linux – Geek 2.0 https://www.stormacq.com Some not-so random thoughts about this small IT World Mon, 15 Oct 2018 14:03:30 +0000 en-US hourly 1 https://wordpress.org/?v=4.9.8 Build a private VPN Server on Amazon’s EC2 https://www.stormacq.com/build-a-private-vpn-server-on-amazons-ec2/ https://www.stormacq.com/build-a-private-vpn-server-on-amazons-ec2/#comments Tue, 26 Mar 2013 05:11:42 +0000 http://www.stormacq.com/?p=534 [UPDATE March 2014]

Do not copy paste the code from the core text of this post.  These are one year old scripts.  An updated version is available in my GitHub Repository.

[/UPDATE]

This article describes how to run your private VPN gateway in Amazon’s cloud.  Although this article describes a 100% automatic (scripted) method to start and configure your VPN server, it assumes some basic knowledge of Amazon’s EC2 platform and – obviously – requires you to have an account on EC2.

If you are totally new to EC2, I strongly advise you to follow a Getting Started guide before going through this article.

The VPN server I am using for the purpose of this article is based on IPSec / L2TP security protocols implemented by open source projects OpenSWAN and XL2LTP.

For the impatient, the scripts are available on github, along with basic configuration and setup information.  Should you need more details, I encourage you to read the following.

Why a private VPN server ?

Sometime, it is legitimate to create an encrypted tunnel of data to another machine on the internet. Think about situations like

  • Being connected on a public network in an hotel, a conference, a restaurant or coffee shop
  • Willing to escape your ISP or Service Provider limitations (Belgium DNS Blocking, French Hadopi, …)
  • Accessing services not being distributed in your country (Deezer, Spotify etc ..)
  • or simply to ensure no one can snoop your network traffic

How to start a customised machine on EC2 ? Some Background.

AWS provides several ways to start customised machines. Either you can create your own virtual machine image (AMI) based on one of the many images available.  Either you can start a standard image and run a script at startup time to customise it. Either you can boot from an EBS backed machine image (AMI) and create a snapshot of your root volume.

The first method is more labor intensive (install the software, maintain the image, …) and more expensive (you have to pay for the storage of your customised image) but has the advantage of faster startup times as the image does not need to install and to configure required softwares at boot time.

Running a script at boot time is easier as you do not need to enter into the details of creating and maintaining custom images.  It is cheaper as you do no need to store that custom image. But the machine is slower to boot as it requires to download, install and configure required softwares at every boot.  This is the method I choose to setup the VPN server.

The latter method (EBS Snapshot of root volume) is described in extenso in the documentation and – based on my own experience – provides the best ratio between labour, price and effectiveness.  This is probably the method I would recommend for production workloads.

But … How to start a customisation / installation script just after booting a standard linux distribution or one of the prepared Amazon Machine Image ?  This is where cloud-init kicks in.

Cloud-Init is an open source library initiated by Canonical (the maker Ubuntu) to initialise Virtual Machines running in the cloud. It allows, amongst others, to do post-boot configuration like

  • setting the correct locale
  • setting the hostname
  • initialising (or installing) ssh keys
  • setup mount points
  • etc …

It also allows to pass a user defined script to the instance to perform any additional setup and configuration tasks.  This is the technique I am using to download, install, configure and start IPSec and L2TP daemons on the server.

Cloud-Init is included by default in Ubuntu machine images and in Amazon Linux machine images on EC2.

For the purpose of this article, I choose to use the Amazon Linux machine image because it is lightweight and specifically designed to run on EC2.

This is enough background information, let’s start to do real stuffs.

How to start a machine from your command line ?

To start an EC2 instance form your machine command line, you will need the following :

  • an Amazon Web Service account and a credit card 🙂
  • to create a SSH key pair
  • to create a VPN security group

The VPN Security Group must allow TCP and UPD port 500 and UPD port 4500 as shown on the screenshot below.

VPN Security Group

VPN Security Group

Please refer to the getting started guide to learn how to perform these. Be sure to write down the name of your key pair and the name of your security group as we will need these later.

Once your basic setup of EC2 is done, you will need to install and configure EC2 Command line tools on your machine.

To configure your environment, you will need to setup a couple of environment variables, typically in $HOME/.profile

  • EC2_HOME environment variable points to command line tools
  • EC2_URL environment variables contains AWS endpoint (http://docs.aws.amazon.com/general/latest/gr/rande.html#ec2_region)
  • AWS_ACCESS_KEY environment variable contains your AWS access key
  • AWS_SECRET_KEY environment variable contains your AWS secret key

Do not change the name of these environment variables as these are used in the script.

For example, here is my own .profile file (on Mac OS X) :

export JAVA_HOME=`/usr/libexec/java_home`
export EC2_HOME=/Users/sst/Projects/aws/ec2-api-tools-latest
export AWS_ACCESS_KEY=<access key>
export AWS_SECRET_KEY=<secret key>
export EC2_URL=http://ec2.eu-west-1.amazonaws.com

Once this setup is done, you can start to use the EC2 command line tools as demonstrated in the script below :

#to be run on my laptop
# create and start an instance
#AMI = AMZN Linux 64 Bits
#AMI_DESCRIPTION="amazon/amzn-ami-pv-2012.09.0.x86_64-ebs"
AMI_ID=ami-c37474b7
KEY_ID=sst-ec2
SEC_ID=VPN
BOOTSTRAP_SCRIPT=vpn-ec2-install.sh

echo "Starting Instance..."
INSTANCE_DETAILS=`$EC2_HOME/bin/ec2-run-instances $AMI_ID -k $KEY_ID -t t1.micro -g $SEC_ID -f $BOOTSTRAP_SCRIPT | grep INSTANCE`
echo $INSTANCE_DETAILS

AVAILABILITY_ZONE=`echo $INSTANCE_DETAILS | awk '{print $9}'`
INSTANCE_ID=`echo $INSTANCE_DETAILS | awk '{print $2}'`
echo $INSTANCE_ID > $HOME/vpn-ec2.id

# wait for instance to be started
DNS_NAME=`$EC2_HOME/bin/ec2-describe-instances --filter "image-id=$AMI_ID" --filter "instance-state-name=running" | grep INSTANCE | awk '{print $4}'`

while [ -z "$DNS_NAME" ]
do
 echo "Waiting for instance to start...."
 sleep 5
 DNS_NAME=`$EC2_HOME/bin/ec2-describe-instances --filter "image-id=$AMI_ID" --filter "instance-state-name=running" | grep INSTANCE | awk '{print $4}'`
done

echo "Instance started"

echo "Instance ID = " $INSTANCE_ID
echo "DNS = " $DNS_NAME " in availability zone " $AVAILABILITY_ZONE

You will need to slightly customise this script to make it run :

  • Line 5 : check what is the AMI ID in your geography
  • Line 6 : replace “sst-ec2” with the name of your ssh key pair
  • Line 7 : replace “VPN” with the name you choose for your Security Group

How is it working ?

echo "Starting Instance..."
INSTANCE_DETAILS=`$EC2_HOME/bin/ec2-run-instances $AMI_ID -k $KEY_ID -t t1.micro -g $SEC_ID -f $BOOTSTRAP_SCRIPT | grep INSTANCE`
echo $INSTANCE_DETAILS

This script starts an EC2 instance (line 11) of the given type with the specified SSH key pair and Security Group.  It uses the “-f” option to pass a cloud-init user data script that will download install and configure IPSec and L2TP once the machine is booted.

# wait for instance to be started
DNS_NAME=`$EC2_HOME/bin/ec2-describe-instances --filter "image-id=$AMI_ID" --filter "instance-state-name=running" | grep INSTANCE | awk '{print $4}'`

while [ -z "$DNS_NAME" ]
do
 echo "Waiting for instance to start...."
 sleep 5
 DNS_NAME=`$EC2_HOME/bin/ec2-describe-instances --filter "image-id=$AMI_ID" --filter "instance-state-name=running" | grep INSTANCE | awk '{print $4}'`
done

The script then waits for the machine to be ready (lines 19-26) and, once available, the script reports the machine public DNS name (to be used to configure your VPN client software) (line 30 – 31)

How to Install and to Configure VPN into your new machine ?

Now that the machine is started, it receives the customisation script through the -f option.  Cloud-Init will execute this script to finalise the setup of the machine.

Here is the script allowing to install and configure IPSec and L2TP automatically.  Some details are given after the code.

#!/bin/sh

# Please define your own values for those variables
 IPSEC_PSK=SharedSecret
 VPN_USER=username
 VPN_PASSWORD=password

# Those two variables will be found automatically
 PRIVATE_IP=`wget -q -O - 'http://instance-data/latest/meta-data/local-ipv4'`
 PUBLIC_IP=`wget -q -O - 'http://instance-data/latest/meta-data/public-ipv4'`

yum install -y --enablerepo=epel openswan xl2tpd

cat > /etc/ipsec.conf <<EOF
 version 2.0

config setup
 dumpdir=/var/run/pluto/
 nat_traversal=yes
 virtual_private=%v4:10.0.0.0/8,%v4:192.168.0.0/16,%v4:172.16.0.0/12,%v4:25.0.0.0/8,%v6:fd00::/8,%v6:fe80::/10
 oe=off
 protostack=netkey
 nhelpers=0
 interfaces=%defaultroute

conn vpnpsk
 auto=add
 left=$PRIVATE_IP
 leftid=$PUBLIC_IP
 leftsubnet=$PRIVATE_IP/32
 leftnexthop=%defaultroute
 leftprotoport=17/1701
 rightprotoport=17/%any
 right=%any
 rightsubnetwithin=0.0.0.0/0
 forceencaps=yes
 authby=secret
 pfs=no
 type=transport
 auth=esp
 ike=3des-sha1
 phase2alg=3des-sha1
 dpddelay=30
 dpdtimeout=120
 dpdaction=clear
 EOF

cat > /etc/ipsec.secrets <<EOF
 $PUBLIC_IP %any : PSK "$IPSEC_PSK"
 EOF

cat > /etc/xl2tpd/xl2tpd.conf <<EOF
 [global]
 port = 1701

;debug avp = yes
 ;debug network = yes
 ;debug state = yes
 ;debug tunnel = yes

[lns default]
 ip range = 192.168.42.10-192.168.42.250
 local ip = 192.168.42.1
 require chap = yes
 refuse pap = yes
 require authentication = yes
 name = l2tpd
 ;ppp debug = yes
 pppoptfile = /etc/ppp/options.xl2tpd
 length bit = yes
 EOF

cat > /etc/ppp/options.xl2tpd <<EOF
 ipcp-accept-local
 ipcp-accept-remote
 ms-dns 8.8.8.8
 ms-dns 8.8.4.4
 noccp
 auth
 crtscts
 idle 1800
 mtu 1280
 mru 1280
 lock
 connect-delay 5000
 EOF

cat > /etc/ppp/chap-secrets <<EOF
 # Secrets for authentication using CHAP
 # client server secret IP addresses

$VPN_USER l2tpd $VPN_PASSWORD *
 EOF

iptables -t nat -A POSTROUTING -s 192.168.42.0/24 -o eth0 -j MASQUERADE
 echo 1 > /proc/sys/net/ipv4/ip_forward

iptables-save > /etc/iptables.rules

cat > /etc/network/if-pre-up.d/iptablesload <<EOF
 #!/bin/sh
 iptables-restore < /etc/iptables.rules
 echo 1 > /proc/sys/net/ipv4/ip_forward
 exit 0
EOF

service ipsec start
service xl2tpd start
chkconfig ipsec on
chkconfig xl2tpd on

As promised, here are some details

  • Lines 4-6 defines your security credentials for the VPN.  They must be changed before executing this script.
  • Line 12 uses yum to install IPSec & L2TP implementation (OpenSWAN and xl2tpd) from the Amazon’s provided EPEL repository
  • Lines 14-93 creates IPSec and L2TP configuration files, reusing the credentials you provided at the head of the script.
  • Lines 95-96 setup proper network NATing
  • Lines 98-105 ensure the network NATing settings will be restored in case the network interface is shutdown and up again.
  • Finally, lines 107-110 start required services and ensure they will be restarted in case of reboot.

Congrats for those of you still reading.  You now should have a valid VPN server running in the cloud.  If everything went well, you should now be able to configure your VPN client.

How to connect from Mac OS X ?

Once the server is up and running, you simply add a VPN interface in your Network Preferences

VPN IPSec Network Preference

Then, use the public DNS hostname as server address and your username, as shown below

VPN Host and username

Finally, click on “Authentication Settings” to enter the shared secret and your password.

VPN Password and Shared Secret

 

Then click on Apply, then Connect

VPN Connected

If everything is OK, you should connect to your new VPN Server.

How to be sure you’re connecting through the VPN ?

The easiest way to check that indeed all your network traffic is routed through the VPN tunnel is to connect to one of the many IP Address Geolocalisation web sites.

The web site I found on Google reported an Amazon IP address from Ireland, which is the geographical region I choose to deploy my VPN server.

Geolocalisation IP Address

A note for Windows users

Microsoft published an extensive technical note describing the details of setting up a IPSec client on Windows.

Also, Windows does not support IPsec NAT-T by default, which is used whenever the server is behind a NAT (as in this case). You have to add a registry key to enable this – see http://support.microsoft.com/kb/926179/en-us (still applies to Windows 8)

How to hook up a DNS alias to avoid to change client configuration ?

Every time you will startup a new VPN server, you will need to enter its public DNS name to your VPN client configuration.  It is possible to avoid this if you have a domain name of your own, just by creating a DNS CNAME record pointing to the public DNS address of your server, such as

vpn.mydomain.com CNAME ec2-176-34-71-204.eu-west-1.compute.amazonaws.com.

If you are using Amazon’s Route 53 DNS service, this step can be entirely automated using scripts.  More about this in another article.

 

Congrats if you manage to read this article to the end.  Once again, the script source code is available on GitHub.

Enjoy !

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Solving VMWare Crashes on Linux SMP Kernels https://www.stormacq.com/solving-vmware-crashes-on-linux-smp-kernels/ https://www.stormacq.com/solving-vmware-crashes-on-linux-smp-kernels/#respond Mon, 12 Sep 2011 13:59:36 +0000 http://www.stormacq.com/?p=454 I am writing this blog entry as a note to myself, to keep track of this issue and, more importantly, the solution I found.

Problem Statement:

When running VMWare Player or Workstation on a Linux host, with multiple processors (or cores), on a 64 bits kernel, VMWare Player and Workstation keep crashing with error

vcpu-0:ASSERT vmcore/vmm/main/irq.c:100 bugNr=2293

Root Cause:

After some Googling and searching VMWare’s Knowledge Base, I found this article referring to an issue with Non Maskable Interrupts (NMI) in Linux Kernels 2.4 and later.

It appears that Suse and RedHat Linux have this setting enabled by default, as shown by

$ cat /proc/sys/kernel/nmi_watchdog
 1

Workaround:

Disable NMI watchdog.

At runtime, by typing (as root)

echo 0 > /proc/sys/kernel/nmi_watchdog

At boot time, by modifying Grub configuration by adding

nmi_watchdog=0

to the

kernel

line in

/boot/grub/grub.conf

and reboot

 

Interesting side note : this also solves my problem of running these VMWare create virtual machines under VirtualBox

 

Enjoy !

 

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Installing VBox Guest Additions in a minimal Oracle Enterprise Linux config https://www.stormacq.com/installing-vbox-guest-additions-in-a-minimal-oracle-enterprise-linux-config/ https://www.stormacq.com/installing-vbox-guest-additions-in-a-minimal-oracle-enterprise-linux-config/#comments Mon, 17 Jan 2011 15:01:48 +0000 http://www.stormacq.com/?p=418 Here is a tip to help you to save some time next time you will install Oracle Enterprise Linux as a guest OS in a Virtual Box system.

If, like me, you like to install the minimum set of components and then add whatever is required at a later stage, you will soon find that you can not install the Virtual Box Guest Additions : the installation procedure will complain for missing packages.

Actually, the installation procedure is compiling source code, hence it requires some development tools and the kernel header files. None of these are installed by default when you choose a minimal installation.

First Step : add Oracle repositories to YUM configuration (as root)

cd /etc/yum.repos.d
wget http://public-yum.oracle.com/public-yum-el5.repo

Then ensure that the repositories are enabled, i.e. enabled=1 under [ol5_u5_base] and [el5_u5_base]

Second Step : install missing packages

sudo yum install gcc  make  automake  autoconf kernel-headers.i386 kernel-devel

Then you can proceed with normal VirtualBox Guest Additions installation.

Enjoy !

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Out of the box integration https://www.stormacq.com/out-of-the-box-integration/ https://www.stormacq.com/out-of-the-box-integration/#comments Thu, 09 Dec 2010 08:58:26 +0000 http://www.stormacq.com/?p=406 One year ago, when I tried to run Oracle’s Enterprise Linux 5 within VirtualBox, I ran into many configuration issues to get folder sharing, mouse integration and full screen correctly working.

Today the story is different.

I just tried Enterprise Linux 5 update 4, with the latest VirtualBox 3.2.12.  Everything is working out of the box.  Everything.

I have to admit I am impressed how Oracle manage to integrate all its product line.

Enjoy ! ]]> https://www.stormacq.com/out-of-the-box-integration/feed/ 2