/usr/bin/adt-virt-qemu is in autopkgtest 3.20.4.
This file is owned by root:root, with mode 0o755.
The actual contents of the file can be viewed below.
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#
# adt-virt-qemu is part of autopkgtest
# autopkgtest is a tool for testing Debian binary packages
#
# autopkgtest is Copyright (C) 2006-2014 Canonical Ltd.
#
# adt-virt-qemu was developed by
# Martin Pitt <martin.pitt@ubuntu.com>
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 2 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software
# Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
#
# See the file CREDITS for a full list of credits information (often
# installed as /usr/share/doc/autopkgtest/CREDITS).
import sys
import os
import subprocess
import tempfile
import shutil
import time
import socket
import errno
import fcntl
import re
try:
our_base = os.environ['AUTOPKGTEST_BASE'] + '/lib'
except KeyError:
our_base = '/usr/share/autopkgtest/python'
sys.path.insert(1, our_base)
import VirtSubproc
from adt_run_args import ArgumentParser
import adtlog
args = None
workdir = None
p_qemu = None
ssh_port = None
ssh_port_lock = None
normal_user = None
qemu_cmd_default = None
def parse_args():
global args, qemu_cmd_default
uname_to_qemu_suffix = {'i[3456]86$': 'i386'}
arch = os.uname()[4]
for pattern, suffix in uname_to_qemu_suffix.items():
if re.match(pattern, arch):
qemu_cmd_default = 'qemu-system-' + suffix
break
else:
qemu_cmd_default = 'qemu-system-' + arch
parser = ArgumentParser()
parser.add_argument('-q', '--qemu-command', default=qemu_cmd_default,
help='QEMU command (default: %s)' % qemu_cmd_default)
parser.add_argument('-o', '--overlay-dir',
help='Temporary overlay directory (default: in /tmp)')
parser.add_argument('-u', '--user',
help='user to log into the VM on ttyS0 (must be able '
'to sudo if not "root")')
parser.add_argument('-p', '--password',
help='password for user to log into the VM on ttyS0')
parser.add_argument('-c', '--cpus', type=int, default=1,
help='Number of (virtual) CPUs in the VM (default: %(default)s)')
parser.add_argument('--ram-size', type=int, default=1024,
help='VM RAM size in MiB (default: %(default)s)')
parser.add_argument('--show-boot', action='store_true',
help='Show boot messages from serial console')
parser.add_argument('-d', '--debug', action='store_true',
help='Enable debugging output')
parser.add_argument('--qemu-options',
help='Pass through arguments to QEMU command.')
parser.add_argument('image', nargs='+',
help='disk image to add to the VM (in order)')
args = parser.parse_args()
if args.debug:
adtlog.verbosity = 2
def prepare_overlay():
'''Generate a temporary overlay image'''
# generate a temporary overlay
if args.overlay_dir:
overlay = os.path.join(args.overlay_dir, os.path.basename(
args.image[0]) + '.overlay-%s' % time.time())
else:
overlay = os.path.join(workdir, 'overlay.img')
adtlog.debug('Creating temporary overlay image in %s' % overlay)
VirtSubproc.check_exec(['qemu-img', 'create', '-f', 'qcow2', '-b',
os.path.abspath(args.image[0]), overlay],
outp=True, timeout=300)
return overlay
def wait_boot():
term = VirtSubproc.get_unix_socket(os.path.join(workdir, 'ttyS0'))
VirtSubproc.expect(term, b' login: ', 300, 'login prompt on ttyS0',
echo=args.show_boot)
# this is really ugly, but runlevel, "service status hwclock" etc. all
# don't help to determine if the system is *really* booted; running
# commands too early causes the system time to be all wrong
time.sleep(3)
def check_ttyS1_shell():
'''Check if there is a shell running on ttyS1'''
term = VirtSubproc.get_unix_socket(os.path.join(workdir, 'ttyS1'))
term.send(b'echo -n o; echo k\n')
try:
VirtSubproc.expect(term, b'ok', 1)
return True
except VirtSubproc.Timeout:
return False
def setup_shell():
'''Log into the VM and set up root shell on ttyS1'''
# if the VM is already prepared to start a root shell on ttyS1, just use it
if check_ttyS1_shell():
adtlog.debug('setup_shell(): there already is a shell on ttyS1')
return
else:
adtlog.debug('setup_shell(): no default shell on ttyS1')
if args.user and args.password:
# login on ttyS0 and start a root shell on ttyS1 from there
adtlog.debug('Shell setup: have user and password, logging in..')
login_tty_and_setup_shell()
else:
VirtSubproc.bomb('The VM does not start a root shell on ttyS1 already.'
' The only other supported login mechanism is '
'through --user and --password on the guest ttyS0')
if not check_ttyS1_shell():
VirtSubproc.bomb('setup_shell(): failed to setup shell on ttyS1')
def login_tty_and_setup_shell():
'''login on ttyS0 and start a root shell on ttyS1 from there'''
term = VirtSubproc.get_unix_socket(os.path.join(workdir, 'ttyS0'))
# send user name
term.send(args.user.encode('UTF-8'))
term.send(b'\n')
# wait until we get some more data for the password prompt
VirtSubproc.expect(term, None, 10, 'password prompt')
# send password
term.send(args.password.encode('UTF-8'))
term.send(b'\n')
adtlog.debug('login_tty: sent password')
cmd = b'setsid sh </dev/ttyS1 >/dev/ttyS1 2>&1 &'
# if we are a non-root user, run through sudo
if args.user != 'root':
cmd = b"sudo sh -c '" + cmd + "'"
term.send(cmd)
term.send(b'\nexit\n')
VirtSubproc.expect(term, b'\nlogout', 10)
def setup_baseimage():
'''setup /dev/baseimage in VM'''
term = VirtSubproc.get_unix_socket(os.path.join(workdir, 'ttyS1'))
# Setup udev rules for /dev/baseimage; set link_priority to -1024 so
# that the duplicate UUIDs of the partitions will have no effect.
term.send(b'''mkdir -p -m 0755 /run/udev/rules.d ; printf '# Created by adt-virt-qemu\\n%s\\n%s\\n' 'KERNEL=="vd*[!0-9]", ENV{ID_SERIAL}=="BASEIMAGE", OPTIONS+="link_priority=-1024", SYMLINK+="baseimage", MODE="0664"' 'KERNEL=="vd*[0-9]", ENV{ID_SERIAL}=="BASEIMAGE", OPTIONS+="link_priority=-1024"' > /run/udev/rules.d/61-baseimage.rules\n''')
VirtSubproc.expect(term, b'#', 10)
# Reload udev to make sure the rules take effect (udev only auto-
# rereads rules every 3 seconds)
term.send(b'udevadm control --reload\n')
# Add the base image as an additional drive
monitor = VirtSubproc.get_unix_socket(os.path.join(workdir, 'monitor'))
monitor.send(('drive_add 0 file=%s,if=none,readonly=on,serial=BASEIMAGE,id=drive-baseimage\n' % args.image[0]).encode())
VirtSubproc.expect(monitor, b'(qemu)', 10)
monitor.send(b'device_add virtio-blk-pci,drive=drive-baseimage,id=virtio-baseimage\n')
VirtSubproc.expect(monitor, b'(qemu)', 10)
term.send(b'udevadm settle --exit-if-exists=/dev/baseimage\n')
VirtSubproc.expect(term, b'#', 10)
def setup_shared(shared_dir):
'''Set up shared dir'''
term = VirtSubproc.get_unix_socket(os.path.join(workdir, 'ttyS1'))
term.send(b'''mkdir -p -m 1777 /autopkgtest
mount -t 9p -o trans=virtio,access=any autopkgtest /autopkgtest
chmod 1777 /autopkgtest
touch /autopkgtest/done_shared
''')
with VirtSubproc.timeout(10, 'timed out on client shared directory setup'):
flag = os.path.join(shared_dir, 'done_shared')
while not os.path.exists(flag):
time.sleep(0.2)
VirtSubproc.expect(term, b'#', 30)
# ensure that root has $HOME set
term.send(b'[ -n "$HOME" ] || export HOME=`getent passwd root|cut -f6 -d:`\n')
VirtSubproc.expect(term, b'#', 5)
def setup_config(shared_dir):
'''Set up configuration files'''
term = VirtSubproc.get_unix_socket(os.path.join(workdir, 'ttyS1'))
# copy our timezone, to avoid time skews with the host
if os.path.exists('/etc/timezone'):
tz = None
with open('/etc/timezone', 'rb') as f:
for l in f:
if l.startswith(b'#'):
continue
l = l.strip()
if l:
tz = l
break
if tz:
adtlog.debug('Copying host timezone %s to VM' % tz.decode())
term.send(b'echo ' + tz + b' > /etc/timezone; DEBIAN_FRONTEND=noninteractive dpkg-reconfigure tzdata\n')
VirtSubproc.expect(term, b'#', 30)
else:
adtlog.debug('Could not determine host timezone')
# ensure that we have Python for our the auxverb helpers
term.send(b'type python3 2>/dev/null || type python 2>/dev/null\n')
try:
out = VirtSubproc.expect(term, b'/python', 5)
except VirtSubproc.Timeout:
VirtSubproc.bomb('Neither python3 nor python is installed in the VM, '
'one of them is required by autopkgtest')
if b'\n# ' not in out:
VirtSubproc.expect(term, b'# ', 5)
# create helper for runcmd: cat data from its stdin (from a file) to stdout
# eternally (like tail -f), but stop once either an "EOF" file exists and
# we copied at least as many bytes as given in that EOF file (the first
# arg), or an "exit flag" file exists.
# We don't run that from /autopkgtest/ as 9p from older QEMU versions is
# buggy and causes "invalid numeric result" errors on that.
term.send(b'''PYTHON=$(which python3) || PYTHON=$(which python); cat <<EOF > /bin/eofcat; chmod 755 /bin/eofcat
#!$PYTHON
import sys, os, fcntl, time, errno
(feof, fexit) = sys.argv[1:]
count = 0
limit = None
fcntl.fcntl(0, fcntl.F_SETFL, fcntl.fcntl(0, fcntl.F_GETFL) | os.O_NONBLOCK)
while not os.path.exists(fexit):
try:
block = os.read(0, 1000000)
if block:
os.write(1, block)
count += len(block)
continue
except OSError as e:
if e.errno != errno.EAGAIN:
raise
time.sleep(0.05)
if limit is None:
try:
with open(feof, 'r') as f:
limit = int(f.read())
except (IOError, ValueError):
pass
if limit is not None and count >= limit:
break
EOF
''')
VirtSubproc.expect(term, b'# ', 5)
def make_auxverb(shared_dir):
'''Create auxverb script'''
auxverb = os.path.join(workdir, 'runcmd')
with open(auxverb, 'w') as f:
f.write('''#!%(py)s
import sys, os, tempfile, threading, time, atexit, shutil, fcntl, errno, pipes
import socket
dir_host = '%(dir)s'
job_host = tempfile.mkdtemp(prefix='job.', dir=dir_host)
atexit.register(shutil.rmtree, job_host)
os.chmod(job_host, 0o755)
job_guest = '/autopkgtest/' + os.path.basename(job_host)
running = True
def shovel(fin, fout, flagfile_on_eof=None):
fcntl.fcntl(fin, fcntl.F_SETFL,
fcntl.fcntl(fin, fcntl.F_GETFL) | os.O_NONBLOCK)
count = 0
while running:
try:
block = os.read(fin, 1000000)
if flagfile_on_eof and not block:
os.fsync(fout)
os.close(fout)
with open(flagfile_on_eof, 'w') as f:
f.write('%%i' %% count)
return
count += len(block)
except OSError as e:
if e.errno != errno.EAGAIN:
raise
block = None
if not block:
time.sleep(0.01)
continue
while True:
try:
os.write(fout, block)
break
except OSError as e:
if e.errno != errno.EAGAIN:
raise
continue
# redirect the guest process stdin/out/err files to our stdin/out/err
fin = os.path.join(job_host, 'stdin')
stdin_eof = os.path.join(job_host, 'stdin_eof')
fout = os.path.join(job_host, 'stdout')
ferr = os.path.join(job_host, 'stderr')
with open(fout, 'w'):
pass
with open(ferr, 'w'):
pass
t_stdin = threading.Thread(None, shovel, 'copyin', (sys.stdin.fileno(), os.open(fin, os.O_CREAT|os.O_WRONLY), stdin_eof))
t_stdin.start()
t_stdout = threading.Thread(None, shovel, 'copyout', (os.open(fout, os.O_RDONLY), sys.stdout.fileno()))
t_stdout.start()
t_stderr = threading.Thread(None, shovel, 'copyerr', (os.open(ferr, os.O_RDONLY), sys.stderr.fileno()))
t_stderr.start()
# Run command through QEMU shell. We can't directly feed the stdin file into
# the process as we'd hit EOF too soon; so funnel it through eofcat to get a
# "real" stdin behaviour.
s = socket.socket(socket.AF_UNIX, socket.SOCK_STREAM)
s.connect('%(tty)s')
cmd = '/bin/eofcat %%(d)s/stdin_eof %%(d)s/exit.tmp < %%(d)s/stdin | ' \\
'(%%(c)s >> %%(d)s/stdout 2>> %%(d)s/stderr; echo $? > %%(d)s/exit.tmp);' \\
'mv %%(d)s/exit.tmp %%(d)s/exit\\n' %% \\
{'d': job_guest, 'c': ' '.join(map(pipes.quote, sys.argv[1:]))}
s.send(cmd.encode())
# wait until command has exited
path_exit = os.path.join(job_host, 'exit')
while not os.path.exists(path_exit) or os.path.getsize(path_exit) == 0:
time.sleep(0.2)
running = False
# mop up terminal response
while True:
try:
block = s.recv(4096, socket.MSG_DONTWAIT)
if not block:
break
except IOError:
break
time.sleep(0.05)
s.close()
with open(path_exit) as f:
rc = int(f.read().strip())
t_stdin.join()
t_stdout.join()
t_stderr.join()
# code 255 means that the auxverb itself failed, so translate
sys.exit(rc == 255 and 253 or rc)
''' % {'py': sys.executable, 'tty': os.path.join(workdir, 'ttyS1'), 'dir': shared_dir})
os.chmod(auxverb, 0o755)
VirtSubproc.auxverb = [auxverb]
# verify that we can connect
status = VirtSubproc.execute_timeout(None, 5, VirtSubproc.auxverb + ['true'])[0]
if status == 0:
adtlog.debug('can connect to autopkgtest sh in VM')
else:
VirtSubproc.bomb('failed to connect to VM')
def get_cpuflag():
'''Return QEMU cpu option list suitable for host CPU'''
try:
with open('/proc/cpuinfo', 'r') as f:
for line in f:
if line.startswith('flags'):
words = line.split()
if 'vmx' in words:
adtlog.debug('Detected KVM capable Intel host CPU, enabling nested KVM')
return ['-cpu', 'kvm64,+vmx,+lahf_lm']
elif 'svm' in words: # AMD kvm
adtlog.debug('Detected KVM capable AMD host CPU, enabling nested KVM')
# FIXME: this should really be the one below for more
# reproducible testbeds, but nothing except -cpu host works
# return ['-cpu', 'kvm64,+svm,+lahf_lm']
return ['-cpu', 'host']
except IOError as e:
adtlog.warning('Cannot read /proc/cpuinfo to detect CPU flags: %s' % e)
# fetching CPU flags isn't critical (only used to enable nested KVM),
# so don't fail here
pass
return []
def find_free_port(start):
'''Find an unused port in the range [start, start+50)'''
global ssh_port_lock
for p in range(start, start + 50):
adtlog.debug('find_free_port: trying %i' % p)
try:
try:
ssh_port_lock = open('/run/lock/adt-virt-qemu.port.%i' % p, 'w')
fcntl.flock(ssh_port_lock, fcntl.LOCK_EX | fcntl.LOCK_NB)
except (IOError, OSError):
adtlog.debug('find_free_port: %i is locked' % p)
if ssh_port_lock:
ssh_port_lock.close()
ssh_port_lock = None
continue
s = socket.create_connection(('127.0.0.1', p))
# if that works, the port is taken
s.close()
ssh_port_lock.close()
ssh_port_lock = None
continue
except socket.error as e:
if e.errno == errno.ECONNREFUSED:
adtlog.debug('find_free_port: %i is free' % p)
return p
else:
pass
adtlog.debug('find_free_port: all ports are taken')
return None
def determine_normal_user(shared_dir):
'''Check for a normal user to run tests as.'''
global normal_user
if args.user and args.user != 'root':
normal_user = args.user
return
# get the first UID >= 500
term = VirtSubproc.get_unix_socket(os.path.join(workdir, 'ttyS1'))
term.send(b"getent passwd | sort -t: -nk3 | "
b"awk -F: '{if ($3 >= 500) { print $1; exit } }'"
b"> /autopkgtest/normal_user\n")
with VirtSubproc.timeout(5, 'timed out on determining normal user'):
outfile = os.path.join(shared_dir, 'normal_user')
while not os.path.exists(outfile):
time.sleep(0.2)
with open(outfile) as f:
out = f.read()
if out:
normal_user = out.strip()
adtlog.debug('determine_normal_user: got user "%s"' % normal_user)
else:
adtlog.debug('determine_normal_user: no uid >= 500 available')
def hook_open():
global workdir, p_qemu, ssh_port
workdir = tempfile.mkdtemp(prefix='adt-virt-qemu.')
os.chmod(workdir, 0o755)
shareddir = os.path.join(workdir, 'shared')
os.mkdir(shareddir)
overlay = prepare_overlay()
# start QEMU
argv = [args.qemu_command,
'-m', str(args.ram_size),
'-smp', str(args.cpus),
'-nographic',
'-net', 'user',
'-net', 'nic,model=virtio',
'-monitor', 'unix:%s/monitor,server,nowait' % workdir,
'-serial', 'unix:%s/ttyS0,server,nowait' % workdir,
'-serial', 'unix:%s/ttyS1,server,nowait' % workdir,
'-virtfs',
'local,id=autopkgtest,path=%s,security_model=none,mount_tag=autopkgtest' % shareddir,
'-drive', 'file=%s,cache=unsafe,if=virtio,index=0' % overlay]
for i, image in enumerate(args.image[1:]):
argv.append('-drive')
argv.append('file=%s,if=virtio,index=%i,readonly' % (image, i + 1))
if os.path.exists('/dev/kvm'):
argv.append('-enable-kvm')
# Enable nested KVM by default on x86_64
if os.uname()[4] == 'x86_64' and args.qemu_command == qemu_cmd_default and \
(not args.qemu_options or '-cpu' not in args.qemu_options.split()):
argv += get_cpuflag()
# pass through option to qemu
if args.qemu_options:
argv.extend(args.qemu_options.split())
# find free port to forward VM port 22 (for SSH access)
ssh_port = find_free_port(10022)
if ssh_port:
adtlog.debug('Forwarding local port %i to VM ssh port 22' % ssh_port)
argv.append('-redir')
argv.append('tcp:%i::22' % ssh_port)
p_qemu = subprocess.Popen(argv)
try:
try:
wait_boot()
finally:
# remove overlay as early as possible, to avoid leaking large
# files; let QEMU run with the deleted inode
os.unlink(overlay)
setup_shell()
setup_baseimage()
setup_shared(shareddir)
setup_config(shareddir)
make_auxverb(shareddir)
determine_normal_user(shareddir)
except:
# Clean up on failure
hook_cleanup()
raise
def hook_downtmp(path):
# we would like to do this, but 9p is currently way too slow for big source
# trees
# downtmp = '/autopkgtest/tmp'
# VirtSubproc.check_exec(['mkdir', '-m', '1777', downtmp], downp=True)
return VirtSubproc.downtmp_mktemp(path)
def hook_revert():
VirtSubproc.downtmp_remove()
hook_cleanup()
hook_open()
def hook_cleanup():
global p_qemu, workdir
if p_qemu:
p_qemu.terminate()
p_qemu.wait()
p_qemu = None
if workdir:
shutil.rmtree(workdir)
workdir = None
def hook_prepare_reboot():
# Remove baseimage drive again, so that it does not break the subsequent
# boot due to the duplicate UUID
monitor = VirtSubproc.get_unix_socket(os.path.join(workdir, 'monitor'))
monitor.send(b'device_del virtio-baseimage\n')
VirtSubproc.expect(monitor, b'(qemu)', 10)
def hook_wait_reboot():
global workdir
shareddir = os.path.join(workdir, 'shared')
os.unlink(os.path.join(shareddir, 'done_shared'))
wait_boot()
setup_shared(shareddir)
setup_baseimage()
def hook_capabilities():
global normal_user
caps = ['revert', 'revert-full-system', 'root-on-testbed',
'isolation-machine', 'reboot']
# disabled, see hook_downtmp()
# caps.append('downtmp-host=%s' % os.path.join(workdir, 'shared', 'tmp'))
if normal_user:
caps.append('suggested-normal-user=' + normal_user)
return caps
def hook_shell(dir, *extra_env):
global ssh_port, normal_user
if ssh_port:
user = normal_user or '<user>'
ssh = ' ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -p %i %s@localhost\n' % (
ssh_port, user)
else:
ssh = ''
with open('/dev/tty', 'w') as f:
f.write('''You can now log into the VM through the serial terminal.
Depending on which terminal program you have installed, you can use one of
%(ssh)s minicom -D unix#%(tty0)s
nc -U %(tty0)s
socat - UNIX-CONNECT:%(tty0)s
The tested source package is in %(dir)s
Press Enter to resume adt-run.
''' % {'tty0': os.path.join(workdir, 'ttyS0'), 'dir': dir, 'ssh': ssh})
with open('/dev/tty', 'r') as f:
f.readline()
parse_args()
VirtSubproc.main()
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