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

 """Convenience functions for use by tests or whomever.
 """

 import os,os.path,shutil,urllib,sys,signal,commands,pickle
 from error import *
 import re,string

 def grep(pattern, file):
 	"""
 	This is mainly to fix the return code inversion from grep
 	Also handles compressed files.

 	returns 1 if the pattern is present in the file, 0 if not.
 	"""
 	command = 'grep "%s" > /dev/null' % pattern
 	ret = cat_file_to_cmd(file, command, ignorestatus = 1)
 	return not ret


 def difflist(list1, list2):
 	"""returns items in list2 that are not in list1"""
 	diff = [];
 	for x in list2:
 		if x not in list1:
 			diff.append(x)
 	return diff


 def cat_file_to_cmd(file, command, ignorestatus = 0):
 	"""
 	equivalent to 'cat file | command' but knows to use
 	zcat or bzcat if appropriate
 	"""
 	if not os.path.isfile(file):
 		raise NameError, 'invalid file %s to cat to command %s' % file, command
 	if file.endswith('.bz2'):
 		return system('bzcat ' + file + ' | ' + command, ignorestatus)
 	elif (file.endswith('.gz') or file.endswith('.tgz')):
 		return system('zcat ' + file + ' | ' + command, ignorestatus)
 	else:
 		return system('cat ' + file + ' | ' + command, ignorestatus)


 def extract_tarball_to_dir(tarball, dir):
 	"""
 	Extract a tarball to a specified directory name instead of whatever
 	the top level of a tarball is - useful for versioned directory names, etc
 	"""
 	if os.path.exists(dir):
 		raise NameError, 'target %s already exists' % dir
 	pwd = os.getcwd()
 	os.chdir(os.path.dirname(os.path.abspath(dir)))
 	newdir = extract_tarball(tarball)
 	os.rename(newdir, dir)
 	os.chdir(pwd)


 def extract_tarball(tarball):
 	"""Returns the first found newly created directory by the tarball extraction"""
 	oldlist = os.listdir('.')
 	cat_file_to_cmd(tarball, 'tar xf -')
 	newlist = os.listdir('.')
 	newfiles = difflist(oldlist, newlist)   # what is new dir ?
 	new_dir = None
 	for newfile in newfiles:
 		if (os.path.isdir(newfile)):
 			return newfile
 	raise NameError, "extracting tarball produced no dir"


 def update_version(srcdir, new_version, install, *args, **dargs):
 	"""Make sure srcdir is version new_version

 	If not, delete it and install() the new version
 	"""
 	versionfile = srcdir + '/.version'
 	if os.path.exists(srcdir):
 		if os.path.exists(versionfile):
 			old_version = pickle.load(open(versionfile, 'r'))
 			if (old_version != new_version):
 				system('rm -rf ' + srcdir)
 		else:
 			system('rm -rf ' + srcdir)
 	if not os.path.exists(srcdir):
 		install(*args, **dargs)
 		if os.path.exists(srcdir):
 			pickle.dump(new_version, open(versionfile, 'w'))


 def is_url(path):
 	"""true if path is a url
 	"""
 	# should cope with other url types here, but we only handle http and ftp
 	if (path.startswith('http://')) or (path.startswith('ftp://')):
 		return 1
 	return 0


 def get_file(src, dest):
 	"""get a file, either from url or local"""
 	if (src == dest):      # no-op here allows clean overrides in tests
 		return
 	if (is_url(src)):
 		print 'PWD: ' + os.getcwd()
 		print 'Fetching \n\t', src, '\n\t->', dest
 		try:
 			urllib.urlretrieve(src, dest)
 		except IOError:
 			sys.stderr.write("Unable to retrieve %s (to %s)\n" % (src, dest))
 			sys.exit(1)
 		return dest
 	shutil.copyfile(src, dest)
 	return dest


 def unmap_url(srcdir, src, destdir = '.'):
 	"""
 	Receives either a path to a local file or a URL.
 	returns either the path to the local file, or the fetched URL

 	unmap_url('/usr/src', 'foo.tar', '/tmp')
 				= '/usr/src/foo.tar'
 	unmap_url('/usr/src', 'http://site/file', '/tmp')
 				= '/tmp/file'
 				(after retrieving it)
 	"""
 	if is_url(src):
 		dest = destdir + '/' + os.path.basename(src)
 		get_file(src, dest)
 		return dest
 	else:
 		return srcdir + '/' + src


 def basename(path):
 	i = path.rfind('/');
 	return path[i+1:]


 def force_copy(src, dest):
 	"""Replace dest with a new copy of src, even if it exists"""
 	if os.path.isfile(dest):
 		os.remove(dest)
 	return shutil.copyfile(src, dest)


 def force_link(src, dest):
 	"""Link src to dest, overwriting it if it exists"""
 	return system("ln -sf %s %s" % (src, dest))


 def file_contains_pattern(file, pattern):
 	"""Return true if file contains the specified egrep pattern"""
 	if not os.path.isfile(file):
 		raise NameError, 'file %s does not exist' % file
 	return not system('egrep -q "' + pattern + '" ' + file, ignorestatus = 1)


 def list_grep(list, pattern):
 	"""True if any item in list matches the specified pattern."""
 	compiled = re.compile(pattern)
 	for line in list:
 		match = compiled.search(line)
 		if (match):
 			return 1
 	return 0

 def get_os_vendor():
 	"""Try to guess what's the os vendor
 	"""
 	issue = '/etc/issue'

 	if not os.path.isfile(issue):
 		return 'Unknown'

 	if file_contains_pattern(issue, 'Red Hat'):
 		return 'Red Hat'
 	elif file_contains_pattern(issue, 'Fedora Core'):
 		return 'Fedora Core'
 	elif file_contains_pattern(issue, 'SUSE'):
 		return 'SUSE'
 	elif file_contains_pattern(issue, 'Ubuntu'):
 		return 'Ubuntu'
 	else:
 		return 'Unknown'


 def get_vmlinux():
 	"""Return the full path to vmlinux

 	Ahem. This is crap. Pray harder. Bad Martin.
 	"""
 	vmlinux = '/boot/vmlinux-%s' % system_output('uname -r')
 	if os.path.isfile(vmlinux):
 		return vmlinux
 	vmlinux = '/lib/modules/%s/build/vmlinux' % system_output('uname -r')
 	if os.path.isfile(vmlinux):
 		return vmlinux
 	return None


 def get_systemmap():
 	"""Return the full path to System.map

 	Ahem. This is crap. Pray harder. Bad Martin.
 	"""
 	map = '/boot/System.map-%s' % system_output('uname -r')
 	if os.path.isfile(map):
 		return map
 	map = '/lib/modules/%s/build/System.map' % system_output('uname -r')
 	if os.path.isfile(map):
 		return map
 	return None


 def get_modules_dir():
 	"""Return the modules dir for the running kernel version"""
 	kernel_version = system_output('uname -r')
 	return '/lib/modules/%s/kernel' % kernel_version


 def get_cpu_arch():
 	"""Work out which CPU architecture we're running on"""
 	f = open('/proc/cpuinfo', 'r')
 	cpuinfo = f.readlines()
 	f.close()
 	if list_grep(cpuinfo, '^cpu.*(RS64|POWER3|Broadband Engine)'):
 		return 'power'
 	elif list_grep(cpuinfo, '^cpu.*POWER4'):
 		return 'power4'
 	elif list_grep(cpuinfo, '^cpu.*POWER5'):
 		return 'power5'
 	elif list_grep(cpuinfo, '^cpu.*POWER6'):
 		return 'power6'
 	elif list_grep(cpuinfo, '^cpu.*PPC970'):
 		return 'power970'
 	elif list_grep(cpuinfo, 'Opteron'):
 		return 'x86_64'
 	elif list_grep(cpuinfo, 'GenuineIntel') and list_grep(cpuinfo, '48 bits virtual'):
 		return 'x86_64'
 	else:
 		return 'i386'


 def get_current_kernel_arch():
 	"""Get the machine architecture, now just a wrap of 'uname -m'."""
 	return os.popen('uname -m').read().rstrip()


 def get_file_arch(filename):
 	# -L means follow symlinks
 	file_data = system_output('file -L ' + filename)
 	if file_data.count('80386'):
 		return 'i386'
 	return None


 def kernelexpand(kernel, args=None):
 	# if not (kernel.startswith('http://') or kernel.startswith('ftp://') or os.path.isfile(kernel)):
 	if kernel.find('/') < 0:     # contains no path.
 		autodir = os.environ['AUTODIR']
 		kernelexpand = os.path.join(autodir, 'tools/kernelexpand')
 		if args:
 			kernelexpand += ' ' + args
 		w, r = os.popen2(kernelexpand + ' ' + kernel)

 		kernel = r.readline().strip()
 		r.close()
 		w.close()
 	return kernel.split()


 def count_cpus():
 	"""number of CPUs in the local machine according to /proc/cpuinfo"""
 	f = file('/proc/cpuinfo', 'r')
 	cpus = 0
 	for line in f.readlines():
 		if line.startswith('processor'):
 			cpus += 1
 	return cpus

 def system(cmd, ignorestatus = 0):
 	"""os.system replacement

 	We have our own definition of system here, as the stock os.system doesn't
 	correctly handle sigpipe
 	(ie things like "yes | head" will hang because yes doesn't get the SIGPIPE).

 	Also the stock os.system didn't raise errors based on exit status, this
 	version does unless you explicitly specify ignorestatus=1
 	"""
 	signal.signal(signal.SIGPIPE, signal.SIG_DFL)
 	try:
 		status = os.system(cmd)
 	finally:
 		signal.signal(signal.SIGPIPE, signal.SIG_IGN)

 	if ((status != 0) and not ignorestatus):
 		raise CmdError(cmd, status)
 	return status


 def system_output(command, ignorestatus = 0):
 	"""Run command and return its output

 	ignorestatus
 		whether to raise a CmdError if command has a nonzero exit status
 	"""
 	(result, data) = commands.getstatusoutput(command)
 	if ((result != 0) and not ignorestatus):
 		raise CmdError, 'command failed: ' + command
 	return data


 def where_art_thy_filehandles():
 	"""Dump the current list of filehandles"""
 	os.system("ls -l /proc/%d/fd >> /dev/tty" % os.getpid())


 def print_to_tty(string):
 	"""Output string straight to the tty"""
 	os.system("echo " + string + " >> /dev/tty")


 def dump_object(object):
 	"""Dump an object's attributes and methods

 	kind of like dir()
 	"""
 	for item in object.__dict__.iteritems():
 		print item
 		try:
 			(key,value) = item
 			dump_object(value)
 		except:
 			continue


 def environ(env_key):
 	"""return the requested environment variable, or '' if unset"""
 	if (os.environ.has_key(env_key)):
 		return os.environ[env_key]
 	else:
 		return ''


 def prepend_path(newpath, oldpath):
 	"""prepend newpath to oldpath"""
 	if (oldpath):
 		return newpath + ':' + oldpath
 	else:
 		return newpath


 def append_path(oldpath, newpath):
 	"""append newpath to oldpath"""
 	if (oldpath):
 		return oldpath + ':' + newpath
 	else:
 		return newpath


 def avgtime_print(dir):
 	""" Calculate some benchmarking statistics.
 	    Input is a directory containing a file called 'time'.
 	    File contains one-per-line results of /usr/bin/time.
 	    Output is average Elapsed, User, and System time in seconds,
 	      and average CPU percentage.
 	"""
 	f = open(dir + "/time")
 	user = system = elapsed = cpu = count = 0
 	r = re.compile('([\d\.]*)user ([\d\.]*)system (\d*):([\d\.]*)elapsed (\d*)%CPU')
 	for line in f.readlines():
 		try:
 			s = r.match(line);
 			user += float(s.group(1))
 			system += float(s.group(2))
 			elapsed += (float(s.group(3)) * 60) + float(s.group(4))
 			cpu += float(s.group(5))
 			count += 1
 		except:
 			raise ValueError("badly formatted times")

 	f.close()
 	return "Elapsed: %0.2fs User: %0.2fs System: %0.2fs CPU: %0.0f%%" % \
 	      (elapsed/count, user/count, system/count, cpu/count)


 def running_config():
 	"""
 	Return path of config file of the currently running kernel
 	"""
 	for config in ('/proc/config.gz', \
 		       '/boot/config-%s' % system_output('uname -r') ):
 		if os.path.isfile(config):
 			return config
 	return None


 def cpu_online_map():
 	"""
 	Check out the available cpu online map
 	"""
 	cpus = []
 	for line in open('/proc/cpuinfo', 'r').readlines():
 		if line.startswith('processor'):
 			cpus.append(line.split()[2]) # grab cpu number
 	return cpus


 def check_glibc_ver(ver):
 	glibc_ver = commands.getoutput('ldd --version').splitlines()[0]
 	glibc_ver = re.search(r'(\d+\.\d+(\.\d+)?)', glibc_ver).group()
 	if glibc_ver.split('.') < ver.split('.'):
 		raise "Glibc is too old (%s). Glibc >= %s is needed." % \
 							(glibc_ver, ver)


 def check_python_version():
 	py_version = (sys.version).split(' ')[0]
 	version = py_version.split('.')[0:2]
 	if [int(x) for x in version] < [2, 4]:
 		if os.path.exists("/usr/bin/python2.4"):
 			sys.argv.insert(0, "/usr/bin/python2.4")
 			os.execv(sys.argv[0], sys.argv)
 		raise "Python 2.4 or newer is needed"
	"""Convenience functions for use by tests or whomever.
	"""

	import os,os.path,shutil,urllib,sys,signal,commands,pickle
	from error import *
	import re,string

	def grep(pattern, file):
	"""
	This is mainly to fix the return code inversion from grep
	Also handles compressed files.

	returns 1 if the pattern is present in the file, 0 if not.
	"""
	command = 'grep "%s" > /dev/null' % pattern
	ret = cat_file_to_cmd(file, command, ignorestatus = 1)
	return not ret


	def difflist(list1, list2):
	"""returns items in list2 that are not in list1"""
	diff = [];
	for x in list2:
	if x not in list1:
	diff.append(x)
	return diff


	def cat_file_to_cmd(file, command, ignorestatus = 0):
	"""
	equivalent to 'cat file \| command' but knows to use
	zcat or bzcat if appropriate
	"""
	if not os.path.isfile(file):
	raise NameError, 'invalid file %s to cat to command %s' % file, command
	if file.endswith('.bz2'):
	return system('bzcat ' + file + ' \| ' + command, ignorestatus)
	elif (file.endswith('.gz') or file.endswith('.tgz')):
	return system('zcat ' + file + ' \| ' + command, ignorestatus)
	else:
	return system('cat ' + file + ' \| ' + command, ignorestatus)


	def extract_tarball_to_dir(tarball, dir):
	"""
	Extract a tarball to a specified directory name instead of whatever
	the top level of a tarball is - useful for versioned directory names, etc
	"""
	if os.path.exists(dir):
	raise NameError, 'target %s already exists' % dir
	pwd = os.getcwd()
	os.chdir(os.path.dirname(os.path.abspath(dir)))
	newdir = extract_tarball(tarball)
	os.rename(newdir, dir)
	os.chdir(pwd)


	def extract_tarball(tarball):
	"""Returns the first found newly created directory by the tarball extraction"""
	oldlist = os.listdir('.')
	cat_file_to_cmd(tarball, 'tar xf -')
	newlist = os.listdir('.')
	newfiles = difflist(oldlist, newlist) # what is new dir ?
	new_dir = None
	for newfile in newfiles:
	if (os.path.isdir(newfile)):
	return newfile
	raise NameError, "extracting tarball produced no dir"


	def update_version(srcdir, new_version, install, args, *dargs):
	"""Make sure srcdir is version new_version

	If not, delete it and install() the new version
	"""
	versionfile = srcdir + '/.version'
	if os.path.exists(srcdir):
	if os.path.exists(versionfile):
	old_version = pickle.load(open(versionfile, 'r'))
	if (old_version != new_version):
	system('rm -rf ' + srcdir)
	else:
	system('rm -rf ' + srcdir)
	if not os.path.exists(srcdir):
	install(args, *dargs)
	if os.path.exists(srcdir):
	pickle.dump(new_version, open(versionfile, 'w'))


	def is_url(path):
	"""true if path is a url
	"""
	# should cope with other url types here, but we only handle http and ftp
	if (path.startswith('http://')) or (path.startswith('ftp://')):
	return 1
	return 0


	def get_file(src, dest):
	"""get a file, either from url or local"""
	if (src == dest): # no-op here allows clean overrides in tests
	return
	if (is_url(src)):
	print 'PWD: ' + os.getcwd()
	print 'Fetching \n\t', src, '\n\t->', dest
	try:
	urllib.urlretrieve(src, dest)
	except IOError:
	sys.stderr.write("Unable to retrieve %s (to %s)\n" % (src, dest))
	sys.exit(1)
	return dest
	shutil.copyfile(src, dest)
	return dest


	def unmap_url(srcdir, src, destdir = '.'):
	"""
	Receives either a path to a local file or a URL.
	returns either the path to the local file, or the fetched URL

	unmap_url('/usr/src', 'foo.tar', '/tmp')
	= '/usr/src/foo.tar'
	unmap_url('/usr/src', 'http://site/file', '/tmp')
	= '/tmp/file'
	(after retrieving it)
	"""
	if is_url(src):
	dest = destdir + '/' + os.path.basename(src)
	get_file(src, dest)
	return dest
	else:
	return srcdir + '/' + src


	def basename(path):
	i = path.rfind('/');
	return path[i+1:]


	def force_copy(src, dest):
	"""Replace dest with a new copy of src, even if it exists"""
	if os.path.isfile(dest):
	os.remove(dest)
	return shutil.copyfile(src, dest)


	def force_link(src, dest):
	"""Link src to dest, overwriting it if it exists"""
	return system("ln -sf %s %s" % (src, dest))


	def file_contains_pattern(file, pattern):
	"""Return true if file contains the specified egrep pattern"""
	if not os.path.isfile(file):
	raise NameError, 'file %s does not exist' % file
	return not system('egrep -q "' + pattern + '" ' + file, ignorestatus = 1)


	def list_grep(list, pattern):
	"""True if any item in list matches the specified pattern."""
	compiled = re.compile(pattern)
	for line in list:
	match = compiled.search(line)
	if (match):
	return 1
	return 0

	def get_os_vendor():
	"""Try to guess what's the os vendor
	"""
	issue = '/etc/issue'

	if not os.path.isfile(issue):
	return 'Unknown'

	if file_contains_pattern(issue, 'Red Hat'):
	return 'Red Hat'
	elif file_contains_pattern(issue, 'Fedora Core'):
	return 'Fedora Core'
	elif file_contains_pattern(issue, 'SUSE'):
	return 'SUSE'
	elif file_contains_pattern(issue, 'Ubuntu'):
	return 'Ubuntu'
	else:
	return 'Unknown'


	def get_vmlinux():
	"""Return the full path to vmlinux

	Ahem. This is crap. Pray harder. Bad Martin.
	"""
	vmlinux = '/boot/vmlinux-%s' % system_output('uname -r')
	if os.path.isfile(vmlinux):
	return vmlinux
	vmlinux = '/lib/modules/%s/build/vmlinux' % system_output('uname -r')
	if os.path.isfile(vmlinux):
	return vmlinux
	return None


	def get_systemmap():
	"""Return the full path to System.map

	Ahem. This is crap. Pray harder. Bad Martin.
	"""
	map = '/boot/System.map-%s' % system_output('uname -r')
	if os.path.isfile(map):
	return map
	map = '/lib/modules/%s/build/System.map' % system_output('uname -r')
	if os.path.isfile(map):
	return map
	return None


	def get_modules_dir():
	"""Return the modules dir for the running kernel version"""
	kernel_version = system_output('uname -r')
	return '/lib/modules/%s/kernel' % kernel_version


	def get_cpu_arch():
	"""Work out which CPU architecture we're running on"""
	f = open('/proc/cpuinfo', 'r')
	cpuinfo = f.readlines()
	f.close()
	if list_grep(cpuinfo, '^cpu.*(RS64\|POWER3\|Broadband Engine)'):
	return 'power'
	elif list_grep(cpuinfo, '^cpu.*POWER4'):
	return 'power4'
	elif list_grep(cpuinfo, '^cpu.*POWER5'):
	return 'power5'
	elif list_grep(cpuinfo, '^cpu.*POWER6'):
	return 'power6'
	elif list_grep(cpuinfo, '^cpu.*PPC970'):
	return 'power970'
	elif list_grep(cpuinfo, 'Opteron'):
	return 'x86_64'
	elif list_grep(cpuinfo, 'GenuineIntel') and list_grep(cpuinfo, '48 bits virtual'):
	return 'x86_64'
	else:
	return 'i386'


	def get_current_kernel_arch():
	"""Get the machine architecture, now just a wrap of 'uname -m'."""
	return os.popen('uname -m').read().rstrip()


	def get_file_arch(filename):
	# -L means follow symlinks
	file_data = system_output('file -L ' + filename)
	if file_data.count('80386'):
	return 'i386'
	return None


	def kernelexpand(kernel, args=None):
	# if not (kernel.startswith('http://') or kernel.startswith('ftp://') or os.path.isfile(kernel)):
	if kernel.find('/') < 0: # contains no path.
	autodir = os.environ['AUTODIR']
	kernelexpand = os.path.join(autodir, 'tools/kernelexpand')
	if args:
	kernelexpand += ' ' + args
	w, r = os.popen2(kernelexpand + ' ' + kernel)

	kernel = r.readline().strip()
	r.close()
	w.close()
	return kernel.split()


	def count_cpus():
	"""number of CPUs in the local machine according to /proc/cpuinfo"""
	f = file('/proc/cpuinfo', 'r')
	cpus = 0
	for line in f.readlines():
	if line.startswith('processor'):
	cpus += 1
	return cpus

	def system(cmd, ignorestatus = 0):
	"""os.system replacement

	We have our own definition of system here, as the stock os.system doesn't
	correctly handle sigpipe
	(ie things like "yes \| head" will hang because yes doesn't get the SIGPIPE).

	Also the stock os.system didn't raise errors based on exit status, this
	version does unless you explicitly specify ignorestatus=1
	"""
	signal.signal(signal.SIGPIPE, signal.SIG_DFL)
	try:
	status = os.system(cmd)
	finally:
	signal.signal(signal.SIGPIPE, signal.SIG_IGN)

	if ((status != 0) and not ignorestatus):
	raise CmdError(cmd, status)
	return status


	def system_output(command, ignorestatus = 0):
	"""Run command and return its output

	ignorestatus
	whether to raise a CmdError if command has a nonzero exit status
	"""
	(result, data) = commands.getstatusoutput(command)
	if ((result != 0) and not ignorestatus):
	raise CmdError, 'command failed: ' + command
	return data


	def where_art_thy_filehandles():
	"""Dump the current list of filehandles"""
	os.system("ls -l /proc/%d/fd >> /dev/tty" % os.getpid())


	def print_to_tty(string):
	"""Output string straight to the tty"""
	os.system("echo " + string + " >> /dev/tty")


	def dump_object(object):
	"""Dump an object's attributes and methods

	kind of like dir()
	"""
	for item in object.__dict__.iteritems():
	print item
	try:
	(key,value) = item
	dump_object(value)
	except:
	continue


	def environ(env_key):
	"""return the requested environment variable, or '' if unset"""
	if (os.environ.has_key(env_key)):
	return os.environ[env_key]
	else:
	return ''


	def prepend_path(newpath, oldpath):
	"""prepend newpath to oldpath"""
	if (oldpath):
	return newpath + ':' + oldpath
	else:
	return newpath


	def append_path(oldpath, newpath):
	"""append newpath to oldpath"""
	if (oldpath):
	return oldpath + ':' + newpath
	else:
	return newpath


	def avgtime_print(dir):
	""" Calculate some benchmarking statistics.
	Input is a directory containing a file called 'time'.
	File contains one-per-line results of /usr/bin/time.
	Output is average Elapsed, User, and System time in seconds,
	and average CPU percentage.
	"""
	f = open(dir + "/time")
	user = system = elapsed = cpu = count = 0
	r = re.compile('([\d\.])user ([\d\.])system (\d):([\d\.])elapsed (\d*)%CPU')
	for line in f.readlines():
	try:
	s = r.match(line);
	user += float(s.group(1))
	system += float(s.group(2))
	elapsed += (float(s.group(3)) * 60) + float(s.group(4))
	cpu += float(s.group(5))
	count += 1
	except:
	raise ValueError("badly formatted times")

	f.close()
	return "Elapsed: %0.2fs User: %0.2fs System: %0.2fs CPU: %0.0f%%" % \
	(elapsed/count, user/count, system/count, cpu/count)


	def running_config():
	"""
	Return path of config file of the currently running kernel
	"""
	for config in ('/proc/config.gz', \
	'/boot/config-%s' % system_output('uname -r') ):
	if os.path.isfile(config):
	return config
	return None


	def cpu_online_map():
	"""
	Check out the available cpu online map
	"""
	cpus = []
	for line in open('/proc/cpuinfo', 'r').readlines():
	if line.startswith('processor'):
	cpus.append(line.split()[2]) # grab cpu number
	return cpus


	def check_glibc_ver(ver):
	glibc_ver = commands.getoutput('ldd --version').splitlines()[0]
	glibc_ver = re.search(r'(\d+\.\d+(\.\d+)?)', glibc_ver).group()
	if glibc_ver.split('.') < ver.split('.'):
	raise "Glibc is too old (%s). Glibc >= %s is needed." % \
	(glibc_ver, ver)


	def check_python_version():
	py_version = (sys.version).split(' ')[0]
	version = py_version.split('.')[0:2]
	if [int(x) for x in version] < [2, 4]:
	if os.path.exists("/usr/bin/python2.4"):
	sys.argv.insert(0, "/usr/bin/python2.4")
	os.execv(sys.argv[0], sys.argv)
	raise "Python 2.4 or newer is needed"