import os, logging from autotest_lib.client.bin import utils from autotest_lib.client.common_lib import error, autotemp from autotest_lib.client.cros import power_status from autotest_lib.client.cros import storage as storage_mod class hardware_MultiReaderPowerConsumption(storage_mod.StorageTester): version = 1 _files_to_delete = [] _ramdisk_path = None _storage = None def initialize(self): super(hardware_MultiReaderPowerConsumption, self).initialize() # Make sure we're not on AC power self.status = power_status.get_status() if self.status.on_ac(): raise error.TestNAError( 'This test needs to be run with the AC power offline') def cleanup(self): # Remove intermediate files for path in self._files_to_delete: utils.system('rm -f %s' % path) if self._storage and os.path.ismount(self._storage['mountpoint']): self.scanner.umount_volume(storage_dict=self._storage) if self._ramdisk_path and os.path.ismount(self._ramdisk_path.name): umount_ramdisk(self._ramdisk_path.name) self._ramdisk_path.clean() super(hardware_MultiReaderPowerConsumption, self).cleanup() def readwrite_test(self, path, size, delete_file=False): """Heavy-duty random read/write test. Run `dd` & `tail -f` in parallel The random write is done by writing a file from /dev/urandom into the given location, while the random read is done by concurrently reading that file. @param path: The directory that will create the test file. @param size: Size of the test file, in MiB. @param delete_file: Flag the file to be deleted on test exit. Otherwise file deletion won't be performed. """ # Calculate the parameters for dd size = 1024*1024*size blocksize = 8192 # Calculate the filename and full path, flag to delete if needed filename = 'tempfile.%d.delete-me' % size pathfile = os.path.join(path, filename) if delete_file: self._files_to_delete.append(pathfile) pid = os.fork() # We need to run two processes in parallel if pid: # parent utils.BgJob('tail -f %s --pid=%s > /dev/null' % (pathfile, pid)) # Reap the dd child so that tail does not wait for the zombie os.waitpid(pid, 0) else: # child utils.system('dd if=/dev/urandom of=%s bs=%d count=%s' % (pathfile, blocksize, (size//blocksize))) # A forked child is exiting here, so we really do want os._exit: os._exit(0) def run_once(self, ramdisk_size=513, file_size=512, drain_limit=1.05, volume_filter={'bus': 'usb'}): """Test card reader CPU power consumption to be within acceptable range while performing random r/w The random r/w is performed in the readwrite_test() method, by concurrently running `dd if=/dev/urandom` and `tail -f`. It is run once on a ramdisk with the SD card mounted, then on the SD card with the ramdisk unmounted, and then on the SD card with the ramdisk unmounted. The measured values are then reported. @param ramdisk_size: Size of ramdisk (in MiB). @param file_size: Size of test file (in MiB). @param volume_filter: Where to find the card reader. @param drain_limit: maximum ratio between the card reader energy consumption and each of the two ramdisk read/write test energy consumption values. 1.00 means the card reader test may not consume more energy than either ramdisk test, 0.9 means it may consume no more than 90% of the ramdisk value, and so forth. """ # Switch to VT2 so the screen turns itself off automatically instead of # dimming, in order to reduce the battery consuption caused by other # variables. utils.system('chvt 2') logging.debug('STEP 1: ensure SD card is inserted and mounted') self._storage = self.wait_for_device(volume_filter, cycles=1, mount_volume=True)[0] logging.debug('STEP 2: mount the ramdisk') self._ramdisk_path = autotemp.tempdir(unique_id='ramdisk', dir=self.tmpdir) mount_ramdisk(self._ramdisk_path.name, ramdisk_size) # Read current charge, as well as maximum charge. self.status.refresh() max_charge = self.status.battery[0].charge_full_design initial_charge = self.status.battery[0].charge_now logging.debug('STEP 3: perform heavy-duty read-write test on ramdisk') self.readwrite_test(self._ramdisk_path.name, file_size) # Read current charge (reading A) self.status.refresh() charge_A = self.status.battery[0].charge_now logging.debug('STEP 4: unmount ramdisk') umount_ramdisk(self._ramdisk_path.name) logging.debug('STEP 5: perform identical read write test on SD card') self.readwrite_test(self._storage['mountpoint'], file_size, delete_file=True) # Read current charge (reading B) self.status.refresh() charge_B = self.status.battery[0].charge_now logging.debug('STEP 6: unmount card') self.scanner.umount_volume(storage_dict=self._storage, args='-f -l') logging.debug('STEP 7: perform ramdisk test again') mount_ramdisk(self._ramdisk_path.name, ramdisk_size) self.readwrite_test(self._ramdisk_path.name, file_size) # Read current charge (reading C) self.status.refresh() charge_C = self.status.battery[0].charge_now # Compute the results ramdisk_plus = initial_charge - charge_A sd_card_solo = charge_A - charge_B ramdisk_solo = charge_B - charge_C sd_card_drain_ratio_a = (sd_card_solo / ramdisk_plus) sd_card_drain_ratio_b = (sd_card_solo / ramdisk_solo) msg = None if sd_card_drain_ratio_a > drain_limit: msg = ('Card reader drain exceeds mounted baseline by > %f (%f)' % (drain_limit, sd_card_drain_ratio_a)) elif sd_card_drain_ratio_b > drain_limit: msg = ('Card reader drain exceeds unmounted baseline by > %f (%f)' % (drain_limit, sd_card_drain_ratio_b)) if msg: raise error.TestError(msg) else: fmt = 'Card reader drain ratio Ok: mounted %f; unmounted %f' logging.info(fmt % (sd_card_drain_ratio_a, sd_card_drain_ratio_b)) def mount_ramdisk(path, size): utils.system('mount -t tmpfs none %s -o size=%sm' % (path, size)) def umount_ramdisk(path): """Umount ramdisk mounted at |path| @param path: the mountpoint for the mountd RAM disk """ utils.system('rm -rf %s/*' % path) utils.system('umount -f -l %s' % path)