# Copyright (c) 2012 The Chromium OS Authors. All rights reserved. # Use of this source code is governed by a BSD-style license that can be # found in the LICENSE file. import glob, logging, os, re, shutil, time from autotest_lib.client.bin import utils from autotest_lib.client.common_lib import error from autotest_lib.client.cros import upstart # Possible display power settings. Copied from chromeos::DisplayPowerState # in Chrome's dbus service constants. DISPLAY_POWER_ALL_ON = 0 DISPLAY_POWER_ALL_OFF = 1 DISPLAY_POWER_INTERNAL_OFF_EXTERNAL_ON = 2 DISPLAY_POWER_INTERNAL_ON_EXTERNAL_OFF = 3 # for bounds checking DISPLAY_POWER_MAX = 4 def get_x86_cpu_arch(): """Identify CPU architectural type. Intel's processor naming conventions is a mine field of inconsistencies. Armed with that, this method simply tries to identify the architecture of systems we care about. TODO(tbroch) grow method to cover processors numbers outlined in: http://www.intel.com/content/www/us/en/processors/processor-numbers.html perhaps returning more information ( brand, generation, features ) Returns: String, explicitly (Atom, Core, Celeron) or None """ cpuinfo = utils.read_file('/proc/cpuinfo') if re.search(r'Intel.*Atom.*[NZ][2-6]', cpuinfo): return 'Atom' if re.search(r'Intel.*Celeron.*N2[89][0-9][0-9]', cpuinfo): return 'Celeron N2000' if re.search(r'Intel.*Celeron.*N3[0-9][0-9][0-9]', cpuinfo): return 'Celeron N3000' if re.search(r'Intel.*Celeron.*[0-9]{3,4}', cpuinfo): return 'Celeron' if re.search(r'Intel.*Core.*i[357]-[234][0-9][0-9][0-9]', cpuinfo): return 'Core' logging.info(cpuinfo) return None def has_rapl_support(): """Identify if platform supports Intels RAPL subsytem. Returns: Boolean, True if RAPL supported, False otherwise. """ cpu_arch = get_x86_cpu_arch() if cpu_arch and ((cpu_arch is 'Celeron') or (cpu_arch is 'Core')): return True return False def _call_dbus_method(destination, path, interface, method_name, args): """Performs a generic dbus method call.""" command = ('dbus-send --type=method_call --system ' '--dest=%s %s %s.%s %s') % (destination, path, interface, method_name, args) utils.system_output(command) def call_powerd_dbus_method(method_name, args=''): """ Calls a dbus method exposed by powerd. Arguments: @param method_name: name of the dbus method. @param args: string containing args to dbus method call. """ _call_dbus_method(destination='org.chromium.PowerManager', path='/org/chromium/PowerManager', interface='org.chromium.PowerManager', method_name=method_name, args=args) def call_chrome_dbus_method(method_name, args=''): """ Calls a dbus method exposed by chrome. Arguments: @param method_name: name of the dbus method. @param args: string containing args to dbus method call. """ _call_dbus_method(destination='org.chromium.LibCrosService', path='/org/chromium/LibCrosService', interface='org.chomium.LibCrosServiceInterface', method_name=method_name, args=args) def get_power_supply(): """ Determine what type of power supply the host has. Copied from server/host/cros_hosts.py @returns a string representing this host's power supply. 'power:battery' when the device has a battery intended for extended use 'power:AC_primary' when the device has a battery not intended for extended use (for moving the machine, etc) 'power:AC_only' when the device has no battery at all. """ try: psu = utils.system_output('mosys psu type') except Exception: # The psu command for mosys is not included for all platforms. The # assumption is that the device will have a battery if the command # is not found. return 'power:battery' psu_str = psu.strip() if psu_str == 'unknown': return None return 'power:%s' % psu_str def get_sleep_state(): """ Returns the current powerd configuration of the sleep state. Can be "freeze" or "mem". """ cmd = 'check_powerd_config --suspend_to_idle' result = utils.run(cmd, ignore_status=True) return 'freeze' if result.exit_status == 0 else 'mem' def has_battery(): """Determine if DUT has a battery. Returns: Boolean, False if known not to have battery, True otherwise. """ rv = True power_supply = get_power_supply() if power_supply == 'power:battery': # TODO(tbroch) if/when 'power:battery' param is reliable # remove board type logic. Also remove verbose mosys call. _NO_BATTERY_BOARD_TYPE = ['CHROMEBOX', 'CHROMEBIT', 'CHROMEBASE'] board_type = utils.get_board_type() if board_type in _NO_BATTERY_BOARD_TYPE: logging.warn('Do NOT believe type %s has battery. ' 'See debug for mosys details', board_type) psu = utils.system_output('mosys -vvvv psu type', ignore_status=True) logging.debug(psu) rv = False elif power_supply == 'power:AC_only': rv = False return rv class BacklightException(Exception): """Class for Backlight exceptions.""" class Backlight(object): """Class for control of built-in panel backlight. Public methods: set_level: Set backlight level to the given brightness. set_percent: Set backlight level to the given brightness percent. set_resume_level: Set backlight level on resume to the given brightness. set_resume_percent: Set backlight level on resume to the given brightness percent. set_default: Set backlight to CrOS default. get_level: Get backlight level currently. get_max_level: Get maximum backight level. get_percent: Get backlight percent currently. restore: Restore backlight to initial level when instance created. Public attributes: default_brightness_percent: float of default brightness Private methods: _try_bl_cmd: run a backlight command. Private attributes: _init_level: integer of backlight level when object instantiated. _can_control_bl: boolean determining whether backlight can be controlled or queried """ # Default brightness is based on expected average use case. # See http://www.chromium.org/chromium-os/testing/power-testing for more # details. def __init__(self, default_brightness_percent=0): """Constructor. attributes: """ cmd = "mosys psu type" result = utils.system_output(cmd, ignore_status=True).strip() self._can_control_bl = not result == "AC_only" self._init_level = self.get_level() self.default_brightness_percent = default_brightness_percent logging.debug("device can_control_bl: %s", self._can_control_bl) if not self._can_control_bl: return if not self.default_brightness_percent: cmd = "get_powerd_initial_backlight_level 2>/dev/null" try: level = float(utils.system_output(cmd).rstrip()) self.default_brightness_percent = \ (level / self.get_max_level()) * 100 logging.info("Default backlight brightness percent = %f", self.default_brightness_percent) except error.CmdError: self.default_brightness_percent = 40.0 logging.warning("Unable to determine default backlight " "brightness percent. Setting to %f", self.default_brightness_percent) def _try_bl_cmd(self, arg_str): """Perform backlight command. Args: arg_str: String of additional arguments to backlight command. Returns: String output of the backlight command. Raises: error.TestFail: if 'cmd' returns non-zero exit status. """ if not self._can_control_bl: return 0 cmd = 'backlight_tool %s' % (arg_str) logging.debug("backlight_cmd: %s", cmd) try: return utils.system_output(cmd).rstrip() except error.CmdError: raise error.TestFail(cmd) def set_level(self, level): """Set backlight level to the given brightness. Args: level: integer of brightness to set """ self._try_bl_cmd('--set_brightness=%d' % (level)) def set_percent(self, percent): """Set backlight level to the given brightness percent. Args: percent: float between 0 and 100 """ self._try_bl_cmd('--set_brightness_percent=%f' % (percent)) def set_resume_level(self, level): """Set backlight level on resume to the given brightness. Args: level: integer of brightness to set """ self._try_bl_cmd('--set_resume_brightness=%d' % (level)) def set_resume_percent(self, percent): """Set backlight level on resume to the given brightness percent. Args: percent: float between 0 and 100 """ self._try_bl_cmd('--set_resume_brightness_percent=%f' % (percent)) def set_default(self): """Set backlight to CrOS default. """ self.set_percent(self.default_brightness_percent) def get_level(self): """Get backlight level currently. Returns integer of current backlight level or zero if no backlight exists. """ return int(self._try_bl_cmd('--get_brightness')) def get_max_level(self): """Get maximum backight level. Returns integer of maximum backlight level or zero if no backlight exists. """ return int(self._try_bl_cmd('--get_max_brightness')) def get_percent(self): """Get backlight percent currently. Returns float of current backlight percent or zero if no backlight exists """ return float(self._try_bl_cmd('--get_brightness_percent')) def restore(self): """Restore backlight to initial level when instance created.""" self.set_level(self._init_level) class KbdBacklightException(Exception): """Class for KbdBacklight exceptions.""" class KbdBacklight(object): """Class for control of keyboard backlight. Example code: kblight = power_utils.KbdBacklight() kblight.set(10) print "kblight % is %.f" % kblight.get_percent() Public methods: set_percent: Sets the keyboard backlight to a percent. get_percent: Get current keyboard backlight percentage. set_level: Sets the keyboard backlight to a level. get_default_level: Get default keyboard backlight brightness level Private attributes: _default_backlight_level: keboard backlight level set by default """ def __init__(self): cmd = 'check_powerd_config --keyboard_backlight' result = utils.run(cmd, ignore_status=True) if result.exit_status: raise KbdBacklightException('Keyboard backlight support' + 'is not enabled') cmd = 'get_powerd_initial_backlight_level --keyboard 2>/dev/null' self._default_backlight_level = int( utils.system_output(cmd).rstrip()) logging.info("Default keyboard backlight brightness level = %d", self._default_backlight_level) def get_percent(self): """Get current keyboard brightness setting percentage. Returns: float, percentage of keyboard brightness in the range [0.0, 100.0]. """ cmd = 'backlight_tool --keyboard --get_brightness_percent' return float(utils.system_output(cmd).strip()) def get_default_level(self): """ Returns the default backlight level. Returns: The default keyboard backlight level. """ return self._default_backlight_level def set_percent(self, percent): """Set keyboard backlight percent. Args: @param percent: float value in the range [0.0, 100.0] to set keyboard backlight to. """ cmd = ('backlight_tool --keyboard --set_brightness_percent=' + str(percent)) utils.system(cmd) def set_level(self, level): """ Set keyboard backlight to given level. Args: @param level: level to set keyboard backlight to. """ cmd = 'backlight_tool --keyboard --set_brightness=' + str(level) utils.system(cmd) class BacklightController(object): """Class to simulate control of backlight via keyboard or Chrome UI. Public methods: increase_brightness: Increase backlight by one adjustment step. decrease_brightness: Decrease backlight by one adjustment step. set_brightness_to_max: Increase backlight to max by calling increase_brightness() set_brightness_to_min: Decrease backlight to min or zero by calling decrease_brightness() Private attributes: _max_num_steps: maximum number of backlight adjustment steps between 0 and max brightness. """ def __init__(self): self._max_num_steps = 16 def decrease_brightness(self, allow_off=False): """ Decrease brightness by one step, as if the user pressed the brightness down key or button. Arguments @param allow_off: Boolean flag indicating whether the brightness can be reduced to zero. Set to true to simulate brightness down key. set to false to simulate Chrome UI brightness down button. """ call_powerd_dbus_method('DecreaseScreenBrightness', 'boolean:%s' % \ ('true' if allow_off else 'false')) def increase_brightness(self): """ Increase brightness by one step, as if the user pressed the brightness up key or button. """ call_powerd_dbus_method('IncreaseScreenBrightness') def set_brightness_to_max(self): """ Increases the brightness using powerd until the brightness reaches the maximum value. Returns when it reaches the maximum number of brightness adjustments """ num_steps_taken = 0 while num_steps_taken < self._max_num_steps: self.increase_brightness() num_steps_taken += 1 def set_brightness_to_min(self, allow_off=False): """ Decreases the brightness using powerd until the brightness reaches the minimum value (zero or the minimum nonzero value). Returns when it reaches the maximum number of brightness adjustments. Arguments @param allow_off: Boolean flag indicating whether the brightness can be reduced to zero. Set to true to simulate brightness down key. set to false to simulate Chrome UI brightness down button. """ num_steps_taken = 0 while num_steps_taken < self._max_num_steps: self.decrease_brightness(allow_off) num_steps_taken += 1 class DisplayException(Exception): """Class for Display exceptions.""" def set_display_power(power_val): """Function to control screens via Chrome. Possible arguments: DISPLAY_POWER_ALL_ON, DISPLAY_POWER_ALL_OFF, DISPLAY_POWER_INTERNAL_OFF_EXTERNAL_ON, DISPLAY_POWER_INTERNAL_ON_EXTENRAL_OFF """ if (not isinstance(power_val, int) or power_val < DISPLAY_POWER_ALL_ON or power_val >= DISPLAY_POWER_MAX): raise DisplayException('Invalid display power setting: %d' % power_val) call_chrome_dbus_method('SetDisplayPower', 'int32:%d' % power_val) class PowerPrefChanger(object): """ Class to temporarily change powerd prefs. Construct with a dict of pref_name/value pairs (e.g. {'disable_idle_suspend':0}). Destructor (or reboot) will restore old prefs automatically.""" _PREFDIR = '/var/lib/power_manager' _TEMPDIR = '/tmp/autotest_powerd_prefs' def __init__(self, prefs): shutil.copytree(self._PREFDIR, self._TEMPDIR) for name, value in prefs.iteritems(): utils.write_one_line('%s/%s' % (self._TEMPDIR, name), value) utils.system('mount --bind %s %s' % (self._TEMPDIR, self._PREFDIR)) upstart.restart_job('powerd') def finalize(self): """finalize""" if os.path.exists(self._TEMPDIR): utils.system('umount %s' % self._PREFDIR, ignore_status=True) shutil.rmtree(self._TEMPDIR) upstart.restart_job('powerd') def __del__(self): self.finalize() class Registers(object): """Class to examine PCI and MSR registers.""" def __init__(self): self._cpu_id = 0 self._rdmsr_cmd = 'iotools rdmsr' self._mmio_read32_cmd = 'iotools mmio_read32' self._rcba = 0xfed1c000 self._pci_read32_cmd = 'iotools pci_read32' self._mch_bar = None self._dmi_bar = None def _init_mch_bar(self): if self._mch_bar != None: return # MCHBAR is at offset 0x48 of B/D/F 0/0/0 cmd = '%s 0 0 0 0x48' % (self._pci_read32_cmd) self._mch_bar = int(utils.system_output(cmd), 16) & 0xfffffffe logging.debug('MCH BAR is %s', hex(self._mch_bar)) def _init_dmi_bar(self): if self._dmi_bar != None: return # DMIBAR is at offset 0x68 of B/D/F 0/0/0 cmd = '%s 0 0 0 0x68' % (self._pci_read32_cmd) self._dmi_bar = int(utils.system_output(cmd), 16) & 0xfffffffe logging.debug('DMI BAR is %s', hex(self._dmi_bar)) def _read_msr(self, register): cmd = '%s %d %s' % (self._rdmsr_cmd, self._cpu_id, register) return int(utils.system_output(cmd), 16) def _read_mmio_read32(self, address): cmd = '%s 0x%x' % (self._mmio_read32_cmd, address) return int(utils.system_output(cmd), 16) def _read_dmi_bar(self, offset): self._init_dmi_bar() return self._read_mmio_read32(self._dmi_bar + int(offset, 16)) def _read_mch_bar(self, offset): self._init_mch_bar() return self._read_mmio_read32(self._mch_bar + int(offset, 16)) def _read_rcba(self, offset): return self._read_mmio_read32(self._rcba + int(offset, 16)) def _shift_mask_match(self, reg_name, value, match): expr = match[1] bits = match[0].split(':') operator = match[2] if len(match) == 3 else '==' hi_bit = int(bits[0]) if len(bits) == 2: lo_bit = int(bits[1]) else: lo_bit = int(bits[0]) value >>= lo_bit mask = (1 << (hi_bit - lo_bit + 1)) - 1 value &= mask good = eval("%d %s %d" % (value, operator, expr)) if not good: logging.error('FAILED: %s bits: %s value: %s mask: %s expr: %s ' + 'operator: %s', reg_name, bits, hex(value), mask, expr, operator) return good def _verify_registers(self, reg_name, read_fn, match_list): errors = 0 for k, v in match_list.iteritems(): r = read_fn(k) for item in v: good = self._shift_mask_match(reg_name, r, item) if not good: errors += 1 logging.error('Error(%d), %s: reg = %s val = %s match = %s', errors, reg_name, k, hex(r), v) else: logging.debug('ok, %s: reg = %s val = %s match = %s', reg_name, k, hex(r), v) return errors def verify_msr(self, match_list): """ Verify MSR @param match_list: match list """ errors = 0 for cpu_id in xrange(0, max(utils.count_cpus(), 1)): self._cpu_id = cpu_id errors += self._verify_registers('msr', self._read_msr, match_list) return errors def verify_dmi(self, match_list): """ Verify DMI @param match_list: match list """ return self._verify_registers('dmi', self._read_dmi_bar, match_list) def verify_mch(self, match_list): """ Verify MCH @param match_list: match list """ return self._verify_registers('mch', self._read_mch_bar, match_list) def verify_rcba(self, match_list): """ Verify RCBA @param match_list: match list """ return self._verify_registers('rcba', self._read_rcba, match_list) class USBDevicePower(object): """Class for USB device related power information. Public Methods: autosuspend: Return boolean whether USB autosuspend is enabled or False if not or unable to determine Public attributes: vid: string of USB Vendor ID pid: string of USB Product ID whitelisted: Boolean if USB device is whitelisted for USB auto-suspend Private attributes: path: string to path of the USB devices in sysfs ( /sys/bus/usb/... ) TODO(tbroch): consider converting to use of pyusb although not clear its beneficial if it doesn't parse power/control """ def __init__(self, vid, pid, whitelisted, path): self.vid = vid self.pid = pid self.whitelisted = whitelisted self._path = path def autosuspend(self): """Determine current value of USB autosuspend for device.""" control_file = os.path.join(self._path, 'control') if not os.path.exists(control_file): logging.info('USB: power control file not found for %s', dir) return False out = utils.read_one_line(control_file) logging.debug('USB: control set to %s for %s', out, control_file) return (out == 'auto') class USBPower(object): """Class to expose USB related power functionality. Initially that includes the policy around USB auto-suspend and our whitelisting of devices that are internal to CrOS system. Example code: usbdev_power = power_utils.USBPower() for device in usbdev_power.devices if device.is_whitelisted() ... Public attributes: devices: list of USBDevicePower instances Private functions: _is_whitelisted: Returns Boolean if USB device is whitelisted for USB auto-suspend _load_whitelist: Reads whitelist and stores int _whitelist attribute Private attributes: _wlist_file: path to laptop-mode-tools (LMT) USB autosuspend conf file. _wlist_vname: string name of LMT USB autosuspend whitelist variable _whitelisted: list of USB device vid:pid that are whitelisted. May be regular expressions. See LMT for details. """ def __init__(self): self._wlist_file = \ '/etc/laptop-mode/conf.d/board-specific/usb-autosuspend.conf' self._wlist_vname = '$AUTOSUSPEND_USBID_WHITELIST' self._whitelisted = None self.devices = [] def _load_whitelist(self): """Load USB device whitelist for enabling USB autosuspend CrOS whitelists only internal USB devices to enter USB auto-suspend mode via laptop-mode tools. """ cmd = "source %s && echo %s" % (self._wlist_file, self._wlist_vname) out = utils.system_output(cmd, ignore_status=True) logging.debug('USB whitelist = %s', out) self._whitelisted = out.split() def _is_whitelisted(self, vid, pid): """Check to see if USB device vid:pid is whitelisted. Args: vid: string of USB vendor ID pid: string of USB product ID Returns: True if vid:pid in whitelist file else False """ if self._whitelisted is None: self._load_whitelist() match_str = "%s:%s" % (vid, pid) for re_str in self._whitelisted: if re.match(re_str, match_str): return True return False def query_devices(self): """.""" dirs_path = '/sys/bus/usb/devices/*/power' dirs = glob.glob(dirs_path) if not dirs: logging.info('USB power path not found') return 1 for dirpath in dirs: vid_path = os.path.join(dirpath, '..', 'idVendor') pid_path = os.path.join(dirpath, '..', 'idProduct') if not os.path.exists(vid_path): logging.debug("No vid for USB @ %s", vid_path) continue vid = utils.read_one_line(vid_path) pid = utils.read_one_line(pid_path) whitelisted = self._is_whitelisted(vid, pid) self.devices.append(USBDevicePower(vid, pid, whitelisted, dirpath)) class DisplayPanelSelfRefresh(object): """Class for control and monitoring of display's PSR.""" _PSR_STATUS_FILE_X86 = '/sys/kernel/debug/dri/0/i915_edp_psr_status' _PSR_STATUS_FILE_ARM = '/sys/kernel/debug/dri/*/psr_active_ms' def __init__(self, init_time=time.time()): """Initializer. @Public attributes: supported: Boolean of whether PSR is supported or not @Private attributes: _init_time: time when PSR class was instantiated. _init_counter: integer of initial value of residency counter. _keyvals: dictionary of keyvals """ self._psr_path = '' if os.path.exists(self._PSR_STATUS_FILE_X86): self._psr_path = self._PSR_STATUS_FILE_X86 self._psr_parse_prefix = 'Performance_Counter:' else: paths = glob.glob(self._PSR_STATUS_FILE_ARM) if paths: # Should be only one PSR file self._psr_path = paths[0] self._psr_parse_prefix = '' self._init_time = init_time self._init_counter = self._get_counter() self._keyvals = {} self.supported = (self._init_counter != None) def _get_counter(self): """Get the current value of the system PSR counter. This counts the number of milliseconds the system has resided in PSR. @returns: amount of time PSR has been active since boot in ms, or None if the performance counter can't be read. """ try: count = utils.get_field(utils.read_file(self._psr_path), 0, linestart=self._psr_parse_prefix) except IOError: logging.info("Can't find or read PSR status file") return None logging.debug("PSR performance counter: %s", count) return int(count) if count else None def _calc_residency(self): """Calculate the PSR residency.""" if not self.supported: return 0 tdelta = time.time() - self._init_time cdelta = self._get_counter() - self._init_counter return cdelta / (10 * tdelta) def refresh(self): """Refresh PSR related data.""" self._keyvals['percent_psr_residency'] = self._calc_residency() def get_keyvals(self): """Get keyvals associated with PSR data. @returns dictionary of keyvals """ return self._keyvals