| # Copyright 2017 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. |
| |
| """ |
| Convenience functions for use by tests or whomever. |
| """ |
| |
| # pylint: disable=missing-docstring |
| |
| import collections |
| import commands |
| import fnmatch |
| import glob |
| import json |
| import logging |
| import math |
| import multiprocessing |
| import os |
| import pickle |
| import platform |
| import re |
| import shutil |
| import signal |
| import string |
| import tempfile |
| import time |
| import uuid |
| |
| from autotest_lib.client.common_lib import error |
| from autotest_lib.client.common_lib import magic |
| from autotest_lib.client.common_lib import utils |
| |
| from autotest_lib.client.common_lib.utils import * |
| |
| |
| def grep(pattern, file): |
| """ |
| This is mainly to fix the return code inversion from grep |
| Also handles compressed files. |
| |
| returns 1 if the pattern is present in the file, 0 if not. |
| """ |
| command = 'grep "%s" > /dev/null' % pattern |
| ret = cat_file_to_cmd(file, command, ignore_status=True) |
| return not ret |
| |
| |
| def difflist(list1, list2): |
| """returns items in list2 that are not in list1""" |
| diff = []; |
| for x in list2: |
| if x not in list1: |
| diff.append(x) |
| return diff |
| |
| |
| def cat_file_to_cmd(file, command, ignore_status=0, return_output=False): |
| """ |
| equivalent to 'cat file | command' but knows to use |
| zcat or bzcat if appropriate |
| """ |
| if not os.path.isfile(file): |
| raise NameError('invalid file %s to cat to command %s' |
| % (file, command)) |
| |
| if return_output: |
| run_cmd = utils.system_output |
| else: |
| run_cmd = utils.system |
| |
| if magic.guess_type(file) == 'application/x-bzip2': |
| cat = 'bzcat' |
| elif magic.guess_type(file) == 'application/x-gzip': |
| cat = 'zcat' |
| else: |
| cat = 'cat' |
| return run_cmd('%s %s | %s' % (cat, file, command), |
| ignore_status=ignore_status) |
| |
| |
| def extract_tarball_to_dir(tarball, dir): |
| """ |
| Extract a tarball to a specified directory name instead of whatever |
| the top level of a tarball is - useful for versioned directory names, etc |
| """ |
| if os.path.exists(dir): |
| if os.path.isdir(dir): |
| shutil.rmtree(dir) |
| else: |
| os.remove(dir) |
| pwd = os.getcwd() |
| os.chdir(os.path.dirname(os.path.abspath(dir))) |
| newdir = extract_tarball(tarball) |
| os.rename(newdir, dir) |
| os.chdir(pwd) |
| |
| |
| def extract_tarball(tarball): |
| """Returns the directory extracted by the tarball.""" |
| extracted = cat_file_to_cmd(tarball, 'tar xvf - 2>/dev/null', |
| return_output=True).splitlines() |
| |
| dir = None |
| |
| for line in extracted: |
| if line.startswith('./'): |
| line = line[2:] |
| if not line or line == '.': |
| continue |
| topdir = line.split('/')[0] |
| if os.path.isdir(topdir): |
| if dir: |
| assert(dir == topdir) |
| else: |
| dir = topdir |
| if dir: |
| return dir |
| else: |
| raise NameError('extracting tarball produced no dir') |
| |
| |
| def force_copy(src, dest): |
| """Replace dest with a new copy of src, even if it exists""" |
| if os.path.isfile(dest): |
| os.remove(dest) |
| if os.path.isdir(dest): |
| dest = os.path.join(dest, os.path.basename(src)) |
| shutil.copyfile(src, dest) |
| return dest |
| |
| |
| def force_link(src, dest): |
| """Link src to dest, overwriting it if it exists""" |
| return utils.system("ln -sf %s %s" % (src, dest)) |
| |
| |
| def file_contains_pattern(file, pattern): |
| """Return true if file contains the specified egrep pattern""" |
| if not os.path.isfile(file): |
| raise NameError('file %s does not exist' % file) |
| return not utils.system('egrep -q "' + pattern + '" ' + file, |
| ignore_status=True) |
| |
| |
| def list_grep(list, pattern): |
| """True if any item in list matches the specified pattern.""" |
| compiled = re.compile(pattern) |
| for line in list: |
| match = compiled.search(line) |
| if (match): |
| return 1 |
| return 0 |
| |
| |
| def get_os_vendor(): |
| """Try to guess what's the os vendor |
| """ |
| if os.path.isfile('/etc/SuSE-release'): |
| return 'SUSE' |
| |
| issue = '/etc/issue' |
| |
| if not os.path.isfile(issue): |
| return 'Unknown' |
| |
| if file_contains_pattern(issue, 'Red Hat'): |
| return 'Red Hat' |
| elif file_contains_pattern(issue, 'Fedora'): |
| return 'Fedora Core' |
| elif file_contains_pattern(issue, 'SUSE'): |
| return 'SUSE' |
| elif file_contains_pattern(issue, 'Ubuntu'): |
| return 'Ubuntu' |
| elif file_contains_pattern(issue, 'Debian'): |
| return 'Debian' |
| else: |
| return 'Unknown' |
| |
| |
| def get_cc(): |
| try: |
| return os.environ['CC'] |
| except KeyError: |
| return 'gcc' |
| |
| |
| def get_vmlinux(): |
| """Return the full path to vmlinux |
| |
| Ahem. This is crap. Pray harder. Bad Martin. |
| """ |
| vmlinux = '/boot/vmlinux-%s' % utils.system_output('uname -r') |
| if os.path.isfile(vmlinux): |
| return vmlinux |
| vmlinux = '/lib/modules/%s/build/vmlinux' % utils.system_output('uname -r') |
| if os.path.isfile(vmlinux): |
| return vmlinux |
| return None |
| |
| |
| def get_systemmap(): |
| """Return the full path to System.map |
| |
| Ahem. This is crap. Pray harder. Bad Martin. |
| """ |
| map = '/boot/System.map-%s' % utils.system_output('uname -r') |
| if os.path.isfile(map): |
| return map |
| map = '/lib/modules/%s/build/System.map' % utils.system_output('uname -r') |
| if os.path.isfile(map): |
| return map |
| return None |
| |
| |
| def get_modules_dir(): |
| """Return the modules dir for the running kernel version""" |
| kernel_version = utils.system_output('uname -r') |
| return '/lib/modules/%s/kernel' % kernel_version |
| |
| |
| _CPUINFO_RE = re.compile(r'^(?P<key>[^\t]*)\t*: ?(?P<value>.*)$') |
| |
| |
| def get_cpuinfo(): |
| """Read /proc/cpuinfo and convert to a list of dicts.""" |
| cpuinfo = [] |
| with open('/proc/cpuinfo', 'r') as f: |
| cpu = {} |
| for line in f: |
| line = line.strip() |
| if not line: |
| cpuinfo.append(cpu) |
| cpu = {} |
| continue |
| match = _CPUINFO_RE.match(line) |
| cpu[match.group('key')] = match.group('value') |
| if cpu: |
| # cpuinfo usually ends in a blank line, so this shouldn't happen. |
| cpuinfo.append(cpu) |
| return cpuinfo |
| |
| |
| def get_cpu_arch(): |
| """Work out which CPU architecture we're running on""" |
| |
| # Using 'uname -m' should be a very portable way to do this since the |
| # format is pretty standard. |
| machine_name = utils.system_output('uname -m').strip() |
| |
| # Apparently ARM64 and ARM have both historically returned the string 'arm' |
| # here so continue the tradition. Use startswith() because: |
| # - On most of our arm devices we'll actually see the string armv7l. |
| # - In theory the machine name could include a suffix for endianness. |
| if machine_name.startswith('aarch64') or machine_name.startswith('arm'): |
| return 'arm' |
| |
| # Historically we _have_ treated x86_64 and i386 separately. |
| if machine_name in ('x86_64', 'i386'): |
| return machine_name |
| |
| raise error.TestError('unsupported machine type %s' % machine_name) |
| |
| |
| def get_arm_soc_family_from_devicetree(): |
| """ |
| Work out which ARM SoC we're running on based on the 'compatible' property |
| of the base node of devicetree, if it exists. |
| """ |
| devicetree_compatible = '/sys/firmware/devicetree/base/compatible' |
| if not os.path.isfile(devicetree_compatible): |
| return None |
| f = open(devicetree_compatible, 'r') |
| compatible = f.read().split(chr(0)) |
| f.close() |
| if list_grep(compatible, '^rockchip,'): |
| return 'rockchip' |
| elif list_grep(compatible, '^mediatek,'): |
| return 'mediatek' |
| elif list_grep(compatible, '^qcom,'): |
| return 'qualcomm' |
| return None |
| |
| |
| def get_arm_soc_family(): |
| """Work out which ARM SoC we're running on""" |
| family = get_arm_soc_family_from_devicetree() |
| if family is not None: |
| return family |
| |
| f = open('/proc/cpuinfo', 'r') |
| cpuinfo = f.readlines() |
| f.close() |
| if list_grep(cpuinfo, 'EXYNOS5'): |
| return 'exynos5' |
| elif list_grep(cpuinfo, 'Tegra'): |
| return 'tegra' |
| elif list_grep(cpuinfo, 'Rockchip'): |
| return 'rockchip' |
| return 'arm' |
| |
| |
| def get_cpu_soc_family(): |
| """Like get_cpu_arch, but for ARM, returns the SoC family name""" |
| f = open('/proc/cpuinfo', 'r') |
| cpuinfo = f.readlines() |
| f.close() |
| family = get_cpu_arch() |
| if family == 'arm': |
| family = get_arm_soc_family() |
| if list_grep(cpuinfo, '^vendor_id.*:.*AMD'): |
| family = 'amd' |
| return family |
| |
| |
| INTEL_UARCH_TABLE = { |
| '06_4C': 'Airmont', |
| '06_1C': 'Atom', |
| '06_26': 'Atom', |
| '06_27': 'Atom', |
| '06_35': 'Atom', |
| '06_36': 'Atom', |
| '06_3D': 'Broadwell', |
| '06_47': 'Broadwell', |
| '06_4F': 'Broadwell', |
| '06_56': 'Broadwell', |
| '06_0D': 'Dothan', |
| '06_5C': 'Goldmont', |
| '06_7A': 'Goldmont', |
| '06_3C': 'Haswell', |
| '06_45': 'Haswell', |
| '06_46': 'Haswell', |
| '06_3F': 'Haswell-E', |
| '06_3A': 'Ivy Bridge', |
| '06_3E': 'Ivy Bridge-E', |
| '06_8E': 'Kaby Lake', |
| '06_9E': 'Kaby Lake', |
| '06_0F': 'Merom', |
| '06_16': 'Merom', |
| '06_17': 'Nehalem', |
| '06_1A': 'Nehalem', |
| '06_1D': 'Nehalem', |
| '06_1E': 'Nehalem', |
| '06_1F': 'Nehalem', |
| '06_2E': 'Nehalem', |
| '0F_03': 'Prescott', |
| '0F_04': 'Prescott', |
| '0F_06': 'Presler', |
| '06_2A': 'Sandy Bridge', |
| '06_2D': 'Sandy Bridge', |
| '06_37': 'Silvermont', |
| '06_4A': 'Silvermont', |
| '06_4D': 'Silvermont', |
| '06_5A': 'Silvermont', |
| '06_5D': 'Silvermont', |
| '06_4E': 'Skylake', |
| '06_5E': 'Skylake', |
| '06_55': 'Skylake', |
| '06_25': 'Westmere', |
| '06_2C': 'Westmere', |
| '06_2F': 'Westmere', |
| } |
| |
| |
| def get_intel_cpu_uarch(numeric=False): |
| """Return the Intel microarchitecture we're running on, or None. |
| |
| Returns None if this is not an Intel CPU. Returns the family and model as |
| underscore-separated hex (per Intel manual convention) if the uarch is not |
| known, or if numeric is True. |
| """ |
| if not get_current_kernel_arch().startswith('x86'): |
| return None |
| cpuinfo = get_cpuinfo()[0] |
| if cpuinfo['vendor_id'] != 'GenuineIntel': |
| return None |
| family_model = '%02X_%02X' % (int(cpuinfo['cpu family']), |
| int(cpuinfo['model'])) |
| if numeric: |
| return family_model |
| return INTEL_UARCH_TABLE.get(family_model, family_model) |
| |
| |
| INTEL_SILVERMONT_BCLK_TABLE = [83333, 100000, 133333, 116667, 80000]; |
| |
| |
| def get_intel_bclk_khz(): |
| """Return Intel CPU base clock. |
| |
| This only worked with SandyBridge (released in 2011) or newer. Older CPU has |
| 133 MHz bclk. See turbostat code for implementation that also works with |
| older CPU. https://git.io/vpyKT |
| """ |
| if get_intel_cpu_uarch() == 'Silvermont': |
| MSR_FSB_FREQ = 0xcd |
| return INTEL_SILVERMONT_BCLK_TABLE[utils.rdmsr(MSR_FSB_FREQ) & 0xf] |
| return 100000 |
| |
| |
| def get_current_kernel_arch(): |
| """Get the machine architecture, now just a wrap of 'uname -m'.""" |
| return os.popen('uname -m').read().rstrip() |
| |
| |
| def get_file_arch(filename): |
| # -L means follow symlinks |
| file_data = utils.system_output('file -L ' + filename) |
| if file_data.count('80386'): |
| return 'i386' |
| return None |
| |
| |
| def count_cpus(): |
| """number of CPUs in the local machine according to /proc/cpuinfo""" |
| try: |
| return multiprocessing.cpu_count() |
| except Exception: |
| logging.exception('can not get cpu count from' |
| ' multiprocessing.cpu_count()') |
| cpuinfo = get_cpuinfo() |
| # Returns at least one cpu. Check comment #1 in crosbug.com/p/9582. |
| return len(cpuinfo) or 1 |
| |
| |
| def cpu_online_map(): |
| """ |
| Check out the available cpu online map |
| """ |
| cpuinfo = get_cpuinfo() |
| cpus = [] |
| for cpu in cpuinfo: |
| cpus.append(cpu['processor']) # grab cpu number |
| return cpus |
| |
| |
| def get_cpu_family(): |
| cpuinfo = get_cpuinfo()[0] |
| return int(cpuinfo['cpu_family']) |
| |
| |
| def get_cpu_vendor(): |
| cpuinfo = get_cpuinfo() |
| vendors = [cpu['vendor_id'] for cpu in cpuinfo] |
| for v in vendors[1:]: |
| if v != vendors[0]: |
| raise error.TestError('multiple cpu vendors found: ' + str(vendors)) |
| return vendors[0] |
| |
| |
| def probe_cpus(): |
| """ |
| This routine returns a list of cpu devices found under |
| /sys/devices/system/cpu. |
| """ |
| cmd = 'find /sys/devices/system/cpu/ -maxdepth 1 -type d -name cpu*' |
| return utils.system_output(cmd).splitlines() |
| |
| |
| # Returns total memory in kb |
| def read_from_meminfo(key): |
| meminfo = utils.system_output('grep %s /proc/meminfo' % key) |
| return int(re.search(r'\d+', meminfo).group(0)) |
| |
| |
| def memtotal(): |
| return read_from_meminfo('MemTotal') |
| |
| |
| def freememtotal(): |
| return read_from_meminfo('MemFree') |
| |
| def usable_memtotal(): |
| # Reserved 5% for OS use |
| return int(read_from_meminfo('MemFree') * 0.95) |
| |
| def swaptotal(): |
| return read_from_meminfo('SwapTotal') |
| |
| def rounded_memtotal(): |
| # Get total of all physical mem, in kbytes |
| usable_kbytes = memtotal() |
| # usable_kbytes is system's usable DRAM in kbytes, |
| # as reported by memtotal() from device /proc/meminfo memtotal |
| # after Linux deducts 1.5% to 5.1% for system table overhead |
| # Undo the unknown actual deduction by rounding up |
| # to next small multiple of a big power-of-two |
| # eg 12GB - 5.1% gets rounded back up to 12GB |
| mindeduct = 0.015 # 1.5 percent |
| maxdeduct = 0.055 # 5.5 percent |
| # deduction range 1.5% .. 5.5% supports physical mem sizes |
| # 6GB .. 12GB in steps of .5GB |
| # 12GB .. 24GB in steps of 1 GB |
| # 24GB .. 48GB in steps of 2 GB ... |
| # Finer granularity in physical mem sizes would require |
| # tighter spread between min and max possible deductions |
| |
| # increase mem size by at least min deduction, without rounding |
| min_kbytes = int(usable_kbytes / (1.0 - mindeduct)) |
| # increase mem size further by 2**n rounding, by 0..roundKb or more |
| round_kbytes = int(usable_kbytes / (1.0 - maxdeduct)) - min_kbytes |
| # find least binary roundup 2**n that covers worst-cast roundKb |
| mod2n = 1 << int(math.ceil(math.log(round_kbytes, 2))) |
| # have round_kbytes <= mod2n < round_kbytes*2 |
| # round min_kbytes up to next multiple of mod2n |
| phys_kbytes = min_kbytes + mod2n - 1 |
| phys_kbytes = phys_kbytes - (phys_kbytes % mod2n) # clear low bits |
| return phys_kbytes |
| |
| |
| _MEMINFO_RE = re.compile('^(\w+)(\(\w+\))?:\s+(\d+)') |
| |
| |
| def get_meminfo(): |
| """Returns a namedtuple of pairs from /proc/meminfo. |
| |
| Example /proc/meminfo snippets: |
| MemTotal: 2048000 kB |
| Active(anon): 409600 kB |
| Example usage: |
| meminfo = utils.get_meminfo() |
| print meminfo.Active_anon |
| """ |
| info = {} |
| with _open_file('/proc/meminfo') as f: |
| for line in f: |
| m = _MEMINFO_RE.match(line) |
| if m: |
| if m.group(2): |
| name = m.group(1) + '_' + m.group(2)[1:-1] |
| else: |
| name = m.group(1) |
| info[name] = int(m.group(3)) |
| return collections.namedtuple('MemInfo', info.keys())(**info) |
| |
| |
| def sysctl(key, value=None): |
| """Generic implementation of sysctl, to read and write. |
| |
| @param key: A location under /proc/sys |
| @param value: If not None, a value to write into the sysctl. |
| |
| @return The single-line sysctl value as a string. |
| """ |
| path = '/proc/sys/%s' % key |
| if value is not None: |
| utils.write_one_line(path, str(value)) |
| return utils.read_one_line(path) |
| |
| |
| def sysctl_kernel(key, value=None): |
| """(Very) partial implementation of sysctl, for kernel params""" |
| if value is not None: |
| # write |
| utils.write_one_line('/proc/sys/kernel/%s' % key, str(value)) |
| else: |
| # read |
| out = utils.read_one_line('/proc/sys/kernel/%s' % key) |
| return int(re.search(r'\d+', out).group(0)) |
| |
| |
| def _convert_exit_status(sts): |
| if os.WIFSIGNALED(sts): |
| return -os.WTERMSIG(sts) |
| elif os.WIFEXITED(sts): |
| return os.WEXITSTATUS(sts) |
| else: |
| # impossible? |
| raise RuntimeError("Unknown exit status %d!" % sts) |
| |
| |
| def where_art_thy_filehandles(): |
| """Dump the current list of filehandles""" |
| os.system("ls -l /proc/%d/fd >> /dev/tty" % os.getpid()) |
| |
| |
| def get_num_allocated_file_handles(): |
| """ |
| Returns the number of currently allocated file handles. |
| |
| Gets this information by parsing /proc/sys/fs/file-nr. |
| See https://www.kernel.org/doc/Documentation/sysctl/fs.txt |
| for details on this file. |
| """ |
| with _open_file('/proc/sys/fs/file-nr') as f: |
| line = f.readline() |
| allocated_handles = int(line.split()[0]) |
| return allocated_handles |
| |
| def print_to_tty(string): |
| """Output string straight to the tty""" |
| open('/dev/tty', 'w').write(string + '\n') |
| |
| |
| def dump_object(object): |
| """Dump an object's attributes and methods |
| |
| kind of like dir() |
| """ |
| for item in object.__dict__.iteritems(): |
| print item |
| try: |
| (key, value) = item |
| dump_object(value) |
| except: |
| continue |
| |
| |
| def environ(env_key): |
| """return the requested environment variable, or '' if unset""" |
| if (os.environ.has_key(env_key)): |
| return os.environ[env_key] |
| else: |
| return '' |
| |
| |
| def prepend_path(newpath, oldpath): |
| """prepend newpath to oldpath""" |
| if (oldpath): |
| return newpath + ':' + oldpath |
| else: |
| return newpath |
| |
| |
| def append_path(oldpath, newpath): |
| """append newpath to oldpath""" |
| if (oldpath): |
| return oldpath + ':' + newpath |
| else: |
| return newpath |
| |
| |
| _TIME_OUTPUT_RE = re.compile( |
| r'([\d\.]*)user ([\d\.]*)system ' |
| r'(\d*):([\d\.]*)elapsed (\d*)%CPU') |
| |
| |
| def avgtime_print(dir): |
| """ Calculate some benchmarking statistics. |
| Input is a directory containing a file called 'time'. |
| File contains one-per-line results of /usr/bin/time. |
| Output is average Elapsed, User, and System time in seconds, |
| and average CPU percentage. |
| """ |
| user = system = elapsed = cpu = count = 0 |
| with open(dir + "/time") as f: |
| for line in f: |
| try: |
| m = _TIME_OUTPUT_RE.match(line); |
| user += float(m.group(1)) |
| system += float(m.group(2)) |
| elapsed += (float(m.group(3)) * 60) + float(m.group(4)) |
| cpu += float(m.group(5)) |
| count += 1 |
| except: |
| raise ValueError("badly formatted times") |
| |
| return "Elapsed: %0.2fs User: %0.2fs System: %0.2fs CPU: %0.0f%%" % \ |
| (elapsed / count, user / count, system / count, cpu / count) |
| |
| |
| def to_seconds(time_string): |
| """Converts a string in M+:SS.SS format to S+.SS""" |
| elts = time_string.split(':') |
| if len(elts) == 1: |
| return time_string |
| return str(int(elts[0]) * 60 + float(elts[1])) |
| |
| |
| _TIME_OUTPUT_RE_2 = re.compile(r'(.*?)user (.*?)system (.*?)elapsed') |
| |
| |
| def extract_all_time_results(results_string): |
| """Extract user, system, and elapsed times into a list of tuples""" |
| results = [] |
| for result in _TIME_OUTPUT_RE_2.findall(results_string): |
| results.append(tuple([to_seconds(elt) for elt in result])) |
| return results |
| |
| |
| def running_config(): |
| """ |
| Return path of config file of the currently running kernel |
| """ |
| version = utils.system_output('uname -r') |
| for config in ('/proc/config.gz', \ |
| '/boot/config-%s' % version, |
| '/lib/modules/%s/build/.config' % version): |
| if os.path.isfile(config): |
| return config |
| return None |
| |
| |
| def check_for_kernel_feature(feature): |
| config = running_config() |
| |
| if not config: |
| raise TypeError("Can't find kernel config file") |
| |
| if magic.guess_type(config) == 'application/x-gzip': |
| grep = 'zgrep' |
| else: |
| grep = 'grep' |
| grep += ' ^CONFIG_%s= %s' % (feature, config) |
| |
| if not utils.system_output(grep, ignore_status=True): |
| raise ValueError("Kernel doesn't have a %s feature" % (feature)) |
| |
| |
| def check_glibc_ver(ver): |
| glibc_ver = commands.getoutput('ldd --version').splitlines()[0] |
| glibc_ver = re.search(r'(\d+\.\d+(\.\d+)?)', glibc_ver).group() |
| if utils.compare_versions(glibc_ver, ver) == -1: |
| raise error.TestError("Glibc too old (%s). Glibc >= %s is needed." % |
| (glibc_ver, ver)) |
| |
| def check_kernel_ver(ver): |
| kernel_ver = utils.system_output('uname -r') |
| kv_tmp = re.split(r'[-]', kernel_ver)[0:3] |
| # In compare_versions, if v1 < v2, return value == -1 |
| if utils.compare_versions(kv_tmp[0], ver) == -1: |
| raise error.TestError("Kernel too old (%s). Kernel > %s is needed." % |
| (kernel_ver, ver)) |
| |
| |
| def human_format(number): |
| # Convert number to kilo / mega / giga format. |
| if number < 1024: |
| return "%d" % number |
| kilo = float(number) / 1024.0 |
| if kilo < 1024: |
| return "%.2fk" % kilo |
| meg = kilo / 1024.0 |
| if meg < 1024: |
| return "%.2fM" % meg |
| gig = meg / 1024.0 |
| return "%.2fG" % gig |
| |
| |
| def numa_nodes(): |
| node_paths = glob.glob('/sys/devices/system/node/node*') |
| nodes = [int(re.sub(r'.*node(\d+)', r'\1', x)) for x in node_paths] |
| return (sorted(nodes)) |
| |
| |
| def node_size(): |
| nodes = max(len(numa_nodes()), 1) |
| return ((memtotal() * 1024) / nodes) |
| |
| |
| def pickle_load(filename): |
| return pickle.load(open(filename, 'r')) |
| |
| |
| # Return the kernel version and build timestamp. |
| def running_os_release(): |
| return os.uname()[2:4] |
| |
| |
| def running_os_ident(): |
| (version, timestamp) = running_os_release() |
| return version + '::' + timestamp |
| |
| |
| def running_os_full_version(): |
| (version, timestamp) = running_os_release() |
| return version |
| |
| |
| # much like find . -name 'pattern' |
| def locate(pattern, root=os.getcwd()): |
| for path, dirs, files in os.walk(root): |
| for f in files: |
| if fnmatch.fnmatch(f, pattern): |
| yield os.path.abspath(os.path.join(path, f)) |
| |
| |
| def freespace(path): |
| """Return the disk free space, in bytes""" |
| s = os.statvfs(path) |
| return s.f_bavail * s.f_bsize |
| |
| |
| def disk_block_size(path): |
| """Return the disk block size, in bytes""" |
| return os.statvfs(path).f_bsize |
| |
| |
| _DISK_PARTITION_3_RE = re.compile(r'^(/dev/hd[a-z]+)3', re.M) |
| |
| def get_disks(): |
| df_output = utils.system_output('df') |
| return _DISK_PARTITION_3_RE.findall(df_output) |
| |
| |
| def get_disk_size(disk_name): |
| """ |
| Return size of disk in byte. Return 0 in Error Case |
| |
| @param disk_name: disk name to find size |
| """ |
| device = os.path.basename(disk_name) |
| for line in file('/proc/partitions'): |
| try: |
| _, _, blocks, name = re.split(r' +', line.strip()) |
| except ValueError: |
| continue |
| if name == device: |
| return 1024 * int(blocks) |
| return 0 |
| |
| |
| def get_disk_size_gb(disk_name): |
| """ |
| Return size of disk in GB (10^9). Return 0 in Error Case |
| |
| @param disk_name: disk name to find size |
| """ |
| return int(get_disk_size(disk_name) / (10.0 ** 9) + 0.5) |
| |
| |
| def get_disk_model(disk_name): |
| """ |
| Return model name for internal storage device |
| |
| @param disk_name: disk name to find model |
| """ |
| cmd1 = 'udevadm info --query=property --name=%s' % disk_name |
| cmd2 = 'grep -E "ID_(NAME|MODEL)="' |
| cmd3 = 'cut -f 2 -d"="' |
| cmd = ' | '.join([cmd1, cmd2, cmd3]) |
| return utils.system_output(cmd) |
| |
| |
| _DISK_DEV_RE = re.compile(r'/dev/sd[a-z]|' |
| r'/dev/mmcblk[0-9]+|' |
| r'/dev/nvme[0-9]+n[0-9]+') |
| |
| |
| def get_disk_from_filename(filename): |
| """ |
| Return the disk device the filename is on. |
| If the file is on tmpfs or other special file systems, |
| return None. |
| |
| @param filename: name of file, full path. |
| """ |
| |
| if not os.path.exists(filename): |
| raise error.TestError('file %s missing' % filename) |
| |
| if filename[0] != '/': |
| raise error.TestError('This code works only with full path') |
| |
| m = _DISK_DEV_RE.match(filename) |
| while not m: |
| if filename[0] != '/': |
| return None |
| if filename == '/dev/root': |
| cmd = 'rootdev -d -s' |
| elif filename.startswith('/dev/mapper'): |
| cmd = 'dmsetup table "%s"' % os.path.basename(filename) |
| dmsetup_output = utils.system_output(cmd).split(' ') |
| if dmsetup_output[2] == 'verity': |
| maj_min = dmsetup_output[4] |
| elif dmsetup_output[2] == 'crypt': |
| maj_min = dmsetup_output[6] |
| cmd = 'realpath "/dev/block/%s"' % maj_min |
| elif filename.startswith('/dev/loop'): |
| cmd = 'losetup -O BACK-FILE "%s" | tail -1' % filename |
| else: |
| cmd = 'df "%s" | tail -1 | cut -f 1 -d" "' % filename |
| filename = utils.system_output(cmd) |
| m = _DISK_DEV_RE.match(filename) |
| return m.group(0) |
| |
| |
| def get_disk_firmware_version(disk_name): |
| """ |
| Return firmware version for internal storage device. (empty string for eMMC) |
| |
| @param disk_name: disk name to find model |
| """ |
| cmd1 = 'udevadm info --query=property --name=%s' % disk_name |
| cmd2 = 'grep -E "ID_REVISION="' |
| cmd3 = 'cut -f 2 -d"="' |
| cmd = ' | '.join([cmd1, cmd2, cmd3]) |
| return utils.system_output(cmd) |
| |
| |
| def is_disk_scsi(disk_name): |
| """ |
| Return true if disk is a scsi device, return false otherwise |
| |
| @param disk_name: disk name check |
| """ |
| return re.match('/dev/sd[a-z]+', disk_name) |
| |
| |
| def is_disk_harddisk(disk_name): |
| """ |
| Return true if disk is a harddisk, return false otherwise |
| |
| @param disk_name: disk name check |
| """ |
| cmd1 = 'udevadm info --query=property --name=%s' % disk_name |
| cmd2 = 'grep -E "ID_ATA_ROTATION_RATE_RPM="' |
| cmd3 = 'cut -f 2 -d"="' |
| cmd = ' | '.join([cmd1, cmd2, cmd3]) |
| |
| rtt = utils.system_output(cmd) |
| |
| # eMMC will not have this field; rtt == '' |
| # SSD will have zero rotation rate; rtt == '0' |
| # For harddisk rtt > 0 |
| return rtt and int(rtt) > 0 |
| |
| def concat_partition(disk_name, partition_number): |
| """ |
| Return the name of a partition: |
| sda, 3 --> sda3 |
| mmcblk0, 3 --> mmcblk0p3 |
| |
| @param disk_name: diskname string |
| @param partition_number: integer |
| """ |
| if disk_name.endswith(tuple(str(i) for i in range(0, 10))): |
| sep = 'p' |
| else: |
| sep = '' |
| return disk_name + sep + str(partition_number) |
| |
| def verify_hdparm_feature(disk_name, feature): |
| """ |
| Check for feature support for SCSI disk using hdparm |
| |
| @param disk_name: target disk |
| @param feature: hdparm output string of the feature |
| """ |
| cmd = 'hdparm -I %s | grep -q "%s"' % (disk_name, feature) |
| ret = utils.system(cmd, ignore_status=True) |
| if ret == 0: |
| return True |
| elif ret == 1: |
| return False |
| else: |
| raise error.TestFail('Error running command %s' % cmd) |
| |
| |
| def get_storage_error_msg(disk_name, reason): |
| """ |
| Get Error message for storage test which include disk model. |
| and also include the firmware version for the SCSI disk |
| |
| @param disk_name: target disk |
| @param reason: Reason of the error. |
| """ |
| |
| msg = reason |
| |
| model = get_disk_model(disk_name) |
| msg += ' Disk model: %s' % model |
| |
| if is_disk_scsi(disk_name): |
| fw = get_disk_firmware_version(disk_name) |
| msg += ' firmware: %s' % fw |
| |
| return msg |
| |
| |
| def load_module(module_name, params=None): |
| # Checks if a module has already been loaded |
| if module_is_loaded(module_name): |
| return False |
| |
| cmd = '/sbin/modprobe ' + module_name |
| if params: |
| cmd += ' ' + params |
| utils.system(cmd) |
| return True |
| |
| |
| def unload_module(module_name): |
| """ |
| Removes a module. Handles dependencies. If even then it's not possible |
| to remove one of the modules, it will trhow an error.CmdError exception. |
| |
| @param module_name: Name of the module we want to remove. |
| """ |
| l_raw = utils.system_output("/bin/lsmod").splitlines() |
| lsmod = [x for x in l_raw if x.split()[0] == module_name] |
| if len(lsmod) > 0: |
| line_parts = lsmod[0].split() |
| if len(line_parts) == 4: |
| submodules = line_parts[3].split(",") |
| for submodule in submodules: |
| unload_module(submodule) |
| utils.system("/sbin/modprobe -r %s" % module_name) |
| logging.info("Module %s unloaded", module_name) |
| else: |
| logging.info("Module %s is already unloaded", module_name) |
| |
| |
| def module_is_loaded(module_name): |
| module_name = module_name.replace('-', '_') |
| modules = utils.system_output('/bin/lsmod').splitlines() |
| for module in modules: |
| if module.startswith(module_name) and module[len(module_name)] == ' ': |
| return True |
| return False |
| |
| |
| def get_loaded_modules(): |
| lsmod_output = utils.system_output('/bin/lsmod').splitlines()[1:] |
| return [line.split(None, 1)[0] for line in lsmod_output] |
| |
| |
| def get_huge_page_size(): |
| output = utils.system_output('grep Hugepagesize /proc/meminfo') |
| return int(output.split()[1]) # Assumes units always in kB. :( |
| |
| |
| def get_num_huge_pages(): |
| raw_hugepages = utils.system_output('/sbin/sysctl vm.nr_hugepages') |
| return int(raw_hugepages.split()[2]) |
| |
| |
| def set_num_huge_pages(num): |
| utils.system('/sbin/sysctl vm.nr_hugepages=%d' % num) |
| |
| |
| def ping_default_gateway(): |
| """Ping the default gateway.""" |
| |
| network = open('/etc/sysconfig/network') |
| m = re.search('GATEWAY=(\S+)', network.read()) |
| |
| if m: |
| gw = m.group(1) |
| cmd = 'ping %s -c 5 > /dev/null' % gw |
| return utils.system(cmd, ignore_status=True) |
| |
| raise error.TestError('Unable to find default gateway') |
| |
| |
| def drop_caches(): |
| """Writes back all dirty pages to disk and clears all the caches.""" |
| utils.system("sync") |
| # We ignore failures here as this will fail on 2.6.11 kernels. |
| utils.system("echo 3 > /proc/sys/vm/drop_caches", ignore_status=True) |
| |
| |
| def process_is_alive(name_pattern): |
| """ |
| 'pgrep name' misses all python processes and also long process names. |
| 'pgrep -f name' gets all shell commands with name in args. |
| So look only for command whose initial pathname ends with name. |
| Name itself is an egrep pattern, so it can use | etc for variations. |
| """ |
| return utils.system("pgrep -f '^([^ /]*/)*(%s)([ ]|$)'" % name_pattern, |
| ignore_status=True) == 0 |
| |
| |
| def get_hwclock_seconds(utc=True): |
| """ |
| Return the hardware clock in seconds as a floating point value. |
| Use Coordinated Universal Time if utc is True, local time otherwise. |
| Raise a ValueError if unable to read the hardware clock. |
| """ |
| cmd = '/sbin/hwclock --debug' |
| if utc: |
| cmd += ' --utc' |
| hwclock_output = utils.system_output(cmd, ignore_status=True) |
| match = re.search(r'= ([0-9]+) seconds since .+ (-?[0-9.]+) seconds$', |
| hwclock_output, re.DOTALL) |
| if match: |
| seconds = int(match.group(1)) + float(match.group(2)) |
| logging.debug('hwclock seconds = %f', seconds) |
| return seconds |
| |
| raise ValueError('Unable to read the hardware clock -- ' + |
| hwclock_output) |
| |
| |
| def set_wake_alarm(alarm_time): |
| """ |
| Set the hardware RTC-based wake alarm to 'alarm_time'. |
| """ |
| utils.write_one_line('/sys/class/rtc/rtc0/wakealarm', str(alarm_time)) |
| |
| |
| def set_power_state(state): |
| """ |
| Set the system power state to 'state'. |
| """ |
| utils.write_one_line('/sys/power/state', state) |
| |
| |
| def standby(): |
| """ |
| Power-on suspend (S1) |
| """ |
| set_power_state('standby') |
| |
| |
| def suspend_to_ram(): |
| """ |
| Suspend the system to RAM (S3) |
| """ |
| set_power_state('mem') |
| |
| |
| def suspend_to_disk(): |
| """ |
| Suspend the system to disk (S4) |
| """ |
| set_power_state('disk') |
| |
| |
| _AUTOTEST_CLIENT_PATH = os.path.join(os.path.dirname(__file__), '..') |
| _AMD_PCI_IDS_FILE_PATH = os.path.join(_AUTOTEST_CLIENT_PATH, |
| 'bin/amd_pci_ids.json') |
| _INTEL_PCI_IDS_FILE_PATH = os.path.join(_AUTOTEST_CLIENT_PATH, |
| 'bin/intel_pci_ids.json') |
| _UI_USE_FLAGS_FILE_PATH = '/etc/ui_use_flags.txt' |
| |
| # Command to check if a package is installed. If the package is not installed |
| # the command shall fail. |
| _CHECK_PACKAGE_INSTALLED_COMMAND =( |
| "dpkg-query -W -f='${Status}\n' %s | head -n1 | awk '{print $3;}' | " |
| "grep -q '^installed$'") |
| |
| pciid_to_amd_architecture = {} |
| pciid_to_intel_architecture = {} |
| |
| class Crossystem(object): |
| """A wrapper for the crossystem utility.""" |
| |
| def __init__(self, client): |
| self.cros_system_data = {} |
| self._client = client |
| |
| def init(self): |
| self.cros_system_data = {} |
| (_, fname) = tempfile.mkstemp() |
| f = open(fname, 'w') |
| self._client.run('crossystem', stdout_tee=f) |
| f.close() |
| text = utils.read_file(fname) |
| for line in text.splitlines(): |
| assignment_string = line.split('#')[0] |
| if not assignment_string.count('='): |
| continue |
| (name, value) = assignment_string.split('=', 1) |
| self.cros_system_data[name.strip()] = value.strip() |
| os.remove(fname) |
| |
| def __getattr__(self, name): |
| """ |
| Retrieve a crosssystem attribute. |
| |
| The call crossystemobject.name() will return the crossystem reported |
| string. |
| """ |
| return lambda: self.cros_system_data[name] |
| |
| |
| def get_oldest_pid_by_name(name): |
| """ |
| Return the oldest pid of a process whose name perfectly matches |name|. |
| |
| name is an egrep expression, which will be matched against the entire name |
| of processes on the system. For example: |
| |
| get_oldest_pid_by_name('chrome') |
| |
| on a system running |
| 8600 ? 00:00:04 chrome |
| 8601 ? 00:00:00 chrome |
| 8602 ? 00:00:00 chrome-sandbox |
| |
| would return 8600, as that's the oldest process that matches. |
| chrome-sandbox would not be matched. |
| |
| Arguments: |
| name: egrep expression to match. Will be anchored at the beginning and |
| end of the match string. |
| |
| Returns: |
| pid as an integer, or None if one cannot be found. |
| |
| Raises: |
| ValueError if pgrep returns something odd. |
| """ |
| str_pid = utils.system_output('pgrep -o ^%s$' % name, |
| ignore_status=True).rstrip() |
| if str_pid: |
| return int(str_pid) |
| |
| |
| def get_oldest_by_name(name): |
| """Return pid and command line of oldest process whose name matches |name|. |
| |
| @param name: egrep expression to match desired process name. |
| @return: A tuple of (pid, command_line) of the oldest process whose name |
| matches |name|. |
| |
| """ |
| pid = get_oldest_pid_by_name(name) |
| if pid: |
| command_line = utils.system_output('ps -p %i -o command=' % pid, |
| ignore_status=True).rstrip() |
| return (pid, command_line) |
| |
| |
| def get_chrome_remote_debugging_port(): |
| """Returns remote debugging port for Chrome. |
| |
| Parse chrome process's command line argument to get the remote debugging |
| port. if it is 0, look at DevToolsActivePort for the ephemeral port. |
| """ |
| _, command = get_oldest_by_name('chrome') |
| matches = re.search('--remote-debugging-port=([0-9]+)', command) |
| if not matches: |
| return 0 |
| port = int(matches.group(1)) |
| if port: |
| return port |
| with open('/home/chronos/DevToolsActivePort') as f: |
| return int(f.readline().rstrip()) |
| |
| |
| def get_process_list(name, command_line=None): |
| """ |
| Return the list of pid for matching process |name command_line|. |
| |
| on a system running |
| 31475 ? 0:06 /opt/google/chrome/chrome --allow-webui-compositing - |
| 31478 ? 0:00 /opt/google/chrome/chrome-sandbox /opt/google/chrome/ |
| 31485 ? 0:00 /opt/google/chrome/chrome --type=zygote --log-level=1 |
| 31532 ? 1:05 /opt/google/chrome/chrome --type=renderer |
| |
| get_process_list('chrome') |
| would return ['31475', '31485', '31532'] |
| |
| get_process_list('chrome', '--type=renderer') |
| would return ['31532'] |
| |
| Arguments: |
| name: process name to search for. If command_line is provided, name is |
| matched against full command line. If command_line is not provided, |
| name is only matched against the process name. |
| command line: when command line is passed, the full process command line |
| is used for matching. |
| |
| Returns: |
| list of PIDs of the matching processes. |
| |
| """ |
| # TODO(rohitbm) crbug.com/268861 |
| flag = '-x' if not command_line else '-f' |
| name = '\'%s.*%s\'' % (name, command_line) if command_line else name |
| str_pid = utils.system_output('pgrep %s %s' % (flag, name), |
| ignore_status=True).rstrip() |
| return str_pid.split() |
| |
| |
| def nuke_process_by_name(name, with_prejudice=False): |
| """Tell the oldest process specified by name to exit. |
| |
| Arguments: |
| name: process name specifier, as understood by pgrep. |
| with_prejudice: if True, don't allow for graceful exit. |
| |
| Raises: |
| error.AutoservPidAlreadyDeadError: no existing process matches name. |
| """ |
| try: |
| pid = get_oldest_pid_by_name(name) |
| except Exception as e: |
| logging.error(e) |
| return |
| if pid is None: |
| raise error.AutoservPidAlreadyDeadError('No process matching %s.' % |
| name) |
| if with_prejudice: |
| utils.nuke_pid(pid, [signal.SIGKILL]) |
| else: |
| utils.nuke_pid(pid) |
| |
| |
| def ensure_processes_are_dead_by_name(name, timeout_sec=10): |
| """Terminate all processes specified by name and ensure they're gone. |
| |
| Arguments: |
| name: process name specifier, as understood by pgrep. |
| timeout_sec: maximum number of seconds to wait for processes to die. |
| |
| Raises: |
| error.AutoservPidAlreadyDeadError: no existing process matches name. |
| utils.TimeoutError: if processes still exist after timeout_sec. |
| """ |
| |
| def list_and_kill_processes(name): |
| process_list = get_process_list(name) |
| try: |
| for pid in [int(str_pid) for str_pid in process_list]: |
| utils.nuke_pid(pid) |
| except error.AutoservPidAlreadyDeadError: |
| pass |
| return process_list |
| |
| utils.poll_for_condition(lambda: list_and_kill_processes(name) == [], |
| timeout=timeout_sec) |
| |
| |
| def is_virtual_machine(): |
| if 'QEMU' in platform.processor(): |
| return True |
| |
| try: |
| with open('/sys/devices/virtual/dmi/id/sys_vendor') as f: |
| if 'QEMU' in f.read(): |
| return True |
| except IOError: |
| pass |
| |
| return False |
| |
| |
| def save_vm_state(checkpoint): |
| """Saves the current state of the virtual machine. |
| |
| This function is a NOOP if the test is not running under a virtual machine |
| with the USB serial port redirected. |
| |
| Arguments: |
| checkpoint - Name used to identify this state |
| |
| Returns: |
| None |
| """ |
| # The QEMU monitor has been redirected to the guest serial port located at |
| # /dev/ttyUSB0. To save the state of the VM, we just send the 'savevm' |
| # command to the serial port. |
| if is_virtual_machine() and os.path.exists('/dev/ttyUSB0'): |
| logging.info('Saving VM state "%s"', checkpoint) |
| serial = open('/dev/ttyUSB0', 'w') |
| serial.write('savevm %s\r\n' % checkpoint) |
| logging.info('Done saving VM state "%s"', checkpoint) |
| |
| |
| def check_raw_dmesg(dmesg, message_level, whitelist): |
| """Checks dmesg for unexpected warnings. |
| |
| This function parses dmesg for message with message_level <= message_level |
| which do not appear in the whitelist. |
| |
| Arguments: |
| dmesg - string containing raw dmesg buffer |
| message_level - minimum message priority to check |
| whitelist - messages to ignore |
| |
| Returns: |
| List of unexpected warnings |
| """ |
| whitelist_re = re.compile(r'(%s)' % '|'.join(whitelist)) |
| unexpected = [] |
| for line in dmesg.splitlines(): |
| if int(line[1]) <= message_level: |
| stripped_line = line.split('] ', 1)[1] |
| if whitelist_re.search(stripped_line): |
| continue |
| unexpected.append(stripped_line) |
| return unexpected |
| |
| |
| def verify_mesg_set(mesg, regex, whitelist): |
| """Verifies that the exact set of messages are present in a text. |
| |
| This function finds all strings in the text matching a certain regex, and |
| then verifies that all expected strings are present in the set, and no |
| unexpected strings are there. |
| |
| Arguments: |
| mesg - the mutiline text to be scanned |
| regex - regular expression to match |
| whitelist - messages to find in the output, a list of strings |
| (potentially regexes) to look for in the filtered output. All these |
| strings must be there, and no other strings should be present in the |
| filtered output. |
| |
| Returns: |
| string of inconsistent findings (i.e. an empty string on success). |
| """ |
| |
| rv = [] |
| |
| missing_strings = [] |
| present_strings = [] |
| for line in mesg.splitlines(): |
| if not re.search(r'%s' % regex, line): |
| continue |
| present_strings.append(line.split('] ', 1)[1]) |
| |
| for string in whitelist: |
| for present_string in list(present_strings): |
| if re.search(r'^%s$' % string, present_string): |
| present_strings.remove(present_string) |
| break |
| else: |
| missing_strings.append(string) |
| |
| if present_strings: |
| rv.append('unexpected strings:') |
| rv.extend(present_strings) |
| if missing_strings: |
| rv.append('missing strings:') |
| rv.extend(missing_strings) |
| |
| return '\n'.join(rv) |
| |
| |
| def target_is_pie(): |
| """Returns whether the toolchain produces a PIE (position independent |
| executable) by default. |
| |
| Arguments: |
| None |
| |
| Returns: |
| True if the target toolchain produces a PIE by default. |
| False otherwise. |
| """ |
| |
| command = 'echo | ${CC} -E -dD -P - | grep -i pie' |
| result = utils.system_output(command, |
| retain_output=True, |
| ignore_status=True) |
| if re.search('#define __PIE__', result): |
| return True |
| else: |
| return False |
| |
| |
| def target_is_x86(): |
| """Returns whether the toolchain produces an x86 object |
| |
| Arguments: |
| None |
| |
| Returns: |
| True if the target toolchain produces an x86 object |
| False otherwise. |
| """ |
| |
| command = 'echo | ${CC} -E -dD -P - | grep -i 86' |
| result = utils.system_output(command, |
| retain_output=True, |
| ignore_status=True) |
| if re.search('__i386__', result) or re.search('__x86_64__', result): |
| return True |
| else: |
| return False |
| |
| |
| def mounts(): |
| ret = [] |
| for line in file('/proc/mounts'): |
| m = re.match( |
| r'(?P<src>\S+) (?P<dest>\S+) (?P<type>\S+) (?P<opts>\S+).*', line) |
| if m: |
| ret.append(m.groupdict()) |
| return ret |
| |
| |
| def is_mountpoint(path): |
| return path in [m['dest'] for m in mounts()] |
| |
| |
| def require_mountpoint(path): |
| """ |
| Raises an exception if path is not a mountpoint. |
| """ |
| if not is_mountpoint(path): |
| raise error.TestFail('Path not mounted: "%s"' % path) |
| |
| |
| def random_username(): |
| return str(uuid.uuid4()) + '@example.com' |
| |
| |
| def get_signin_credentials(filepath): |
| """Returns user_id, password tuple from credentials file at filepath. |
| |
| File must have one line of the format user_id:password |
| |
| @param filepath: path of credentials file. |
| @return user_id, password tuple. |
| """ |
| user_id, password = None, None |
| if os.path.isfile(filepath): |
| with open(filepath) as f: |
| user_id, password = f.read().rstrip().split(':') |
| return user_id, password |
| |
| |
| def parse_cmd_output(command, run_method=utils.run): |
| """Runs a command on a host object to retrieve host attributes. |
| |
| The command should output to stdout in the format of: |
| <key> = <value> # <optional_comment> |
| |
| |
| @param command: Command to execute on the host. |
| @param run_method: Function to use to execute the command. Defaults to |
| utils.run so that the command will be executed locally. |
| Can be replace with a host.run call so that it will |
| execute on a DUT or external machine. Method must accept |
| a command argument, stdout_tee and stderr_tee args and |
| return a result object with a string attribute stdout |
| which will be parsed. |
| |
| @returns a dictionary mapping host attributes to their values. |
| """ |
| result = {} |
| # Suppresses stdout so that the files are not printed to the logs. |
| cmd_result = run_method(command, stdout_tee=None, stderr_tee=None) |
| for line in cmd_result.stdout.splitlines(): |
| # Lines are of the format "<key> = <value> # <comment>" |
| key_value = re.match(r'^\s*(?P<key>[^ ]+)\s*=\s*(?P<value>[^ ' |
| r']+)(?:\s*#.*)?$', line) |
| if key_value: |
| result[key_value.group('key')] = key_value.group('value') |
| return result |
| |
| |
| def set_from_keyval_output(out, delimiter=' '): |
| """Parse delimiter-separated key-val output into a set of tuples. |
| |
| Output is expected to be multiline text output from a command. |
| Stuffs the key-vals into tuples in a set to be later compared. |
| |
| e.g. deactivated 0 |
| disableForceClear 0 |
| ==> set(('deactivated', '0'), ('disableForceClear', '0')) |
| |
| @param out: multiple lines of space-separated key-val pairs. |
| @param delimiter: character that separates key from val. Usually a |
| space but may be '=' or something else. |
| @return set of key-val tuples. |
| """ |
| results = set() |
| kv_match_re = re.compile('([^ ]+)%s(.*)' % delimiter) |
| for linecr in out.splitlines(): |
| match = kv_match_re.match(linecr.strip()) |
| if match: |
| results.add((match.group(1), match.group(2))) |
| return results |
| |
| |
| def get_cpu_usage(): |
| """Returns machine's CPU usage. |
| |
| This function uses /proc/stat to identify CPU usage. |
| Returns: |
| A dictionary with values for all columns in /proc/stat |
| Sample dictionary: |
| { |
| 'user': 254544, |
| 'nice': 9, |
| 'system': 254768, |
| 'idle': 2859878, |
| 'iowait': 1, |
| 'irq': 2, |
| 'softirq': 3, |
| 'steal': 4, |
| 'guest': 5, |
| 'guest_nice': 6 |
| } |
| If a column is missing or malformed in /proc/stat (typically on older |
| systems), the value for that column is set to 0. |
| """ |
| with _open_file('/proc/stat') as proc_stat: |
| cpu_usage_str = proc_stat.readline().split() |
| columns = ('user', 'nice', 'system', 'idle', 'iowait', 'irq', 'softirq', |
| 'steal', 'guest', 'guest_nice') |
| d = {} |
| for index, col in enumerate(columns, 1): |
| try: |
| d[col] = int(cpu_usage_str[index]) |
| except: |
| d[col] = 0 |
| return d |
| |
| def compute_active_cpu_time(cpu_usage_start, cpu_usage_end): |
| """Computes the fraction of CPU time spent non-idling. |
| |
| This function should be invoked using before/after values from calls to |
| get_cpu_usage(). |
| |
| See https://stackoverflow.com/a/23376195 and |
| https://unix.stackexchange.com/a/303224 for some more context how |
| to calculate usage given two /proc/stat snapshots. |
| """ |
| idle_cols = ('idle', 'iowait') # All other cols are calculated as active. |
| time_active_start = sum([x[1] for x in cpu_usage_start.iteritems() |
| if x[0] not in idle_cols]) |
| time_active_end = sum([x[1] for x in cpu_usage_end.iteritems() |
| if x[0] not in idle_cols]) |
| total_time_start = sum(cpu_usage_start.values()) |
| total_time_end = sum(cpu_usage_end.values()) |
| # Avoid bogus division which has been observed on Tegra. |
| if total_time_end <= total_time_start: |
| logging.warning('compute_active_cpu_time observed bogus data') |
| # We pretend to be busy, this will force a longer wait for idle CPU. |
| return 1.0 |
| return ((float(time_active_end) - time_active_start) / |
| (total_time_end - total_time_start)) |
| |
| |
| def is_pgo_mode(): |
| return 'USE_PGO' in os.environ |
| |
| |
| def wait_for_idle_cpu(timeout, utilization): |
| """Waits for the CPU to become idle (< utilization). |
| |
| Args: |
| timeout: The longest time in seconds to wait before throwing an error. |
| utilization: The CPU usage below which the system should be considered |
| idle (between 0 and 1.0 independent of cores/hyperthreads). |
| """ |
| time_passed = 0.0 |
| fraction_active_time = 1.0 |
| sleep_time = 1 |
| logging.info('Starting to wait up to %.1fs for idle CPU...', timeout) |
| while fraction_active_time >= utilization: |
| cpu_usage_start = get_cpu_usage() |
| # Split timeout interval into not too many chunks to limit log spew. |
| # Start at 1 second, increase exponentially |
| time.sleep(sleep_time) |
| time_passed += sleep_time |
| sleep_time = min(16.0, 2.0 * sleep_time) |
| cpu_usage_end = get_cpu_usage() |
| fraction_active_time = compute_active_cpu_time(cpu_usage_start, |
| cpu_usage_end) |
| logging.info('After waiting %.1fs CPU utilization is %.3f.', |
| time_passed, fraction_active_time) |
| if time_passed > timeout: |
| logging.warning('CPU did not become idle.') |
| log_process_activity() |
| # crosbug.com/37389 |
| if is_pgo_mode(): |
| logging.info('Still continuing because we are in PGO mode.') |
| return True |
| |
| return False |
| logging.info('Wait for idle CPU took %.1fs (utilization = %.3f).', |
| time_passed, fraction_active_time) |
| return True |
| |
| |
| def log_process_activity(): |
| """Logs the output of top. |
| |
| Useful to debug performance tests and to find runaway processes. |
| """ |
| logging.info('Logging current process activity using top and ps.') |
| cmd = 'top -b -n1 -c' |
| output = utils.run(cmd) |
| logging.info(output) |
| output = utils.run('ps axl') |
| logging.info(output) |
| |
| |
| def wait_for_cool_machine(): |
| """ |
| A simple heuristic to wait for a machine to cool. |
| The code looks a bit 'magic', but we don't know ambient temperature |
| nor machine characteristics and still would like to return the caller |
| a machine that cooled down as much as reasonably possible. |
| """ |
| temperature = get_current_temperature_max() |
| # We got here with a cold machine, return immediately. This should be the |
| # most common case. |
| if temperature < 50: |
| return True |
| logging.info('Got a hot machine of %dC. Sleeping 1 minute.', temperature) |
| # A modest wait should cool the machine. |
| time.sleep(60.0) |
| temperature = get_current_temperature_max() |
| # Atoms idle below 60 and everyone else should be even lower. |
| if temperature < 62: |
| return True |
| # This should be rare. |
| logging.info('Did not cool down (%dC). Sleeping 2 minutes.', temperature) |
| time.sleep(120.0) |
| temperature = get_current_temperature_max() |
| # A temperature over 65'C doesn't give us much headroom to the critical |
| # temperatures that start at 85'C (and PerfControl as of today will fail at |
| # critical - 10'C). |
| if temperature < 65: |
| return True |
| logging.warning('Did not cool down (%dC), giving up.', temperature) |
| log_process_activity() |
| return False |
| |
| |
| # System paths for machine performance state. |
| _CPUINFO = '/proc/cpuinfo' |
| _DIRTY_WRITEBACK_CENTISECS = '/proc/sys/vm/dirty_writeback_centisecs' |
| _KERNEL_MAX = '/sys/devices/system/cpu/kernel_max' |
| _MEMINFO = '/proc/meminfo' |
| _TEMP_SENSOR_RE = 'Reading temperature...([0-9]*)' |
| |
| def _open_file(path): |
| """ |
| Opens a file and returns the file object. |
| |
| This method is intended to be mocked by tests. |
| @return The open file object. |
| """ |
| return open(path) |
| |
| def _get_line_from_file(path, line): |
| """ |
| line can be an integer or |
| line can be a string that matches the beginning of the line |
| """ |
| with _open_file(path) as f: |
| if isinstance(line, int): |
| l = f.readline() |
| for _ in range(0, line): |
| l = f.readline() |
| return l |
| else: |
| for l in f: |
| if l.startswith(line): |
| return l |
| return None |
| |
| |
| def _get_match_from_file(path, line, prefix, postfix): |
| """ |
| Matches line in path and returns string between first prefix and postfix. |
| """ |
| match = _get_line_from_file(path, line) |
| # Strip everything from front of line including prefix. |
| if prefix: |
| match = re.split(prefix, match)[1] |
| # Strip everything from back of string including first occurence of postfix. |
| if postfix: |
| match = re.split(postfix, match)[0] |
| return match |
| |
| |
| def _get_float_from_file(path, line, prefix, postfix): |
| match = _get_match_from_file(path, line, prefix, postfix) |
| return float(match) |
| |
| |
| def _get_int_from_file(path, line, prefix, postfix): |
| match = _get_match_from_file(path, line, prefix, postfix) |
| return int(match) |
| |
| |
| def _get_hex_from_file(path, line, prefix, postfix): |
| match = _get_match_from_file(path, line, prefix, postfix) |
| return int(match, 16) |
| |
| |
| # The paths don't change. Avoid running find all the time. |
| _hwmon_paths = None |
| |
| def _get_hwmon_paths(file_pattern): |
| """ |
| Returns a list of paths to the temperature sensors. |
| """ |
| # Some systems like daisy_spring only have the virtual hwmon. |
| # And other systems like rambi only have coretemp.0. See crbug.com/360249. |
| # /sys/class/hwmon/hwmon*/ |
| # /sys/devices/virtual/hwmon/hwmon*/ |
| # /sys/devices/platform/coretemp.0/ |
| if not _hwmon_paths: |
| cmd = 'find /sys/ -name "' + file_pattern + '"' |
| _hwon_paths = utils.run(cmd, verbose=False).stdout.splitlines() |
| return _hwon_paths |
| |
| |
| def get_temperature_critical(): |
| """ |
| Returns temperature at which we will see some throttling in the system. |
| """ |
| min_temperature = 1000.0 |
| paths = _get_hwmon_paths('temp*_crit') |
| for path in paths: |
| temperature = _get_float_from_file(path, 0, None, None) * 0.001 |
| # Today typical for Intel is 98'C to 105'C while ARM is 85'C. Clamp to 98 |
| # if Intel device or the lowest known value otherwise. |
| result = utils.system_output('crossystem arch', retain_output=True, |
| ignore_status=True) |
| if (min_temperature < 60.0) or min_temperature > 150.0: |
| if 'x86' in result: |
| min_temperature = 98.0 |
| else: |
| min_temperature = 85.0 |
| logging.warning('Critical temperature was reset to %.1fC.', |
| min_temperature) |
| |
| min_temperature = min(temperature, min_temperature) |
| return min_temperature |
| |
| |
| def get_temperature_input_max(): |
| """ |
| Returns the maximum currently observed temperature. |
| """ |
| max_temperature = -1000.0 |
| paths = _get_hwmon_paths('temp*_input') |
| for path in paths: |
| temperature = _get_float_from_file(path, 0, None, None) * 0.001 |
| max_temperature = max(temperature, max_temperature) |
| return max_temperature |
| |
| |
| def get_thermal_zone_temperatures(): |
| """ |
| Returns the maximum currently observered temperature in thermal_zones. |
| """ |
| temperatures = [] |
| for path in glob.glob('/sys/class/thermal/thermal_zone*/temp'): |
| try: |
| temperatures.append( |
| _get_float_from_file(path, 0, None, None) * 0.001) |
| except IOError: |
| # Some devices (e.g. Veyron) may have reserved thermal zones that |
| # are not active. Trying to read the temperature value would cause a |
| # EINVAL IO error. |
| continue |
| return temperatures |
| |
| |
| def get_ec_temperatures(): |
| """ |
| Uses ectool to return a list of all sensor temperatures in Celsius. |
| |
| Output from ectool is either '0: 300' or '0: 300 K' (newer ectool |
| includes the unit). |
| """ |
| temperatures = [] |
| try: |
| full_cmd = 'ectool temps all' |
| lines = utils.run(full_cmd, verbose=False).stdout.splitlines() |
| pattern = re.compile('.*: (\d+)') |
| for line in lines: |
| matched = pattern.match(line) |
| temperature = int(matched.group(1)) - 273 |
| temperatures.append(temperature) |
| except Exception: |
| logging.warning('Unable to read temperature sensors using ectool.') |
| for temperature in temperatures: |
| # Sanity check for real world values. |
| assert ((temperature > 10.0) and |
| (temperature < 150.0)), ('Unreasonable temperature %.1fC.' % |
| temperature) |
| |
| return temperatures |
| |
| |
| def get_current_temperature_max(): |
| """ |
| Returns the highest reported board temperature (all sensors) in Celsius. |
| """ |
| temperature = max([get_temperature_input_max()] + |
| get_thermal_zone_temperatures() + |
| get_ec_temperatures()) |
| # Sanity check for real world values. |
| assert ((temperature > 10.0) and |
| (temperature < 150.0)), ('Unreasonable temperature %.1fC.' % |
| temperature) |
| return temperature |
| |
| |
| def get_cpu_cache_size(): |
| """ |
| Returns the last level CPU cache size in kBytes. |
| """ |
| cache_size = _get_int_from_file(_CPUINFO, 'cache size', ': ', ' KB') |
| # Sanity check. |
| assert cache_size >= 64, 'Unreasonably small cache.' |
| return cache_size |
| |
| |
| def get_cpu_model_frequency(): |
| """ |
| Returns the model frequency from the CPU model name on Intel only. This |
| might be redundant with get_cpu_max_frequency. Unit is Hz. |
| """ |
| frequency = _get_float_from_file(_CPUINFO, 'model name', ' @ ', 'GHz') |
| return 1.e9 * frequency |
| |
| |
| def get_cpu_max_frequency(): |
| """ |
| Returns the largest of the max CPU core frequencies. The unit is Hz. |
| """ |
| max_frequency = -1 |
| paths = utils._get_cpufreq_paths('cpuinfo_max_freq') |
| for path in paths: |
| # Convert from kHz to Hz. |
| frequency = 1000 * _get_float_from_file(path, 0, None, None) |
| max_frequency = max(frequency, max_frequency) |
| # Sanity check. |
| assert max_frequency > 1e8, 'Unreasonably low CPU frequency.' |
| return max_frequency |
| |
| |
| def get_cpu_min_frequency(): |
| """ |
| Returns the smallest of the minimum CPU core frequencies. |
| """ |
| min_frequency = 1e20 |
| paths = utils._get_cpufreq_paths('cpuinfo_min_freq') |
| for path in paths: |
| frequency = _get_float_from_file(path, 0, None, None) |
| min_frequency = min(frequency, min_frequency) |
| # Sanity check. |
| assert min_frequency > 1e8, 'Unreasonably low CPU frequency.' |
| return min_frequency |
| |
| |
| def get_cpu_model(): |
| """ |
| Returns the CPU model. |
| Only works on Intel. |
| """ |
| cpu_model = _get_int_from_file(_CPUINFO, 'model\t', ': ', None) |
| return cpu_model |
| |
| |
| def get_cpu_family(): |
| """ |
| Returns the CPU family. |
| Only works on Intel. |
| """ |
| cpu_family = _get_int_from_file(_CPUINFO, 'cpu family\t', ': ', None) |
| return cpu_family |
| |
| |
| def get_board_property(key): |
| """ |
| Get a specific property from /etc/lsb-release. |
| |
| @param key: board property to return value for |
| |
| @return the value or '' if not present |
| """ |
| with open('/etc/lsb-release') as f: |
| pattern = '%s=(.*)' % key |
| pat = re.search(pattern, f.read()) |
| if pat: |
| return pat.group(1) |
| return '' |
| |
| |
| def get_board(): |
| """ |
| Get the ChromeOS release board name from /etc/lsb-release. |
| """ |
| return get_board_property('BOARD') |
| |
| |
| def get_board_type(): |
| """ |
| Get the ChromeOS board type from /etc/lsb-release. |
| |
| @return device type. |
| """ |
| return get_board_property('DEVICETYPE') |
| |
| |
| def get_platform(): |
| """ |
| Get the ChromeOS platform name. |
| |
| For unibuild this should be equal to model name. For non-unibuild |
| it will either be board name or empty string. In the case of |
| empty string return board name to match equivalent logic in |
| server/hosts/cros_host.py |
| |
| @returns platform name |
| """ |
| platform = '' |
| command = 'mosys platform model' |
| result = utils.run(command, ignore_status=True) |
| if result.exit_status == 0: |
| platform = result.stdout.strip() |
| |
| if platform == '': |
| platform = get_board() |
| return platform |
| |
| |
| def get_ec_version(): |
| """Get the ec version as strings. |
| |
| @returns a string representing this host's ec version. |
| """ |
| command = 'mosys ec info -s fw_version' |
| result = utils.run(command, ignore_status=True) |
| if result.exit_status != 0: |
| return '' |
| return result.stdout.strip() |
| |
| |
| def get_firmware_version(): |
| """Get the firmware version as strings. |
| |
| @returns a string representing this host's firmware version. |
| """ |
| return utils.run('crossystem fwid').stdout.strip() |
| |
| |
| def get_hardware_revision(): |
| """Get the hardware revision as strings. |
| |
| @returns a string representing this host's hardware revision. |
| """ |
| command = 'mosys platform version' |
| result = utils.run(command, ignore_status=True) |
| if result.exit_status != 0: |
| return '' |
| return result.stdout.strip() |
| |
| |
| def get_kernel_version(): |
| """Get the kernel version as strings. |
| |
| @returns a string representing this host's kernel version. |
| """ |
| return utils.run('uname -r').stdout.strip() |
| |
| |
| def get_cpu_name(): |
| """Get the cpu name as strings. |
| |
| @returns a string representing this host's cpu name. |
| """ |
| |
| # Try get cpu name from device tree first |
| if os.path.exists("/proc/device-tree/compatible"): |
| command = "sed -e 's/\\x0/\\n/g' /proc/device-tree/compatible | tail -1" |
| return utils.run(command).stdout.strip().replace(',', ' ') |
| |
| |
| # Get cpu name from uname -p |
| command = "uname -p" |
| ret = utils.run(command).stdout.strip() |
| |
| # 'uname -p' return variant of unknown or amd64 or x86_64 or i686 |
| # Try get cpu name from /proc/cpuinfo instead |
| if re.match("unknown|amd64|[ix][0-9]?86(_64)?", ret, re.IGNORECASE): |
| command = "grep model.name /proc/cpuinfo | cut -f 2 -d: | head -1" |
| ret = utils.run(command).stdout.strip() |
| |
| # Remove bloat from CPU name, for example |
| # 'Intel(R) Core(TM) i5-7Y57 CPU @ 1.20GHz' -> 'Intel Core i5-7Y57' |
| # 'Intel(R) Xeon(R) CPU E5-2690 v4 @ 2.60GHz' -> 'Intel Xeon E5-2690 v4' |
| # 'AMD A10-7850K APU with Radeon(TM) R7 Graphics' -> 'AMD A10-7850K' |
| # 'AMD GX-212JC SOC with Radeon(TM) R2E Graphics' -> 'AMD GX-212JC' |
| trim_re = " (@|processor|apu|soc|radeon).*|\(.*?\)| cpu" |
| return re.sub(trim_re, '', ret, flags=re.IGNORECASE) |
| |
| |
| def get_screen_resolution(): |
| """Get the screen(s) resolution as strings. |
| In case of more than 1 monitor, return resolution for each monitor separate |
| with plus sign. |
| |
| @returns a string representing this host's screen(s) resolution. |
| """ |
| command = 'for f in /sys/class/drm/*/*/modes; do head -1 $f; done' |
| ret = utils.run(command, ignore_status=True) |
| # We might have Chromebox without a screen |
| if ret.exit_status != 0: |
| return '' |
| return ret.stdout.strip().replace('\n', '+') |
| |
| |
| def get_board_with_frequency_and_memory(): |
| """ |
| Returns a board name modified with CPU frequency and memory size to |
| differentiate between different board variants. For instance |
| link -> link_1.8GHz_4GB. |
| """ |
| board_name = get_board() |
| if is_virtual_machine(): |
| board = '%s_VM' % board_name |
| else: |
| memory = get_mem_total_gb() |
| # Convert frequency to GHz with 1 digit accuracy after the |
| # decimal point. |
| frequency = int(round(get_cpu_max_frequency() * 1e-8)) * 0.1 |
| board = '%s_%1.1fGHz_%dGB' % (board_name, frequency, memory) |
| return board |
| |
| |
| def get_mem_total(): |
| """ |
| Returns the total memory available in the system in MBytes. |
| """ |
| mem_total = _get_float_from_file(_MEMINFO, 'MemTotal:', 'MemTotal:', ' kB') |
| # Sanity check, all Chromebooks have at least 1GB of memory. |
| assert mem_total > 256 * 1024, 'Unreasonable amount of memory.' |
| return mem_total / 1024 |
| |
| |
| def get_mem_total_gb(): |
| """ |
| Returns the total memory available in the system in GBytes. |
| """ |
| return int(round(get_mem_total() / 1024.0)) |
| |
| |
| def get_mem_free(): |
| """ |
| Returns the currently free memory in the system in MBytes. |
| """ |
| mem_free = _get_float_from_file(_MEMINFO, 'MemFree:', 'MemFree:', ' kB') |
| return mem_free / 1024 |
| |
| def get_mem_free_plus_buffers_and_cached(): |
| """ |
| Returns the free memory in MBytes, counting buffers and cached as free. |
| |
| This is most often the most interesting number since buffers and cached |
| memory can be reclaimed on demand. Note however, that there are cases |
| where this as misleading as well, for example used tmpfs space |
| count as Cached but can not be reclaimed on demand. |
| See https://www.kernel.org/doc/Documentation/filesystems/tmpfs.txt. |
| """ |
| free_mb = get_mem_free() |
| cached_mb = (_get_float_from_file( |
| _MEMINFO, 'Cached:', 'Cached:', ' kB') / 1024) |
| buffers_mb = (_get_float_from_file( |
| _MEMINFO, 'Buffers:', 'Buffers:', ' kB') / 1024) |
| return free_mb + buffers_mb + cached_mb |
| |
| def get_kernel_max(): |
| """ |
| Returns content of kernel_max. |
| """ |
| kernel_max = _get_int_from_file(_KERNEL_MAX, 0, None, None) |
| # Sanity check. |
| assert ((kernel_max > 0) and (kernel_max < 257)), 'Unreasonable kernel_max.' |
| return kernel_max |
| |
| |
| def get_dirty_writeback_centisecs(): |
| """ |
| Reads /proc/sys/vm/dirty_writeback_centisecs. |
| """ |
| time = _get_int_from_file(_DIRTY_WRITEBACK_CENTISECS, 0, None, None) |
| return time |
| |
| |
| def set_dirty_writeback_centisecs(time=60000): |
| """ |
| In hundredths of a second, this is how often pdflush wakes up to write data |
| to disk. The default wakes up the two (or more) active threads every five |
| seconds. The ChromeOS default is 10 minutes. |
| |
| We use this to set as low as 1 second to flush error messages in system |
| logs earlier to disk. |
| """ |
| # Flush buffers first to make this function synchronous. |
| utils.system('sync') |
| if time >= 0: |
| cmd = 'echo %d > %s' % (time, _DIRTY_WRITEBACK_CENTISECS) |
| utils.system(cmd) |
| |
| |
| def wflinfo_cmd(): |
| """ |
| Returns a wflinfo command appropriate to the current graphics platform/api. |
| """ |
| return 'wflinfo -p %s -a %s' % (graphics_platform(), graphics_api()) |
| |
| |
| def has_mali(): |
| """ @return: True if system has a Mali GPU enabled.""" |
| return os.path.exists('/dev/mali0') |
| |
| def get_gpu_family(): |
| """Returns the GPU family name.""" |
| global pciid_to_amd_architecture |
| global pciid_to_intel_architecture |
| |
| socfamily = get_cpu_soc_family() |
| if socfamily == 'exynos5' or socfamily == 'rockchip' or has_mali(): |
| cmd = wflinfo_cmd() |
| wflinfo = utils.system_output(cmd, |
| retain_output=True, |
| ignore_status=False) |
| version = re.findall(r'OpenGL renderer string: ' |
| r'Mali-T([0-9]+)', wflinfo) |
| if version: |
| return 'mali-t%s' % version[0] |
| return 'mali-unrecognized' |
| if socfamily == 'tegra': |
| return 'tegra' |
| if socfamily == 'qualcomm': |
| return 'qualcomm' |
| if os.path.exists('/sys/kernel/debug/pvr'): |
| return 'rogue' |
| |
| pci_vga_device = utils.run("lspci | grep VGA").stdout.rstrip('\n') |
| bus_device_function = pci_vga_device.partition(' ')[0] |
| pci_path = '/sys/bus/pci/devices/0000:' + bus_device_function + '/device' |
| |
| if not os.path.exists(pci_path): |
| raise error.TestError('PCI device 0000:' + bus_device_function + ' not found') |
| |
| device_id = utils.read_one_line(pci_path).lower() |
| |
| if "Advanced Micro Devices" in pci_vga_device: |
| if not pciid_to_amd_architecture: |
| with open(_AMD_PCI_IDS_FILE_PATH, 'r') as in_f: |
| pciid_to_amd_architecture = json.load(in_f) |
| |
| return pciid_to_amd_architecture[device_id] |
| |
| if "Intel Corporation" in pci_vga_device: |
| # Only load Intel PCI ID file once and only if necessary. |
| if not pciid_to_intel_architecture: |
| with open(_INTEL_PCI_IDS_FILE_PATH, 'r') as in_f: |
| pciid_to_intel_architecture = json.load(in_f) |
| |
| return pciid_to_intel_architecture[device_id] |
| |
| # TODO(ihf): Consider using /etc/lsb-release DEVICETYPE != CHROMEBOOK/CHROMEBASE |
| # for sanity check, but usage seems a bit inconsistent. See |
| # src/third_party/chromiumos-overlay/eclass/appid.eclass |
| _BOARDS_WITHOUT_MONITOR = [ |
| 'anglar', 'mccloud', 'monroe', 'ninja', 'rikku', 'guado', 'jecht', 'tidus', |
| 'beltino', 'panther', 'stumpy', 'panther', 'tricky', 'zako', 'veyron_rialto' |
| ] |
| |
| |
| def has_no_monitor(): |
| """Returns whether a machine doesn't have a built-in monitor.""" |
| board_name = get_board() |
| if board_name in _BOARDS_WITHOUT_MONITOR: |
| return True |
| |
| return False |
| |
| |
| def get_fixed_dst_drive(): |
| """ |
| Return device name for internal disk. |
| Example: return /dev/sda for falco booted from usb |
| """ |
| cmd = ' '.join(['. /usr/sbin/write_gpt.sh;', |
| '. /usr/share/misc/chromeos-common.sh;', |
| 'load_base_vars;', |
| 'get_fixed_dst_drive']) |
| return utils.system_output(cmd) |
| |
| |
| def get_root_device(): |
| """ |
| Return root device. |
| Will return correct disk device even system boot from /dev/dm-0 |
| Example: return /dev/sdb for falco booted from usb |
| """ |
| return utils.system_output('rootdev -s -d') |
| |
| |
| def get_root_partition(): |
| """ |
| Return current root partition |
| Example: return /dev/sdb3 for falco booted from usb |
| """ |
| return utils.system_output('rootdev -s') |
| |
| |
| def get_free_root_partition(root_part=None): |
| """ |
| Return currently unused root partion |
| Example: return /dev/sdb5 for falco booted from usb |
| |
| @param root_part: cuurent root partition |
| """ |
| spare_root_map = {'3': '5', '5': '3'} |
| if not root_part: |
| root_part = get_root_partition() |
| return root_part[:-1] + spare_root_map[root_part[-1]] |
| |
| |
| def get_kernel_partition(root_part=None): |
| """ |
| Return current kernel partition |
| Example: return /dev/sda2 for falco booted from usb |
| |
| @param root_part: current root partition |
| """ |
| if not root_part: |
| root_part = get_root_partition() |
| current_kernel_map = {'3': '2', '5': '4'} |
| return root_part[:-1] + current_kernel_map[root_part[-1]] |
| |
| |
| def get_free_kernel_partition(root_part=None): |
| """ |
| return currently unused kernel partition |
| Example: return /dev/sda4 for falco booted from usb |
| |
| @param root_part: current root partition |
| """ |
| kernel_part = get_kernel_partition(root_part) |
| spare_kernel_map = {'2': '4', '4': '2'} |
| return kernel_part[:-1] + spare_kernel_map[kernel_part[-1]] |
| |
| |
| def is_booted_from_internal_disk(): |
| """Return True if boot from internal disk. False, otherwise.""" |
| return get_root_device() == get_fixed_dst_drive() |
| |
| |
| def get_ui_use_flags(): |
| """Parses the USE flags as listed in /etc/ui_use_flags.txt. |
| |
| @return: A list of flag strings found in the ui use flags file. |
| """ |
| flags = [] |
| for flag in utils.read_file(_UI_USE_FLAGS_FILE_PATH).splitlines(): |
| # Removes everything after the '#'. |
| flag_before_comment = flag.split('#')[0].strip() |
| if len(flag_before_comment) != 0: |
| flags.append(flag_before_comment) |
| |
| return flags |
| |
| |
| def graphics_platform(): |
| """ |
| Return a string identifying the graphics platform, |
| e.g. 'glx' or 'x11_egl' or 'gbm' |
| """ |
| return 'null' |
| |
| |
| def graphics_api(): |
| """Return a string identifying the graphics api, e.g. gl or gles2.""" |
| use_flags = get_ui_use_flags() |
| if 'opengles' in use_flags: |
| return 'gles2' |
| return 'gl' |
| |
| |
| def is_package_installed(package): |
| """Check if a package is installed already. |
| |
| @return: True if the package is already installed, otherwise return False. |
| """ |
| try: |
| utils.run(_CHECK_PACKAGE_INSTALLED_COMMAND % package) |
| return True |
| except error.CmdError: |
| logging.warn('Package %s is not installed.', package) |
| return False |
| |
| |
| def is_python_package_installed(package): |
| """Check if a Python package is installed already. |
| |
| @return: True if the package is already installed, otherwise return False. |
| """ |
| try: |
| __import__(package) |
| return True |
| except ImportError: |
| logging.warn('Python package %s is not installed.', package) |
| return False |
| |
| |
| def run_sql_cmd(server, user, password, command, database=''): |
| """Run the given sql command against the specified database. |
| |
| @param server: Hostname or IP address of the MySQL server. |
| @param user: User name to log in the MySQL server. |
| @param password: Password to log in the MySQL server. |
| @param command: SQL command to run. |
| @param database: Name of the database to run the command. Default to empty |
| for command that does not require specifying database. |
| |
| @return: The stdout of the command line. |
| """ |
| cmd = ('mysql -u%s -p%s --host %s %s -e "%s"' % |
| (user, password, server, database, command)) |
| # Set verbose to False so the command line won't be logged, as it includes |
| # database credential. |
| return utils.run(cmd, verbose=False).stdout |
| |
| |
| def strip_non_printable(s): |
| """Strip non printable characters from string. |
| |
| @param s: Input string |
| |
| @return: The input string with only printable characters. |
| """ |
| return ''.join(x for x in s if x in string.printable) |