def Start(self):
if self._auto:
logging.debug('Starting automatic device deployment.')
node_name = boot_data.GetNodeName(self._output_dir)
self._host = self.__Discover(node_name)
if self._host and self._WaitUntilReady(retries=0):
if not self._SDKHashMatches():
logging.info('SDK hash does not match, rebooting.')
self.RunCommand(['dm', 'reboot'])
self._started = False
else:
logging.info('Connected to an already booted device.')
self._new_instance = False
return
logging.info('Netbooting Fuchsia. ' +
'Please ensure that your device is in bootloader mode.')
bootserver_path = os.path.join(SDK_ROOT, 'tools', 'bootserver')
bootserver_command = [
bootserver_path,
'-1',
'--efi',
EnsurePathExists(boot_data.GetTargetFile(self._GetTargetSdkArch(),
'local.esp.blk')),
'--fvm',
EnsurePathExists(boot_data.GetTargetFile(self._GetTargetSdkArch(),
'fvm.sparse.blk')),
'--fvm',
EnsurePathExists(
boot_data.ConfigureDataFVM(self._output_dir,
boot_data.FVM_TYPE_SPARSE)),
EnsurePathExists(boot_data.GetTargetFile(self._GetTargetSdkArch(),
'fuchsia.zbi')),
'--'] + boot_data.GetKernelArgs(self._output_dir)
logging.debug(' '.join(bootserver_command))
subprocess.check_call(bootserver_command)
# Start loglistener to save system logs.
if self._system_log_file:
loglistener_path = os.path.join(SDK_ROOT, 'tools', 'loglistener')
self._loglistener = subprocess.Popen(
[loglistener_path, node_name],
stdout=self._system_log_file,
stderr=subprocess.STDOUT, stdin=open(os.devnull))
logging.debug('Waiting for device to join network.')
for retry in xrange(CONNECT_RETRY_COUNT):
self._host = self.__Discover(node_name)
if self._host:
break
time.sleep(CONNECT_RETRY_WAIT_SECS)
if not self._host:
raise Exception('Couldn\'t connect to device.')
logging.debug('host=%s, port=%d' % (self._host, self._port))
self._WaitUntilReady();
# Update the target's hash to match the current tree's.
self.PutFile(os.path.join(SDK_ROOT, '.hash'), TARGET_HASH_FILE_PATH)
def Start(self):
if self._auto:
logging.debug('Starting automatic device deployment.')
node_name = boot_data.GetNodeName(self._output_dir)
self._host = self.__Discover(node_name)
if self._host and self._WaitUntilReady(retries=0):
logging.info('Connected to an already booted device.')
self._new_instance = False
return
logging.info('Netbooting Fuchsia. ' +
'Please ensure that your device is in bootloader mode.')
bootserver_path = os.path.join(SDK_ROOT, 'tools', 'bootserver')
bootserver_command = [
bootserver_path,
'-1',
'--efi',
EnsurePathExists(boot_data.GetTargetFile(self._GetTargetSdkArch(),
'local.esp.blk')),
'--fvm',
EnsurePathExists(boot_data.GetTargetFile(self._GetTargetSdkArch(),
'fvm.sparse.blk')),
'--fvm',
EnsurePathExists(
boot_data.ConfigureDataFVM(self._output_dir,
boot_data.FVM_TYPE_SPARSE)),
EnsurePathExists(boot_data.GetTargetFile(self._GetTargetSdkArch(),
'zircon.bin')),
EnsurePathExists(boot_data.GetTargetFile(self._GetTargetSdkArch(),
'bootdata-blob.bin')),
'--'] + boot_data.GetKernelArgs(self._output_dir)
logging.debug(' '.join(bootserver_command))
subprocess.check_call(bootserver_command)
# Setup loglistener. Logs will be redirected to stdout if the device takes
# longer than expected to boot.
loglistener_path = os.path.join(SDK_ROOT, 'tools', 'loglistener')
loglistener = subprocess.Popen([loglistener_path, node_name],
stdout=subprocess.PIPE,
stderr=subprocess.STDOUT,
stdin=open(os.devnull))
self._SetSystemLogsReader(
log_reader.LogReader(loglistener, loglistener.stdout))
logging.debug('Waiting for device to join network.')
for retry in xrange(CONNECT_RETRY_COUNT):
if retry == CONNECT_RETRY_COUNT_BEFORE_LOGGING:
self._system_logs_reader.RedirectTo(sys.stdout);
self._host = self.__Discover(node_name)
if self._host:
break
time.sleep(CONNECT_RETRY_WAIT_SECS)
if not self._host:
raise Exception('Couldn\'t connect to device.')
logging.debug('host=%s, port=%d' % (self._host, self._port))
self._WaitUntilReady();
def __ProvisionDevice(self, node_name):
logging.info('Netbooting Fuchsia. ' +
'Please ensure that your device is in bootloader mode.')
bootserver_path = os.path.join(SDK_ROOT, 'tools', 'bootserver')
bootserver_command = [
bootserver_path, '-1', '--fvm',
EnsurePathExists(
boot_data.GetTargetFile(self._GetTargetSdkArch(),
'fvm.sparse.blk')),
EnsurePathExists(
boot_data.GetBootImage(self._output_dir,
self._GetTargetSdkArch()))
]
if self._GetTargetSdkArch() == 'x64':
bootserver_command += [
'--efi',
EnsurePathExists(
boot_data.GetTargetFile(self._GetTargetSdkArch(),
'local.esp.blk'))
]
bootserver_command += ['--']
bootserver_command += boot_data.GetKernelArgs(self._output_dir)
logging.debug(' '.join(bootserver_command))
subprocess.check_call(bootserver_command)
# Start loglistener to save system logs.
if self._system_log_file:
loglistener_path = os.path.join(SDK_ROOT, 'tools', 'loglistener')
self._loglistener = subprocess.Popen([loglistener_path, node_name],
stdout=self._system_log_file,
stderr=subprocess.STDOUT,
stdin=open(os.devnull))
logging.debug('Waiting for device to join network.')
for retry in xrange(CONNECT_RETRY_COUNT):
self._host = self.__Discover(node_name)
if self._host:
break
time.sleep(CONNECT_RETRY_WAIT_SECS)
if not self._host:
raise Exception('Couldn\'t connect to device.')
logging.debug('host=%s, port=%d' % (self._host, self._port))
self._WaitUntilReady()
# Update the target's hash to match the current tree's.
self.PutFile(os.path.join(SDK_ROOT, '.hash'), TARGET_HASH_FILE_PATH)
def Start(self):
if self._auto:
logging.debug('Starting automatic device deployment.')
node_name = boot_data.GetNodeName(self._output_dir)
self._host = self.__Discover(node_name)
if self._host and self._WaitUntilReady(retries=0):
logging.info('Connected to an already booted device.')
self._new_instance = False
return
logging.info(
'Netbooting Fuchsia. ' +
'Please ensure that your device is in bootloader mode.')
bootserver_path = os.path.join(common.SDK_ROOT, 'tools',
'bootserver')
data_fvm_path = boot_data.ConfigureDataFVM(
self._output_dir, boot_data.FVM_TYPE_SPARSE)
bootserver_command = [bootserver_path,
'-1',
'--efi',
boot_data.GetTargetFile(self._GetTargetSdkArch(),
'local.esp.blk'),
'--fvm',
boot_data.GetTargetFile(self._GetTargetSdkArch(),
'fvm.sparse.blk'),
'--fvm',
data_fvm_path,
boot_data.GetTargetFile(self._GetTargetSdkArch(),
'zircon.bin'),
boot_data.GetTargetFile(self._GetTargetSdkArch(),
'bootdata-blob.bin'),
'--'] + \
boot_data.GetKernelArgs(self._output_dir)
logging.debug(' '.join(bootserver_command))
subprocess.check_call(bootserver_command)
logging.debug('Waiting for device to join network.')
for _ in xrange(CONNECT_RETRY_COUNT):
self._host = self.__Discover(node_name)
if self._host:
break
time.sleep(CONNECT_RETRY_WAIT_SECS)
if not self._host:
raise Exception('Couldn\'t connect to device.')
logging.debug('host=%s, port=%d' % (self._host, self._port))
self._WaitUntilReady()
def _ProvisionDevice(self):
"""Pave a device with a generic image of Fuchsia."""
bootserver_path = GetHostToolPathFromPlatform('bootserver')
bootserver_command = [
bootserver_path, '-1', '--fvm',
EnsurePathExists(
boot_data.GetTargetFile('storage-sparse.blk',
self._GetTargetSdkArch(),
boot_data.TARGET_TYPE_GENERIC)),
EnsurePathExists(
boot_data.GetBootImage(self._out_dir, self._GetTargetSdkArch(),
boot_data.TARGET_TYPE_GENERIC))
]
if self._node_name:
bootserver_command += ['-n', self._node_name]
bootserver_command += ['--']
bootserver_command += boot_data.GetKernelArgs()
logging.debug(' '.join(bootserver_command))
_, stdout = SubprocessCallWithTimeout(bootserver_command,
silent=False,
timeout_secs=300)
self._ParseNodename(stdout)
# Update the target's hash to match the current tree's.
self.PutFile(os.path.join(SDK_ROOT, '.hash'), TARGET_HASH_FILE_PATH)
def __ProvisionDevice(self):
"""Netboots a device with Fuchsia. If |_node_name| is set, then only a
device with a matching node name is used.
The device is up and reachable via SSH when the function is successfully
completes."""
bootserver_path = os.path.join(SDK_ROOT, 'tools', 'bootserver')
bootserver_command = [
bootserver_path, '-1', '--fvm',
EnsurePathExists(
boot_data.GetTargetFile(self._GetTargetSdkArch(),
'fvm.sparse.blk')),
EnsurePathExists(
boot_data.GetBootImage(self._output_dir,
self._GetTargetSdkArch()))
]
if self._node_name:
bootserver_command += ['-n', self._node_name]
bootserver_command += ['--']
bootserver_command += boot_data.GetKernelArgs(self._output_dir)
logging.debug(' '.join(bootserver_command))
stdout = subprocess.check_output(bootserver_command,
stderr=subprocess.STDOUT)
# Parse the nodename from bootserver stdout.
m = re.search(r'.*Proceeding with nodename (?P<nodename>.*)$', stdout,
re.MULTILINE)
if not m:
raise Exception('Couldn\'t parse nodename from bootserver output.')
self._node_name = m.groupdict()['nodename']
logging.info('Booted device "%s".' % self._node_name)
# Start loglistener to save system logs.
if self._system_log_file:
loglistener_path = os.path.join(SDK_ROOT, 'tools', 'loglistener')
self._loglistener = subprocess.Popen(
[loglistener_path, self._node_name],
stdout=self._system_log_file,
stderr=subprocess.STDOUT,
stdin=open(os.devnull))
# Repeatdly query mDNS until we find the device, or we hit the timeout of
# DISCOVERY_TIMEOUT_SECS.
logging.info('Waiting for device to join network.')
for _ in xrange(_BOOT_DISCOVERY_ATTEMPTS):
if self.__Discover():
break
if not self._host:
raise Exception('Device %s couldn\'t be discovered via mDNS.' %
self._node_name)
self._WaitUntilReady()
# Update the target's hash to match the current tree's.
self.PutFile(os.path.join(SDK_ROOT, '.hash'), TARGET_HASH_FILE_PATH)
def _EnsureBlobstoreQcowAndReturnPath(output_dir, target_arch):
"""Returns a file containing the Fuchsia blobstore in a QCOW format,
with extra buffer space added for growth."""
qimg_tool = os.path.join(common.GetEmuRootForPlatform('qemu'), 'bin',
'qemu-img')
fvm_tool = common.GetHostToolPathFromPlatform('fvm')
blobstore_path = boot_data.GetTargetFile('storage-full.blk', target_arch,
'qemu')
qcow_path = os.path.join(output_dir, 'gen', 'blobstore.qcow')
# Check a hash of the blobstore to determine if we can re-use an existing
# extended version of it.
blobstore_hash_path = os.path.join(output_dir, 'gen', 'blobstore.hash')
current_blobstore_hash = _ComputeFileHash(blobstore_path)
if os.path.exists(blobstore_hash_path) and os.path.exists(qcow_path):
if current_blobstore_hash == open(blobstore_hash_path, 'r').read():
return qcow_path
# Add some extra room for growth to the Blobstore volume.
# Fuchsia is unable to automatically extend FVM volumes at runtime so the
# volume enlargement must be performed prior to QEMU startup.
# The 'fvm' tool only supports extending volumes in-place, so make a
# temporary copy of 'blobstore.bin' before it's mutated.
extended_blobstore = tempfile.NamedTemporaryFile()
shutil.copyfile(blobstore_path, extended_blobstore.name)
subprocess.check_call([
fvm_tool, extended_blobstore.name, 'extend', '--length',
str(EXTENDED_BLOBSTORE_SIZE), blobstore_path
])
# Construct a QCOW image from the extended, temporary FVM volume.
# The result will be retained in the build output directory for re-use.
qemu_img_cmd = [
qimg_tool, 'convert', '-f', 'raw', '-O', 'qcow2', '-c',
extended_blobstore.name, qcow_path
]
# TODO(crbug.com/1046861): Remove arm64 call with retries when bug is fixed.
if common.GetHostArchFromPlatform() == 'arm64':
qemu_image.ExecQemuImgWithRetry(qemu_img_cmd)
else:
subprocess.check_call(qemu_img_cmd)
# Write out a hash of the original blobstore file, so that subsequent runs
# can trivially check if a cached extended FVM volume is available for reuse.
with open(blobstore_hash_path, 'w') as blobstore_hash_file:
blobstore_hash_file.write(current_blobstore_hash)
return qcow_path
def _ProvisionDevice(self):
"""Pave a device with a generic image of Fuchsia."""
bootserver_path = GetHostToolPathFromPlatform('bootserver')
bootserver_command = [
bootserver_path, '-1', '--fvm',
EnsurePathExists(
boot_data.GetTargetFile('storage-sparse.blk',
self._GetTargetSdkArch(),
boot_data.TARGET_TYPE_GENERIC)),
EnsurePathExists(
boot_data.GetBootImage(self._output_dir, self._GetTargetSdkArch(),
boot_data.TARGET_TYPE_GENERIC))
]
if self._node_name:
bootserver_command += ['-n', self._node_name]
bootserver_command += ['--']
bootserver_command += boot_data.GetKernelArgs(self._output_dir)
logging.debug(' '.join(bootserver_command))
_, stdout = SubprocessCallWithTimeout(bootserver_command,
silent=False,
timeout_secs=300)
self._ParseNodename(stdout)
# Start loglistener to save system logs.
if self._system_log_file:
self._StartLoglistener()
# Repeatdly query mDNS until we find the device, or we hit
# BOOT_DISCOVERY_ATTEMPTS
logging.info('Waiting for device to join network.')
for _ in xrange(device_target.BOOT_DISCOVERY_ATTEMPTS):
if self.__Discover():
break
if not self._host:
raise Exception("Device %s couldn't be discovered via mDNS." %
self._node_name)
self._WaitUntilReady()
# Update the target's hash to match the current tree's.
self.PutFile(os.path.join(SDK_ROOT, '.hash'), TARGET_HASH_FILE_PATH)
def Start(self):
qemu_path = os.path.join(GetQemuRootForPlatform(), 'bin',
'qemu-system-' + self._GetTargetSdkLegacyArch())
kernel_args = boot_data.GetKernelArgs(self._output_dir)
# TERM=dumb tells the guest OS to not emit ANSI commands that trigger
# noisy ANSI spew from the user's terminal emulator.
kernel_args.append('TERM=dumb')
# Enable logging to the serial port. This is a temporary fix to investigate
# the root cause for https://crbug.com/869753 .
kernel_args.append('kernel.serial=legacy')
qemu_command = [qemu_path,
'-m', str(self._ram_size_mb),
'-nographic',
'-kernel', EnsurePathExists(
boot_data.GetTargetFile('qemu-kernel.kernel',
self._GetTargetSdkArch(),
boot_data.TARGET_TYPE_QEMU)),
'-initrd', EnsurePathExists(
boot_data.GetBootImage(self._output_dir, self._GetTargetSdkArch(),
boot_data.TARGET_TYPE_QEMU)),
'-smp', str(self._cpu_cores),
# Attach the blobstore and data volumes. Use snapshot mode to discard
# any changes.
'-snapshot',
'-drive', 'file=%s,format=qcow2,if=none,id=blobstore,snapshot=on' %
EnsurePathExists(
os.path.join(self._output_dir, 'fvm.blk.qcow2')),
'-device', 'virtio-blk-pci,drive=blobstore',
# Use stdio for the guest OS only; don't attach the QEMU interactive
# monitor.
'-serial', 'stdio',
'-monitor', 'none',
'-append', ' '.join(kernel_args)
]
# Configure the machine to emulate, based on the target architecture.
if self._target_cpu == 'arm64':
qemu_command.extend([
'-machine','virt',
])
netdev_type = 'virtio-net-pci'
else:
qemu_command.extend([
'-machine', 'q35',
])
netdev_type = 'e1000'
# Configure the CPU to emulate.
# On Linux, we can enable lightweight virtualization (KVM) if the host and
# guest architectures are the same.
enable_kvm = self._require_kvm or (sys.platform.startswith('linux') and (
(self._target_cpu == 'arm64' and platform.machine() == 'aarch64') or
(self._target_cpu == 'x64' and platform.machine() == 'x86_64')) and
os.access('/dev/kvm', os.R_OK | os.W_OK))
if enable_kvm:
qemu_command.extend(['-enable-kvm', '-cpu', 'host,migratable=no'])
else:
logging.warning('Unable to launch QEMU with KVM acceleration.')
if self._target_cpu == 'arm64':
qemu_command.extend(['-cpu', 'cortex-a53'])
else:
qemu_command.extend(['-cpu', 'Haswell,+smap,-check,-fsgsbase'])
# Configure virtual network. It is used in the tests to connect to
# testserver running on the host.
netdev_config = 'user,id=net0,net=%s,dhcpstart=%s,host=%s' % \
(GUEST_NET, GUEST_IP_ADDRESS, HOST_IP_ADDRESS)
self._host_ssh_port = common.GetAvailableTcpPort()
netdev_config += ",hostfwd=tcp::%s-:22" % self._host_ssh_port
qemu_command.extend([
'-netdev', netdev_config,
'-device', '%s,netdev=net0,mac=%s' % (netdev_type, GUEST_MAC_ADDRESS),
])
# We pass a separate stdin stream to qemu. Sharing stdin across processes
# leads to flakiness due to the OS prematurely killing the stream and the
# Python script panicking and aborting.
# The precise root cause is still nebulous, but this fix works.
# See crbug.com/741194.
logging.debug('Launching QEMU.')
logging.debug(' '.join(qemu_command))
# Zircon sends debug logs to serial port (see kernel.serial=legacy flag
# above). Serial port is redirected to a file through QEMU stdout.
# Unless a |_system_log_file| is explicitly set, we output the kernel serial
# log to a temporary file, and print that out if we are unable to connect to
# the QEMU guest, to make it easier to diagnose connectivity issues.
temporary_system_log_file = None
if self._system_log_file:
stdout = self._system_log_file
stderr = subprocess.STDOUT
else:
temporary_system_log_file = tempfile.NamedTemporaryFile('w')
stdout = temporary_system_log_file
stderr = sys.stderr
self._qemu_process = subprocess.Popen(qemu_command, stdin=open(os.devnull),
stdout=stdout, stderr=stderr)
try:
self._WaitUntilReady();
except target.FuchsiaTargetException:
if temporary_system_log_file:
logging.info("Kernel logs:\n" +
open(temporary_system_log_file.name, 'r').read())
raise
def _BuildCommand(self):
boot_data.ProvisionSSH()
self._host_ssh_port = common.GetAvailableTcpPort()
kernel_image = common.EnsurePathExists(
boot_data.GetTargetFile('qemu-kernel.kernel', self._image_arch,
self._image_type))
zbi_image = common.EnsurePathExists(
boot_data.GetTargetFile('zircon-a.zbi', self._image_arch,
self._image_type))
fvm_image = common.EnsurePathExists(
boot_data.GetTargetFile('storage-full.blk', self._image_arch,
self._image_type))
aemu_path = common.EnsurePathExists(
os.path.join(common.GetEmuRootForPlatform(self.EMULATOR_NAME),
'emulator'))
emu_command = [
self._FVDL_PATH,
'--sdk',
'start',
'--nointeractive',
# Host port mapping for user-networking mode.
'--port-map',
'hostfwd=tcp::{}-:22'.format(self._host_ssh_port),
# no-interactive requires a --vdl-output flag to shutdown the emulator.
'--vdl-output',
self._vdl_output_file.name,
'-c',
' '.join(boot_data.GetKernelArgs()),
# Use existing images instead of downloading new ones.
'--kernel-image',
kernel_image,
'--zbi-image',
zbi_image,
'--fvm-image',
fvm_image,
'--image-architecture',
self._target_cpu,
# Use an existing emulator checked out by Chromium.
'--aemu-path',
aemu_path,
# Use this flag and temp file to define ram size.
'--device-proto',
self._device_proto_file.name,
'--cpu-count',
str(self._cpu_cores)
]
self._ConfigureEmulatorLog(emu_command)
if not self._require_kvm:
emu_command.append('--noacceleration')
if not self._enable_graphics:
emu_command.append('--headless')
if self._hardware_gpu:
emu_command.append('--host-gpu')
if self._with_network:
emu_command.append('-N')
return emu_command
def Start(self):
qemu_path = os.path.join(common.SDK_ROOT, 'qemu', 'bin',
'qemu-system-' + self._GetTargetSdkArch())
kernel_args = boot_data.GetKernelArgs(self._output_dir)
qemu_command = [
qemu_path,
'-m',
str(self._ram_size_mb),
'-nographic',
'-kernel',
boot_data.GetTargetFile(self._GetTargetSdkArch(), 'zircon.bin'),
'-initrd',
boot_data.GetTargetFile(self._GetTargetSdkArch(),
'bootdata-blob.bin'),
'-smp',
'4',
# Attach the blobstore and data volumes. Use snapshot mode to discard
# any changes.
'-snapshot',
'-drive',
'file=%s,format=qcow2,if=none,id=data,snapshot=on' %
os.path.join(self._output_dir, 'fvm.blk.qcow2'),
'-drive',
'file=%s,format=qcow2,if=none,id=blobstore,snapshot=on' %
self._MakeQcowDisk(
boot_data.ConfigureDataFVM(self._output_dir, False)),
'-device',
'virtio-blk-pci,drive=data',
'-device',
'virtio-blk-pci,drive=blobstore',
# Use stdio for the guest OS only; don't attach the QEMU interactive
# monitor.
'-serial',
'stdio',
'-monitor',
'none',
# TERM=dumb tells the guest OS to not emit ANSI commands that trigger
# noisy ANSI spew from the user's terminal emulator.
'-append',
'TERM=dumb ' + ' '.join(kernel_args)
]
# Configure the machine & CPU to emulate, based on the target architecture.
# Enable lightweight virtualization (KVM) if the host and guest OS run on
# the same architecture.
if self._target_cpu == 'arm64':
qemu_command.extend([
'-machine',
'virt',
'-cpu',
'cortex-a53',
])
netdev_type = 'virtio-net-pci'
if platform.machine() == 'aarch64':
qemu_command.append('-enable-kvm')
else:
qemu_command.extend([
'-machine',
'q35',
'-cpu',
'host,migratable=no',
])
netdev_type = 'e1000'
if platform.machine() == 'x86_64':
qemu_command.append('-enable-kvm')
# Configure virtual network. It is used in the tests to connect to
# testserver running on the host.
netdev_config = 'user,id=net0,net=%s,dhcpstart=%s,host=%s' % \
(GUEST_NET, GUEST_IP_ADDRESS, HOST_IP_ADDRESS)
self._host_ssh_port = _GetAvailableTcpPort()
netdev_config += ",hostfwd=tcp::%s-:22" % self._host_ssh_port
qemu_command.extend([
'-netdev',
netdev_config,
'-device',
'%s,netdev=net0,mac=%s' % (netdev_type, GUEST_MAC_ADDRESS),
])
# We pass a separate stdin stream to qemu. Sharing stdin across processes
# leads to flakiness due to the OS prematurely killing the stream and the
# Python script panicking and aborting.
# The precise root cause is still nebulous, but this fix works.
# See crbug.com/741194.
logging.debug('Launching QEMU.')
logging.debug(' '.join(qemu_command))
stdio_flags = {'stdin': open(os.devnull)}
if logging.getLogger().getEffectiveLevel() != logging.DEBUG:
# Output the Fuchsia debug log.
stdio_flags['stdout'] = open(os.devnull)
stdio_flags['stderr'] = open(os.devnull)
self._qemu_process = subprocess.Popen(qemu_command, **stdio_flags)
self._WaitUntilReady()
def Start(self):
qemu_path = os.path.join(
QEMU_ROOT, 'bin', 'qemu-system-' + self._GetTargetSdkLegacyArch())
kernel_args = boot_data.GetKernelArgs(self._output_dir)
# TERM=dumb tells the guest OS to not emit ANSI commands that trigger
# noisy ANSI spew from the user's terminal emulator.
kernel_args.append('TERM=dumb')
# Enable logging to the serial port. This is a temporary fix to investigate
# the root cause for https://crbug.com/869753 .
kernel_args.append('kernel.serial=legacy')
qemu_command = [
qemu_path,
'-m',
str(self._ram_size_mb),
'-nographic',
'-kernel',
EnsurePathExists(
boot_data.GetTargetFile(self._GetTargetSdkArch(),
'zircon.bin')),
'-initrd',
EnsurePathExists(
boot_data.GetTargetFile(self._GetTargetSdkArch(),
'bootdata-blob.bin')),
'-smp',
'4',
# Attach the blobstore and data volumes. Use snapshot mode to discard
# any changes.
'-snapshot',
'-drive',
'file=%s,format=qcow2,if=none,id=data,snapshot=on' %
EnsurePathExists(os.path.join(self._output_dir, 'fvm.blk.qcow2')),
'-drive',
'file=%s,format=qcow2,if=none,id=blobstore,snapshot=on' %
EnsurePathExists(
boot_data.ConfigureDataFVM(self._output_dir,
boot_data.FVM_TYPE_QCOW)),
'-device',
'virtio-blk-pci,drive=data',
'-device',
'virtio-blk-pci,drive=blobstore',
# Use stdio for the guest OS only; don't attach the QEMU interactive
# monitor.
'-serial',
'stdio',
'-monitor',
'none',
'-append',
' '.join(kernel_args)
]
# Configure the machine & CPU to emulate, based on the target architecture.
# Enable lightweight virtualization (KVM) if the host and guest OS run on
# the same architecture.
if self._target_cpu == 'arm64':
qemu_command.extend([
'-machine',
'virt',
'-cpu',
'cortex-a53',
])
netdev_type = 'virtio-net-pci'
if platform.machine() == 'aarch64':
qemu_command.append('-enable-kvm')
else:
qemu_command.extend([
'-machine',
'q35',
'-cpu',
'host,migratable=no',
])
netdev_type = 'e1000'
if platform.machine() == 'x86_64':
qemu_command.append('-enable-kvm')
# Configure virtual network. It is used in the tests to connect to
# testserver running on the host.
netdev_config = 'user,id=net0,net=%s,dhcpstart=%s,host=%s' % \
(GUEST_NET, GUEST_IP_ADDRESS, HOST_IP_ADDRESS)
self._host_ssh_port = _GetAvailableTcpPort()
netdev_config += ",hostfwd=tcp::%s-:22" % self._host_ssh_port
qemu_command.extend([
'-netdev',
netdev_config,
'-device',
'%s,netdev=net0,mac=%s' % (netdev_type, GUEST_MAC_ADDRESS),
])
# We pass a separate stdin stream to qemu. Sharing stdin across processes
# leads to flakiness due to the OS prematurely killing the stream and the
# Python script panicking and aborting.
# The precise root cause is still nebulous, but this fix works.
# See crbug.com/741194.
logging.debug('Launching QEMU.')
logging.debug(' '.join(qemu_command))
# Zircon sends debug logs to serial port (see kernel.serial=legacy flag
# above). Serial port is redirected to a file through QEMU stdout.
# This approach is used instead of loglistener to debug
# https://crbug.com/86975 .
if self._system_log_file:
stdout = self._system_log_file
stderr = subprocess.STDOUT
else:
stdout = open(os.devnull)
stderr = sys.stderr
self._qemu_process = subprocess.Popen(qemu_command,
stdin=open(os.devnull),
stdout=stdout,
stderr=stderr)
self._WaitUntilReady()
def _BuildQemuConfig(self):
boot_data.AssertBootImagesExist(self._GetTargetSdkArch(), 'qemu')
emu_command = [
'-kernel',
EnsurePathExists(
boot_data.GetTargetFile('qemu-kernel.kernel',
self._GetTargetSdkArch(),
boot_data.TARGET_TYPE_QEMU)),
'-initrd',
EnsurePathExists(
boot_data.GetBootImage(self._output_dir,
self._GetTargetSdkArch(),
boot_data.TARGET_TYPE_QEMU)),
'-m',
str(self._ram_size_mb),
'-smp',
str(self._cpu_cores),
# Attach the blobstore and data volumes. Use snapshot mode to discard
# any changes.
'-snapshot',
'-drive',
'file=%s,format=qcow2,if=none,id=blobstore,snapshot=on' %
_EnsureBlobstoreQcowAndReturnPath(self._output_dir,
self._GetTargetSdkArch(),
self._qemu_img_retries),
'-device',
'virtio-blk-pci,drive=blobstore',
# Use stdio for the guest OS only; don't attach the QEMU interactive
# monitor.
'-serial',
'stdio',
'-monitor',
'none',
]
# Configure the machine to emulate, based on the target architecture.
if self._target_cpu == 'arm64':
emu_command.extend([
'-machine',
'virt,gic_version=3',
])
netdev_type = 'virtio-net-pci'
else:
emu_command.extend([
'-machine',
'q35',
])
netdev_type = 'e1000'
# Configure virtual network. It is used in the tests to connect to
# testserver running on the host.
netdev_config = 'user,id=net0,net=%s,dhcpstart=%s,host=%s' % \
(GUEST_NET, GUEST_IP_ADDRESS, HOST_IP_ADDRESS)
self._host_ssh_port = common.GetAvailableTcpPort()
netdev_config += ",hostfwd=tcp::%s-:22" % self._host_ssh_port
emu_command.extend([
'-netdev',
netdev_config,
'-device',
'%s,netdev=net0,mac=%s' % (netdev_type, GUEST_MAC_ADDRESS),
])
# Configure the CPU to emulate.
# On Linux, we can enable lightweight virtualization (KVM) if the host and
# guest architectures are the same.
if self._IsKvmEnabled():
kvm_command = ['-enable-kvm', '-cpu']
if self._target_cpu == 'arm64':
kvm_command.append('host')
else:
kvm_command.append('host,migratable=no')
else:
logging.warning('Unable to launch %s with KVM acceleration.' %
(self._emu_type) + 'The guest VM will be slow.')
if self._target_cpu == 'arm64':
kvm_command = ['-cpu', 'cortex-a53']
else:
kvm_command = ['-cpu', 'Haswell,+smap,-check,-fsgsbase']
emu_command.extend(kvm_command)
kernel_args = boot_data.GetKernelArgs(self._output_dir)
# TERM=dumb tells the guest OS to not emit ANSI commands that trigger
# noisy ANSI spew from the user's terminal emulator.
kernel_args.append('TERM=dumb')
# Construct kernel cmd line
kernel_args.append('kernel.serial=legacy')
# Don't 'reboot' the emulator if the kernel crashes
kernel_args.append('kernel.halt-on-panic=true')
emu_command.extend(['-append', ' '.join(kernel_args)])
return emu_command
def _GetTargetKernelPath(self):
kernel_name = 'zircon.bin'
if self._GetTargetSdkArch() == 'arm64':
kernel_name = 'qemu-zircon.bin'
return boot_data.GetTargetFile(self._GetTargetSdkArch(), kernel_name)
