TestingEnvironment

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$ uvt update --autoremove <vm> # starts the VM, dist-upgrades, cleans up, then updates the pristine snapshot $ uvt update --autoremove <vm> # reverts to prisine snapshot, starts the VM, dist-upgrades, cleans up, then updates the pristine snapshot

When testing security updates, it is important to test the update in a full Ubuntu environment for the release being tested. Put simply, an update for an Ubuntu 10.04 LTS package should be tested in a full install of Lucid. The Ubuntu Security team has created some scripts and put them into ubuntu-qa-tools. These tools use kvm and libvirt, the preferred virtualization technology in Ubuntu. KVM requires the virtualization extensions to be available and enabled in your BIOS. You can test to see if you have these by using the kvm-ok command. QEMU is an alternative and can be used with libvirt and vm-tools, but it is slow. If you cannot use kvm, then it is worth looking at another virtualization technology such as virtualbox.

vm-tools are essentially wrapper scripts for virsh and virt-install for both making VM creation repeatable and to help batch commands to multiple VMs. Using vm-tools should not be considered mandatory as all this can be achieved via other means (though use of vm new is encouraged and should save you time).

Setting up vm-tools on Precise

Much of this (and more) can be found in the vm-tools/README file.

  1. Install the necessary software:

    $ sudo apt-get install ubuntu-virt-mgmt ubuntu-virt-server genisoimage xorriso
  2. Download the ubuntu-qa-tools branch:

    $ bzr branch lp:ubuntu-qa-tools
  3. Add the UQT_VM_TOOLS environment variable to your startup scripts (eg ~/.bashrc) and have it point to the ubuntu-qa-tools branch:

    export UQT_VM_TOOLS="$HOME/bzr-pulls/ubuntu-qa-tools/vm-tools"
  4. update your PATH to include the vm-tools directory (eg via ~/.bashrc):

    export PATH="$PATH:$UQT_VM_TOOLS"
  5. [OPTIONAL] While uvt will use reasonable defaults without a config file, you may also create $HOME/.uqt-vm-tools.conf to have something like:

    # list of all active releases (included devel)
    vm_release_list="hardy lucid natty oneiric precise quantal"
    
    vm_repo_url="http://192.168.122.1/debs/testing"
    
    #vm_path="<path to vm directory>"
    #vm_mirror="http://debmirror/ubuntu"
    #vm_security_mirror="http://debmirror/ubuntu"
    #vm_dir_iso="<path to isos directory>"
    #vm_dir_iso_cache="<path to iso cache directory>"
    
    vm_image_size="8" # in GB
    vm_memory="784"
    
    vm_connect="qemu:///system"
    vm_extra_packages="screen vim"
    
    # Set to 'no' to disable '.local' lookups for VMs
    vm_host_use_avahi="yes"
  6. Download the desktop CD images for each release and put them in the directory specified in the vm_dir_iso configuration option.

Virtual machines for testing

The security team should have at least one virtual machine per release and one for the development release. The recommended method is to use kvm with libvirt, which is what is documented here.

kvm on 64-bit will allow 32-bit OS guests, so if running a 64-bit host OS, then can have both i386 and amd64 installs. It's often useful to spend some time getting a pristine image exactly how you want it, then you clone/snapshot off of it for development work and/or testing.

WARNING: in this configuration you need to take special care to isolate the virtual machines from hostile network traffic, since anyone could login as root or your user to a VM. One way to do this is by using NAT with libvirt (the default).

Networking with libvirt

If you also setup up your host's /etc/resolv.conf to have:

nameserver 192.168.122.1
nameserver ...
nameserver ...

Then you will be able to ssh into the machines with:

$ ssh sec-lucid-amd64

or:

$ ssh sec-lucid-amd64.

or if avahi is installed in the guest:

$ ssh sec-lucid-amd64.local

Notice the '.' at the end of the second command. This may be needed due to a bug in dnsmasq when using NAT with some versions of Ubuntu.

resolvconf

If you use DHCP then /etc/resolv.conf gets overwritten, which is inconvenient. To make sure that 192.168.122.1 (dnsmasq) is always used first, even when there is no IP address, you can install the resolvconf package, then adjust /etc/resolvconf/resolv.conf.d/head (/etc/resolvconf/resolv.conf.d/base on Ubuntu 11.10 and earlier) to have:

# Make sure dnsmasq server is first (from /etc/resolvconf/resolv.conf.d/head)
nameserver 192.168.122.1

Alternatively, you may be able to simply put a line into /etc/dhcp/dhclient.conf like:

prepend domain-name-servers 192.168.122.1;

IMPORTANT: When using the tools, keep in mind that you may connect to the same VM with different hostnames. Eg, you could connect to the sec-lucid-amd64 VM as 'sec-lucid-amd64.', 'sec-lucid-amd64.local' or 'sec-lucid-amd64'. uvt tests if the VM is up by testing hostnames in this order and it is possible for the first to fail and the second to succeed. Therefore, you should login via ssh to at least the first two (if not all three), so that you have the host keys for the host. You may be having this problem if you see something like:

----- sec-maverick-amd64 -----
Starting sec-maverick-amd64 (snapshotted) ...
Waiting for 'sec-maverick-amd64' to come up host is up
Command: ssh -t -o BatchMode=yes -l root sec-maverick-amd64.local "ls /tmp"
Host key verification failed.

In this case, the ssh host key was in ~/.ssh/known_hosts for 'sec-maverick-amd64.', but not for 'sec-maverick-amd64.local'.

mDNS (avahi)

vm-tools will by default try '.local' mDNS (avahi) addresses when connecting to VMs. This may not work in all environments and can be disabled by using the following in $HOME/.uqt-vm-tools.conf:

# Set to 'no' to disable '.local' mDNS (avahi) lookups for VMs
vm_host_use_avahi="no"

You'll know you are encountering this problem when host name lookups fail for <machine>.local. This can also be caused be restrictive firewalls. If you have ufw enabled, then instead of disabling avahi lookups you can do something similar to:

$ sudo ufw allow in on virbr0

If you also have IPv6 enabled (the default in Ubuntu 11.10 and above), you can add something like the following to /etc/ufw/before6.rules before the 'COMMIT' line:

# allow MULTICAST mDNS for service discovery for libvirt
-A ufw6-before-forward -p udp -d ff02::fb --dport 5353 -j ACCEPT
-A ufw6-before-forward -p icmpv6 --icmpv6-type destination-unreachable -j ACCEPT
-A ufw6-before-forward -p icmpv6 --icmpv6-type packet-too-big -j ACCEPT
-A ufw6-before-forward -p icmpv6 --icmpv6-type time-exceeded -j ACCEPT
-A ufw6-before-forward -p icmpv6 --icmpv6-type parameter-problem -j ACCEPT
-A ufw6-before-forward -p icmpv6 --icmpv6-type echo-request -j ACCEPT

Be sure to use sudo ufw reload after making these changes. Note, you may need to stop and start any VMs after making changes to your firewall.

Snapshotted virtual machines

With this method, we have VMs which are initially created with a pristine libvirt snapshot. Eg, might have the following virtual machines:

  • sec-hardy-i386
  • sec-hardy-amd64
  • sec-lucid-i386
  • sec-lucid-amd64
  • sec-natty-i386
  • sec-natty-amd64
  • sec-oneiric-i386
  • sec-oneiric-amd64
  • sec-precise-i386
  • sec-precise-amd64
  • sec-quantal-i386
  • sec-quantal-amd64

Create your VMs (best to do this sequentially, even though it takes a while):

. $HOME/.uqt-vm-tools.conf
for i in $vm_release_list ; do
    uvt new $i i386 sec
    uvt new $i amd64 sec
done

The basic idea is as follows:

  1. uvt new after installing the OS will create the pristine snapshot

  2. using uvt start <vm> starts the image normally, and uvt stop <vm> shuts it down cleanly. Changes to the VM are preserved across reboots

  3. using uvt start -r <vm> reverts all changes made to the VM since the last snapshot, then starts the VM in the pristine state. Note that if you know you are going to revert to the previous snapshot, you can use uvt stop -f <vm> which does an unclean shutdown akin to pulling the plug.

Typical uses:

  • revert to pristine snapshot and discard:

    $ uvt start -r <vm>
    ... do your stuff ...
    $ uvt stop -f <vm>
  • snapshot with persistence across stops:

    $ uvt start -r <vm>            # revert all changes and start with a clean slate
    ... do your stuff ...
    $ uvt stop <vm>                # no '-f' so a clean shutdown is performed
    $ uvt start <vm>               # notice no '-r', so changes are not reverted
    ... do more stuff ...
    $ uvt stop <vm>
    ... do even more stuff ...
    $ uvt stop -f <vm>             # done with work, so pull the plug for a quick shutdown (assumes -r on next start)

IMPORTANT: Changes made in a snapshot will be lost if you use '-r' with uvt start or otherwise remove the snapshots.

To up the pristine image and make a new snapshot:

$ uvt start -r <vm>            # revert all changes and start with a clean slate
... make changes to the VM ...
$ uvt stop <vm>                # cleanly shut it down
$ uvt snapshot <vm>            # update the pristine snapshot

As a convenience, you can perform package upgrades using:

$ uvt update --autoremove <vm> # reverts to prisine snapshot, starts the VM, dist-upgrades, cleans up, then updates the pristine snapshot

Cloned virtual machines (deprecated)

NOTE: with the new uvt snapshot method, using cloning is less useful.

With this method, can have a set of clean VMs and another set that are cloned. Eg, might have the following virtual machines:

  • clean-hardy-i386
  • clean-hardy-amd64
  • clean-lucid-i386
  • clean-lucid-amd64
  • clean-natty-i386
  • clean-natty-amd64
  • clean-oneiric-i386
  • clean-oneiric-amd64
  • clean-precise-i386
  • clean-precise-amd64
  • clean-quantal-i386
  • clean-quantal-amd64

Then clone the above (eg with `uvt clone1 (see below)) and have:

  • sec-hardy-i386
  • sec-hardy-amd64
  • sec-lucid-i386
  • sec-lucid-amd64
  • sec-natty-i386
  • sec-natty-amd64
  • sec-oneiric-i386
  • sec-oneiric-amd64
  • sec-precise-i386
  • sec-precise-amd64
  • sec-quantal-i386
  • sec-quantal-amd64

The 'clean' machines should only ever be accessed for updates or fine-tuning while the 'sec' machines can be used, updated, mangled, discarded and recreated as needed.

To create the clean machines:

. $HOME/.uqt-vm-tools.conf
for i in $vm_release_list ; do
    uvt new $i i386 clean
    uvt new $i amd64 clean
done

If you use dnsmasq as above, you can clone these with:

$ uvt clone -p clean sec      # all in one go
$ uvt clone <oldvm> <newvm>   # individually

This creates 'sec-<release>-<arch>' machines that can be updated, tested etc and keeps a pristine copy of the virtual machines in 'clean-<release>-<arch>'. The uvt clone command is simply a wrapper for virt-clone which also updates the following files:

  • /etc/hostname
  • /etc/dhcp[3]/dhclient.conf
  • /etc/hosts

uvt clone is kind of brittle because it currently uses ssh commands, so if something goes wrong, just make sure the above files get updated.

Batch commands

If using dnsmasq as above, you can also use uvt cmd to do batch commands for the virtual machines, like so:

$ uvt cmd -p sec 'uname -a'
$ uvt cmd -r -p sec "apt-get update && apt-get -y upgrade"

uvt cmd uses 'release_list' in $HOME/.uqt-vm-tools.conf and will ssh in to all running sec-*-* machines and perform the specified command. Specifying -r to uvt cmd will login to the machine and run the command as root, otherwise it runs as non-root (ie your username in the guest).

Other useful commands:

  • uvt start: start a single VM of a group of VMs. Eg:

    $ uvt start -r sec-lucid-amd64           # start a single VM, reverting to the last snapshot
    $ uvt start -p sec -a i386               # start all i386 VMs starting with 'sec'
    $ uvt start -v -p sec -a i386            # start all i386 VMs starting with 'sec' without virt-viewer
  • uvt stop: stop a single running VM or a group of running VMs. Eg:

    $ uvt stop sec-lucid-amd64               # stop a single VM via ACPI
    $ uvt stop -f -p sec                     # hard stop all VMs starting with 'sec'
  • uvt snapshot: snapshot a single running VM or a group of running VMs. Eg:

    $ uvt snapshot sec-lucid-amd64           # snapshot a single VM
    $ uvt snapshot -p sec                    # snapshot all VMs starting with 'sec'
  • uvt update: update and snapshot a single running VM or a group of running VMs. Eg:

    $ uvt update sec-lucid-amd64            # dist-upgrade and snapshot a single VM
    $ uvt update -p sec                     # dist-upgrade and snapshot all VMs starting with 'sec'
  • uvt remove: remove a single VM or a group of VMs. Eg:

    $ uvt remove sec-lucid-amd64             # delete a single VM
    $ uvt remove -p sec                      # delete all VMs starting with 'sec'
  • uvt repo: toggle the local repo (eg where 'umt repo' puts stuff) for a single running VM or a group of running VMs. Eg:

    $ uvt repo -e -r lucid sec-lucid-amd64   # enable the local repo for a single VM
    $ uvt repo -d -r lucid sec-lucid-amd64   # disable the local repo for a single VM
    $ uvt repo -e -p sec                     # enable the local repo for all running VMs starting with 'sec'
  • uvt view: connect to the VNC console of a single VM or a group of VMs using virt-viewer. Eg:

    $ uvt view sec-lucid-amd64
    $ uvt view -p sec

Miscellaneous

  • If you use uvt repo you may notice that while your apt archive is signed, the VM doesn't know about your key. This can be solved with:

    $ gpg --armor --export <your key id> | ssh root@<vm> sudo apt-key add -
  • Many VM operations can be quite slow on spinning-metal hard drives; be sure your ssh key is added to your ssh-agent for a long enough time to handle all operations. Consider adding the key without a timeout:

    $ ssh-add

SecurityTeam/TestingEnvironment (last edited 2020-06-29 17:13:38 by jdstrand)