build/fuchsia/qemu_target.py - cobalt - Git at Google

 # Copyright 2018 The Chromium Authors. All rights reserved.
 # Use of this source code is governed by a BSD-style license that can be
 # found in the LICENSE file.

 """Implements commands for running and interacting with Fuchsia on QEMU."""

 import boot_data
 import common
 import emu_target
 import hashlib
 import logging
 import os
 import platform
 import qemu_image
 import shutil
 import subprocess
 import sys
 import tempfile

 from common import GetHostArchFromPlatform, GetEmuRootForPlatform
 from common import EnsurePathExists
 from qemu_image import ExecQemuImgWithRetry
 from target import FuchsiaTargetException


 # Virtual networking configuration data for QEMU.
 GUEST_NET = '192.168.3.0/24'
 GUEST_IP_ADDRESS = '192.168.3.9'
 HOST_IP_ADDRESS = '192.168.3.2'
 GUEST_MAC_ADDRESS = '52:54:00:63:5e:7b'

 # Capacity of the system's blobstore volume.
 EXTENDED_BLOBSTORE_SIZE = 1073741824  # 1GB


 def GetTargetType():
   return QemuTarget


 class QemuTarget(emu_target.EmuTarget):
   EMULATOR_NAME = 'qemu'

   def __init__(self,
                out_dir,
                target_cpu,
                system_log_file,
                cpu_cores,
                require_kvm,
                ram_size_mb,
                fuchsia_out_dir=None):
     super(QemuTarget, self).__init__(out_dir, target_cpu, system_log_file,
                                      fuchsia_out_dir)
     self._cpu_cores=cpu_cores
     self._require_kvm=require_kvm
     self._ram_size_mb=ram_size_mb

   @staticmethod
   def CreateFromArgs(args):
     return QemuTarget(args.out_dir, args.target_cpu, args.system_log_file,
                       args.cpu_cores, args.require_kvm, args.ram_size_mb,
                       args.fuchsia_out_dir)

   def _IsKvmEnabled(self):
     kvm_supported = sys.platform.startswith('linux') and \
                     os.access('/dev/kvm', os.R_OK | os.W_OK)
     same_arch = \
         (self._target_cpu == 'arm64' and platform.machine() == 'aarch64') or \
         (self._target_cpu == 'x64' and platform.machine() == 'x86_64')
     if kvm_supported and same_arch:
       return True
     elif self._require_kvm:
       if same_arch:
         if not os.path.exists('/dev/kvm'):
           kvm_error = 'File /dev/kvm does not exist. Please install KVM first.'
         else:
           kvm_error = 'To use KVM acceleration, add user to the kvm group '\
                       'with "sudo usermod -a -G kvm $USER". Log out and back '\
                       'in for the change to take effect.'
         raise FuchsiaTargetException(kvm_error)
       else:
         raise FuchsiaTargetException('KVM unavailable when CPU architecture '\
                                      'of host is different from that of'\
                                      ' target. See --allow-no-kvm.')
     else:
       return False

   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._out_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._out_dir,
                                           self._GetTargetSdkArch()),
         '-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',
       ])
     else:
       emu_command.extend([
           '-machine', 'q35',
       ])

     # Configure virtual network. It is used in the tests to connect to
     # testserver running on the host.
     netdev_type = 'virtio-net-pci'
     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,+invtsc')
     else:
       logging.warning('Unable to launch %s with KVM acceleration. '
                       'The guest VM will be slow.' % (self.EMULATOR_NAME))
       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._out_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 _BuildCommand(self):
     if self._target_cpu == 'arm64':
       qemu_exec = 'qemu-system-' + 'aarch64'
     elif self._target_cpu == 'x64':
       qemu_exec = 'qemu-system-' + 'x86_64'
     else:
       raise Exception('Unknown target_cpu %s:' % self._target_cpu)

     qemu_command = [
         os.path.join(GetEmuRootForPlatform(self.EMULATOR_NAME), 'bin',
                      qemu_exec)
     ]
     qemu_command.extend(self._BuildQemuConfig())
     qemu_command.append('-nographic')
     return qemu_command

 def _ComputeFileHash(filename):
   hasher = hashlib.md5()
   with open(filename, 'rb') as f:
     buf = f.read(4096)
     while buf:
       hasher.update(buf)
       buf = f.read(4096)

   return hasher.hexdigest()


 def _EnsureBlobstoreQcowAndReturnPath(out_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(out_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(out_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
	# Copyright 2018 The Chromium Authors. All rights reserved.
	# Use of this source code is governed by a BSD-style license that can be
	# found in the LICENSE file.

	"""Implements commands for running and interacting with Fuchsia on QEMU."""

	import boot_data
	import common
	import emu_target
	import hashlib
	import logging
	import os
	import platform
	import qemu_image
	import shutil
	import subprocess
	import sys
	import tempfile

	from common import GetHostArchFromPlatform, GetEmuRootForPlatform
	from common import EnsurePathExists
	from qemu_image import ExecQemuImgWithRetry
	from target import FuchsiaTargetException


	# Virtual networking configuration data for QEMU.
	GUEST_NET = '192.168.3.0/24'
	GUEST_IP_ADDRESS = '192.168.3.9'
	HOST_IP_ADDRESS = '192.168.3.2'
	GUEST_MAC_ADDRESS = '52:54:00:63:5e:7b'

	# Capacity of the system's blobstore volume.
	EXTENDED_BLOBSTORE_SIZE = 1073741824 # 1GB


	def GetTargetType():
	return QemuTarget


	class QemuTarget(emu_target.EmuTarget):
	EMULATOR_NAME = 'qemu'

	def __init__(self,
	out_dir,
	target_cpu,
	system_log_file,
	cpu_cores,
	require_kvm,
	ram_size_mb,
	fuchsia_out_dir=None):
	super(QemuTarget, self).__init__(out_dir, target_cpu, system_log_file,
	fuchsia_out_dir)
	self._cpu_cores=cpu_cores
	self._require_kvm=require_kvm
	self._ram_size_mb=ram_size_mb

	@staticmethod
	def CreateFromArgs(args):
	return QemuTarget(args.out_dir, args.target_cpu, args.system_log_file,
	args.cpu_cores, args.require_kvm, args.ram_size_mb,
	args.fuchsia_out_dir)

	def _IsKvmEnabled(self):
	kvm_supported = sys.platform.startswith('linux') and \
	os.access('/dev/kvm', os.R_OK \| os.W_OK)
	same_arch = \
	(self._target_cpu == 'arm64' and platform.machine() == 'aarch64') or \
	(self._target_cpu == 'x64' and platform.machine() == 'x86_64')
	if kvm_supported and same_arch:
	return True
	elif self._require_kvm:
	if same_arch:
	if not os.path.exists('/dev/kvm'):
	kvm_error = 'File /dev/kvm does not exist. Please install KVM first.'
	else:
	kvm_error = 'To use KVM acceleration, add user to the kvm group '\
	'with "sudo usermod -a -G kvm $USER". Log out and back '\
	'in for the change to take effect.'
	raise FuchsiaTargetException(kvm_error)
	else:
	raise FuchsiaTargetException('KVM unavailable when CPU architecture '\
	'of host is different from that of'\
	' target. See --allow-no-kvm.')
	else:
	return False

	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._out_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._out_dir,
	self._GetTargetSdkArch()),
	'-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',
	])
	else:
	emu_command.extend([
	'-machine', 'q35',
	])

	# Configure virtual network. It is used in the tests to connect to
	# testserver running on the host.
	netdev_type = 'virtio-net-pci'
	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,+invtsc')
	else:
	logging.warning('Unable to launch %s with KVM acceleration. '
	'The guest VM will be slow.' % (self.EMULATOR_NAME))
	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._out_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 _BuildCommand(self):
	if self._target_cpu == 'arm64':
	qemu_exec = 'qemu-system-' + 'aarch64'
	elif self._target_cpu == 'x64':
	qemu_exec = 'qemu-system-' + 'x86_64'
	else:
	raise Exception('Unknown target_cpu %s:' % self._target_cpu)

	qemu_command = [
	os.path.join(GetEmuRootForPlatform(self.EMULATOR_NAME), 'bin',
	qemu_exec)
	]
	qemu_command.extend(self._BuildQemuConfig())
	qemu_command.append('-nographic')
	return qemu_command

	def _ComputeFileHash(filename):
	hasher = hashlib.md5()
	with open(filename, 'rb') as f:
	buf = f.read(4096)
	while buf:
	hasher.update(buf)
	buf = f.read(4096)

	return hasher.hexdigest()


	def _EnsureBlobstoreQcowAndReturnPath(out_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(out_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(out_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