path: root/client/bin/autotest_utils.py

"""Convenience functions for use by tests or whomever.
"""

import os, shutil, sys, signal, commands, pickle, glob, statvfs
import re, string, fnmatch
from autotest_lib.client.common_lib import error, utils



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 return_output:
        run_cmd = utils.system_output
    else:
        run_cmd = utils.system

    if not os.path.isfile(file):
        raise NameError('invalid file %s to cat to command %s'
                % (file, command))
    if file.endswith('.bz2'):
        return run_cmd('bzcat ' + file + ' | ' + command, ignore_status)
    elif (file.endswith('.gz') or file.endswith('.tgz')):
        return run_cmd('zcat ' + file + ' | ' + command, ignore_status)
    else:
        return run_cmd('cat ' + file + ' | ' + command, 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):
        raise NameError, 'target %s already exists' % 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:
        line = re.sub(r'^./', '', line)
        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 get_md5sum(file_path):
    """Gets the md5sum of a file. You must provide a valid path to the file"""
    if not os.path.isfile(file_path):
        raise ValueError, 'invalid file %s to verify' % file_path
    return utils.system_output("md5sum " + file_path + " | awk '{print $1}'")


def unmap_url_cache(cachedir, url, expected_md5):
    """\
    Downloads a file from a URL to a cache directory. If the file is already
    at the expected position and has the expected md5 number, let's not
    download it again.
    """
    # Let's convert cachedir to a canonical path, if it's not already
    cachedir = os.path.realpath(cachedir)
    if not os.path.isdir(cachedir):
        try:
            system('mkdir -p ' + cachedir)
        except:
            raise ValueError('Could not create cache directory %s' % cachedir)
    file_from_url = os.path.basename(url)
    file_local_path = os.path.join(cachedir, file_from_url)
    if os.path.isfile(file_local_path):
        file_md5 = get_md5sum(file_local_path)
        if file_md5 == expected_md5:
            # File is already at the expected position and ready to go
            src = file_from_url
        else:
            # Let's download the package again, it's corrupted...
            src = url
    else:
        # File is not there, let's download it
        src = url
    return utils.unmap_url(cachedir, src, cachedir)


def basename(path):
    i = path.rfind('/');
    return path[i+1:]


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
    """
    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 Core'):
        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_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


def get_cpu_arch():
    """Work out which CPU architecture we're running on"""
    f = open('/proc/cpuinfo', 'r')
    cpuinfo = f.readlines()
    f.close()
    if list_grep(cpuinfo, '^cpu.*(RS64|POWER3|Broadband Engine)'):
        return 'power'
    elif list_grep(cpuinfo, '^cpu.*POWER4'):
        return 'power4'
    elif list_grep(cpuinfo, '^cpu.*POWER5'):
        return 'power5'
    elif list_grep(cpuinfo, '^cpu.*POWER6'):
        return 'power6'
    elif list_grep(cpuinfo, '^cpu.*PPC970'):
        return 'power970'
    elif list_grep(cpuinfo, 'Opteron'):
        return 'x86_64'
    elif list_grep(cpuinfo, 'GenuineIntel') and list_grep(cpuinfo, '48 bits virtual'):
        return 'x86_64'
    else:
        return 'i386'


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"""
    f = file('/proc/cpuinfo', 'r')
    cpus = 0
    for line in f.readlines():
        if line.startswith('processor'):
            cpus += 1
    return cpus


# 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 sysctl_kernel(key, value=None):
    """(Very) partial implementation of sysctl, for kernel params"""
    if value:
        # 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 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


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.
    """
    f = open(dir + "/time")
    user = system = elapsed = cpu = count = 0
    r = re.compile('([\d\.]*)user ([\d\.]*)system (\d*):([\d\.]*)elapsed (\d*)%CPU')
    for line in f.readlines():
        try:
            s = r.match(line);
            user += float(s.group(1))
            system += float(s.group(2))
            elapsed += (float(s.group(3)) * 60) + float(s.group(4))
            cpu += float(s.group(5))
            count += 1
        except:
            raise ValueError("badly formatted times")

    f.close()
    return "Elapsed: %0.2fs User: %0.2fs System: %0.2fs CPU: %0.0f%%" % \
          (elapsed/count, user/count, system/count, cpu/count)


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 config.endswith('.gz'):
        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 cpu_online_map():
    """
    Check out the available cpu online map
    """
    cpus = []
    for line in open('/proc/cpuinfo', 'r').readlines():
        if line.startswith('processor'):
            cpus.append(line.split()[2]) # grab cpu number
    return cpus


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 glibc_ver.split('.') < ver.split('.'):
        raise error.TestError("Glibc is 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]
    if kv_tmp[0].split('.') < ver.split('.'):
        raise error.TestError("Kernel is 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 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]))


def extract_all_time_results(results_string):
    """Extract user, system, and elapsed times into a list of tuples"""
    pattern = re.compile(r"(.*?)user (.*?)system (.*?)elapsed")
    results = []
    for result in pattern.findall(results_string):
        results.append(tuple([to_seconds(elt) for elt in result]))
    return results


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


# much like find . -name 'pattern'
def locate(pattern, root=os.getcwd()):
    for path, dirs, files in os.walk(root):
        for f in [os.path.abspath(os.path.join(path, f))
                for f in files if fnmatch.fnmatch(f, pattern)]:
            yield 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


def get_cpu_family():
    procinfo = utils.system_output('cat /proc/cpuinfo')
    CPU_FAMILY_RE = re.compile(r'^cpu family\s+:\s+(\S+)', re.M)
    matches = CPU_FAMILY_RE.findall(procinfo)
    if matches:
        return int(matches[0])
    else:
        raise error.TestError('Could not get valid cpu family data')


def get_disks():
    df_output = utils.system_output('df')
    disk_re = re.compile(r'^(/dev/hd[a-z]+)3', re.M)
    return disk_re.findall(df_output)


def load_module(module_name):
    # Checks if a module has already been loaded
    if module_is_loaded(module_name):
        return False

    utils.system('/sbin/modprobe ' + module_name)
    return True


def unload_module(module_name):
    utils.system('/sbin/rmmod ' + module_name)


def module_is_loaded(module_name):
    module_name = module_name.replace('-', '_')
    modules = utils.system_output('/sbin/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('/sbin/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 get_system_nodes():
    nodes = os.listdir('/sys/devices/system/node')
    nodes.sort()
    return nodes


def get_cpu_vendor():
    cpuinfo = open('/proc/cpuinfo').read()
    vendors = re.findall(r'(?m)^vendor_id\s*:\s*(\S+)\s*$', cpuinfo)
    for i in xrange(1, len(vendors)):
        if vendors[i] != 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.
    """
    output = utils.system_output(
               'find /sys/devices/system/cpu/ -maxdepth 1 -type d -name cpu*')
    return output.splitlines()


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')


try:
    from site_utils import *
except ImportError:
    pass