require 'ipaddr'
require 'libvirt'
require 'rexml/document'
class ExecutionFailedInVM < StandardError
end
class VMNet
attr_reader :net_name, :net
def initialize(virt, xml_path)
@virt = virt
@net_name = LIBVIRT_NETWORK_NAME
net_xml = File.read("#{xml_path}/default_net.xml")
rexml = REXML::Document.new(net_xml)
rexml.elements['network'].add_element('name')
rexml.elements['network/name'].text = @net_name
begin
old_net = @virt.lookup_network_by_name(@net_name)
rexml.elements['network'].add_element('uuid')
rexml.elements['network/uuid'].text = old_net.uuid
old_net.undefine
rescue
end
update(rexml.to_s)
update(rexml.to_s)
rescue Exception => e
destroy_and_undefine
raise e
end
# We lookup by name so we also catch networks from previous test
# suite runs that weren't properly cleaned up (e.g. aborted).
def destroy_and_undefine
begin
old_net = @virt.lookup_network_by_name(@net_name)
old_net.destroy if old_net.active?
old_net.undefine
rescue
end
end
def update(xml)
destroy_and_undefine
@net = @virt.define_network_xml(xml)
@net.create
end
def bridge_name
@net.bridge_name
end
def bridge_ip_addr
net_xml = REXML::Document.new(@net.xml_desc)
IPAddr.new(net_xml.elements['network/ip'].attributes['address']).to_s
end
def bridge_mac
File.open("/sys/class/net/#{bridge_name}/address", "rb").read.chomp
end
end
class VM
attr_reader :domain, :domain_name, :display, :vmnet, :storage
def initialize(virt, xml_path, vmnet, storage, x_display)
@virt = virt
@xml_path = xml_path
@vmnet = vmnet
@storage = storage
@domain_name = LIBVIRT_DOMAIN_NAME
default_domain_xml = File.read("#{@xml_path}/default.xml")
rexml = REXML::Document.new(default_domain_xml)
rexml.elements['domain'].add_element('name')
rexml.elements['domain/name'].text = @domain_name
begin
old_domain = @virt.lookup_domain_by_name(@domain_name)
rexml.elements['domain'].add_element('uuid')
rexml.elements['domain/uuid'].text = old_domain.uuid
old_domain.undefine
rescue
end
rexml.elements['domain/devices/serial/source'].attributes['service'] = LIBVIRT_REMOTE_SHELL_PORT
update(rexml.to_s)
@display = Display.new(@domain_name, x_display)
set_cdrom_boot(TAILS_ISO)
plug_network
rescue Exception => e
destroy_and_undefine
raise e
end
def update(xml)
destroy_and_undefine
@domain = @virt.define_domain_xml(xml)
end
# We lookup by name so we also catch domains from previous test
# suite runs that weren't properly cleaned up (e.g. aborted).
def destroy_and_undefine
@display.stop if @display && @display.active?
begin
old_domain = @virt.lookup_domain_by_name(@domain_name)
old_domain.destroy if old_domain.active?
old_domain.undefine
rescue
end
end
def real_mac(alias_name)
REXML::Document.new(@domain.xml_desc)
.elements["domain/devices/interface[@type='network']/" +
"alias[@name='#{alias_name}']"]
.parent.elements['mac'].attributes['address'].to_s
end
def all_real_macs
macs = []
REXML::Document.new(@domain.xml_desc)
.elements.each("domain/devices/interface[@type='network']") do |nic|
macs << nic.elements['mac'].attributes['address'].to_s
end
macs
end
def set_hardware_clock(time)
assert(not(is_running?), 'The hardware clock cannot be set when the ' +
'VM is running')
assert(time.instance_of?(Time), "Argument must be of type 'Time'")
adjustment = (time - Time.now).to_i
domain_rexml = REXML::Document.new(@domain.xml_desc)
clock_rexml_element = domain_rexml.elements['domain'].add_element('clock')
clock_rexml_element.add_attributes('offset' => 'variable',
'basis' => 'utc',
'adjustment' => adjustment.to_s)
update(domain_rexml.to_s)
end
def network_link_state
REXML::Document.new(@domain.xml_desc)
.elements['domain/devices/interface/link'].attributes['state']
end
def set_network_link_state(state)
domain_xml = REXML::Document.new(@domain.xml_desc)
domain_xml.elements['domain/devices/interface/link'].attributes['state'] = state
if is_running?
@domain.update_device(domain_xml.elements['domain/devices/interface'].to_s)
else
update(domain_xml.to_s)
end
end
def plug_network
set_network_link_state('up')
end
def unplug_network
set_network_link_state('down')
end
def set_boot_device(dev)
if is_running?
raise "boot settings can only be set for inactive vms"
end
domain_xml = REXML::Document.new(@domain.xml_desc)
domain_xml.elements['domain/os/boot'].attributes['dev'] = dev
update(domain_xml.to_s)
end
def add_cdrom_device
if is_running?
raise "Can't attach a CDROM device to a running domain"
end
domain_rexml = REXML::Document.new(@domain.xml_desc)
if domain_rexml.elements["domain/devices/disk[@device='cdrom']"]
raise "A CDROM device already exists"
end
cdrom_rexml = REXML::Document.new(File.read("#{@xml_path}/cdrom.xml")).root
domain_rexml.elements['domain/devices'].add_element(cdrom_rexml)
update(domain_rexml.to_s)
end
def remove_cdrom_device
if is_running?
raise "Can't detach a CDROM device to a running domain"
end
domain_rexml = REXML::Document.new(@domain.xml_desc)
cdrom_el = domain_rexml.elements["domain/devices/disk[@device='cdrom']"]
if cdrom_el.nil?
raise "No CDROM device is present"
end
domain_rexml.elements["domain/devices"].delete_element(cdrom_el)
update(domain_rexml.to_s)
end
def eject_cdrom
execute_successfully('/usr/bin/eject -m')
end
def remove_cdrom_image
domain_rexml = REXML::Document.new(@domain.xml_desc)
cdrom_el = domain_rexml.elements["domain/devices/disk[@device='cdrom']"]
if cdrom_el.nil?
raise "No CDROM device is present"
end
cdrom_el.delete_element('source')
update(domain_rexml.to_s)
rescue Libvirt::Error => e
# While the CD-ROM is removed successfully we still get this
# error, so let's ignore it.
acceptable_error =
"Call to virDomainUpdateDeviceFlags failed: internal error: unable to " +
"execute QEMU command 'eject': (Tray of device '.*' is not open|" +
"Device '.*' is locked)"
raise e if not(Regexp.new(acceptable_error).match(e.to_s))
end
def set_cdrom_image(image)
if image.nil? or image == ''
raise "Can't set cdrom image to an empty string"
end
remove_cdrom_image
domain_rexml = REXML::Document.new(@domain.xml_desc)
cdrom_el = domain_rexml.elements["domain/devices/disk[@device='cdrom']"]
cdrom_el.add_element('source', { 'file' => image })
update(domain_rexml.to_s)
end
def set_cdrom_boot(image)
if is_running?
raise "boot settings can only be set for inactive vms"
end
domain_rexml = REXML::Document.new(@domain.xml_desc)
if not domain_rexml.elements["domain/devices/disk[@device='cdrom']"]
add_cdrom_device
end
set_cdrom_image(image)
set_boot_device('cdrom')
end
def list_disk_devs
ret = []
domain_xml = REXML::Document.new(@domain.xml_desc)
domain_xml.elements.each('domain/devices/disk') do |e|
ret << e.elements['target'].attribute('dev').to_s
end
return ret
end
def plug_device(xml)
if is_running?
@domain.attach_device(xml.to_s)
else
domain_xml = REXML::Document.new(@domain.xml_desc)
domain_xml.elements['domain/devices'].add_element(xml)
update(domain_xml.to_s)
end
end
def plug_drive(name, type)
if disk_plugged?(name)
raise "disk '#{name}' already plugged"
end
removable_usb = nil
case type
when "removable usb", "usb"
type = "usb"
removable_usb = "on"
when "non-removable usb"
type = "usb"
removable_usb = "off"
end
# Get the next free /dev/sdX on guest
letter = 'a'
dev = "sd" + letter
while list_disk_devs.include?(dev)
letter = (letter[0].ord + 1).chr
dev = "sd" + letter
end
assert letter <= 'z'
xml = REXML::Document.new(File.read("#{@xml_path}/disk.xml"))
xml.elements['disk/source'].attributes['file'] = @storage.disk_path(name)
xml.elements['disk/driver'].attributes['type'] = @storage.disk_format(name)
xml.elements['disk/target'].attributes['dev'] = dev
xml.elements['disk/target'].attributes['bus'] = type
xml.elements['disk/target'].attributes['removable'] = removable_usb if removable_usb
plug_device(xml)
end
def disk_xml_desc(name)
domain_xml = REXML::Document.new(@domain.xml_desc)
domain_xml.elements.each('domain/devices/disk') do |e|
begin
if e.elements['source'].attribute('file').to_s == @storage.disk_path(name)
return e.to_s
end
rescue
next
end
end
return nil
end
def disk_rexml_desc(name)
xml = disk_xml_desc(name)
if xml
return REXML::Document.new(xml)
else
return nil
end
end
def unplug_drive(name)
xml = disk_xml_desc(name)
@domain.detach_device(xml)
end
def disk_type(dev)
domain_xml = REXML::Document.new(@domain.xml_desc)
domain_xml.elements.each('domain/devices/disk') do |e|
if e.elements['target'].attribute('dev').to_s == dev
return e.elements['driver'].attribute('type').to_s
end
end
raise "No such disk device '#{dev}'"
end
def disk_dev(name)
rexml = disk_rexml_desc(name) or return nil
return "/dev/" + rexml.elements['disk/target'].attribute('dev').to_s
end
def disk_name(dev)
dev = File.basename(dev)
domain_xml = REXML::Document.new(@domain.xml_desc)
domain_xml.elements.each('domain/devices/disk') do |e|
if /^#{e.elements['target'].attribute('dev').to_s}/.match(dev)
return File.basename(e.elements['source'].attribute('file').to_s)
end
end
raise "No such disk device '#{dev}'"
end
def udisks_disk_dev(name)
return disk_dev(name).gsub('/dev/', '/org/freedesktop/UDisks/devices/')
end
def disk_detected?(name)
dev = disk_dev(name) or return false
return execute("test -b #{dev}").success?
end
def disk_plugged?(name)
return not(disk_xml_desc(name).nil?)
end
def set_disk_boot(name, type)
if is_running?
raise "boot settings can only be set for inactive vms"
end
plug_drive(name, type) if not(disk_plugged?(name))
set_boot_device('hd')
# XXX:Stretch: since our isotesters upgraded QEMU from
# 2.5+dfsg-4~bpo8+1 to 2.6+dfsg-3.1~bpo8+1 it seems we must remove
# the CDROM device to allow disk boot. This is not the case with the same
# version on Debian Sid. Let's hope we can remove this ugly
# workaround when we only support running the automated test suite
# on Stretch.
domain_rexml = REXML::Document.new(@domain.xml_desc)
if domain_rexml.elements["domain/devices/disk[@device='cdrom']"]
remove_cdrom_device
end
end
# XXX-9p: Shares don't work together with snapshot save+restore. See
# XXX-9p in common_steps.rb for more information.
def add_share(source, tag)
if is_running?
raise "shares can only be added to inactive vms"
end
# The complete source directory must be group readable by the user
# running the virtual machine, and world readable so the user inside
# the VM can access it (since we use the passthrough security model).
FileUtils.chown_R(nil, "libvirt-qemu", source)
FileUtils.chmod_R("go+rX", source)
xml = REXML::Document.new(File.read("#{@xml_path}/fs_share.xml"))
xml.elements['filesystem/source'].attributes['dir'] = source
xml.elements['filesystem/target'].attributes['dir'] = tag
domain_xml = REXML::Document.new(@domain.xml_desc)
domain_xml.elements['domain/devices'].add_element(xml)
update(domain_xml.to_s)
end
def list_shares
list = []
domain_xml = REXML::Document.new(@domain.xml_desc)
domain_xml.elements.each('domain/devices/filesystem') do |e|
list << e.elements['target'].attribute('dir').to_s
end
return list
end
def set_os_loader(type)
if is_running?
raise "boot settings can only be set for inactive vms"
end
if type == 'UEFI'
domain_xml = REXML::Document.new(@domain.xml_desc)
domain_xml.elements['domain/os'].add_element(REXML::Document.new(
'/usr/share/ovmf/OVMF.fd'
))
update(domain_xml.to_s)
else
raise "unsupported OS loader type"
end
end
def is_running?
begin
return @domain.active?
rescue
return false
end
end
def execute(cmd, options = {})
options[:user] ||= "root"
options[:spawn] = false unless options.has_key?(:spawn)
if options[:libs]
libs = options[:libs]
options.delete(:libs)
libs = [libs] if not(libs.methods.include? :map)
cmds = libs.map do |lib_name|
". /usr/local/lib/tails-shell-library/#{lib_name}.sh"
end
cmds << cmd
cmd = cmds.join(" && ")
end
return RemoteShell::ShellCommand.new(self, cmd, options)
end
def execute_successfully(*args)
p = execute(*args)
begin
assert_vmcommand_success(p)
rescue Test::Unit::AssertionFailedError => e
raise ExecutionFailedInVM.new(e)
end
return p
end
def spawn(cmd, options = {})
options[:spawn] = true
return execute(cmd, options)
end
def wait_until_remote_shell_is_up(timeout = 90)
msg = 'hello?'
try_for(timeout, :msg => "Remote shell seems to be down") do
Timeout::timeout(3) do
execute_successfully("echo '#{msg}'").stdout.chomp == msg
end
end
end
def host_to_guest_time_sync
host_time= DateTime.now.strftime("%s").to_s
execute("date -s '@#{host_time}'").success?
end
def has_network?
nmcli_info = execute('nmcli device show eth0').stdout
has_ipv4_addr = /^IP4.ADDRESS(\[\d+\])?:\s*([0-9.\/]+)$/.match(nmcli_info)
network_link_state == 'up' && has_ipv4_addr
end
def has_process?(process)
return execute("pidof -x -o '%PPID' " + process).success?
end
def pidof(process)
return execute("pidof -x -o '%PPID' " + process).stdout.chomp.split
end
def select_virtual_desktop(desktop_number, user = LIVE_USER)
assert(desktop_number >= 0 && desktop_number <=3,
"Only values between 0 and 1 are valid virtual desktop numbers")
execute_successfully(
"xdotool set_desktop '#{desktop_number}'",
:user => user
)
end
def focus_window(window_title, user = LIVE_USER)
def do_focus(window_title, user)
execute_successfully(
"xdotool search --name '#{window_title}' windowactivate --sync",
:user => user
)
end
begin
do_focus(window_title, user)
rescue ExecutionFailedInVM
# Often when xdotool fails to focus a window it'll work when retried
# after redrawing the screen. Switching to a new virtual desktop then
# back seems to be a reliable way to handle this.
# Sadly we have to rely on a lot of sleep() here since there's
# little on the screen etc that we truly can rely on.
sleep 5
select_virtual_desktop(1)
sleep 5
select_virtual_desktop(0)
sleep 5
do_focus(window_title, user)
end
rescue
# noop
end
def file_exist?(file)
execute("test -e '#{file}'").success?
end
def directory_exist?(directory)
execute("test -d '#{directory}'").success?
end
def file_open(path)
f = RemoteShell::File.new(self, path)
yield f if block_given?
return f
end
def file_content(path)
file_open(path) { |f| return f.read() }
end
def file_overwrite(path, lines)
lines = lines.join("\n") if lines.class == Array
file_open(path) { |f| return f.write(lines) }
end
def file_append(path, lines)
lines = lines.join("\n") if lines.class == Array
file_open(path) { |f| return f.append(lines) }
end
def set_clipboard(text)
execute_successfully("echo -n '#{text}' | xsel --input --clipboard",
:user => LIVE_USER)
end
def get_clipboard
execute_successfully("xsel --output --clipboard", :user => LIVE_USER).stdout
end
def internal_snapshot_xml(name)
disk_devs = list_disk_devs
disks_xml = " \n"
for dev in disk_devs
snapshot_type = disk_type(dev) == "qcow2" ? 'internal' : 'no'
disks_xml +=
" \n"
end
disks_xml += " "
return <<-EOF
#{name}
Snapshot for #{name}
#{disks_xml}
EOF
end
def VM.ram_only_snapshot_path(name)
return "#{$config["TMPDIR"]}/#{name}-snapshot.memstate"
end
def save_snapshot(name)
# If we have no qcow2 disk device, we'll use "memory state"
# snapshots, and if we have at least one qcow2 disk device, we'll
# use internal "system checkpoint" (memory + disks) snapshots. We
# have to do this since internal snapshots don't work when no
# such disk is available. We can do this with external snapshots,
# which are better in many ways, but libvirt doesn't know how to
# restore (revert back to) them yet.
# WARNING: If only transient disks, i.e. disks that were plugged
# after starting the domain, are used then the memory state will
# be dropped. External snapshots would also fix this.
internal_snapshot = false
domain_xml = REXML::Document.new(@domain.xml_desc)
domain_xml.elements.each('domain/devices/disk') do |e|
if e.elements['driver'].attribute('type').to_s == "qcow2"
internal_snapshot = true
break
end
end
# Note: In this case the "opposite" of `internal_snapshot` is not
# anything relating to external snapshots, but actually "memory
# state"(-only) snapshots.
if internal_snapshot
xml = internal_snapshot_xml(name)
@domain.snapshot_create_xml(xml)
else
snapshot_path = VM.ram_only_snapshot_path(name)
@domain.save(snapshot_path)
# For consistency with the internal snapshot case (which is
# "live", so the domain doesn't go down) we immediately restore
# the snapshot.
# Assumption: that *immediate* save + restore doesn't mess up
# with network state and similar, and is fast enough to not make
# the clock drift too much.
restore_snapshot(name)
end
end
def restore_snapshot(name)
@domain.destroy if is_running?
@display.stop if @display and @display.active?
# See comment in save_snapshot() for details on why we use two
# different type of snapshots.
potential_ram_only_snapshot_path = VM.ram_only_snapshot_path(name)
if File.exist?(potential_ram_only_snapshot_path)
Libvirt::Domain::restore(@virt, potential_ram_only_snapshot_path)
@domain = @virt.lookup_domain_by_name(@domain_name)
else
begin
potential_internal_snapshot = @domain.lookup_snapshot_by_name(name)
@domain.revert_to_snapshot(potential_internal_snapshot)
rescue Libvirt::RetrieveError
raise "No such (internal nor external) snapshot #{name}"
end
end
@display.start
end
def VM.remove_snapshot(name)
old_domain = $virt.lookup_domain_by_name(LIBVIRT_DOMAIN_NAME)
potential_ram_only_snapshot_path = VM.ram_only_snapshot_path(name)
if File.exist?(potential_ram_only_snapshot_path)
File.delete(potential_ram_only_snapshot_path)
else
snapshot = old_domain.lookup_snapshot_by_name(name)
snapshot.delete
end
end
def VM.snapshot_exists?(name)
return true if File.exist?(VM.ram_only_snapshot_path(name))
old_domain = $virt.lookup_domain_by_name(LIBVIRT_DOMAIN_NAME)
snapshot = old_domain.lookup_snapshot_by_name(name)
return snapshot != nil
rescue Libvirt::RetrieveError
return false
end
def VM.remove_all_snapshots
Dir.glob("#{$config["TMPDIR"]}/*-snapshot.memstate").each do |file|
File.delete(file)
end
old_domain = $virt.lookup_domain_by_name(LIBVIRT_DOMAIN_NAME)
old_domain.list_all_snapshots.each { |snapshot| snapshot.delete }
rescue Libvirt::RetrieveError
# No such domain, so no snapshots either.
end
def start
return if is_running?
@domain.create
@display.start
end
def reset
@domain.reset if is_running?
end
def power_off
@domain.destroy if is_running?
@display.stop
end
def take_screenshot(description)
@display.take_screenshot(description)
end
def get_remote_shell_port
domain_xml = REXML::Document.new(@domain.xml_desc)
domain_xml.elements.each('domain/devices/serial') do |e|
if e.attribute('type').to_s == "tcp"
return e.elements['source'].attribute('service').to_s.to_i
end
end
end
end