# 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 logging from autotest_lib.client.common_lib import error from autotest_lib.server.cros.faft.firmware_test import FirmwareTest class firmware_ECBootTime(FirmwareTest): """ Servo based EC boot time test. """ version = 1 def initialize(self, host, cmdline_args): super(firmware_ECBootTime, self).initialize(host, cmdline_args) # Only run in normal mode self.switcher.setup_mode('normal') def check_boot_time(self): """Check EC and AP boot times""" # Initialize a list of two strings, one printed by the EC when the AP # is taken out of reset, and another one printed when the EC observes # the AP running. These strings are used as for console output anchors # when calculating the AP boot time. # # This is very approximate, a better long term solution would be to # have the EC print the same fixed strings for these two events on all # platforms. http://crosbug.com/p/21628 has been opened to track this # issue. if self._x86: boot_anchors = ["\[([0-9\.]+) PB", "\[([0-9\.]+) Port 80"] elif self._arm_legacy: boot_anchors = ["\[([0-9\.]+) AP running ...", "\[([0-9\.]+) XPSHOLD seen"] else: boot_anchors = ["\[([0-9\.]+) power state 1 = S5", "\[([0-9\.]+) power state 3 = S0"] # regular expression to say that EC is ready. For systems that # run out of ram there is a second boot where the PMIC is # asked to power cycle the EC to be 100% sure (I wish) that # the code is clean. Looking for the "Inits done" generates a # match after the first boot, and introduces a race between # the EC booting the second time and the test sending the # power_cmd. if self._doubleboot: ec_ready = ["\[([0-9.]+) power state 0"] else: ec_ready = ["([0-9.]+) Inits done"] power_cmd = "powerbtn" if self._x86 or self._ryu else "power on" reboot = self.ec.send_command_get_output( "reboot ap-off", ec_ready) power_press = self.ec.send_command_get_output( power_cmd, boot_anchors) reboot_time = float(reboot[0][1]) power_press_time = float(power_press[0][1]) firmware_resp_time = float(power_press[1][1]) boot_time = firmware_resp_time - power_press_time logging.info("EC cold boot time: %f s", reboot_time) if reboot_time > 1.0: raise error.TestFail("EC cold boot time longer than 1 second.") logging.info("EC boot time: %f s", boot_time) if boot_time > 1.0: raise error.TestFail("Boot time longer than 1 second.") def is_arm_legacy_board(self): arm_legacy = ('Snow', 'Spring', 'Pit', 'Pi', 'Big', 'Blaze', 'Kitty') output = self.faft_client.system.get_platform_name() return output in arm_legacy def is_ryu_board(self): output = self.faft_client.system.get_platform_name() return output == 'Ryu' def run_once(self): if not self.check_ec_capability(): raise error.TestNAError("Nothing needs to be tested on this device") self._x86 = ('x86' in self.faft_config.ec_capability) self._doubleboot = ('doubleboot' in self.faft_config.ec_capability) self._arm_legacy = self.is_arm_legacy_board() self._ryu = self.is_ryu_board() dev_mode = self.checkers.crossystem_checker({'devsw_boot': '1'}) logging.info("Reboot and check EC cold boot time and host boot time.") self.switcher.mode_aware_reboot('custom', self.check_boot_time) def cleanup(self): # Restore the ec_uart_regexp to None self.ec.set_uart_regexp('None')