# this doctest contains tests for miscellaneous features of the RPC interface # that would clutter the main rpc_test # setup >>> from autotest_lib.frontend.afe import rpc_interface >>> rpc_interface.add_profiler(name='oprofile') 1 >>> rpc_interface.add_profiler(name='iostat') 2 # profiler support in control file generation >>> cf_info = rpc_interface.generate_control_file( ... tests=['sleeptest'], ... profilers=['oprofile', 'iostat']) >>> print cf_info['control_file'] def step_init(): job.next_step('step0') job.next_step('step1') job.next_step('step2') job.next_step('step3') job.next_step('step4') def step0(): job.profilers.add('oprofile') def step1(): job.profilers.add('iostat') def step2(): job.run_test('testname') def step3(): job.profilers.delete('oprofile') def step4(): job.profilers.delete('iostat') # profile_only=False support in control file generation >>> cf_info = rpc_interface.generate_control_file( ... tests=['sleeptest'], ... profilers=['oprofile'], ... profile_only=False) >>> print cf_info['control_file'] def step_init(): job.next_step('step0') job.next_step('step1') job.next_step('step2') job.next_step('step3') def step0(): job.default_profile_only = False def step1(): job.profilers.add('oprofile') def step2(): job.run_test('testname') def step3(): job.profilers.delete('oprofile') # profile_only=True support in control file generation >>> cf_info = rpc_interface.generate_control_file( ... tests=['sleeptest'], ... profilers=['iostat'], ... profile_only=True) >>> print cf_info['control_file'] def step_init(): job.next_step('step0') job.next_step('step1') job.next_step('step2') job.next_step('step3') def step0(): job.default_profile_only = True def step1(): job.profilers.add('iostat') def step2(): job.run_test('testname') def step3(): job.profilers.delete('iostat') # test preserving of the kernel config file setting >>> cf_info = rpc_interface.generate_control_file( ... tests=['sleeptest'], ... kernel=[{'version': '2.6.18', 'config_file': 'foo/bar'}]) >>> print cf_info['control_file'] #doctest: +NORMALIZE_WHITESPACE kernel_list = [{'version': '2.6.18', 'config_file': 'foo/bar'}] def step_init(): for kernel_info in kernel_list: job.next_step(boot_kernel, kernel_info) job.next_step(step_test, kernel_info['version']) if len(kernel_list) > 1: job.use_sequence_number = True # include run numbers in directory names def boot_kernel(kernel_info): # remove kernels (and associated data) not referenced by the bootloader for host in job.hosts: host.cleanup_kernels() testkernel = job.kernel(kernel_info['version']) if kernel_info['config_file']: testkernel.config(kernel_info['config_file']) testkernel.build() testkernel.install() cmdline = ' '.join((kernel_info.get('cmdline', ''), '')) testkernel.boot(args=cmdline) def step_test(kernel_version): global kernel kernel = kernel_version # Set the global in case anyone is using it. if len(kernel_list) > 1: # this is local to a machine, safe to assume there's only one host host, = job.hosts job.automatic_test_tag = host.get_kernel_ver() job.next_step('step0') def step0(): job.run_test('testname') # upload_kernel_config requires server side test >>> rpc_interface.generate_control_file(tests=['sleeptest'], ... kernel=[{'version': '2.6.18', 'config_file': 'foo/bar'}], ... upload_kernel_config=True) Traceback (most recent call last): ValidationError: {'upload_kernel_config': 'Cannot use upload_kernel_config with client side tests'} # server-side control file generation >>> rpc_interface.modify_test('sleeptest', test_type='Server') >>> cf_info = rpc_interface.generate_control_file(tests=['sleeptest'], ... kernel=[{'version': '2.6.18'}, {'version': '2.6.22'}]) >>> print cf_info['control_file'] #doctest: +NORMALIZE_WHITESPACE kernel_list = [{'version': '2.6.18', 'config_file': None}, {'version': '2.6.22', 'config_file': None}] kernel_install_control = """ kernel_list = %(client_kernel_list)s def step_init(): for kernel_info in kernel_list: job.next_step(boot_kernel, kernel_info) job.next_step(step_test, kernel_info['version']) if len(kernel_list) > 1: job.use_sequence_number = True # include run numbers in directory names def boot_kernel(kernel_info): # remove kernels (and associated data) not referenced by the bootloader for host in job.hosts: host.cleanup_kernels() testkernel = job.kernel(kernel_info['version']) if kernel_info['config_file']: testkernel.config(kernel_info['config_file']) testkernel.build() testkernel.install() cmdline = ' '.join((kernel_info.get('cmdline', ''), '')) testkernel.boot(args=cmdline) def step_test(kernel_version): global kernel kernel = kernel_version # Set the global in case anyone is using it. if len(kernel_list) > 1: # this is local to a machine, safe to assume there's only one host host, = job.hosts job.automatic_test_tag = host.get_kernel_ver() pass """ from autotest_lib.client.common_lib import error at = autotest.Autotest() def install_kernel(machine, kernel_info): host = hosts.create_host(machine) at.install(host=host) at.run(kernel_install_control % {'client_kernel_list': repr([kernel_info])}, host=host) num_machines_required = len(machines) if len(machines) > 4: # Allow a large multi-host tests to proceed despite a couple of hosts # failing to properly install the desired kernel (exclude those hosts). # TODO(gps): Figure out how to get and use SYNC_COUNT here. It is defined # within some control files and will end up inside of stepN functions below. num_machines_required = len(machines) - 2 def step_init(): # a host object we use solely for the purpose of finding out the booted # kernel version, we use machines[0] since we already check that the same # kernel has been booted on all machines if len(kernel_list) > 1: kernel_host = hosts.create_host(machines[0]) for kernel_info in kernel_list: func = lambda machine: install_kernel(machine, kernel_info) good_machines = job.parallel_on_machines(func, machines) if len(good_machines) < num_machines_required: raise error.TestError( "kernel installed on only %d of %d machines." % (len(good_machines), num_machines_required)) # Replace the machines list that step_test() will use with the # ones that successfully installed the kernel. machines[:] = good_machines # have server_job.run_test() automatically add the kernel version as # a suffix to the test name otherwise we cannot run the same test on # different kernel versions if len(kernel_list) > 1: job.automatic_test_tag = kernel_host.get_kernel_ver() step_test() def step_test(): step0() def step0(): job.run_test('testname') step_init() >>> cf_info['is_server'] True # server-side control file generation with kernel config upload code >>> cf_info = rpc_interface.generate_control_file(tests=['sleeptest'], ... kernel=[{'version': '2.6.18', 'config_file': 'foo/bar'}], ... upload_kernel_config=True) >>> print cf_info['control_file'] #doctest: +NORMALIZE_WHITESPACE kernel_list = [{'version': '2.6.18', 'config_file': 'foo/bar'}] kernel_install_control = """ kernel_list = %(client_kernel_list)s def step_init(): for kernel_info in kernel_list: job.next_step(boot_kernel, kernel_info) job.next_step(step_test, kernel_info['version']) if len(kernel_list) > 1: job.use_sequence_number = True # include run numbers in directory names def boot_kernel(kernel_info): # remove kernels (and associated data) not referenced by the bootloader for host in job.hosts: host.cleanup_kernels() testkernel = job.kernel(kernel_info['version']) if kernel_info['config_file']: testkernel.config(kernel_info['config_file']) testkernel.build() testkernel.install() cmdline = ' '.join((kernel_info.get('cmdline', ''), '')) testkernel.boot(args=cmdline) def step_test(kernel_version): global kernel kernel = kernel_version # Set the global in case anyone is using it. if len(kernel_list) > 1: # this is local to a machine, safe to assume there's only one host host, = job.hosts job.automatic_test_tag = host.get_kernel_ver() pass """ from autotest_lib.client.common_lib import error at = autotest.Autotest() def upload_kernel_config(host, kernel_info): """ If the kernel_info['config_file'] is a URL it will be downloaded locally and then uploaded to the client and a copy of the original dictionary with the new path to the config file will be returned. If the config file is not a URL the function returns the original dictionary. """ import os from autotest_lib.client.common_lib import autotemp, utils config_orig = kernel_info.get('config_file') # if the file is not an URL then we assume it's a local client path if not config_orig or not utils.is_url(config_orig): return kernel_info # download it locally (on the server) and send it to the client config_tmp = autotemp.tempfile('kernel_config_upload', dir=job.tmpdir) try: utils.urlretrieve(config_orig, config_tmp.name) config_new = os.path.join(host.get_autodir(), 'tmp', os.path.basename(config_orig)) host.send_file(config_tmp.name, config_new) finally: config_tmp.clean() return dict(kernel_info, config_file=config_new) def install_kernel(machine, kernel_info): host = hosts.create_host(machine) at.install(host=host) kernel_info = upload_kernel_config(host, kernel_info) at.run(kernel_install_control % {'client_kernel_list': repr([kernel_info])}, host=host) num_machines_required = len(machines) if len(machines) > 4: # Allow a large multi-host tests to proceed despite a couple of hosts # failing to properly install the desired kernel (exclude those hosts). # TODO(gps): Figure out how to get and use SYNC_COUNT here. It is defined # within some control files and will end up inside of stepN functions below. num_machines_required = len(machines) - 2 def step_init(): # a host object we use solely for the purpose of finding out the booted # kernel version, we use machines[0] since we already check that the same # kernel has been booted on all machines if len(kernel_list) > 1: kernel_host = hosts.create_host(machines[0]) for kernel_info in kernel_list: func = lambda machine: install_kernel(machine, kernel_info) good_machines = job.parallel_on_machines(func, machines) if len(good_machines) < num_machines_required: raise error.TestError( "kernel installed on only %d of %d machines." % (len(good_machines), num_machines_required)) # Replace the machines list that step_test() will use with the # ones that successfully installed the kernel. machines[:] = good_machines # have server_job.run_test() automatically add the kernel version as # a suffix to the test name otherwise we cannot run the same test on # different kernel versions if len(kernel_list) > 1: job.automatic_test_tag = kernel_host.get_kernel_ver() step_test() def step_test(): step0() def step0(): job.run_test('testname') step_init() # test that multiline quoted strings are not indented >>> import common >>> from autotest_lib.frontend.afe import test, control_file >>> import os >>> control_path = os.path.join(os.path.dirname(test.__file__), ... 'doctests', 'test.control.3') >>> control_path = os.path.abspath(control_path) >>> class FakeTest(object): ... path = control_path ... >>> print control_file.generate_control([FakeTest()], is_server=True) #doctest: +NORMALIZE_WHITESPACE def step_init(): step0() def step0(): client_code = """ some content\"""quoted content\""" '''other quoted content\"""''' \\""" client_code2 = ''' some content\'''quoted content\''' """other quoted content\'''""" \\''' job.run_test('testname') step_init()