client/bin/kernel.py - platform/external/autotest - Gitiles

 __author__ = """Copyright Martin J. Bligh, 2006"""

 import os,os.path,shutil,urllib,copy,pickle,re,glob,time
 from autotest_utils import *
 import kernel_config, test, os_dep

 class kernel:
 	""" Class for compiling kernels.

 	Data for the object includes the src files
 	used to create the kernel, patches applied, config (base + changes),
 	the build directory itself, and logged output

 	Properties:
 		job
 			Backpointer to the job object we're part of
 		autodir
 			Path to the top level autotest dir (/usr/local/autotest)
 		src_dir
 			<tmp_dir>/src/
 		build_dir
 			<tmp_dir>/linux/
 		config_dir
 			<results_dir>/config/
 		log_dir
 			<results_dir>/debug/
 		results_dir
 			<results_dir>/results/
 	"""

 	autodir = ''

 	def __init__(self, job, base_tree, results_dir, tmp_dir, build_dir, leave = False):
 		"""Initialize the kernel build environment

 		job
 			which job this build is part of
 		base_tree
 			base kernel tree. Can be one of the following:
 				1. A local tarball
 				2. A URL to a tarball
 				3. A local directory (will symlink it)
 				4. A shorthand expandable (eg '2.6.11-git3')
 		results_dir
 			Results directory (holds config/, debug/, results/)
 		tmp_dir

 		leave
 			Boolean, whether to leave existing tmpdir or not
 		"""
 		self.job = job
 		self.autodir = job.autodir

 		self.src_dir    = os.path.join(tmp_dir, 'src')
 		self.build_dir  = os.path.join(tmp_dir, build_dir)
 			# created by get_kernel_tree
 		self.config_dir = os.path.join(results_dir, 'config')
 		self.log_dir    = os.path.join(results_dir, 'debug')
 		self.results_dir = os.path.join(results_dir, 'results')

 		if not leave:
 			if os.path.isdir(self.src_dir):
 				system('rm -rf ' + self.src_dir)
 			if os.path.isdir(self.build_dir):
 				system('rm -rf ' + self.build_dir)

 		os.mkdir(self.src_dir)
 		for path in [self.config_dir, self.log_dir, self.results_dir]:
 			if os.path.exists(path):
 				system('rm -rf ' + path)
 			os.mkdir(path)

 		logpath = os.path.join(self.log_dir, 'build_log')
 		self.logfile = open(logpath, 'w+')

 		self.target_arch = None
 		self.build_target = 'bzImage'
 		self.build_image = None

 		if get_current_kernel_arch() == 'ia64':
 			self.build_target = 'all'
 			self.build_image = 'vmlinux.gz'

 		if leave:
 			return

 		self.logfile.write('BASE: %s\n' % base_tree)

 		# Where we have direct version hint record that
 		# for later configuration selection.
 		shorthand = re.compile(r'^\d+\.\d+\.\d+')
 		if shorthand.match(base_tree):
 			self.base_tree_version = base_tree
 		else:
 			self.base_tree_version = None

 		if os.path.exists(base_tree):
 			self.get_kernel_tree(base_tree)
 		else:
 			args = self.job.config_get('mirror.ftp_kernel_org')
 			if args:
 				args = '-l ' + args
 			base_components = kernelexpand(base_tree, args)
 			print 'kernelexpand: '
 			print base_components
 			self.get_kernel_tree(base_components.pop(0))
 			if base_components:      # apply remaining patches
 				self.patch(*base_components)


 	def __record(self, fn, name, *args, **dargs):
 		try:
 			fn(*args, **dargs)
 			self.job.record("GOOD " + name + \
 						" completed successfully\n")
 		except Exception, detail:
 			self.job.record("FAIL " + name + \
 						detail.__str__() + "\n")
 			raise


 	def _patch(self, *patches):
 		"""Apply a list of patches (in order)"""
 		if not patches:
 			return
 	#	if isinstance(patches, basestring):
 	#		patches = [patches]
 		print 'Applying patches: ', patches
 		# self.job.stdout.redirect(os.path.join(self.log_dir, 'stdout'))
 		self.apply_patches(self.get_patches(patches))
 		# self.job.stdout.restore()


 	def patch(self, *args, **dargs):
 		self.__record(self._patch, "kernel.patch", *args, **dargs)


 	def _config(self, config_file = '', config_list = None,
 							defconfig = False):
 		self.job.stdout.redirect(os.path.join(self.log_dir, 'stdout'))
 		self.set_cross_cc()
 		config = kernel_config.kernel_config(self.job, self.build_dir,
 			 self.config_dir, config_file, config_list,
 			 defconfig, self.base_tree_version)
 		self.job.stdout.restore()


 	def config(self, *args, **dargs):
 		self.__record(self._config, "kernel.config", *args, **dargs)


 	def get_patches(self, patches):
 		"""fetch the patches to the local src_dir"""
 		local_patches = []
 		for patch in patches:
 			dest = os.path.join(self.src_dir, basename(patch))
 			# FIXME: this isn't unique. Append something to it
 			# like wget does if it's not there?
 			print "get_file %s %s %s %s" % (patch, dest, self.src_dir, basename(patch))
 			get_file(patch, dest)
 			# probably safer to use the command, not python library
 			md5sum = system_output('md5sum ' + dest).split()[0]
 			local_patches.append((patch, dest, md5sum))
 		return local_patches


 	def apply_patches(self, local_patches):
 		"""apply the list of patches, in order"""
 		builddir = self.build_dir
 		os.chdir(builddir)

 		if not local_patches:
 			return None
 		for (spec, local, md5sum) in local_patches:
 			if local.endswith('.bz2') or local.endswith('.gz'):
 				ref = spec
 			else:
 				ref = force_copy(local, self.results_dir)
 				ref = self.job.relative_path(ref)
 			log = 'PATCH: %s %s %s\n' % (spec, ref, md5sum)
 			print log
 			cat_file_to_cmd(local, 'patch -p1 > /dev/null')
 			self.logfile.write(log)


 	def get_kernel_tree(self, base_tree):
 		"""Extract/link base_tree to self.build_dir"""

 		# if base_tree is a dir, assume uncompressed kernel
 		if os.path.isdir(base_tree):
 			print 'Symlinking existing kernel source'
 			os.symlink(base_tree, self.build_dir)

 		# otherwise, extract tarball
 		else:
 			os.chdir(os.path.dirname(self.src_dir))
 			# Figure out local destination for tarball
 			tarball = os.path.join(self.src_dir, os.path.basename(base_tree))
 			get_file(base_tree, tarball)
 			print 'Extracting kernel tarball:', tarball, '...'
 			extract_tarball_to_dir(tarball, self.build_dir)


 	def extraversion(self, tag, append=1):
 		os.chdir(self.build_dir)
 		extraversion_sub = r's/^EXTRAVERSION =\s*\(.*\)/EXTRAVERSION = '
 		if append:
 			p = extraversion_sub + '\\1-%s/' % tag
 		else:
 			p = extraversion_sub + '-%s/' % tag
 		system('mv Makefile Makefile.old')
 		system('sed "%s" < Makefile.old > Makefile' % p)


 	def _build(self, make_opts = '', logfile = '', extraversion='autotest'):
 		"""build the kernel

 		make_opts
 			additional options to make, if any
 		"""
 		os_dep.commands('gcc', 'make')
 		if logfile == '':
 			logfile = os.path.join(self.log_dir, 'kernel_build')
 		os.chdir(self.build_dir)
 		if extraversion:
 			self.extraversion(extraversion)
 		print os.path.join(self.log_dir, 'stdout')
 		self.job.stdout.redirect(logfile + '.stdout')
 		self.job.stderr.redirect(logfile + '.stderr')
 		self.set_cross_cc()
 		# setup_config_file(config_file, config_overrides)

 		# Not needed on 2.6, but hard to tell -- handle failure
 		system('make dep', ignorestatus=1)
 		threads = 2 * count_cpus()
 		build_string = 'make -j %d %s %s' % (threads, make_opts,
 					     self.build_target)
 					# eg make bzImage, or make zImage
 		print build_string
 		system(build_string)
 		if kernel_config.modules_needed('.config'):
 			system('make -j %d modules' % (threads))

 		self.job.stdout.restore()
 		self.job.stderr.restore()

 		kernel_version = self.get_kernel_build_ver()
 		kernel_version = re.sub('-autotest', '', kernel_version)
 		self.logfile.write('BUILD VERSION: %s\n' % kernel_version)

 		force_copy(self.build_dir+'/System.map', self.results_dir)


 	def build(self, *args, **dargs):
 		self.__record(self._build, "kernel.build", *args, **dargs)


 	def build_timed(self, threads, timefile = '/dev/null', make_opts = ''):
 		"""time the bulding of the kernel"""
 		os.chdir(self.build_dir)
 		self.set_cross_cc()
 		print "make clean"
 		system('make clean')
 		build_string = "/usr/bin/time -o %s make %s -j %s vmlinux" % (timefile, make_opts, threads)
 		print build_string
 		system(build_string)
 		if (not os.path.isfile('vmlinux')):
 			raise TestError("no vmlinux found, kernel build failed")


 	def _clean(self):
 		"""make clean in the kernel tree"""
 		os.chdir(self.build_dir)
 		print "make clean"
 		system('make clean')


 	def clean(self, *args, **dargs):
 		self.__record(self._clean, "kernel.clean", *args, **dargs)


 	def _mkinitrd(self, version, image, system_map, initrd):
 		"""Build kernel initrd image.
 		Try to use distro specific way to build initrd image.
 		Parameters:
 			version
 				new kernel version
 			image
 				new kernel image file
 			system_map
 				System.map file
 			initrd
 				initrd image file to build
 		"""
 		vendor = get_os_vendor()

 		if os.path.isfile(initrd):
 			print "Existing %s file, will remove it." % initrd
 			os.remove(initrd)

 		if vendor in ['Red Hat', 'Fedora Core']:
 			system('mkinitrd %s %s' % (initrd, version))
 		elif vendor in ['SUSE']:
 			system('mkinitrd -k %s -i %s -M %s' % (image, initrd, system_map))
 		elif vendor in ['Debian', 'Ubuntu']:
 			if os.path.isfile('/usr/sbin/mkinitrd'):
 				cmd = '/usr/sbin/mkinitrd'
 			elif os.path.isfile('/usr/sbin/mkinitramfs'):
 				cmd = '/usr/sbin/mkinitramfs'
 			else:
 				raise TestError('No Debian initrd builder')
 			system('%s -o %s %s' % (cmd, initrd, version))
 		else:
 			raise TestError('Unsupported vendor %s' % vendor)


 	def mkinitrd(self, *args, **dargs):
 		self.__record(self._mkinitrd, "kernel.mkinitrd", *args, **dargs)


 	def set_build_image(self, image):
 		self.build_image = image


 	def _install(self, tag='autotest', prefix = '/'):
 		"""make install in the kernel tree"""
 		os.chdir(self.build_dir)

 		if not os.path.isdir(prefix):
 			os.mkdir(prefix)
 		self.boot_dir = os.path.join(prefix, 'boot')
 		if not os.path.isdir(self.boot_dir):
 			os.mkdir(self.boot_dir)

 		if not self.build_image:
 			images = glob.glob('arch/*/boot/' + self.build_target)
 			if len(images):
 				self.build_image = images[0]
 			else:
 				self.build_image = self.build_target

 		# remember installed files
 		self.vmlinux = self.boot_dir + '/vmlinux-' + tag
 		if (self.build_image != 'vmlinux'):
 			self.image = self.boot_dir + '/vmlinuz-' + tag
 		else:
 			self.image = self.vmlinux
 		self.system_map = self.boot_dir + '/System.map-' + tag
 		self.config = self.boot_dir + '/config-' + tag
 		self.initrd = ''

 		# copy to boot dir
 		force_copy('vmlinux', self.vmlinux)
 		if (self.build_image != 'vmlinux'):
 			force_copy(self.build_image, self.image)
 		force_copy('System.map', self.system_map)
 		force_copy('.config', self.config)

 		if not kernel_config.modules_needed('.config'):
 			return

 		system('make modules_install INSTALL_MOD_PATH=%s' % prefix)
 		if prefix == '/':
 			self.initrd = self.boot_dir + '/initrd-' + tag
 			self.mkinitrd(self.get_kernel_build_ver(), self.image, \
 						  self.system_map, self.initrd)


 	def install(self, *args, **dargs):
 		self.__record(self._install, "kernel.install", *args, **dargs)


 	def add_to_bootloader(self, tag='autotest', args=''):
 		""" add this kernel to bootloader, taking an
 		    optional parameter of space separated parameters
 		    e.g.:  kernel.add_to_bootloader('mykernel', 'ro acpi=off')
 		"""

 		# remove existing entry if present
 		self.job.bootloader.remove_kernel(tag)

 		# pull the base argument set from the job config,
 		baseargs = self.job.config_get('boot.default_args')
 		if baseargs:
 			args = baseargs + " " + args

 		# otherwise populate from /proc/cmdline
 		# if not baseargs:
 		#	baseargs = open('/proc/cmdline', 'r').readline().strip()
 		# NOTE: This is unnecessary, because boottool does it.

 		root = None
 		roots = [x for x in args.split() if x.startswith('root=')]
 		if roots:
 			root = re.sub('^root=', '', roots[0])
 		arglist = [x for x in args.split() if not x.startswith('root=')]
 		args = ' '.join(arglist)

 		# add the kernel entry
 		# add_kernel(image, title='autotest', initrd='')
 		self.job.bootloader.add_kernel(self.image, tag, self.initrd, \
 						args = args, root = root)


 	def get_kernel_build_arch(self, arch=None):
 		"""
 		Work out the current kernel architecture (as a kernel arch)
 		"""
 		if not arch:
 			arch = get_current_kernel_arch()
 		if re.match('i.86', arch):
 			return 'i386'
 		elif re.match('sun4u', arch):
 			return 'sparc64'
 		elif re.match('arm.*', arch):
 			return 'arm'
 		elif re.match('sa110', arch):
 			return 'arm'
 		elif re.match('s390x', arch):
 			return 's390'
 		elif re.match('parisc64', arch):
 			return 'parisc'
 		elif re.match('ppc.*', arch):
 			return 'powerpc'
 		elif re.match('mips.*', arch):
 			return 'mips'
 		else:
 			return arch


 	def get_kernel_build_release(self):
 		releasem = re.compile(r'.*UTS_RELEASE\s+"([^"]+)".*');
 		versionm = re.compile(r'.*UTS_VERSION\s+"([^"]+)".*');

 		release = None
 		version = None

 		for file in [ self.build_dir + "/include/linux/version.h",
 			      self.build_dir + "/include/linux/utsrelease.h",
 			      self.build_dir + "/include/linux/compile.h" ]:
 			if os.path.exists(file):
 				fd = open(file, 'r')
 				for line in fd.readlines():
 					m = releasem.match(line)
 					if m:
 						release = m.groups()[0]
 					m = versionm.match(line)
 					if m:
 						version = m.groups()[0]
 				fd.close()

 		return (release, version)


 	def get_kernel_build_ident(self):
 		(release, version) = self.get_kernel_build_release()

 		if not release or not version:
 			raise JobError('kernel has no identity')

 		return release + '::' + version


 	def boot(self, args='', once=True, ident=1):
 		""" install and boot this kernel, do not care how
 		    just make it happen.
 		"""

 		# If we can check the kernel identity do so.
 		if ident:
 			when = int(time.time())
 			ident = self.get_kernel_build_ident()
 			args += " IDENT=%d" % (when)

 			self.job.next_step_prepend([kernel_check_ident,
 								when, ident])

 		# Install this kernel.
 		self.install()
 		self.add_to_bootloader(args=args, tag='autotest')
 		if once:
 			self.job.bootloader.boot_once('autotest')

 		# Boot it.
 		self.job.reboot()


 	def get_kernel_build_ver(self):
 		"""Check Makefile and .config to return kernel version"""
 		version = patchlevel = sublevel = extraversion = localversion = ''

 		for line in open(self.build_dir + '/Makefile', 'r').readlines():
 			if line.startswith('VERSION'):
 				version = line[line.index('=') + 1:].strip()
 			if line.startswith('PATCHLEVEL'):
 				patchlevel = line[line.index('=') + 1:].strip()
 			if line.startswith('SUBLEVEL'):
 				sublevel = line[line.index('=') + 1:].strip()
 			if line.startswith('EXTRAVERSION'):
 				extraversion = line[line.index('=') + 1:].strip()

 		for line in open(self.build_dir + '/.config', 'r').readlines():
 			if line.startswith('CONFIG_LOCALVERSION='):
 				localversion = line.rstrip().split('"')[1]

 		return "%s.%s.%s%s%s" %(version, patchlevel, sublevel, extraversion, localversion)


 	def set_build_target(self, build_target):
 		if build_target:
 			self.build_target = build_target
 			print 'BUILD TARGET: %s' % self.build_target


 	def set_cross_cc(self, target_arch=None, cross_compile=None,
 			 build_target='bzImage'):
 		"""Set up to cross-compile.
 			This is broken. We need to work out what the default
 			compile produces, and if not, THEN set the cross
 			compiler.
 		"""

 		if self.target_arch:
 			return

 		# if someone has set build_target, don't clobber in set_cross_cc
 		# run set_build_target before calling set_cross_cc
 		if not self.build_target:
 			self.set_build_target(build_target)

 		# If no 'target_arch' given assume native compilation
 		if target_arch == None:
 			target_arch = get_current_kernel_arch()
 			if target_arch == 'ppc64':
 				if self.build_target == 'bzImage':
 					self.build_target = 'vmlinux'

 		if not cross_compile:
 			cross_compile = self.job.config_get('kernel.cross_cc')

 		if cross_compile:
 			os.environ['CROSS_COMPILE'] = cross_compile
 		else:
 			if os.environ.has_key('CROSS_COMPILE'):
 				del os.environ['CROSS_COMPILE']

 		return                 # HACK. Crap out for now.

 		# At this point I know what arch I *want* to build for
 		# but have no way of working out what arch the default
 		# compiler DOES build for.

 		# Oh, and BTW, install_package() doesn't exist yet.

 		if target_arch == 'ppc64':
 			install_package('ppc64-cross')
 			cross_compile = os.path.join(self.autodir, 'sources/ppc64-cross/bin')

 		elif target_arch == 'x86_64':
 			install_package('x86_64-cross')
 			cross_compile = os.path.join(self.autodir, 'sources/x86_64-cross/bin')

 		os.environ['ARCH'] = self.target_arch = target_arch

 		self.cross_compile = cross_compile
 		if self.cross_compile:
 			os.environ['CROSS_COMPILE'] = self.cross_compile


 	def pickle_dump(self, filename):
 		"""dump a pickle of ourself out to the specified filename

 		we can't pickle the backreference to job (it contains fd's),
 		nor would we want to. Same for logfile (fd's).
 		"""
 		temp = copy.copy(self)
 		temp.job = None
 		temp.logfile = None
 		pickle.dump(temp, open(filename, 'w'))
	__author__ = """Copyright Martin J. Bligh, 2006"""

	import os,os.path,shutil,urllib,copy,pickle,re,glob,time
	from autotest_utils import *
	import kernel_config, test, os_dep

	class kernel:
	""" Class for compiling kernels.

	Data for the object includes the src files
	used to create the kernel, patches applied, config (base + changes),
	the build directory itself, and logged output

	Properties:
	job
	Backpointer to the job object we're part of
	autodir
	Path to the top level autotest dir (/usr/local/autotest)
	src_dir
	<tmp_dir>/src/
	build_dir
	<tmp_dir>/linux/
	config_dir
	<results_dir>/config/
	log_dir
	<results_dir>/debug/
	results_dir
	<results_dir>/results/
	"""

	autodir = ''

	def __init__(self, job, base_tree, results_dir, tmp_dir, build_dir, leave = False):
	"""Initialize the kernel build environment

	job
	which job this build is part of
	base_tree
	base kernel tree. Can be one of the following:
	1. A local tarball
	2. A URL to a tarball
	3. A local directory (will symlink it)
	4. A shorthand expandable (eg '2.6.11-git3')
	results_dir
	Results directory (holds config/, debug/, results/)
	tmp_dir

	leave
	Boolean, whether to leave existing tmpdir or not
	"""
	self.job = job
	self.autodir = job.autodir

	self.src_dir = os.path.join(tmp_dir, 'src')
	self.build_dir = os.path.join(tmp_dir, build_dir)
	# created by get_kernel_tree
	self.config_dir = os.path.join(results_dir, 'config')
	self.log_dir = os.path.join(results_dir, 'debug')
	self.results_dir = os.path.join(results_dir, 'results')

	if not leave:
	if os.path.isdir(self.src_dir):
	system('rm -rf ' + self.src_dir)
	if os.path.isdir(self.build_dir):
	system('rm -rf ' + self.build_dir)

	os.mkdir(self.src_dir)
	for path in [self.config_dir, self.log_dir, self.results_dir]:
	if os.path.exists(path):
	system('rm -rf ' + path)
	os.mkdir(path)

	logpath = os.path.join(self.log_dir, 'build_log')
	self.logfile = open(logpath, 'w+')

	self.target_arch = None
	self.build_target = 'bzImage'
	self.build_image = None

	if get_current_kernel_arch() == 'ia64':
	self.build_target = 'all'
	self.build_image = 'vmlinux.gz'

	if leave:
	return

	self.logfile.write('BASE: %s\n' % base_tree)

	# Where we have direct version hint record that
	# for later configuration selection.
	shorthand = re.compile(r'^\d+\.\d+\.\d+')
	if shorthand.match(base_tree):
	self.base_tree_version = base_tree
	else:
	self.base_tree_version = None

	if os.path.exists(base_tree):
	self.get_kernel_tree(base_tree)
	else:
	args = self.job.config_get('mirror.ftp_kernel_org')
	if args:
	args = '-l ' + args
	base_components = kernelexpand(base_tree, args)
	print 'kernelexpand: '
	print base_components
	self.get_kernel_tree(base_components.pop(0))
	if base_components: # apply remaining patches
	self.patch(*base_components)


	def __record(self, fn, name, args, *dargs):
	try:
	fn(args, *dargs)
	self.job.record("GOOD " + name + \
	" completed successfully\n")
	except Exception, detail:
	self.job.record("FAIL " + name + \
	detail.__str__() + "\n")
	raise


	def _patch(self, *patches):
	"""Apply a list of patches (in order)"""
	if not patches:
	return
	# if isinstance(patches, basestring):
	# patches = [patches]
	print 'Applying patches: ', patches
	# self.job.stdout.redirect(os.path.join(self.log_dir, 'stdout'))
	self.apply_patches(self.get_patches(patches))
	# self.job.stdout.restore()


	def patch(self, args, *dargs):
	self.__record(self._patch, "kernel.patch", args, *dargs)


	def _config(self, config_file = '', config_list = None,
	defconfig = False):
	self.job.stdout.redirect(os.path.join(self.log_dir, 'stdout'))
	self.set_cross_cc()
	config = kernel_config.kernel_config(self.job, self.build_dir,
	self.config_dir, config_file, config_list,
	defconfig, self.base_tree_version)
	self.job.stdout.restore()


	def config(self, args, *dargs):
	self.__record(self._config, "kernel.config", args, *dargs)


	def get_patches(self, patches):
	"""fetch the patches to the local src_dir"""
	local_patches = []
	for patch in patches:
	dest = os.path.join(self.src_dir, basename(patch))
	# FIXME: this isn't unique. Append something to it
	# like wget does if it's not there?
	print "get_file %s %s %s %s" % (patch, dest, self.src_dir, basename(patch))
	get_file(patch, dest)
	# probably safer to use the command, not python library
	md5sum = system_output('md5sum ' + dest).split()[0]
	local_patches.append((patch, dest, md5sum))
	return local_patches


	def apply_patches(self, local_patches):
	"""apply the list of patches, in order"""
	builddir = self.build_dir
	os.chdir(builddir)

	if not local_patches:
	return None
	for (spec, local, md5sum) in local_patches:
	if local.endswith('.bz2') or local.endswith('.gz'):
	ref = spec
	else:
	ref = force_copy(local, self.results_dir)
	ref = self.job.relative_path(ref)
	log = 'PATCH: %s %s %s\n' % (spec, ref, md5sum)
	print log
	cat_file_to_cmd(local, 'patch -p1 > /dev/null')
	self.logfile.write(log)


	def get_kernel_tree(self, base_tree):
	"""Extract/link base_tree to self.build_dir"""

	# if base_tree is a dir, assume uncompressed kernel
	if os.path.isdir(base_tree):
	print 'Symlinking existing kernel source'
	os.symlink(base_tree, self.build_dir)

	# otherwise, extract tarball
	else:
	os.chdir(os.path.dirname(self.src_dir))
	# Figure out local destination for tarball
	tarball = os.path.join(self.src_dir, os.path.basename(base_tree))
	get_file(base_tree, tarball)
	print 'Extracting kernel tarball:', tarball, '...'
	extract_tarball_to_dir(tarball, self.build_dir)


	def extraversion(self, tag, append=1):
	os.chdir(self.build_dir)
	extraversion_sub = r's/^EXTRAVERSION =\s\(.\)/EXTRAVERSION = '
	if append:
	p = extraversion_sub + '\\1-%s/' % tag
	else:
	p = extraversion_sub + '-%s/' % tag
	system('mv Makefile Makefile.old')
	system('sed "%s" < Makefile.old > Makefile' % p)


	def _build(self, make_opts = '', logfile = '', extraversion='autotest'):
	"""build the kernel

	make_opts
	additional options to make, if any
	"""
	os_dep.commands('gcc', 'make')
	if logfile == '':
	logfile = os.path.join(self.log_dir, 'kernel_build')
	os.chdir(self.build_dir)
	if extraversion:
	self.extraversion(extraversion)
	print os.path.join(self.log_dir, 'stdout')
	self.job.stdout.redirect(logfile + '.stdout')
	self.job.stderr.redirect(logfile + '.stderr')
	self.set_cross_cc()
	# setup_config_file(config_file, config_overrides)

	# Not needed on 2.6, but hard to tell -- handle failure
	system('make dep', ignorestatus=1)
	threads = 2 * count_cpus()
	build_string = 'make -j %d %s %s' % (threads, make_opts,
	self.build_target)
	# eg make bzImage, or make zImage
	print build_string
	system(build_string)
	if kernel_config.modules_needed('.config'):
	system('make -j %d modules' % (threads))

	self.job.stdout.restore()
	self.job.stderr.restore()

	kernel_version = self.get_kernel_build_ver()
	kernel_version = re.sub('-autotest', '', kernel_version)
	self.logfile.write('BUILD VERSION: %s\n' % kernel_version)

	force_copy(self.build_dir+'/System.map', self.results_dir)


	def build(self, args, *dargs):
	self.__record(self._build, "kernel.build", args, *dargs)


	def build_timed(self, threads, timefile = '/dev/null', make_opts = ''):
	"""time the bulding of the kernel"""
	os.chdir(self.build_dir)
	self.set_cross_cc()
	print "make clean"
	system('make clean')
	build_string = "/usr/bin/time -o %s make %s -j %s vmlinux" % (timefile, make_opts, threads)
	print build_string
	system(build_string)
	if (not os.path.isfile('vmlinux')):
	raise TestError("no vmlinux found, kernel build failed")


	def _clean(self):
	"""make clean in the kernel tree"""
	os.chdir(self.build_dir)
	print "make clean"
	system('make clean')


	def clean(self, args, *dargs):
	self.__record(self._clean, "kernel.clean", args, *dargs)


	def _mkinitrd(self, version, image, system_map, initrd):
	"""Build kernel initrd image.
	Try to use distro specific way to build initrd image.
	Parameters:
	version
	new kernel version
	image
	new kernel image file
	system_map
	System.map file
	initrd
	initrd image file to build
	"""
	vendor = get_os_vendor()

	if os.path.isfile(initrd):
	print "Existing %s file, will remove it." % initrd
	os.remove(initrd)

	if vendor in ['Red Hat', 'Fedora Core']:
	system('mkinitrd %s %s' % (initrd, version))
	elif vendor in ['SUSE']:
	system('mkinitrd -k %s -i %s -M %s' % (image, initrd, system_map))
	elif vendor in ['Debian', 'Ubuntu']:
	if os.path.isfile('/usr/sbin/mkinitrd'):
	cmd = '/usr/sbin/mkinitrd'
	elif os.path.isfile('/usr/sbin/mkinitramfs'):
	cmd = '/usr/sbin/mkinitramfs'
	else:
	raise TestError('No Debian initrd builder')
	system('%s -o %s %s' % (cmd, initrd, version))
	else:
	raise TestError('Unsupported vendor %s' % vendor)


	def mkinitrd(self, args, *dargs):
	self.__record(self._mkinitrd, "kernel.mkinitrd", args, *dargs)


	def set_build_image(self, image):
	self.build_image = image


	def _install(self, tag='autotest', prefix = '/'):
	"""make install in the kernel tree"""
	os.chdir(self.build_dir)

	if not os.path.isdir(prefix):
	os.mkdir(prefix)
	self.boot_dir = os.path.join(prefix, 'boot')
	if not os.path.isdir(self.boot_dir):
	os.mkdir(self.boot_dir)

	if not self.build_image:
	images = glob.glob('arch/*/boot/' + self.build_target)
	if len(images):
	self.build_image = images[0]
	else:
	self.build_image = self.build_target

	# remember installed files
	self.vmlinux = self.boot_dir + '/vmlinux-' + tag
	if (self.build_image != 'vmlinux'):
	self.image = self.boot_dir + '/vmlinuz-' + tag
	else:
	self.image = self.vmlinux
	self.system_map = self.boot_dir + '/System.map-' + tag
	self.config = self.boot_dir + '/config-' + tag
	self.initrd = ''

	# copy to boot dir
	force_copy('vmlinux', self.vmlinux)
	if (self.build_image != 'vmlinux'):
	force_copy(self.build_image, self.image)
	force_copy('System.map', self.system_map)
	force_copy('.config', self.config)

	if not kernel_config.modules_needed('.config'):
	return

	system('make modules_install INSTALL_MOD_PATH=%s' % prefix)
	if prefix == '/':
	self.initrd = self.boot_dir + '/initrd-' + tag
	self.mkinitrd(self.get_kernel_build_ver(), self.image, \
	self.system_map, self.initrd)


	def install(self, args, *dargs):
	self.__record(self._install, "kernel.install", args, *dargs)


	def add_to_bootloader(self, tag='autotest', args=''):
	""" add this kernel to bootloader, taking an
	optional parameter of space separated parameters
	e.g.: kernel.add_to_bootloader('mykernel', 'ro acpi=off')
	"""

	# remove existing entry if present
	self.job.bootloader.remove_kernel(tag)

	# pull the base argument set from the job config,
	baseargs = self.job.config_get('boot.default_args')
	if baseargs:
	args = baseargs + " " + args

	# otherwise populate from /proc/cmdline
	# if not baseargs:
	# baseargs = open('/proc/cmdline', 'r').readline().strip()
	# NOTE: This is unnecessary, because boottool does it.

	root = None
	roots = [x for x in args.split() if x.startswith('root=')]
	if roots:
	root = re.sub('^root=', '', roots[0])
	arglist = [x for x in args.split() if not x.startswith('root=')]
	args = ' '.join(arglist)

	# add the kernel entry
	# add_kernel(image, title='autotest', initrd='')
	self.job.bootloader.add_kernel(self.image, tag, self.initrd, \
	args = args, root = root)


	def get_kernel_build_arch(self, arch=None):
	"""
	Work out the current kernel architecture (as a kernel arch)
	"""
	if not arch:
	arch = get_current_kernel_arch()
	if re.match('i.86', arch):
	return 'i386'
	elif re.match('sun4u', arch):
	return 'sparc64'
	elif re.match('arm.*', arch):
	return 'arm'
	elif re.match('sa110', arch):
	return 'arm'
	elif re.match('s390x', arch):
	return 's390'
	elif re.match('parisc64', arch):
	return 'parisc'
	elif re.match('ppc.*', arch):
	return 'powerpc'
	elif re.match('mips.*', arch):
	return 'mips'
	else:
	return arch


	def get_kernel_build_release(self):
	releasem = re.compile(r'.UTS_RELEASE\s+"([^"]+)".');
	versionm = re.compile(r'.UTS_VERSION\s+"([^"]+)".');

	release = None
	version = None

	for file in [ self.build_dir + "/include/linux/version.h",
	self.build_dir + "/include/linux/utsrelease.h",
	self.build_dir + "/include/linux/compile.h" ]:
	if os.path.exists(file):
	fd = open(file, 'r')
	for line in fd.readlines():
	m = releasem.match(line)
	if m:
	release = m.groups()[0]
	m = versionm.match(line)
	if m:
	version = m.groups()[0]
	fd.close()

	return (release, version)


	def get_kernel_build_ident(self):
	(release, version) = self.get_kernel_build_release()

	if not release or not version:
	raise JobError('kernel has no identity')

	return release + '::' + version


	def boot(self, args='', once=True, ident=1):
	""" install and boot this kernel, do not care how
	just make it happen.
	"""

	# If we can check the kernel identity do so.
	if ident:
	when = int(time.time())
	ident = self.get_kernel_build_ident()
	args += " IDENT=%d" % (when)

	self.job.next_step_prepend([kernel_check_ident,
	when, ident])

	# Install this kernel.
	self.install()
	self.add_to_bootloader(args=args, tag='autotest')
	if once:
	self.job.bootloader.boot_once('autotest')

	# Boot it.
	self.job.reboot()


	def get_kernel_build_ver(self):
	"""Check Makefile and .config to return kernel version"""
	version = patchlevel = sublevel = extraversion = localversion = ''

	for line in open(self.build_dir + '/Makefile', 'r').readlines():
	if line.startswith('VERSION'):
	version = line[line.index('=') + 1:].strip()
	if line.startswith('PATCHLEVEL'):
	patchlevel = line[line.index('=') + 1:].strip()
	if line.startswith('SUBLEVEL'):
	sublevel = line[line.index('=') + 1:].strip()
	if line.startswith('EXTRAVERSION'):
	extraversion = line[line.index('=') + 1:].strip()

	for line in open(self.build_dir + '/.config', 'r').readlines():
	if line.startswith('CONFIG_LOCALVERSION='):
	localversion = line.rstrip().split('"')[1]

	return "%s.%s.%s%s%s" %(version, patchlevel, sublevel, extraversion, localversion)


	def set_build_target(self, build_target):
	if build_target:
	self.build_target = build_target
	print 'BUILD TARGET: %s' % self.build_target


	def set_cross_cc(self, target_arch=None, cross_compile=None,
	build_target='bzImage'):
	"""Set up to cross-compile.
	This is broken. We need to work out what the default
	compile produces, and if not, THEN set the cross
	compiler.
	"""

	if self.target_arch:
	return

	# if someone has set build_target, don't clobber in set_cross_cc
	# run set_build_target before calling set_cross_cc
	if not self.build_target:
	self.set_build_target(build_target)

	# If no 'target_arch' given assume native compilation
	if target_arch == None:
	target_arch = get_current_kernel_arch()
	if target_arch == 'ppc64':
	if self.build_target == 'bzImage':
	self.build_target = 'vmlinux'

	if not cross_compile:
	cross_compile = self.job.config_get('kernel.cross_cc')

	if cross_compile:
	os.environ['CROSS_COMPILE'] = cross_compile
	else:
	if os.environ.has_key('CROSS_COMPILE'):
	del os.environ['CROSS_COMPILE']

	return # HACK. Crap out for now.

	# At this point I know what arch I want to build for
	# but have no way of working out what arch the default
	# compiler DOES build for.

	# Oh, and BTW, install_package() doesn't exist yet.

	if target_arch == 'ppc64':
	install_package('ppc64-cross')
	cross_compile = os.path.join(self.autodir, 'sources/ppc64-cross/bin')

	elif target_arch == 'x86_64':
	install_package('x86_64-cross')
	cross_compile = os.path.join(self.autodir, 'sources/x86_64-cross/bin')

	os.environ['ARCH'] = self.target_arch = target_arch

	self.cross_compile = cross_compile
	if self.cross_compile:
	os.environ['CROSS_COMPILE'] = self.cross_compile


	def pickle_dump(self, filename):
	"""dump a pickle of ourself out to the specified filename

	we can't pickle the backreference to job (it contains fd's),
	nor would we want to. Same for logfile (fd's).
	"""
	temp = copy.copy(self)
	temp.job = None
	temp.logfile = None
	pickle.dump(temp, open(filename, 'w'))