNS settings
${SUDOE} sed -i '0,/\(dhcp-option DNS \)/ s/\(dhcp-option DNS \).*/\1'${pivpnDNS1}'\"/' /etc/openvpn/server.conf
if [ -z ${pivpnDNS2} ]; then
${SUDOE} sed -i '/\(dhcp-option DNS \)/{n;N;d}' /etc/openvpn/server.conf
else
${SUDOE} sed -i '0,/\(dhcp-option DNS \)/! s/\(dhcp-option DNS \).*/\1'${pivpnDNS2}'\"/' /etc/openvpn/server.conf
fi
# Set the user encryption key size
$SUDO sed -i "s/\(dh \/etc\/openvpn\/easy-rsa\/pki\/dh\).*/\1${pivpnENCRYPT}.pem/" /etc/openvpn/server.conf
# if they modified port put value in server.conf
if [ "$pivpnPORT" != 1194 ]; then
$SUDO sed -i "s/1194/${pivpnPORT}/g" /etc/openvpn/server.conf
fi
# if they modified protocol put value in server.conf
if [ "$pivpnPROTO" != "udp" ]; then
$SUDO sed -i "s/proto udp/proto tcp/g" /etc/openvpn/server.conf
fi
# write out server certs to conf file
$SUDO sed -i "s/\(key \/etc\/openvpn\/easy-rsa\/pki\/private\/\).*/\1${SERVER_NAME}.key/" /etc/openvpn/server.conf
$SUDO sed -i "s/\(cert \/etc\/openvpn\/easy-rsa\/pki\/issued\/\).*/\1${SERVER_NAME}.crt/" /etc/openvpn/server.conf
}
confOVPN(){
$SUDO cp /etc/.pivpn/Default.txt /etc/openvpn/easy-rsa/pki/Default.txt
$SUDO sed -i 's/IPv4pub/'"$pivpnHOST"'/' /etc/openvpn/easy-rsa/pki/Default.txt
# if they modified port put value in Default.txt for clients to use
if [ "$pivpnPORT" != 1194 ]; then
$SUDO sed -i -e "s/1194/${pivpnPORT}/g" /etc/openvpn/easy-rsa/pki/Default.txt
fi
# if they modified protocol put value in Default.txt for clients to use
if [ "$pivpnPROTO" != "udp" ]; then
$SUDO sed -i -e "s/proto udp/proto tcp/g" /etc/openvpn/easy-rsa/pki/Default.txt
fi
# verify server name to strengthen security
$SUDO sed -i "s/SRVRNAME/${SERVER_NAME}/" /etc/openvpn/easy-rsa/pki/Default.txt
if [ ! -d "$install_home/ovpns" ]; then
$SUDO mkdir "$install_home/ovpns"
fi
$SUDO chmod 0750 "$install_home/ovpns"
$SUDO chown $install_user:$install_user "$install_home/ovpns"
}
confWireGuard(){
whiptail --title "Server Information" --msgbox "The Server Keys and Pre-Shared key will now be generated." "${r}" "${c}"
$SUDO mkdir /etc/wireguard/configs
$SUDO touch /etc/wireguard/configs/clients.txt
$SUDO mkdir /etc/wireguard/keys
# Generate private key and derive public key from it
wg genkey | $SUDO tee /etc/wireguard/keys/server_priv &> /dev/null
wg genpsk | $SUDO tee /etc/wireguard/keys/psk &> /dev/null
$SUDO cat /etc/wireguard/keys/server_priv | wg pubkey | $SUDO tee /etc/wireguard/keys/server_pub &> /dev/null
echo "::: Server Keys and Pre-Shared Key have been generated."
echo "[Interface]
PrivateKey = $($SUDO cat /etc/wireguard/keys/server_priv)
Address = 10.6.0.1/24
ListenPort = ${pivpnPORT}" | $SUDO tee /etc/wireguard/wg0.conf &> /dev/null
echo "::: Server config generated."
}
confNetwork(){
# Enable forwarding of internet traffic
$SUDO sed -i '/net.ipv4.ip_forward=1/s/^#//g' /etc/sysctl.conf
$SUDO sysctl -p
# if ufw enabled, configure that (running as root because sometimes the executable is not in the user's $PATH, on Debian for example)
if $SUDO bash -c 'hash ufw' 2>/dev/null; then
if LANG=en_US.UTF-8 $SUDO ufw status | grep -q inactive
then
USING_UFW=0
else
USING_UFW=1
echo "::: Detected UFW is enabled."
echo "::: Adding UFW rules..."
$SUDO sed "/delete these required/i *nat\n:POSTROUTING ACCEPT [0:0]\n-I POSTROUTING -s 10.8.0.0/24 -o $PHYS_INT -j MASQUERADE\nCOMMIT\n" -i /etc/ufw/before.rules
# Insert rules at the beginning of the chain (in case there are other rules that may drop the traffic)
$SUDO ufw insert 1 allow "$PORT"/"$PROTO" >/dev/null
$SUDO ufw route insert 1 allow in on "$pivpnINT" from 10.8.0.0/24 out on "$PHYS_INT" to any >/dev/null
$SUDO ufw reload >/dev/null
echo "::: UFW configuration completed."
fi
else
USING_UFW=0
fi
# else configure iptables
if [[ $USING_UFW -eq 0 ]]; then
# Now some checks to detect which rules we need to add. On a newly installed system all policies
# should be ACCEPT, so the only required rule would be the MASQUERADE one.
$SUDO iptables -t nat -I POSTROUTING -s 10.8.0.0/24 -o "$PHYS_INT" -j MASQUERADE
# Count how many rules are in the INPUT and FORWARD chain. When parsing input from
# iptables -S, '^-P' skips the policies and 'ufw-' skips ufw chains (in case ufw was found
# installed but not enabled).
# Grep returns non 0 exit code where there are no matches, however that would make the script exit,
# for this reasons we use '|| true' to force exit code 0
INPUT_RULES_COUNT="$($SUDO iptables -S INPUT | grep -vcE '(^-P|ufw-)')"
FORWARD_RULES_COUNT="$($SUDO iptables -S FORWARD | grep -vcE '(^-P|ufw-)')"
INPUT_POLICY="$($SUDO iptables -S INPUT | grep '^-P' | awk '{print $3}')"
FORWARD_POLICY="$($SUDO iptables -S FORWARD | grep '^-P' | awk '{print $3}')"
# If rules count is not zero, we assume we need to explicitly allow traffic. Same conclusion if
# there are no rules and the policy is not ACCEPT. Note that rules are being added to the top of the
# chain (using -I).
if [ "$INPUT_RULES_COUNT" -ne 0 ] || [ "$INPUT_POLICY" != "ACCEPT" ]; then
$SUDO iptables -I INPUT 1 -i "$PHYS_INT" -p "$PROTO" --dport "$PORT" -j ACCEPT
INPUT_CHAIN_EDITED=1
else
INPUT_CHAIN_EDITED=0
fi
if [ "$FORWARD_RULES_COUNT" -ne 0 ] || [ "$FORWARD_POLICY" != "ACCEPT" ]; then
$SUDO iptables -I FORWARD 1 -d 10.8.0.0/24 -i "$PHYS_INT" -o "$pivpnINT" -m conntrack --ctstate RELATED,ESTABLISHED -j ACCEPT
$SUDO iptables -I FORWARD 2 -s 10.8.0.0/24 -i "$pivpnINT" -o "$PHYS_INT" -j ACCEPT
FORWARD_CHAIN_EDITED=1
else
FORWARD_CHAIN_EDITED=0
fi
case ${PLAT} in
Raspbian)
$SUDO iptables-save | $SUDO tee /etc/iptables/rules.v4 > /dev/null
;;
esac
echo "INPUT_CHAIN_EDITED=${INPUT_CHAIN_EDITED}" >> /tmp/setupVars.conf
echo "FORWARD_CHAIN_EDITED=${FORWARD_CHAIN_EDITED}" >> /tmp/setupVars.conf
fi
echo "USING_UFW=${USING_UFW}" >> /tmp/setupVars.conf
}
confLogging() {
echo "if \$programname == 'ovpn-server' then /var/log/openvpn.log
if \$programname == 'ovpn-server' then stop" | $SUDO tee /etc/rsyslog.d/30-openvpn.conf > /dev/null
echo "/var/log/openvpn.log
{
rotate 4
weekly
missingok
notifempty
compress
delaycompress
sharedscripts
postrotate
invoke-rc.d rsyslog rotate >/dev/null 2>&1 || true
endscript
}" | $SUDO tee /etc/logrotate.d/openvpn > /dev/null
# Restart the logging service
case ${PLAT} in
Raspbian)
$SUDO systemctl restart rsyslog.service || true
;;
esac
}
installPiVPN(){
$SUDO mkdir -p /etc/pivpn/
askWhichVPN
if [ "$VPN" = "OpenVPN" ]; then
installOpenVPN
askCustomProto
askCustomPort
askClientDNS
askCustomDomain
askPublicIPOrDNS
askEncryption
confOpenVPN
confOVPN
confNetwork
confLogging
elif [ "$VPN" = "WireGuard" ]; then
installWireGuard
askCustomPort
askClientDNS
askPublicIPOrDNS
confWireGuard
confNetwork
fi
}
askUnattendedUpgrades(){
whiptail --msgbox --backtitle "Security Updates" --title "Unattended Upgrades" "Since this server will have at least one port open to the internet, it is recommended you enable unattended-upgrades.\nThis feature will check daily for security package updates only and apply them when necessary.\nIt will NOT automatically reboot the server so to fully apply some updates you should periodically reboot." ${r} ${c}
if (whiptail --backtitle "Security Updates" --title "Unattended Upgrades" --yesno "Do you want to enable unattended upgrades of security patches to this server?" ${r} ${c}); then
UNATTUPG=1
PIVPN_DEPS=(unattended-upgrades)
installDependentPackages PIVPN_DEPS[@]
else
UNATTUPG=0
fi
echo "UNATTUPG=${UNATTUPG}" >> /tmp/setupVars.conf
}
confUnattendedUpgrades(){
cd /etc/apt/apt.conf.d
wget -q -O- "$UNATTUPG_CONFIG" | $SUDO tar xz
$SUDO cp "unattended-upgrades-$UNATTUPG_RELEASE/data/50unattended-upgrades.Raspbian" 50unattended-upgrades
$SUDO rm -rf "unattended-upgrades-$UNATTUPG_RELEASE"
if [ "$VPN" = "WireGuard" ] && [ "$(uname -m)" = "armv7l" ]; then
sed -i '/Unattended-Upgrade::Origins-Pattern {/a"o=Debian,a=unstable";' 50unattended-upgrades
fi
# Add the remaining settings for all other distributions
echo "APT::Periodic::Enable \"1\";
APT::Periodic::Update-Package-Lists \"1\";
APT::Periodic::Download-Upgradeable-Packages \"1\";
APT::Periodic::Unattended-Upgrade \"1\";
APT::Periodic::AutocleanInterval \"7\";
APT::Periodic::Verbose \"0\";" | $SUDO tee 02periodic > /dev/null
}
installScripts() {
# Install the scripts from /etc/.pivpn to their various locations
echo ":::"
echo -n "::: Installing scripts to /opt/pivpn..."
if [ ! -d /opt/pivpn ]; then
$SUDO mkdir /opt/pivpn
$SUDO chown root:root /opt/pivpn
$SUDO chmod 0755 /opt/pivpn
fi
FOLDER=$(tr '[:upper:]' '[:lower:]' <<< "$VPN")
$SUDO cp /etc/.pivpn/scripts/$FOLDER/*.sh /opt/pivpn/
$SUDO chmod 0755 /opt/pivpn/*.sh
$SUDO cp /etc/.pivpn/$FOLDER/pivpn /usr/local/bin/pivpn
$SUDO chmod 0755 /usr/local/bin/pivpn
$SUDO cp /etc/.pivpn/scripts/$FOLDER/bash-completion /etc/bash_completion.d/pivpn
. /etc/bash_completion.d/pivpn
echo " done."
}
displayFinalMessage(){
# Final completion message to user
whiptail --msgbox --backtitle "Make it so." --title "Installation Complete!" "Now run 'pivpn add' to create the ovpn profiles.
Run 'pivpn help' to see what else you can do!\n\nIf you run into any issue, please read all our documentation carefully.
All incomplete posts or bug reports will be ignored or deleted.\n\nThank you for using PiVPN." ${r} ${c}
if (whiptail --title "Reboot" --yesno --defaultno "It is strongly recommended you reboot after installation. Would you like to reboot now?" ${r} ${c}); then
whiptail --title "Rebooting" --msgbox "The system will now reboot." ${r} ${c}
printf "\nRebooting system...\n"
$SUDO sleep 3
$SUDO shutdown -r now
fi
}
######## SCRIPT ############
main(){
######## FIRST CHECK ########
# Must be root to install
echo ":::"
if [[ $EUID -eq 0 ]];then
echo "::: You are root."
else
echo "::: sudo will be used for the install."
# Check if it is actually installed
# If it isn't, exit because the install cannot complete
if [[ $(dpkg-query -s sudo) ]];then
export SUDO="sudo"
export SUDOE="sudo -E"
else
echo "::: Please install sudo or run this as root."
exit 1
fi
fi
# Check for supported distribution
distroCheck
# Checks for hostname Length
checkHostname
# Check arguments for the undocumented flags
for var in "$@"; do
case "$var" in
"--i_do_not_follow_recommendations" ) skipSpaceCheck=false;;
"--unattended" ) runUnattended=true;;
esac
done
if [[ "${runUnattended}" == true ]]; then
echo "::: --unattended passed to install script, no whiptail dialogs will be displayed"
fi
# Start the installer
# Verify there is enough disk space for the install
if [[ "${skipSpaceCheck}" == true ]]; then
echo "::: --i_do_not_follow_recommendations passed to script, skipping free disk space verification!"
else
verifyFreeDiskSpace
fi
updatePackageCache
# Notify user of package availability
notifyPackageUpdatesAvailable
# Install packages used by this installation script
preconfigurePackages
installDependentPackages BASE_DEPS[@]
# Display welcome dialogs
welcomeDialogs
# Find interfaces and let the user choose one
chooseInterface
getStaticIPv4Settings
setStaticIPv4
# Choose the user for the ovpns
chooseUser
# Clone/Update the repos
cloneOrUpdateRepos
# Install
if installPiVPN; then
echo "::: Install Complete..."
else
exit 1
fi
echo "::: Restarting services..."
# Start services
case ${PLAT} in
Raspbian)
if [ "$VPN" = "OpenVPN" ]; then
$SUDO systemctl enable openvpn.service
$SUDO systemctl start openvpn.service
elif [ "$VPN" = "WireGuard" ]; then
$SUDO systemctl enable wg-quick@wg0.service
$SUDO systemctl start wg-quick@wg0.service
fi
;;
esac
# Ask if unattended-upgrades will be enabled
askUnattendedUpgrades
confUnattendedUpgrades
$SUDO cp /tmp/setupVars.conf /etc/pivpn/setupVars.conf
installScripts
# Ensure that cached writes reach persistent storage
echo "::: Flushing writes to disk..."
sync
echo "::: done."
displayFinalMessage
echo ":::"
echo "::: Installation Complete!"
echo "::: Now run 'pivpn add' to create an ovpn profile for each of your devices."
echo "::: Run 'pivpn help' to see what else you can do!"
echo "::: It is strongly recommended you reboot after installation."
echo ":::"
}
main "$@"