# Copyright 2018 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 import os import time from autotest_lib.server import test from autotest_lib.server.cros import filesystem_util from autotest_lib.client.common_lib import error, utils class FingerprintTest(test.test): """Base class that sets up helpers for fingerprint tests.""" version = 1 # Location of firmware from the build on the DUT _FINGERPRINT_BUILD_FW_DIR = '/opt/google/biod/fw' _DISABLE_FP_UPDATER_FILE = '.disable_fp_updater' _UPSTART_DIR = '/etc/init' _BIOD_UPSTART_JOB_FILE = 'biod.conf' _STATEFUL_PARTITION_DIR = '/mnt/stateful_partition' _GENIMAGES_SCRIPT_NAME = 'gen_test_images.sh' _GENIMAGES_OUTPUT_DIR_NAME = 'images' _TEST_IMAGE_FORMAT_MAP = { 'TEST_IMAGE_ORIGINAL': '%s.bin', 'TEST_IMAGE_DEV': '%s.dev', 'TEST_IMAGE_CORRUPT_FIRST_BYTE': '%s_corrupt_first_byte.bin', 'TEST_IMAGE_CORRUPT_LAST_BYTE': '%s_corrupt_last_byte.bin', 'TEST_IMAGE_DEV_RB_ZERO': '%s.dev.rb0', 'TEST_IMAGE_DEV_RB_ONE': '%s.dev.rb1', 'TEST_IMAGE_DEV_RB_NINE': '%s.dev.rb9' } _ROLLBACK_ZERO_BLOCK_ID = '0' _ROLLBACK_INITIAL_BLOCK_ID = '1' _ROLLBACK_INITIAL_MIN_VERSION = '0' _ROLLBACK_INITIAL_RW_VERSION = '0' _SERVER_GENERATED_FW_DIR_NAME = 'generated_fw' _DUT_TMP_PATH_BASE = '/tmp/fp_test' # Name of key in "futility show" output corresponds to the signing key ID _FUTILITY_KEY_ID_KEY_NAME = 'ID' # Types of firmware _FIRMWARE_TYPE_RO = 'RO' _FIRMWARE_TYPE_RW = 'RW' # Types of signing keys _KEY_TYPE_DEV = 'dev' _KEY_TYPE_PRE_MP = 'premp' _KEY_TYPE_MP = 'mp' # EC board names for FPMCUs _FP_BOARD_NAME_BLOONCHIPPER = 'bloonchipper' _FP_BOARD_NAME_DARTMONKEY = 'dartmonkey' _FP_BOARD_NAME_NOCTURNE = 'nocturne_fp' _FP_BOARD_NAME_NAMI = 'nami_fp' # Map from signing key ID to type of signing key _KEY_ID_MAP_ = { # bloonchipper '61382804da86b4156d666cc9a976088f8b647d44': _KEY_TYPE_DEV, '07b1af57220c196e363e68d73a5966047c77011e': _KEY_TYPE_PRE_MP, '1c590ef36399f6a2b2ef87079c135b69ef89eb60': _KEY_TYPE_MP, # dartmonkey '257a0aa3ac9e81aa4bc3aabdb6d3d079117c5799': _KEY_TYPE_MP, # nocturne '8a8fc039a9463271995392f079b83ce33832d07d': _KEY_TYPE_DEV, '6f38c866182bd9bf7a4462c06ac04fa6a0074351': _KEY_TYPE_MP, 'f6f7d96c48bd154dbae7e3fe3a3b4c6268a10934': _KEY_TYPE_PRE_MP, # nami '754aea623d69975a22998f7b97315dd53115d723': _KEY_TYPE_PRE_MP, '35486c0090ca390408f1fbbf2a182966084fe2f8': _KEY_TYPE_MP } # RO versions that are flashed in the factory # (for eternity for a given board) _GOLDEN_RO_FIRMWARE_VERSION_MAP = { _FP_BOARD_NAME_BLOONCHIPPER: { 'hatch': 'bloonchipper_v2.0.4277-9f652bb3', 'zork': 'bloonchipper_v2.0.5938-197506c1', }, _FP_BOARD_NAME_DARTMONKEY: 'dartmonkey_v2.0.2887-311310808', _FP_BOARD_NAME_NOCTURNE: 'nocturne_fp_v2.2.64-58cf5974e', _FP_BOARD_NAME_NAMI: 'nami_fp_v2.2.144-7a08e07eb', } _FIRMWARE_VERSION_SHA256SUM = 'sha256sum' _FIRMWARE_VERSION_RO_VERSION = 'ro_version' _FIRMWARE_VERSION_RW_VERSION = 'rw_version' _FIRMWARE_VERSION_KEY_ID = 'key_id' # Map of attributes for a given board's various firmware file releases # # Two purposes: # 1) Documents the exact versions and keys used for a given firmware file. # 2) Used to verify that files that end up in the build (and therefore # what we release) is exactly what we expect. _FIRMWARE_VERSION_MAP = { _FP_BOARD_NAME_BLOONCHIPPER: { 'bloonchipper_v2.0.4277-9f652bb3.bin': { _FIRMWARE_VERSION_SHA256SUM: '7d9b788a908bee5c83e27450258b2bbf110d7253d49faa4804562ae27e42cb3b', _FIRMWARE_VERSION_RO_VERSION: 'bloonchipper_v2.0.4277-9f652bb3', _FIRMWARE_VERSION_RW_VERSION: 'bloonchipper_v2.0.4277-9f652bb3', _FIRMWARE_VERSION_KEY_ID: '1c590ef36399f6a2b2ef87079c135b69ef89eb60', }, 'bloonchipper_v2.0.5938-197506c1.bin': { _FIRMWARE_VERSION_SHA256SUM: 'dc62e4b05eaf4fa8ab5546dcf18abdb30c8e64e9bf0fbf377ebc85155c7c3a47', _FIRMWARE_VERSION_RO_VERSION: 'bloonchipper_v2.0.5938-197506c1', _FIRMWARE_VERSION_RW_VERSION: 'bloonchipper_v2.0.5938-197506c1', _FIRMWARE_VERSION_KEY_ID: '1c590ef36399f6a2b2ef87079c135b69ef89eb60', }, }, _FP_BOARD_NAME_NOCTURNE: { 'nocturne_fp_v2.2.64-58cf5974e-RO_v2.0.4017-9c45fb4b3-RW.bin': { _FIRMWARE_VERSION_SHA256SUM: '16c405eeaff75dcbc76dbc9f368f66e3fabc47e2ebcf13bd2b64b8b133bbff97', _FIRMWARE_VERSION_RO_VERSION: 'nocturne_fp_v2.2.64-58cf5974e', _FIRMWARE_VERSION_RW_VERSION: 'nocturne_fp_v2.0.4017-9c45fb4b3', _FIRMWARE_VERSION_KEY_ID: '6f38c866182bd9bf7a4462c06ac04fa6a0074351', }, }, _FP_BOARD_NAME_NAMI: { 'nami_fp_v2.2.144-7a08e07eb-RO_v2.0.4017-9c45fb4b3-RW.bin': { _FIRMWARE_VERSION_SHA256SUM: '7965ea4c4371ee6d21dc462b9ed7c99078d17f4b772bec51441ca9af7d8f3a80', _FIRMWARE_VERSION_RO_VERSION: 'nami_fp_v2.2.144-7a08e07eb', _FIRMWARE_VERSION_RW_VERSION: 'nami_fp_v2.0.4017-9c45fb4b3', _FIRMWARE_VERSION_KEY_ID: '35486c0090ca390408f1fbbf2a182966084fe2f8', }, }, _FP_BOARD_NAME_DARTMONKEY: { 'dartmonkey_v2.0.2887-311310808-RO_v2.0.4017-9c45fb4b3-RW.bin': { _FIRMWARE_VERSION_SHA256SUM: 'b84914c70e93c28e2221f48be338dbf0ad0cfb12b7877baaf6b47f7bfd2aa958', _FIRMWARE_VERSION_RO_VERSION: 'dartmonkey_v2.0.2887-311310808', _FIRMWARE_VERSION_RW_VERSION: 'dartmonkey_v2.0.4017-9c45fb4b3', _FIRMWARE_VERSION_KEY_ID: '257a0aa3ac9e81aa4bc3aabdb6d3d079117c5799', } } } _BIOD_UPSTART_JOB_NAME = 'biod' # TODO(crbug.com/925545) _TIMBERSLIDE_UPSTART_JOB_NAME = \ 'timberslide LOG_PATH=/sys/kernel/debug/cros_fp/console_log' _INIT_ENTROPY_CMD = 'bio_wash --factory_init' _CROS_FP_ARG = '--name=cros_fp' _CROS_CONFIG_FINGERPRINT_PATH = '/fingerprint' _ECTOOL_RO_VERSION = 'RO version' _ECTOOL_RW_VERSION = 'RW version' _ECTOOL_FIRMWARE_COPY = 'Firmware copy' _ECTOOL_ROLLBACK_BLOCK_ID = 'Rollback block id' _ECTOOL_ROLLBACK_MIN_VERSION = 'Rollback min version' _ECTOOL_ROLLBACK_RW_VERSION = 'RW rollback version' @staticmethod def _parse_colon_delimited_output(ectool_output): """ Converts ectool's (or any other tool with similar output) colon delimited output into python dict. Ignores any lines that do not have colons. Example: RO version: nocturne_fp_v2.2.64-58cf5974e RW version: nocturne_fp_v2.2.110-b936c0a3c becomes: { 'RO version': 'nocturne_fp_v2.2.64-58cf5974e', 'RW version': 'nocturne_fp_v2.2.110-b936c0a3c' } """ ret = {} try: for line in ectool_output.strip().split('\n'): splits = line.split(':', 1) if len(splits) != 2: continue key = splits[0].strip() val = splits[1].strip() ret[key] = val except: raise error.TestFail('Unable to parse ectool output: %s' % ectool_output) return ret def initialize(self, host): """Perform minimal initialization, to avoid AttributeError in cleanup""" self.host = host self.servo = host.servo self._validate_compatible_servo_version() self.servo.initialize_dut() self.fp_board = self.get_fp_board() self._build_fw_file = self.get_build_fw_file() def setup_test(self, test_dir, use_dev_signed_fw=False, enable_hardware_write_protect=True, enable_software_write_protect=True, force_firmware_flashing=False, init_entropy=True): """Perform more complete initialization, including copying test files""" logging.info('HW write protect enabled: %s', self.is_hardware_write_protect_enabled()) # TODO(crbug.com/925545): stop timberslide so /var/log/cros_fp.log # continues to update after flashing. self._timberslide_running = self.host.upstart_status( self._TIMBERSLIDE_UPSTART_JOB_NAME) if self._timberslide_running: logging.info('Stopping %s', self._TIMBERSLIDE_UPSTART_JOB_NAME) self.host.upstart_stop(self._TIMBERSLIDE_UPSTART_JOB_NAME) self._biod_running = self.host.upstart_status( self._BIOD_UPSTART_JOB_NAME) if self._biod_running: logging.info('Stopping %s', self._BIOD_UPSTART_JOB_NAME) self.host.upstart_stop(self._BIOD_UPSTART_JOB_NAME) # On some platforms an AP reboot is needed after flashing firmware to # rebind the driver. self._dut_needs_reboot = self.get_host_board() == 'zork' if filesystem_util.is_rootfs_writable(self.host): if self._dut_needs_reboot: logging.warning('rootfs is writable') else: raise error.TestFail('rootfs is writable') if not self.biod_upstart_job_enabled(): raise error.TestFail( 'Biod upstart job is disabled at the beginning of test') if not self.fp_updater_is_enabled(): raise error.TestFail( 'Fingerprint firmware updater is disabled at the beginning of test' ) # Disable biod and updater so that they won't interfere after reboot. if self._dut_needs_reboot: self.disable_biod_upstart_job() self.disable_fp_updater() # create tmp working directory on device (automatically cleaned up) self._dut_working_dir = self.host.get_tmp_dir( parent=self._DUT_TMP_PATH_BASE) logging.info('Created dut_working_dir: %s', self._dut_working_dir) self.copy_files_to_dut(test_dir, self._dut_working_dir) self.validate_build_fw_file() gen_script = os.path.abspath(os.path.join(self.autodir, 'server', 'cros', 'faft', self._GENIMAGES_SCRIPT_NAME)) self._dut_firmware_test_images_dir = \ self._generate_test_firmware_images(gen_script, self._build_fw_file, self._dut_working_dir) logging.info('dut_firmware_test_images_dir: %s', self._dut_firmware_test_images_dir) self._initialize_test_firmware_image_attrs( self._dut_firmware_test_images_dir) self._initialize_running_fw_version(use_dev_signed_fw, force_firmware_flashing) if init_entropy: self._initialize_fw_entropy() self._initialize_hw_and_sw_write_protect(enable_hardware_write_protect, enable_software_write_protect) def cleanup(self): """Restores original state.""" # Once the tests complete we need to make sure we're running the # original firmware (not dev version) and potentially reset rollback. self._initialize_running_fw_version(use_dev_signed_fw=False, force_firmware_flashing=False) self._initialize_fw_entropy() # Re-enable biod and updater after flashing and initializing entropy so # that they don't interfere if there was a reboot. if hasattr(self, '_dut_needs_reboot') and self._dut_needs_reboot: if not self.biod_upstart_job_enabled(): self.enable_biod_upstart_job() if not self.fp_updater_is_enabled(): self.enable_fp_updater() self._initialize_hw_and_sw_write_protect( enable_hardware_write_protect=True, enable_software_write_protect=True) if hasattr(self, '_biod_running') and self._biod_running: logging.info('Restarting biod') self.host.upstart_restart(self._BIOD_UPSTART_JOB_NAME) # TODO(crbug.com/925545) if hasattr(self, '_timberslide_running') and self._timberslide_running: logging.info('Restarting timberslide') self.host.upstart_restart(self._TIMBERSLIDE_UPSTART_JOB_NAME) super(FingerprintTest, self).cleanup() def after_run_once(self): """Logs which iteration just ran.""" logging.info('successfully ran iteration %d', self.iteration) def _validate_compatible_servo_version(self): """Asserts if a compatible servo version is not attached.""" servo_version = self.servo.get_servo_version() logging.info('servo version: %s', servo_version) def _generate_test_firmware_images(self, gen_script, build_fw_file, dut_working_dir): """ Copies the fingerprint firmware from the DUT to the server running the tests, which runs a script to generate various test versions of the firmware. @return full path to location of test images on DUT """ # create subdirectory under existing tmp dir server_tmp_dir = os.path.join(self.tmpdir, self._SERVER_GENERATED_FW_DIR_NAME) os.mkdir(server_tmp_dir) logging.info('server_tmp_dir: %s', server_tmp_dir) # Copy firmware from device to server self.get_files_from_dut(build_fw_file, server_tmp_dir) # Run the test image generation script on server pushd = os.getcwd() os.chdir(server_tmp_dir) cmd = ' '.join([gen_script, self.get_fp_board(), os.path.basename(build_fw_file)]) result = self.run_server_cmd(cmd) if result.exit_status != 0: raise error.TestFail('Failed to run test image generation script') os.chdir(pushd) # Copy resulting files to DUT tmp dir server_generated_images_dir = \ os.path.join(server_tmp_dir, self._GENIMAGES_OUTPUT_DIR_NAME) self.copy_files_to_dut(server_generated_images_dir, dut_working_dir) return os.path.join(dut_working_dir, self._GENIMAGES_OUTPUT_DIR_NAME) def _initialize_test_firmware_image_attrs(self, dut_fw_test_images_dir): """Sets attributes with full path to test images on DUT. Example: self.TEST_IMAGE_DEV = /some/path/images/nocturne_fp.dev """ for key, val in self._TEST_IMAGE_FORMAT_MAP.iteritems(): full_path = os.path.join(dut_fw_test_images_dir, val % self.get_fp_board()) setattr(self, key, full_path) def _initialize_running_fw_version(self, use_dev_signed_fw, force_firmware_flashing): """ Ensures that the running firmware version matches build version and factory rollback settings; flashes to correct version if either fails to match is requested to force flashing. RO firmware: original version released at factory RW firmware: firmware from current build """ build_rw_firmware_version = \ self.get_build_rw_firmware_version(use_dev_signed_fw) golden_ro_firmware_version = \ self.get_golden_ro_firmware_version(use_dev_signed_fw) logging.info('Build RW firmware version: %s', build_rw_firmware_version) logging.info('Golden RO firmware version: %s', golden_ro_firmware_version) running_rw_firmware = self.ensure_running_rw_firmware() fw_versions_match = self.running_fw_version_matches_given_version( build_rw_firmware_version, golden_ro_firmware_version) if not running_rw_firmware or not fw_versions_match \ or not self.is_rollback_set_to_initial_val() \ or force_firmware_flashing: fw_file = self._build_fw_file if use_dev_signed_fw: fw_file = self.TEST_IMAGE_DEV self.flash_rw_ro_firmware(fw_file) if not self.running_fw_version_matches_given_version( build_rw_firmware_version, golden_ro_firmware_version): raise error.TestFail( 'Running firmware version does not match expected version') def _initialize_fw_entropy(self): """Sets the entropy (key) in FPMCU flash (if not set).""" result = self.run_cmd(self._INIT_ENTROPY_CMD) if result.exit_status != 0: raise error.TestFail('Unable to initialize entropy') def _initialize_hw_and_sw_write_protect(self, enable_hardware_write_protect, enable_software_write_protect): """Enables/disables hardware/software write protect.""" # sw: 0, hw: 0 => initial_hw(0) -> sw(0) -> hw(0) # sw: 0, hw: 1 => initial_hw(0) -> sw(0) -> hw(1) # sw: 1, hw: 0 => initial_hw(1) -> sw(1) -> hw(0) # sw: 1, hw: 1 => initial_hw(1) -> sw(1) -> hw(1) hardware_write_protect_initial_enabled = True if not enable_software_write_protect: hardware_write_protect_initial_enabled = False self.set_hardware_write_protect(hardware_write_protect_initial_enabled) self.set_software_write_protect(enable_software_write_protect) self.set_hardware_write_protect(enable_hardware_write_protect) def get_fp_board(self): """Returns name of fingerprint EC. nocturne and nami are special cases and have "_fp" appended. Newer FPMCUs have unique names. See go/cros-fingerprint-firmware-branching-and-signing. """ # Use cros_config to get fingerprint board. # Due to b/160271883, we will try running the cmd via cat instead. result = self._run_cros_config_cmd_cat('fingerprint/board') if result.exit_status != 0: raise error.TestFail( 'Unable to get fingerprint board with cros_config') return result.stdout.rstrip() def get_host_board(self): """Returns name of the host board.""" return self.host.get_board().split(':')[-1] def get_build_fw_file(self): """Returns full path to build FW file on DUT.""" ls_cmd = 'ls %s/%s*.bin' % ( self._FINGERPRINT_BUILD_FW_DIR, self.fp_board) result = self.run_cmd(ls_cmd) if result.exit_status != 0: raise error.TestFail( 'Unable to find firmware file on device:' ' command failed (rc=%s): %s' % (result.exit_status, result.stderr.strip() or ls_cmd)) ret = result.stdout.rstrip() logging.info('Build firmware file: %s', ret) return ret def check_equal(self, a, b): """Raises exception if "a" does not equal "b".""" if a != b: raise error.TestFail('"%s" does not match expected "%s" for board ' '%s' % (a, b, self.get_fp_board())) def validate_build_fw_file(self, allowed_types=(_KEY_TYPE_PRE_MP, _KEY_TYPE_MP)): """ Checks that all attributes in the given firmware file match their expected values. @param allowed_types: If key type is something else, raise TestFail. Default: pre-MP or MP. @type allowed_types: tuple | list """ build_fw_file = self._build_fw_file # check hash actual_hash = self._calculate_sha256sum(build_fw_file) expected_hash = self._get_expected_firmware_hash(build_fw_file) self.check_equal(actual_hash, expected_hash) # check signing key_id actual_key_id = self._read_firmware_key_id(build_fw_file) expected_key_id = self._get_expected_firmware_key_id(build_fw_file) self.check_equal(actual_key_id, expected_key_id) # check that the signing key for firmware in the build # is "pre mass production" (pre-mp) or "mass production" (MP) key_type = self._get_key_type(actual_key_id) if key_type not in allowed_types: raise error.TestFail( 'Firmware key type must be %s for board %s; got %s (%s)' % (' or '.join(allowed_types), self.fp_board, key_type, actual_key_id)) # check ro_version actual_ro_version = self._read_firmware_ro_version(build_fw_file) expected_ro_version = \ self._get_expected_firmware_ro_version(build_fw_file) self.check_equal(actual_ro_version, expected_ro_version) # check rw_version actual_rw_version = self._read_firmware_rw_version(build_fw_file) expected_rw_version = \ self._get_expected_firmware_rw_version(build_fw_file) self.check_equal(actual_rw_version, expected_rw_version) logging.info("Validated build firmware metadata.") def _get_key_type(self, key_id): """Returns the key "type" for a given "key id".""" key_type = self._KEY_ID_MAP_.get(key_id) if key_type is None: raise error.TestFail('Unable to get key type for key id: %s' % key_id) return key_type def _get_expected_firmware_info(self, build_fw_file, info_type): """ Returns expected firmware info for a given firmware file name. """ build_fw_file_name = os.path.basename(build_fw_file) board = self.get_fp_board() board_expected_fw_info = self._FIRMWARE_VERSION_MAP.get(board) if board_expected_fw_info is None: raise error.TestFail('Unable to get firmware info for board: %s' % board) expected_fw_info = board_expected_fw_info.get(build_fw_file_name) if expected_fw_info is None: raise error.TestFail('Unable to get firmware info for file: %s' % build_fw_file_name) ret = expected_fw_info.get(info_type) if ret is None: raise error.TestFail('Unable to get firmware info type: %s' % info_type) return ret def _get_expected_firmware_hash(self, build_fw_file): """Returns expected hash of firmware file.""" return self._get_expected_firmware_info( build_fw_file, self._FIRMWARE_VERSION_SHA256SUM) def _get_expected_firmware_key_id(self, build_fw_file): """Returns expected "key id" for firmware file.""" return self._get_expected_firmware_info( build_fw_file, self._FIRMWARE_VERSION_KEY_ID) def _get_expected_firmware_ro_version(self, build_fw_file): """Returns expected RO version for firmware file.""" return self._get_expected_firmware_info( build_fw_file, self._FIRMWARE_VERSION_RO_VERSION) def _get_expected_firmware_rw_version(self, build_fw_file): """Returns expected RW version for firmware file.""" return self._get_expected_firmware_info( build_fw_file, self._FIRMWARE_VERSION_RW_VERSION) def _read_firmware_key_id(self, file_name): """Returns "key id" as read from the given file.""" result = self._run_futility_show_cmd(file_name) parsed = self._parse_colon_delimited_output(result) key_id = parsed.get(self._FUTILITY_KEY_ID_KEY_NAME) if key_id is None: raise error.TestFail('Failed to get key ID for file: %s' % file_name) return key_id def _read_firmware_ro_version(self, file_name): """Returns RO firmware version as read from the given file.""" return self._run_dump_fmap_cmd(file_name, 'RO_FRID') def _read_firmware_rw_version(self, file_name): """Returns RW firmware version as read from the given file.""" return self._run_dump_fmap_cmd(file_name, 'RW_FWID') def _calculate_sha256sum(self, file_name): """Returns SHA256 hash of the given file contents.""" result = self._run_sha256sum_cmd(file_name) return result.stdout.split()[0] def _get_running_firmware_info(self, key): """ Returns requested firmware info (RW version, RO version, or firmware type). """ result = self._run_ectool_cmd('version') parsed = self._parse_colon_delimited_output(result.stdout) if result.exit_status != 0: raise error.TestFail('Failed to get running firmware info') info = parsed.get(key) if info is None: raise error.TestFail( 'Failed to get running firmware info: %s' % key) return info def get_running_rw_firmware_version(self): """Returns running RW firmware version.""" return self._get_running_firmware_info(self._ECTOOL_RW_VERSION) def get_running_ro_firmware_version(self): """Returns running RO firmware version.""" return self._get_running_firmware_info(self._ECTOOL_RO_VERSION) def get_running_firmware_type(self): """Returns type of firmware we are running (RW or RO).""" return self._get_running_firmware_info(self._ECTOOL_FIRMWARE_COPY) def _get_rollback_info(self, info_type): """Returns requested type of rollback info.""" result = self._run_ectool_cmd('rollbackinfo') parsed = self._parse_colon_delimited_output(result.stdout) if result.exit_status != 0: raise error.TestFail('Failed to get rollback info') info = parsed.get(info_type) if info is None: raise error.TestFail('Failed to get rollback info: %s' % info_type) return info def get_rollback_id(self): """Returns rollback ID.""" return self._get_rollback_info(self._ECTOOL_ROLLBACK_BLOCK_ID) def get_rollback_min_version(self): """Returns rollback min version.""" return self._get_rollback_info(self._ECTOOL_ROLLBACK_MIN_VERSION) def get_rollback_rw_version(self): """Returns RW rollback version.""" return self._get_rollback_info(self._ECTOOL_ROLLBACK_RW_VERSION) def _construct_dev_version(self, orig_version): """ Given a "regular" version string from a signed build, returns the special "dev" version that we use when creating the test images. """ fw_version = orig_version if len(fw_version) + len('.dev') > 31: fw_version = fw_version[:27] fw_version = fw_version + '.dev' return fw_version def get_golden_ro_firmware_version(self, use_dev_signed_fw): """Returns RO firmware version used in factory.""" board = self.get_fp_board() golden_version = self._GOLDEN_RO_FIRMWARE_VERSION_MAP.get(board) if isinstance(golden_version, dict): golden_version = golden_version.get(self.get_host_board()) if golden_version is None: raise error.TestFail('Unable to get golden RO version for board: %s' % board) if use_dev_signed_fw: golden_version = self._construct_dev_version(golden_version) return golden_version def get_build_rw_firmware_version(self, use_dev_signed_fw): """Returns RW firmware version from build.""" fw_version = self._read_firmware_rw_version(self._build_fw_file) if use_dev_signed_fw: fw_version = self._construct_dev_version(fw_version) return fw_version def ensure_running_rw_firmware(self): """ Check whether the device is running RW firmware. If not, try rebooting to RW. @return true if successfully verified running RW firmware, false otherwise. """ try: if self.get_running_firmware_type() != self._FIRMWARE_TYPE_RW: self._reboot_ec() if self.get_running_firmware_type() != self._FIRMWARE_TYPE_RW: # RW may be corrupted. return False except: # We may not always be able to read the firmware version. # For example, if the firmware is erased due to RDP1, running any # commands (such as getting the version) won't work. return False return True def running_fw_version_matches_given_version(self, rw_version, ro_version): """ Returns True if the running RO and RW firmware versions match the provided versions. """ try: running_rw_firmware_version = self.get_running_rw_firmware_version() running_ro_firmware_version = self.get_running_ro_firmware_version() logging.info('RW firmware, running: %s, expected: %s', running_rw_firmware_version, rw_version) logging.info('RO firmware, running: %s, expected: %s', running_ro_firmware_version, ro_version) return (running_rw_firmware_version == rw_version and running_ro_firmware_version == ro_version) except: # We may not always be able to read the firmware version. # For example, if the firmware is erased due to RDP1, running any # commands (such as getting the version) won't work. return False def is_rollback_set_to_initial_val(self): """ Returns True if rollbackinfo matches the initial value that it should have coming from the factory. """ return (self.get_rollback_id() == self._ROLLBACK_INITIAL_BLOCK_ID and self.get_rollback_min_version() == self._ROLLBACK_INITIAL_MIN_VERSION and self.get_rollback_rw_version() == self._ROLLBACK_INITIAL_RW_VERSION) def is_rollback_unset(self): """ Returns True if rollbackinfo matches the uninitialized value that it should have after flashing the entire flash. """ return (self.get_rollback_id() == self._ROLLBACK_ZERO_BLOCK_ID and self.get_rollback_min_version() == self._ROLLBACK_INITIAL_MIN_VERSION and self.get_rollback_rw_version() == self._ROLLBACK_INITIAL_RW_VERSION) def biod_upstart_job_enabled(self): """Returns whether biod's upstart job file is at original location.""" return self.host.is_file_exists( os.path.join(self._UPSTART_DIR, self._BIOD_UPSTART_JOB_FILE)) def disable_biod_upstart_job(self): """ Disable biod's upstart job so that biod will not run after a reboot. """ logging.info('Disabling biod\'s upstart job') filesystem_util.make_rootfs_writable(self.host) cmd = 'mv %s %s' % (os.path.join( self._UPSTART_DIR, self._BIOD_UPSTART_JOB_FILE), self._STATEFUL_PARTITION_DIR) result = self.run_cmd(cmd) if result.exit_status != 0: raise error.TestFail('Unable to disable biod upstart job: %s' % result.stderr.strip()) def enable_biod_upstart_job(self): """ Enable biod's upstart job so that biod will run after a reboot. """ logging.info('Enabling biod\'s upstart job') filesystem_util.make_rootfs_writable(self.host) cmd = 'mv %s %s' % (os.path.join( self._STATEFUL_PARTITION_DIR, self._BIOD_UPSTART_JOB_FILE), self._UPSTART_DIR) result = self.run_cmd(cmd) if result.exit_status != 0: raise error.TestFail('Unable to enable biod upstart job: %s' % result.stderr.strip()) def fp_updater_is_enabled(self): """Returns whether the fingerprint firmware updater is disabled.""" return not self.host.is_file_exists( os.path.join(self._FINGERPRINT_BUILD_FW_DIR, self._DISABLE_FP_UPDATER_FILE)) def disable_fp_updater(self): """Disable the fingerprint firmware updater.""" filesystem_util.make_rootfs_writable(self.host) touch_cmd = 'touch %s' % os.path.join(self._FINGERPRINT_BUILD_FW_DIR, self._DISABLE_FP_UPDATER_FILE) logging.info('Disabling fp firmware updater') result = self.run_cmd(touch_cmd) if result.exit_status != 0: raise error.TestFail( 'Unable to write file to disable fp updater:' ' command failed (rc=%s): %s' % (result.exit_status, result.stderr.strip() or touch_cmd)) self.run_cmd('sync') def enable_fp_updater(self): """ Enable the fingerprint firmware updater. Must be called only after disable_fp_updater(). """ filesystem_util.make_rootfs_writable(self.host) rm_cmd = 'rm %s' % os.path.join(self._FINGERPRINT_BUILD_FW_DIR, self._DISABLE_FP_UPDATER_FILE) logging.info('Enabling fp firmware updater') result = self.run_cmd(rm_cmd) if result.exit_status != 0: raise error.TestFail( 'Unable to rm .disable_fp_updater:' ' command failed (rc=%s): %s' % (result.exit_status, result.stderr.strip() or rm_cmd)) self.run_cmd('sync') def flash_rw_ro_firmware(self, fw_path): """Flashes *all* firmware (both RO and RW).""" self.set_hardware_write_protect(False) flash_cmd = 'flash_fp_mcu' + ' ' + fw_path logging.info('Running flash cmd: %s', flash_cmd) flash_result = self.run_cmd(flash_cmd) self.set_hardware_write_protect(True) # Zork cannot rebind cros-ec-uart after flashing, so an AP reboot is # needed to talk to FPMCU. See b/170213489. # We have to do this even if flashing failed. if hasattr(self, '_dut_needs_reboot') and self._dut_needs_reboot: self.host.reboot() if self.fp_updater_is_enabled(): raise error.TestFail( 'Fp updater was not disabled when firmware is flashed') # If we just re-enable fp updater, it can still update (race # condition), so do it later in cleanup. if flash_result.exit_status != 0: raise error.TestFail('Flashing RW/RO firmware failed') def is_hardware_write_protect_enabled(self): """Returns state of hardware write protect.""" fw_wp_state = self.servo.get('fw_wp_state') return fw_wp_state == 'on' or fw_wp_state == 'force_on' def set_hardware_write_protect(self, enable): """Enables or disables hardware write protect.""" self.servo.set('fw_wp_state', 'force_on' if enable else 'force_off') def set_software_write_protect(self, enable): """Enables or disables software write protect.""" arg = 'enable' if enable else 'disable' self._run_ectool_cmd('flashprotect ' + arg) # TODO(b/116396469): The flashprotect command returns an error even on # success. # if result.exit_status != 0: # raise error.TestFail('Failed to modify software write protect') # TODO(b/116396469): "flashprotect enable" command is slow, so wait for # it to complete before attempting to reboot. time.sleep(2) self._reboot_ec() def _reboot_ec(self): """Reboots the fingerprint MCU (FPMCU).""" self._run_ectool_cmd('reboot_ec') # TODO(b/116396469): The reboot_ec command returns an error even on # success. # if result.exit_status != 0: # raise error.TestFail('Failed to reboot ec') time.sleep(2) def get_files_from_dut(self, src, dst): """Copes files from DUT to server.""" logging.info('Copying files from (%s) to (%s).', src, dst) self.host.get_file(src, dst, delete_dest=True) def copy_files_to_dut(self, src_dir, dst_dir): """Copies files from server to DUT.""" logging.info('Copying files from (%s) to (%s).', src_dir, dst_dir) self.host.send_file(src_dir, dst_dir, delete_dest=True) # Sync the filesystem in case we need to reboot the AP soon. self.run_cmd('sync') def run_server_cmd(self, command, timeout=60): """Runs command on server; return result with output and exit code.""" logging.info('Server execute: %s', command) result = utils.run(command, timeout=timeout, ignore_status=True) logging.info('exit_code: %d', result.exit_status) logging.info('stdout:\n%s', result.stdout) logging.info('stderr:\n%s', result.stderr) return result def run_cmd(self, command, timeout=300): """Runs command on the DUT; return result with output and exit code.""" logging.debug('DUT Execute: %s', command) result = self.host.run(command, timeout=timeout, ignore_status=True) logging.info('exit_code: %d', result.exit_status) logging.info('stdout:\n%s', result.stdout) logging.info('stderr:\n%s', result.stderr) return result def _run_ectool_cmd(self, command): """Runs ectool on DUT; return result with output and exit code.""" cmd = 'ectool ' + self._CROS_FP_ARG + ' ' + command result = self.run_cmd(cmd) return result def _run_cros_config_cmd(self, command): """Runs cros_config on DUT; return result with output and exit code.""" cmd = 'cros_config ' + self._CROS_CONFIG_FINGERPRINT_PATH + ' ' \ + command result = self.run_cmd(cmd) return result def _run_cros_config_cmd_cat(self, command): """Runs cat /run/chromeos-config/v1 on DUT; return result.""" cmd = "cat /run/chromeos-config/v1/{}".format(command) return self.run_cmd(cmd) def _run_dump_fmap_cmd(self, fw_file, section): """ Runs "dump_fmap" on DUT for given file. Returns value of given section. """ # Write result to stderr while redirecting stderr to stdout # and dropping stdout. This is done because dump_map only writes the # value read from a section to a file (will not just print it to # stdout). cmd = 'dump_fmap -x ' + fw_file + ' ' + section +\ ':/dev/stderr /dev/stderr >& /dev/stdout > /dev/null' result = self.run_cmd(cmd) if result.exit_status != 0: raise error.TestFail('Failed to read section: %s' % section) return result.stdout.rstrip('\0') def _run_futility_show_cmd(self, fw_file): """ Runs "futility show" on DUT for given file. Returns stdout on success. """ futility_cmd = 'futility show ' + fw_file result = self.run_cmd(futility_cmd) if result.exit_status != 0: raise error.TestFail('Unable to run futility on device') return result.stdout def _run_sha256sum_cmd(self, file_name): """ Runs "sha256sum" on DUT for given file. Returns stdout on success. """ sha_cmd = 'sha256sum ' + file_name result = self.run_cmd(sha_cmd) if result.exit_status != 0: raise error.TestFail('Unable to calculate sha256sum on device') return result def run_test(self, test_name, *args): """Runs test on DUT.""" logging.info('Running %s', test_name) # Redirecting stderr to stdout since some commands intentionally fail # and it's easier to read when everything ordered in the same output test_cmd = ' '.join([os.path.join(self._dut_working_dir, test_name)] + list(args) + ['2>&1']) # Change the working dir so we can write files from within the test # (otherwise defaults to $HOME (/root), which is not usually writable) # Note that dut_working_dir is automatically cleaned up so tests don't # need to worry about files from previous invocations or other tests. test_cmd = '(cd ' + self._dut_working_dir + ' && ' + test_cmd + ')' logging.info('Test command: %s', test_cmd) result = self.run_cmd(test_cmd) if result.exit_status != 0: raise error.TestFail(test_name + ' failed')