client/tests/kvm/control.parallel - mirrors/cros/chromiumos/third_party/autotest - Git at Google

 AUTHOR = """
 uril@redhat.com (Uri Lublin)
 drusso@redhat.com (Dror Russo)
 mgoldish@redhat.com (Michael Goldish)
 dhuff@redhat.com (David Huff)
 aeromenk@redhat.com (Alexey Eromenko)
 mburns@redhat.com (Mike Burns)
 """
 TIME = 'SHORT'
 NAME = 'KVM test'
 TEST_TYPE = 'client'
 TEST_CLASS = 'Virtualization'
 TEST_CATEGORY = 'Functional'

 DOC = """
 Executes the KVM test framework on a given host. This module is separated in
 minor functions, that execute different tests for doing Quality Assurance on
 KVM (both kernelspace and userspace) code.
 """


 import sys, os, commands, re

 #-----------------------------------------------------------------------------
 # set English environment (command output might be localized, need to be safe)
 #-----------------------------------------------------------------------------
 os.environ['LANG'] = 'en_US.UTF-8'

 #---------------------------------------------------------
 # Enable modules import from current directory (tests/kvm)
 #---------------------------------------------------------
 pwd = os.path.join(os.environ['AUTODIR'],'tests/kvm')
 sys.path.append(pwd)

 # ------------------------
 # create required symlinks
 # ------------------------
 # When dispatching tests from autotest-server the links we need do not exist on
 # the host (the client). The following lines create those symlinks. Change
 # 'rootdir' here and/or mount appropriate directories in it.
 #
 # When dispatching tests on local host (client mode) one can either setup kvm
 # links, or same as server mode use rootdir and set all appropriate links and
 # mount-points there. For example, guest installation tests need to know where
 # to find the iso-files.
 #
 # We create the links only if not already exist, so if one already set up the
 # links for client/local run we do not touch the links.
 rootdir='/tmp/kvm_autotest_root'
 iso=os.path.join(rootdir, 'iso')
 images=os.path.join(rootdir, 'images')
 qemu=os.path.join(rootdir, 'qemu')
 qemu_img=os.path.join(rootdir, 'qemu-img')


 def link_if_not_exist(ldir, target, link_name):
     t = target
     l = os.path.join(ldir, link_name)
     if not os.path.exists(l):
         os.system('ln -s %s %s' % (t, l))

 # Create links only if not already exist
 link_if_not_exist(pwd, '../../', 'autotest')
 link_if_not_exist(pwd, iso, 'isos')
 link_if_not_exist(pwd, images, 'images')
 link_if_not_exist(pwd, qemu, 'qemu')
 link_if_not_exist(pwd, qemu_img, 'qemu-img')

 # --------------------------------------------------------
 # Params that will be passed to the KVM install/build test
 # --------------------------------------------------------
 params = {
     "name": "build",
     "shortname": "build",
     "type": "build",
     #"mode": "release",
     #"mode": "snapshot",
     #"mode": "localtar",
     #"mode": "localsrc",
     #"mode": "git",
     "mode": "noinstall",
     #"mode": "koji",

     ## Are we going to load modules built by this test?
     ## Defaults to 'yes', so if you are going to provide only userspace code to
     ## be built by this test, please set load_modules to 'no', and make sure
     ## the kvm and kvm-[vendor] module is already loaded by the time you start
     ## it.
     #"load_modules": "no",

     ## Install from a kvm release ("mode": "release"). You can optionally
     ## specify a release tag. If you omit it, the test will get the latest
     ## release tag available.
     #"release_tag": '84',
     #"release_dir": 'http://downloads.sourceforge.net/project/kvm/',
     # This is the place that contains the sourceforge project list of files
     #"release_listing": 'http://sourceforge.net/projects/kvm/files/',

     ## Install from a kvm snapshot location ("mode": "snapshot"). You can
     ## optionally specify a snapshot date. If you omit it, the test will get
     ## yesterday's snapshot.
     #"snapshot_date": '20090712'
     #"snapshot_dir": 'http://foo.org/kvm-snapshots/',

     ## Install from a tarball ("mode": "localtar")
     #"tarball": "/tmp/kvm-84.tar.gz",

     ## Install from a local source code dir ("mode": "localsrc")
     #"srcdir": "/path/to/source-dir"

     ## Install from koji build server ("mode": "koji")
     ## Koji is the Fedora Project buildserver. It is possible to install
     ## packages right from Koji if you provide a release tag or a build.
     ## Tag (if available)
     #"koji_tag": 'dist-f11',
     ## Build (if available, is going to override tag).
     #"koji_build": 'qemu-0.10-16.fc11',
     ## Command to interact with the build server
     #"koji_cmd": '/usr/bin/koji',
     ## The name of the source package that's being built
     #"src_pkg": 'qemu',
     ## Name of the rpms we need installed
     #"pkg_list": ['qemu-kvm', 'qemu-kvm-tools', 'qemu-system-x86', 'qemu-common', 'qemu-img'],
     ## Paths of the qemu relevant executables that should be checked
     #"qemu_bin_paths": ['/usr/bin/qemu-kvm', '/usr/bin/qemu-img'],

     ## Install from git ("mode": "git")
     ## If you provide only "git_repo" and "user_git_repo", the build test
     ## will assume it will perform all build from the userspace dir, building
     ## modules trough make -C kernel LINUX=%s sync. As of today (07-13-2009)
     ## we need 3 git repos, "git_repo" (linux sources), "user_git_repo" and
     ## "kmod_repo" to build KVM userspace + kernel modules.
     #"git_repo": 'git://git.kernel.org/pub/scm/linux/kernel/git/avi/kvm.git',
     #"kernel_branch": 'kernel_branch_name',
     #"kernel_lbranch": 'kernel_lbranch_name',
     #"kernel_tag": 'kernel_tag_name',
     #"user_git_repo": 'git://git.kernel.org/pub/scm/virt/kvm/qemu-kvm.git',
     #"user_branch": 'user_branch_name',
     #"user_lbranch": 'user_lbranch_name',
     #"user_tag": 'user_tag_name',
     #"kmod_repo": 'git://git.kernel.org/pub/scm/virt/kvm/kvm-kmod.git',
     #"kmod_branch": 'kmod_branch_name',
     #"kmod_lbranch": 'kmod_lbranch_name',
     #"kmod_tag": 'kmod_tag_name',
 }

 # If you don't want to execute the build stage, just use 'noinstall' as the
 # install type. If you run the tests from autotest-server, make sure that
 # /tmp/kvm-autotest-root/qemu is a link to your existing executable. Note that
 # if kvm_install is chose to run, it overwrites existing qemu and qemu-img
 # links to point to the newly built executables.

 if not params.get("mode") == "noinstall":
     if not job.run_test("kvm", params=params, tag=params.get("shortname")):
         print 'kvm_installation failed ... exiting'
         sys.exit(1)

 # ----------------------------------------------------------
 # Get test set (dictionary list) from the configuration file
 # ----------------------------------------------------------
 from autotest_lib.client.common_lib import cartesian_config

 str = """
 # This string will be parsed after tests.cfg.  Make any desired changes to the
 # test configuration here.  For example:
 #install, setup: timeout_multiplier = 3
 #display = sdl
 """

 parser = cartesian_config.Parser()
 parser.parse_file(os.path.join(pwd, "tests.cfg"))
 parser.parse_string(str)

 tests = list(parser.get_dicts())

 # -------------
 # Run the tests
 # -------------
 from autotest_lib.client.virt import virt_scheduler
 from autotest_lib.client.bin import utils

 # total_cpus defaults to the number of CPUs reported by /proc/cpuinfo
 total_cpus = utils.count_cpus()
 # total_mem defaults to 3/4 of the total memory reported by 'free'
 total_mem = int(commands.getoutput("free -m").splitlines()[1].split()[1]) * 3/4
 # We probably won't need more workers than CPUs
 num_workers = total_cpus

 # Start the scheduler and workers
 s = virt_scheduler.scheduler(tests, num_workers, total_cpus, total_mem, pwd)
 job.parallel([s.scheduler],
              *[(s.worker, i, job.run_test) for i in range(num_workers)])

 # create the html report in result dir
 reporter = os.path.join(pwd, 'make_html_report.py')
 html_file = os.path.join(job.resultdir,'results.html')
 os.system('%s -r %s -f %s -R'%(reporter, job.resultdir, html_file))
	AUTHOR = """
	uril@redhat.com (Uri Lublin)
	drusso@redhat.com (Dror Russo)
	mgoldish@redhat.com (Michael Goldish)
	dhuff@redhat.com (David Huff)
	aeromenk@redhat.com (Alexey Eromenko)
	mburns@redhat.com (Mike Burns)
	"""
	TIME = 'SHORT'
	NAME = 'KVM test'
	TEST_TYPE = 'client'
	TEST_CLASS = 'Virtualization'
	TEST_CATEGORY = 'Functional'

	DOC = """
	Executes the KVM test framework on a given host. This module is separated in
	minor functions, that execute different tests for doing Quality Assurance on
	KVM (both kernelspace and userspace) code.
	"""


	import sys, os, commands, re

	#-----------------------------------------------------------------------------
	# set English environment (command output might be localized, need to be safe)
	#-----------------------------------------------------------------------------
	os.environ['LANG'] = 'en_US.UTF-8'

	#---------------------------------------------------------
	# Enable modules import from current directory (tests/kvm)
	#---------------------------------------------------------
	pwd = os.path.join(os.environ['AUTODIR'],'tests/kvm')
	sys.path.append(pwd)

	# ------------------------
	# create required symlinks
	# ------------------------
	# When dispatching tests from autotest-server the links we need do not exist on
	# the host (the client). The following lines create those symlinks. Change
	# 'rootdir' here and/or mount appropriate directories in it.
	#
	# When dispatching tests on local host (client mode) one can either setup kvm
	# links, or same as server mode use rootdir and set all appropriate links and
	# mount-points there. For example, guest installation tests need to know where
	# to find the iso-files.
	#
	# We create the links only if not already exist, so if one already set up the
	# links for client/local run we do not touch the links.
	rootdir='/tmp/kvm_autotest_root'
	iso=os.path.join(rootdir, 'iso')
	images=os.path.join(rootdir, 'images')
	qemu=os.path.join(rootdir, 'qemu')
	qemu_img=os.path.join(rootdir, 'qemu-img')


	def link_if_not_exist(ldir, target, link_name):
	t = target
	l = os.path.join(ldir, link_name)
	if not os.path.exists(l):
	os.system('ln -s %s %s' % (t, l))

	# Create links only if not already exist
	link_if_not_exist(pwd, '../../', 'autotest')
	link_if_not_exist(pwd, iso, 'isos')
	link_if_not_exist(pwd, images, 'images')
	link_if_not_exist(pwd, qemu, 'qemu')
	link_if_not_exist(pwd, qemu_img, 'qemu-img')

	# --------------------------------------------------------
	# Params that will be passed to the KVM install/build test
	# --------------------------------------------------------
	params = {
	"name": "build",
	"shortname": "build",
	"type": "build",
	#"mode": "release",
	#"mode": "snapshot",
	#"mode": "localtar",
	#"mode": "localsrc",
	#"mode": "git",
	"mode": "noinstall",
	#"mode": "koji",

	## Are we going to load modules built by this test?
	## Defaults to 'yes', so if you are going to provide only userspace code to
	## be built by this test, please set load_modules to 'no', and make sure
	## the kvm and kvm-[vendor] module is already loaded by the time you start
	## it.
	#"load_modules": "no",

	## Install from a kvm release ("mode": "release"). You can optionally
	## specify a release tag. If you omit it, the test will get the latest
	## release tag available.
	#"release_tag": '84',
	#"release_dir": 'http://downloads.sourceforge.net/project/kvm/',
	# This is the place that contains the sourceforge project list of files
	#"release_listing": 'http://sourceforge.net/projects/kvm/files/',

	## Install from a kvm snapshot location ("mode": "snapshot"). You can
	## optionally specify a snapshot date. If you omit it, the test will get
	## yesterday's snapshot.
	#"snapshot_date": '20090712'
	#"snapshot_dir": 'http://foo.org/kvm-snapshots/',

	## Install from a tarball ("mode": "localtar")
	#"tarball": "/tmp/kvm-84.tar.gz",

	## Install from a local source code dir ("mode": "localsrc")
	#"srcdir": "/path/to/source-dir"

	## Install from koji build server ("mode": "koji")
	## Koji is the Fedora Project buildserver. It is possible to install
	## packages right from Koji if you provide a release tag or a build.
	## Tag (if available)
	#"koji_tag": 'dist-f11',
	## Build (if available, is going to override tag).
	#"koji_build": 'qemu-0.10-16.fc11',
	## Command to interact with the build server
	#"koji_cmd": '/usr/bin/koji',
	## The name of the source package that's being built
	#"src_pkg": 'qemu',
	## Name of the rpms we need installed
	#"pkg_list": ['qemu-kvm', 'qemu-kvm-tools', 'qemu-system-x86', 'qemu-common', 'qemu-img'],
	## Paths of the qemu relevant executables that should be checked
	#"qemu_bin_paths": ['/usr/bin/qemu-kvm', '/usr/bin/qemu-img'],

	## Install from git ("mode": "git")
	## If you provide only "git_repo" and "user_git_repo", the build test
	## will assume it will perform all build from the userspace dir, building
	## modules trough make -C kernel LINUX=%s sync. As of today (07-13-2009)
	## we need 3 git repos, "git_repo" (linux sources), "user_git_repo" and
	## "kmod_repo" to build KVM userspace + kernel modules.
	#"git_repo": 'git://git.kernel.org/pub/scm/linux/kernel/git/avi/kvm.git',
	#"kernel_branch": 'kernel_branch_name',
	#"kernel_lbranch": 'kernel_lbranch_name',
	#"kernel_tag": 'kernel_tag_name',
	#"user_git_repo": 'git://git.kernel.org/pub/scm/virt/kvm/qemu-kvm.git',
	#"user_branch": 'user_branch_name',
	#"user_lbranch": 'user_lbranch_name',
	#"user_tag": 'user_tag_name',
	#"kmod_repo": 'git://git.kernel.org/pub/scm/virt/kvm/kvm-kmod.git',
	#"kmod_branch": 'kmod_branch_name',
	#"kmod_lbranch": 'kmod_lbranch_name',
	#"kmod_tag": 'kmod_tag_name',
	}

	# If you don't want to execute the build stage, just use 'noinstall' as the
	# install type. If you run the tests from autotest-server, make sure that
	# /tmp/kvm-autotest-root/qemu is a link to your existing executable. Note that
	# if kvm_install is chose to run, it overwrites existing qemu and qemu-img
	# links to point to the newly built executables.

	if not params.get("mode") == "noinstall":
	if not job.run_test("kvm", params=params, tag=params.get("shortname")):
	print 'kvm_installation failed ... exiting'
	sys.exit(1)

	# ----------------------------------------------------------
	# Get test set (dictionary list) from the configuration file
	# ----------------------------------------------------------
	from autotest_lib.client.common_lib import cartesian_config

	str = """
	# This string will be parsed after tests.cfg. Make any desired changes to the
	# test configuration here. For example:
	#install, setup: timeout_multiplier = 3
	#display = sdl
	"""

	parser = cartesian_config.Parser()
	parser.parse_file(os.path.join(pwd, "tests.cfg"))
	parser.parse_string(str)

	tests = list(parser.get_dicts())

	# -------------
	# Run the tests
	# -------------
	from autotest_lib.client.virt import virt_scheduler
	from autotest_lib.client.bin import utils

	# total_cpus defaults to the number of CPUs reported by /proc/cpuinfo
	total_cpus = utils.count_cpus()
	# total_mem defaults to 3/4 of the total memory reported by 'free'
	total_mem = int(commands.getoutput("free -m").splitlines()[1].split()[1]) * 3/4
	# We probably won't need more workers than CPUs
	num_workers = total_cpus

	# Start the scheduler and workers
	s = virt_scheduler.scheduler(tests, num_workers, total_cpus, total_mem, pwd)
	job.parallel([s.scheduler],
	*[(s.worker, i, job.run_test) for i in range(num_workers)])

	# create the html report in result dir
	reporter = os.path.join(pwd, 'make_html_report.py')
	html_file = os.path.join(job.resultdir,'results.html')
	os.system('%s -r %s -f %s -R'%(reporter, job.resultdir, html_file))