Merge remote branch 'cros/upstream' into autotest-rebase

Merged to upstream trunk@5066, from trunk@4749.

There is no way I could enlist each individual CL from the upstream here since it will blow up the changelist description field.

BUG=
TEST=
Had patched this CL into a fresh cut client to avoid any side effect.
run_remote_test bvt from both emerged location and third_party/autotest/file.

Both test passed!

We should also keep any eye on this to see how it gets propagated into cautotest server.
TBR=dalecurtis

Change-Id: I72f2bc7a9de530178484aea1bfb5ace68bcad029
diff --git a/client/common_lib/base_utils.py b/client/common_lib/base_utils.py
new file mode 100644
index 0000000..101599b
--- /dev/null
+++ b/client/common_lib/base_utils.py
@@ -0,0 +1,1715 @@
+#
+# Copyright 2008 Google Inc. Released under the GPL v2
+
+import os, pickle, random, re, resource, select, shutil, signal, StringIO
+import socket, struct, subprocess, sys, time, textwrap, urlparse
+import warnings, smtplib, logging, urllib2
+from threading import Thread, Event
+try:
+    import hashlib
+except ImportError:
+    import md5, sha
+from autotest_lib.client.common_lib import error, logging_manager
+
+def deprecated(func):
+    """This is a decorator which can be used to mark functions as deprecated.
+    It will result in a warning being emmitted when the function is used."""
+    def new_func(*args, **dargs):
+        warnings.warn("Call to deprecated function %s." % func.__name__,
+                      category=DeprecationWarning)
+        return func(*args, **dargs)
+    new_func.__name__ = func.__name__
+    new_func.__doc__ = func.__doc__
+    new_func.__dict__.update(func.__dict__)
+    return new_func
+
+
+class _NullStream(object):
+    def write(self, data):
+        pass
+
+
+    def flush(self):
+        pass
+
+
+TEE_TO_LOGS = object()
+_the_null_stream = _NullStream()
+
+DEFAULT_STDOUT_LEVEL = logging.DEBUG
+DEFAULT_STDERR_LEVEL = logging.ERROR
+
+# prefixes for logging stdout/stderr of commands
+STDOUT_PREFIX = '[stdout] '
+STDERR_PREFIX = '[stderr] '
+
+
+def get_stream_tee_file(stream, level, prefix=''):
+    if stream is None:
+        return _the_null_stream
+    if stream is TEE_TO_LOGS:
+        return logging_manager.LoggingFile(level=level, prefix=prefix)
+    return stream
+
+
+class BgJob(object):
+    def __init__(self, command, stdout_tee=None, stderr_tee=None, verbose=True,
+                 stdin=None, stderr_level=DEFAULT_STDERR_LEVEL):
+        self.command = command
+        self.stdout_tee = get_stream_tee_file(stdout_tee, DEFAULT_STDOUT_LEVEL,
+                                              prefix=STDOUT_PREFIX)
+        self.stderr_tee = get_stream_tee_file(stderr_tee, stderr_level,
+                                              prefix=STDERR_PREFIX)
+        self.result = CmdResult(command)
+
+        # allow for easy stdin input by string, we'll let subprocess create
+        # a pipe for stdin input and we'll write to it in the wait loop
+        if isinstance(stdin, basestring):
+            self.string_stdin = stdin
+            stdin = subprocess.PIPE
+        else:
+            self.string_stdin = None
+
+        if verbose:
+            logging.debug("Running '%s'" % command)
+        self.sp = subprocess.Popen(command, stdout=subprocess.PIPE,
+                                   stderr=subprocess.PIPE,
+                                   preexec_fn=self._reset_sigpipe, shell=True,
+
+                                   # Default shell in ChromeOS test image is
+                                   # already bash. We're seeing shell-init
+                                   # errors if this value is set.
+
+                                   #executable="/bin/bash",
+                                   stdin=stdin)
+
+
+    def output_prepare(self, stdout_file=None, stderr_file=None):
+        self.stdout_file = stdout_file
+        self.stderr_file = stderr_file
+
+
+    def process_output(self, stdout=True, final_read=False):
+        """output_prepare must be called prior to calling this"""
+        if stdout:
+            pipe, buf, tee = self.sp.stdout, self.stdout_file, self.stdout_tee
+        else:
+            pipe, buf, tee = self.sp.stderr, self.stderr_file, self.stderr_tee
+
+        if final_read:
+            # read in all the data we can from pipe and then stop
+            data = []
+            while select.select([pipe], [], [], 0)[0]:
+                data.append(os.read(pipe.fileno(), 1024))
+                if len(data[-1]) == 0:
+                    break
+            data = "".join(data)
+        else:
+            # perform a single read
+            data = os.read(pipe.fileno(), 1024)
+        buf.write(data)
+        tee.write(data)
+
+
+    def cleanup(self):
+        self.stdout_tee.flush()
+        self.stderr_tee.flush()
+        self.sp.stdout.close()
+        self.sp.stderr.close()
+        self.result.stdout = self.stdout_file.getvalue()
+        self.result.stderr = self.stderr_file.getvalue()
+
+
+    def _reset_sigpipe(self):
+        signal.signal(signal.SIGPIPE, signal.SIG_DFL)
+
+
+def ip_to_long(ip):
+    # !L is a long in network byte order
+    return struct.unpack('!L', socket.inet_aton(ip))[0]
+
+
+def long_to_ip(number):
+    # See above comment.
+    return socket.inet_ntoa(struct.pack('!L', number))
+
+
+def create_subnet_mask(bits):
+    return (1 << 32) - (1 << 32-bits)
+
+
+def format_ip_with_mask(ip, mask_bits):
+    masked_ip = ip_to_long(ip) & create_subnet_mask(mask_bits)
+    return "%s/%s" % (long_to_ip(masked_ip), mask_bits)
+
+
+def normalize_hostname(alias):
+    ip = socket.gethostbyname(alias)
+    return socket.gethostbyaddr(ip)[0]
+
+
+def get_ip_local_port_range():
+    match = re.match(r'\s*(\d+)\s*(\d+)\s*$',
+                     read_one_line('/proc/sys/net/ipv4/ip_local_port_range'))
+    return (int(match.group(1)), int(match.group(2)))
+
+
+def set_ip_local_port_range(lower, upper):
+    write_one_line('/proc/sys/net/ipv4/ip_local_port_range',
+                   '%d %d\n' % (lower, upper))
+
+
+
+def send_email(mail_from, mail_to, subject, body):
+    """
+    Sends an email via smtp
+
+    mail_from: string with email address of sender
+    mail_to: string or list with email address(es) of recipients
+    subject: string with subject of email
+    body: (multi-line) string with body of email
+    """
+    if isinstance(mail_to, str):
+        mail_to = [mail_to]
+    msg = "From: %s\nTo: %s\nSubject: %s\n\n%s" % (mail_from, ','.join(mail_to),
+                                                   subject, body)
+    try:
+        mailer = smtplib.SMTP('localhost')
+        try:
+            mailer.sendmail(mail_from, mail_to, msg)
+        finally:
+            mailer.quit()
+    except Exception, e:
+        # Emails are non-critical, not errors, but don't raise them
+        print "Sending email failed. Reason: %s" % repr(e)
+
+
+def read_one_line(filename):
+    return open(filename, 'r').readline().rstrip('\n')
+
+
+def read_file(filename):
+    f = open(filename)
+    try:
+        return f.read()
+    finally:
+        f.close()
+
+
+def get_field(data, param, linestart="", sep=" "):
+    """
+    Parse data from string.
+    @param data: Data to parse.
+        example:
+          data:
+             cpu   324 345 34  5 345
+             cpu0  34  11  34 34  33
+             ^^^^
+             start of line
+             params 0   1   2  3   4
+    @param param: Position of parameter after linestart marker.
+    @param linestart: String to which start line with parameters.
+    @param sep: Separator between parameters regular expression.
+    """
+    search = re.compile(r"(?<=^%s)\s*(.*)" % linestart, re.MULTILINE)
+    find = search.search(data)
+    if find != None:
+        return re.split("%s" % sep, find.group(1))[param]
+    else:
+        print "There is no line which starts with %s in data." % linestart
+        return None
+
+
+def write_one_line(filename, line):
+    open_write_close(filename, line.rstrip('\n') + '\n')
+
+
+def open_write_close(filename, data):
+    f = open(filename, 'w')
+    try:
+        f.write(data)
+    finally:
+        f.close()
+
+
+def matrix_to_string(matrix, header=None):
+    """
+    Return a pretty, aligned string representation of a nxm matrix.
+
+    This representation can be used to print any tabular data, such as
+    database results. It works by scanning the lengths of each element
+    in each column, and determining the format string dynamically.
+
+    @param matrix: Matrix representation (list with n rows of m elements).
+    @param header: Optional tuple or list with header elements to be displayed.
+    """
+    if type(header) is list:
+        header = tuple(header)
+    lengths = []
+    if header:
+        for column in header:
+            lengths.append(len(column))
+    for row in matrix:
+        for column in row:
+            i = row.index(column)
+            cl = len(column)
+            try:
+                ml = lengths[i]
+                if cl > ml:
+                    lengths[i] = cl
+            except IndexError:
+                lengths.append(cl)
+
+    lengths = tuple(lengths)
+    format_string = ""
+    for length in lengths:
+        format_string += "%-" + str(length) + "s "
+    format_string += "\n"
+
+    matrix_str = ""
+    if header:
+        matrix_str += format_string % header
+    for row in matrix:
+        matrix_str += format_string % tuple(row)
+
+    return matrix_str
+
+
+def read_keyval(path):
+    """
+    Read a key-value pair format file into a dictionary, and return it.
+    Takes either a filename or directory name as input. If it's a
+    directory name, we assume you want the file to be called keyval.
+    """
+    if os.path.isdir(path):
+        path = os.path.join(path, 'keyval')
+    keyval = {}
+    if os.path.exists(path):
+        for line in open(path):
+            line = re.sub('#.*', '', line).rstrip()
+            if not re.search(r'^[-\.\w]+=', line):
+                raise ValueError('Invalid format line: %s' % line)
+            key, value = line.split('=', 1)
+            if re.search('^\d+$', value):
+                value = int(value)
+            elif re.search('^(\d+\.)?\d+$', value):
+                value = float(value)
+            keyval[key] = value
+    return keyval
+
+
+def write_keyval(path, dictionary, type_tag=None):
+    """
+    Write a key-value pair format file out to a file. This uses append
+    mode to open the file, so existing text will not be overwritten or
+    reparsed.
+
+    If type_tag is None, then the key must be composed of alphanumeric
+    characters (or dashes+underscores). However, if type-tag is not
+    null then the keys must also have "{type_tag}" as a suffix. At
+    the moment the only valid values of type_tag are "attr" and "perf".
+    """
+    if os.path.isdir(path):
+        path = os.path.join(path, 'keyval')
+    keyval = open(path, 'a')
+
+    if type_tag is None:
+        key_regex = re.compile(r'^[-\.\w]+$')
+    else:
+        if type_tag not in ('attr', 'perf'):
+            raise ValueError('Invalid type tag: %s' % type_tag)
+        escaped_tag = re.escape(type_tag)
+        key_regex = re.compile(r'^[-\.\w]+\{%s\}$' % escaped_tag)
+    try:
+        for key in sorted(dictionary.keys()):
+            if not key_regex.search(key):
+                raise ValueError('Invalid key: %s' % key)
+            keyval.write('%s=%s\n' % (key, dictionary[key]))
+    finally:
+        keyval.close()
+
+
+class FileFieldMonitor(object):
+    """
+    Monitors the information from the file and reports it's values.
+
+    It gather the information at start and stop of the measurement or
+    continuously during the measurement.
+    """
+    class Monitor(Thread):
+        """
+        Internal monitor class to ensure continuous monitor of monitored file.
+        """
+        def __init__(self, master):
+            """
+            @param master: Master class which control Monitor
+            """
+            Thread.__init__(self)
+            self.master = master
+
+        def run(self):
+            """
+            Start monitor in thread mode
+            """
+            while not self.master.end_event.isSet():
+                self.master._get_value(self.master.logging)
+                time.sleep(self.master.time_step)
+
+
+    def __init__(self, status_file, data_to_read, mode_diff, continuously=False,
+                 contlogging=False, separator=" +", time_step=0.1):
+        """
+        Initialize variables.
+        @param status_file: File contain status.
+        @param mode_diff: If True make a difference of value, else average.
+        @param data_to_read: List of tuples with data position.
+            format: [(start_of_line,position in params)]
+            example:
+              data:
+                 cpu   324 345 34  5 345
+                 cpu0  34  11  34 34  33
+                 ^^^^
+                 start of line
+                 params 0   1   2  3   4
+        @param mode_diff: True to subtract old value from new value,
+            False make average of the values.
+        @parma continuously: Start the monitoring thread using the time_step
+            as the measurement period.
+        @param contlogging: Log data in continuous run.
+        @param separator: Regular expression of separator.
+        @param time_step: Time period of the monitoring value.
+        """
+        self.end_event = Event()
+        self.start_time = 0
+        self.end_time = 0
+        self.test_time = 0
+
+        self.status_file = status_file
+        self.separator = separator
+        self.data_to_read = data_to_read
+        self.num_of_params = len(self.data_to_read)
+        self.mode_diff = mode_diff
+        self.continuously = continuously
+        self.time_step = time_step
+
+        self.value = [0 for i in range(self.num_of_params)]
+        self.old_value = [0 for i in range(self.num_of_params)]
+        self.log = []
+        self.logging = contlogging
+
+        self.started = False
+        self.num_of_get_value = 0
+        self.monitor = None
+
+
+    def _get_value(self, logging=True):
+        """
+        Return current values.
+        @param logging: If true log value in memory. There can be problem
+          with long run.
+        """
+        data = read_file(self.status_file)
+        value = []
+        for i in range(self.num_of_params):
+            value.append(int(get_field(data,
+                             self.data_to_read[i][1],
+                             self.data_to_read[i][0],
+                             self.separator)))
+
+        if logging:
+            self.log.append(value)
+        if not self.mode_diff:
+            value = map(lambda x, y: x + y, value, self.old_value)
+
+        self.old_value = value
+        self.num_of_get_value += 1
+        return value
+
+
+    def start(self):
+        """
+        Start value monitor.
+        """
+        if self.started:
+            self.stop()
+        self.old_value = [0 for i in range(self.num_of_params)]
+        self.num_of_get_value = 0
+        self.log = []
+        self.end_event.clear()
+        self.start_time = time.time()
+        self._get_value()
+        self.started = True
+        if (self.continuously):
+            self.monitor = FileFieldMonitor.Monitor(self)
+            self.monitor.start()
+
+
+    def stop(self):
+        """
+        Stop value monitor.
+        """
+        if self.started:
+            self.started = False
+            self.end_time = time.time()
+            self.test_time = self.end_time - self.start_time
+            self.value = self._get_value()
+            if (self.continuously):
+                self.end_event.set()
+                self.monitor.join()
+            if (self.mode_diff):
+                self.value = map(lambda x, y: x - y, self.log[-1], self.log[0])
+            else:
+                self.value = map(lambda x: x / self.num_of_get_value,
+                                 self.value)
+
+
+    def get_status(self):
+        """
+        @return: Status of monitored process average value,
+            time of test and array of monitored values and time step of
+            continuous run.
+        """
+        if self.started:
+            self.stop()
+        if self.mode_diff:
+            for i in range(len(self.log) - 1):
+                self.log[i] = (map(lambda x, y: x - y,
+                                   self.log[i + 1], self.log[i]))
+            self.log.pop()
+        return (self.value, self.test_time, self.log, self.time_step)
+
+
+def is_url(path):
+    """Return true if path looks like a URL"""
+    # for now, just handle http and ftp
+    url_parts = urlparse.urlparse(path)
+    return (url_parts[0] in ('http', 'ftp'))
+
+
+def urlopen(url, data=None, timeout=5):
+    """Wrapper to urllib2.urlopen with timeout addition."""
+
+    # Save old timeout
+    old_timeout = socket.getdefaulttimeout()
+    socket.setdefaulttimeout(timeout)
+    try:
+        return urllib2.urlopen(url, data=data)
+    finally:
+        socket.setdefaulttimeout(old_timeout)
+
+
+def urlretrieve(url, filename, data=None, timeout=300):
+    """Retrieve a file from given url."""
+    logging.debug('Fetching %s -> %s', url, filename)
+
+    src_file = urlopen(url, data=data, timeout=timeout)
+    try:
+        dest_file = open(filename, 'wb')
+        try:
+            shutil.copyfileobj(src_file, dest_file)
+        finally:
+            dest_file.close()
+    finally:
+        src_file.close()
+
+
+def hash(type, input=None):
+    """
+    Returns an hash object of type md5 or sha1. This function is implemented in
+    order to encapsulate hash objects in a way that is compatible with python
+    2.4 and python 2.6 without warnings.
+
+    Note that even though python 2.6 hashlib supports hash types other than
+    md5 and sha1, we are artificially limiting the input values in order to
+    make the function to behave exactly the same among both python
+    implementations.
+
+    @param input: Optional input string that will be used to update the hash.
+    """
+    if type not in ['md5', 'sha1']:
+        raise ValueError("Unsupported hash type: %s" % type)
+
+    try:
+        hash = hashlib.new(type)
+    except NameError:
+        if type == 'md5':
+            hash = md5.new()
+        elif type == 'sha1':
+            hash = sha.new()
+
+    if input:
+        hash.update(input)
+
+    return hash
+
+
+def get_file(src, dest, permissions=None):
+    """Get a file from src, which can be local or a remote URL"""
+    if src == dest:
+        return
+
+    if is_url(src):
+        urlretrieve(src, dest)
+    else:
+        shutil.copyfile(src, dest)
+
+    if permissions:
+        os.chmod(dest, permissions)
+    return dest
+
+
+def unmap_url(srcdir, src, destdir='.'):
+    """
+    Receives either a path to a local file or a URL.
+    returns either the path to the local file, or the fetched URL
+
+    unmap_url('/usr/src', 'foo.tar', '/tmp')
+                            = '/usr/src/foo.tar'
+    unmap_url('/usr/src', 'http://site/file', '/tmp')
+                            = '/tmp/file'
+                            (after retrieving it)
+    """
+    if is_url(src):
+        url_parts = urlparse.urlparse(src)
+        filename = os.path.basename(url_parts[2])
+        dest = os.path.join(destdir, filename)
+        return get_file(src, dest)
+    else:
+        return os.path.join(srcdir, src)
+
+
+def update_version(srcdir, preserve_srcdir, new_version, install,
+                   *args, **dargs):
+    """
+    Make sure srcdir is version new_version
+
+    If not, delete it and install() the new version.
+
+    In the preserve_srcdir case, we just check it's up to date,
+    and if not, we rerun install, without removing srcdir
+    """
+    versionfile = os.path.join(srcdir, '.version')
+    install_needed = True
+
+    if os.path.exists(versionfile):
+        old_version = pickle.load(open(versionfile))
+        if old_version == new_version:
+            install_needed = False
+
+    if install_needed:
+        if not preserve_srcdir and os.path.exists(srcdir):
+            shutil.rmtree(srcdir)
+        install(*args, **dargs)
+        if os.path.exists(srcdir):
+            pickle.dump(new_version, open(versionfile, 'w'))
+
+
+def get_stderr_level(stderr_is_expected):
+    if stderr_is_expected:
+        return DEFAULT_STDOUT_LEVEL
+    return DEFAULT_STDERR_LEVEL
+
+
+def run(command, timeout=None, ignore_status=False,
+        stdout_tee=None, stderr_tee=None, verbose=True, stdin=None,
+        stderr_is_expected=None, args=()):
+    """
+    Run a command on the host.
+
+    @param command: the command line string.
+    @param timeout: time limit in seconds before attempting to kill the
+            running process. The run() function will take a few seconds
+            longer than 'timeout' to complete if it has to kill the process.
+    @param ignore_status: do not raise an exception, no matter what the exit
+            code of the command is.
+    @param stdout_tee: optional file-like object to which stdout data
+            will be written as it is generated (data will still be stored
+            in result.stdout).
+    @param stderr_tee: likewise for stderr.
+    @param verbose: if True, log the command being run.
+    @param stdin: stdin to pass to the executed process (can be a file
+            descriptor, a file object of a real file or a string).
+    @param args: sequence of strings of arguments to be given to the command
+            inside " quotes after they have been escaped for that; each
+            element in the sequence will be given as a separate command
+            argument
+
+    @return a CmdResult object
+
+    @raise CmdError: the exit code of the command execution was not 0
+    """
+    if isinstance(args, basestring):
+        raise TypeError('Got a string for the "args" keyword argument, '
+                        'need a sequence.')
+
+    for arg in args:
+        command += ' "%s"' % sh_escape(arg)
+    if stderr_is_expected is None:
+        stderr_is_expected = ignore_status
+
+    bg_job = join_bg_jobs(
+        (BgJob(command, stdout_tee, stderr_tee, verbose, stdin=stdin,
+               stderr_level=get_stderr_level(stderr_is_expected)),),
+        timeout)[0]
+    if not ignore_status and bg_job.result.exit_status:
+        raise error.CmdError(command, bg_job.result,
+                             "Command returned non-zero exit status")
+
+    return bg_job.result
+
+
+def run_parallel(commands, timeout=None, ignore_status=False,
+                 stdout_tee=None, stderr_tee=None):
+    """
+    Behaves the same as run() with the following exceptions:
+
+    - commands is a list of commands to run in parallel.
+    - ignore_status toggles whether or not an exception should be raised
+      on any error.
+
+    @return: a list of CmdResult objects
+    """
+    bg_jobs = []
+    for command in commands:
+        bg_jobs.append(BgJob(command, stdout_tee, stderr_tee,
+                             stderr_level=get_stderr_level(ignore_status)))
+
+    # Updates objects in bg_jobs list with their process information
+    join_bg_jobs(bg_jobs, timeout)
+
+    for bg_job in bg_jobs:
+        if not ignore_status and bg_job.result.exit_status:
+            raise error.CmdError(command, bg_job.result,
+                                 "Command returned non-zero exit status")
+
+    return [bg_job.result for bg_job in bg_jobs]
+
+
+@deprecated
+def run_bg(command):
+    """Function deprecated. Please use BgJob class instead."""
+    bg_job = BgJob(command)
+    return bg_job.sp, bg_job.result
+
+
+def join_bg_jobs(bg_jobs, timeout=None):
+    """Joins the bg_jobs with the current thread.
+
+    Returns the same list of bg_jobs objects that was passed in.
+    """
+    ret, timeout_error = 0, False
+    for bg_job in bg_jobs:
+        bg_job.output_prepare(StringIO.StringIO(), StringIO.StringIO())
+
+    try:
+        # We are holding ends to stdin, stdout pipes
+        # hence we need to be sure to close those fds no mater what
+        start_time = time.time()
+        timeout_error = _wait_for_commands(bg_jobs, start_time, timeout)
+
+        for bg_job in bg_jobs:
+            # Process stdout and stderr
+            bg_job.process_output(stdout=True,final_read=True)
+            bg_job.process_output(stdout=False,final_read=True)
+    finally:
+        # close our ends of the pipes to the sp no matter what
+        for bg_job in bg_jobs:
+            bg_job.cleanup()
+
+    if timeout_error:
+        # TODO: This needs to be fixed to better represent what happens when
+        # running in parallel. However this is backwards compatable, so it will
+        # do for the time being.
+        raise error.CmdError(bg_jobs[0].command, bg_jobs[0].result,
+                             "Command(s) did not complete within %d seconds"
+                             % timeout)
+
+
+    return bg_jobs
+
+
+def _wait_for_commands(bg_jobs, start_time, timeout):
+    # This returns True if it must return due to a timeout, otherwise False.
+
+    # To check for processes which terminate without producing any output
+    # a 1 second timeout is used in select.
+    SELECT_TIMEOUT = 1
+
+    read_list = []
+    write_list = []
+    reverse_dict = {}
+
+    for bg_job in bg_jobs:
+        read_list.append(bg_job.sp.stdout)
+        read_list.append(bg_job.sp.stderr)
+        reverse_dict[bg_job.sp.stdout] = (bg_job, True)
+        reverse_dict[bg_job.sp.stderr] = (bg_job, False)
+        if bg_job.string_stdin is not None:
+            write_list.append(bg_job.sp.stdin)
+            reverse_dict[bg_job.sp.stdin] = bg_job
+
+    if timeout:
+        stop_time = start_time + timeout
+        time_left = stop_time - time.time()
+    else:
+        time_left = None # so that select never times out
+
+    while not timeout or time_left > 0:
+        # select will return when we may write to stdin or when there is
+        # stdout/stderr output we can read (including when it is
+        # EOF, that is the process has terminated).
+        read_ready, write_ready, _ = select.select(read_list, write_list, [],
+                                                   SELECT_TIMEOUT)
+
+        # os.read() has to be used instead of
+        # subproc.stdout.read() which will otherwise block
+        for file_obj in read_ready:
+            bg_job, is_stdout = reverse_dict[file_obj]
+            bg_job.process_output(is_stdout)
+
+        for file_obj in write_ready:
+            # we can write PIPE_BUF bytes without blocking
+            # POSIX requires PIPE_BUF is >= 512
+            bg_job = reverse_dict[file_obj]
+            file_obj.write(bg_job.string_stdin[:512])
+            bg_job.string_stdin = bg_job.string_stdin[512:]
+            # no more input data, close stdin, remove it from the select set
+            if not bg_job.string_stdin:
+                file_obj.close()
+                write_list.remove(file_obj)
+                del reverse_dict[file_obj]
+
+        all_jobs_finished = True
+        for bg_job in bg_jobs:
+            if bg_job.result.exit_status is not None:
+                continue
+
+            bg_job.result.exit_status = bg_job.sp.poll()
+            if bg_job.result.exit_status is not None:
+                # process exited, remove its stdout/stdin from the select set
+                bg_job.result.duration = time.time() - start_time
+                read_list.remove(bg_job.sp.stdout)
+                read_list.remove(bg_job.sp.stderr)
+                del reverse_dict[bg_job.sp.stdout]
+                del reverse_dict[bg_job.sp.stderr]
+            else:
+                all_jobs_finished = False
+
+        if all_jobs_finished:
+            return False
+
+        if timeout:
+            time_left = stop_time - time.time()
+
+    # Kill all processes which did not complete prior to timeout
+    for bg_job in bg_jobs:
+        if bg_job.result.exit_status is not None:
+            continue
+
+        logging.warn('run process timeout (%s) fired on: %s', timeout,
+                     bg_job.command)
+        nuke_subprocess(bg_job.sp)
+        bg_job.result.exit_status = bg_job.sp.poll()
+        bg_job.result.duration = time.time() - start_time
+
+    return True
+
+
+def pid_is_alive(pid):
+    """
+    True if process pid exists and is not yet stuck in Zombie state.
+    Zombies are impossible to move between cgroups, etc.
+    pid can be integer, or text of integer.
+    """
+    path = '/proc/%s/stat' % pid
+
+    try:
+        stat = read_one_line(path)
+    except IOError:
+        if not os.path.exists(path):
+            # file went away
+            return False
+        raise
+
+    return stat.split()[2] != 'Z'
+
+
+def signal_pid(pid, sig):
+    """
+    Sends a signal to a process id. Returns True if the process terminated
+    successfully, False otherwise.
+    """
+    try:
+        os.kill(pid, sig)
+    except OSError:
+        # The process may have died before we could kill it.
+        pass
+
+    for i in range(5):
+        if not pid_is_alive(pid):
+            return True
+        time.sleep(1)
+
+    # The process is still alive
+    return False
+
+
+def nuke_subprocess(subproc):
+    # check if the subprocess is still alive, first
+    if subproc.poll() is not None:
+        return subproc.poll()
+
+    # the process has not terminated within timeout,
+    # kill it via an escalating series of signals.
+    signal_queue = [signal.SIGTERM, signal.SIGKILL]
+    for sig in signal_queue:
+        signal_pid(subproc.pid, sig)
+        if subproc.poll() is not None:
+            return subproc.poll()
+
+
+def nuke_pid(pid, signal_queue=(signal.SIGTERM, signal.SIGKILL)):
+    # the process has not terminated within timeout,
+    # kill it via an escalating series of signals.
+    for sig in signal_queue:
+        if signal_pid(pid, sig):
+            return
+
+    # no signal successfully terminated the process
+    raise error.AutoservRunError('Could not kill %d' % pid, None)
+
+
+def system(command, timeout=None, ignore_status=False):
+    """
+    Run a command
+
+    @param timeout: timeout in seconds
+    @param ignore_status: if ignore_status=False, throw an exception if the
+            command's exit code is non-zero
+            if ignore_stauts=True, return the exit code.
+
+    @return exit status of command
+            (note, this will always be zero unless ignore_status=True)
+    """
+    return run(command, timeout=timeout, ignore_status=ignore_status,
+               stdout_tee=TEE_TO_LOGS, stderr_tee=TEE_TO_LOGS).exit_status
+
+
+def system_parallel(commands, timeout=None, ignore_status=False):
+    """This function returns a list of exit statuses for the respective
+    list of commands."""
+    return [bg_jobs.exit_status for bg_jobs in
+            run_parallel(commands, timeout=timeout, ignore_status=ignore_status,
+                         stdout_tee=TEE_TO_LOGS, stderr_tee=TEE_TO_LOGS)]
+
+
+def system_output(command, timeout=None, ignore_status=False,
+                  retain_output=False, args=()):
+    """
+    Run a command and return the stdout output.
+
+    @param command: command string to execute.
+    @param timeout: time limit in seconds before attempting to kill the
+            running process. The function will take a few seconds longer
+            than 'timeout' to complete if it has to kill the process.
+    @param ignore_status: do not raise an exception, no matter what the exit
+            code of the command is.
+    @param retain_output: set to True to make stdout/stderr of the command
+            output to be also sent to the logging system
+    @param args: sequence of strings of arguments to be given to the command
+            inside " quotes after they have been escaped for that; each
+            element in the sequence will be given as a separate command
+            argument
+
+    @return a string with the stdout output of the command.
+    """
+    if retain_output:
+        out = run(command, timeout=timeout, ignore_status=ignore_status,
+                  stdout_tee=TEE_TO_LOGS, stderr_tee=TEE_TO_LOGS,
+                  args=args).stdout
+    else:
+        out = run(command, timeout=timeout, ignore_status=ignore_status,
+                  args=args).stdout
+    if out[-1:] == '\n':
+        out = out[:-1]
+    return out
+
+
+def system_output_parallel(commands, timeout=None, ignore_status=False,
+                           retain_output=False):
+    if retain_output:
+        out = [bg_job.stdout for bg_job
+               in run_parallel(commands, timeout=timeout,
+                               ignore_status=ignore_status,
+                               stdout_tee=TEE_TO_LOGS, stderr_tee=TEE_TO_LOGS)]
+    else:
+        out = [bg_job.stdout for bg_job in run_parallel(commands,
+                                  timeout=timeout, ignore_status=ignore_status)]
+    for x in out:
+        if out[-1:] == '\n': out = out[:-1]
+    return out
+
+
+def strip_unicode(input):
+    if type(input) == list:
+        return [strip_unicode(i) for i in input]
+    elif type(input) == dict:
+        output = {}
+        for key in input.keys():
+            output[str(key)] = strip_unicode(input[key])
+        return output
+    elif type(input) == unicode:
+        return str(input)
+    else:
+        return input
+
+
+def get_cpu_percentage(function, *args, **dargs):
+    """Returns a tuple containing the CPU% and return value from function call.
+
+    This function calculates the usage time by taking the difference of
+    the user and system times both before and after the function call.
+    """
+    child_pre = resource.getrusage(resource.RUSAGE_CHILDREN)
+    self_pre = resource.getrusage(resource.RUSAGE_SELF)
+    start = time.time()
+    to_return = function(*args, **dargs)
+    elapsed = time.time() - start
+    self_post = resource.getrusage(resource.RUSAGE_SELF)
+    child_post = resource.getrusage(resource.RUSAGE_CHILDREN)
+
+    # Calculate CPU Percentage
+    s_user, s_system = [a - b for a, b in zip(self_post, self_pre)[:2]]
+    c_user, c_system = [a - b for a, b in zip(child_post, child_pre)[:2]]
+    cpu_percent = (s_user + c_user + s_system + c_system) / elapsed
+
+    return cpu_percent, to_return
+
+
+class SystemLoad(object):
+    """
+    Get system and/or process values and return average value of load.
+    """
+    def __init__(self, pids, advanced=False, time_step=0.1, cpu_cont=False,
+                 use_log=False):
+        """
+        @param pids: List of pids to be monitored. If pid = 0 whole system will
+          be monitored. pid == 0 means whole system.
+        @param advanced: monitor add value for system irq count and softirq
+          for process minor and maior page fault
+        @param time_step: Time step for continuous monitoring.
+        @param cpu_cont: If True monitor CPU load continuously.
+        @param use_log: If true every monitoring is logged for dump.
+        """
+        self.pids = []
+        self.stats = {}
+        for pid in pids:
+            if pid == 0:
+                cpu = FileFieldMonitor("/proc/stat",
+                                       [("cpu", 0), # User Time
+                                        ("cpu", 2), # System Time
+                                        ("intr", 0), # IRQ Count
+                                        ("softirq", 0)], # Soft IRQ Count
+                                       True,
+                                       cpu_cont,
+                                       use_log,
+                                       " +",
+                                       time_step)
+                mem = FileFieldMonitor("/proc/meminfo",
+                                       [("MemTotal:", 0), # Mem Total
+                                        ("MemFree:", 0), # Mem Free
+                                        ("Buffers:", 0), # Buffers
+                                        ("Cached:", 0)], # Cached
+                                       False,
+                                       True,
+                                       use_log,
+                                       " +",
+                                       time_step)
+                self.stats[pid] = ["TOTAL", cpu, mem]
+                self.pids.append(pid)
+            else:
+                name = ""
+                if (type(pid) is int):
+                    self.pids.append(pid)
+                    name = get_process_name(pid)
+                else:
+                    self.pids.append(pid[0])
+                    name = pid[1]
+
+                cpu = FileFieldMonitor("/proc/%d/stat" %
+                                       self.pids[-1],
+                                       [("", 13), # User Time
+                                        ("", 14), # System Time
+                                        ("", 9), # Minority Page Fault
+                                        ("", 11)], # Majority Page Fault
+                                       True,
+                                       cpu_cont,
+                                       use_log,
+                                       " +",
+                                       time_step)
+                mem = FileFieldMonitor("/proc/%d/status" %
+                                       self.pids[-1],
+                                       [("VmSize:", 0), # Virtual Memory Size
+                                        ("VmRSS:", 0), # Resident Set Size
+                                        ("VmPeak:", 0), # Peak VM Size
+                                        ("VmSwap:", 0)], # VM in Swap
+                                       False,
+                                       True,
+                                       use_log,
+                                       " +",
+                                       time_step)
+                self.stats[self.pids[-1]] = [name, cpu, mem]
+
+        self.advanced = advanced
+
+
+    def __str__(self):
+        """
+        Define format how to print
+        """
+        out = ""
+        for pid in self.pids:
+            for stat in self.stats[pid][1:]:
+                out += str(stat.get_status()) + "\n"
+        return out
+
+
+    def start(self, pids=[]):
+        """
+        Start monitoring of the process system usage.
+        @param pids: List of PIDs you intend to control. Use pids=[] to control
+            all defined PIDs.
+        """
+        if pids == []:
+            pids = self.pids
+
+        for pid in pids:
+            for stat in self.stats[pid][1:]:
+                stat.start()
+
+
+    def stop(self, pids=[]):
+        """
+        Stop monitoring of the process system usage.
+        @param pids: List of PIDs you intend to control. Use pids=[] to control
+            all defined PIDs.
+        """
+        if pids == []:
+            pids = self.pids
+
+        for pid in pids:
+            for stat in self.stats[pid][1:]:
+                stat.stop()
+
+
+    def dump(self, pids=[]):
+        """
+        Get the status of monitoring.
+        @param pids: List of PIDs you intend to control. Use pids=[] to control
+            all defined PIDs.
+         @return:
+            tuple([cpu load], [memory load]):
+                ([(PID1, (PID1_cpu_meas)), (PID2, (PID2_cpu_meas)), ...],
+                 [(PID1, (PID1_mem_meas)), (PID2, (PID2_mem_meas)), ...])
+
+            PID1_cpu_meas:
+                average_values[], test_time, cont_meas_values[[]], time_step
+            PID1_mem_meas:
+                average_values[], test_time, cont_meas_values[[]], time_step
+            where average_values[] are the measured values (mem_free,swap,...)
+            which are described in SystemLoad.__init__()-FileFieldMonitor.
+            cont_meas_values[[]] is a list of average_values in the sampling
+            times.
+        """
+        if pids == []:
+            pids = self.pids
+
+        cpus = []
+        memory = []
+        for pid in pids:
+            stat = (pid, self.stats[pid][1].get_status())
+            cpus.append(stat)
+        for pid in pids:
+            stat = (pid, self.stats[pid][2].get_status())
+            memory.append(stat)
+
+        return (cpus, memory)
+
+
+    def get_cpu_status_string(self, pids=[]):
+        """
+        Convert status to string array.
+        @param pids: List of PIDs you intend to control. Use pids=[] to control
+            all defined PIDs.
+        @return: String format to table.
+        """
+        if pids == []:
+            pids = self.pids
+
+        headers = ["NAME",
+                   ("%7s") % "PID",
+                   ("%5s") % "USER",
+                   ("%5s") % "SYS",
+                   ("%5s") % "SUM"]
+        if self.advanced:
+            headers.extend(["MINFLT/IRQC",
+                            "MAJFLT/SOFTIRQ"])
+        headers.append(("%11s") % "TIME")
+        textstatus = []
+        for pid in pids:
+            stat = self.stats[pid][1].get_status()
+            time = stat[1]
+            stat = stat[0]
+            textstatus.append(["%s" % self.stats[pid][0],
+                               "%7s" % pid,
+                               "%4.0f%%" % (stat[0] / time),
+                               "%4.0f%%" % (stat[1] / time),
+                               "%4.0f%%" % ((stat[0] + stat[1]) / time),
+                               "%10.3fs" % time])
+            if self.advanced:
+                textstatus[-1].insert(-1, "%11d" % stat[2])
+                textstatus[-1].insert(-1, "%14d" % stat[3])
+
+        return matrix_to_string(textstatus, tuple(headers))
+
+
+    def get_mem_status_string(self, pids=[]):
+        """
+        Convert status to string array.
+        @param pids: List of PIDs you intend to control. Use pids=[] to control
+            all defined PIDs.
+        @return: String format to table.
+        """
+        if pids == []:
+            pids = self.pids
+
+        headers = ["NAME",
+                   ("%7s") % "PID",
+                   ("%8s") % "TOTAL/VMSIZE",
+                   ("%8s") % "FREE/VMRSS",
+                   ("%8s") % "BUFFERS/VMPEAK",
+                   ("%8s") % "CACHED/VMSWAP",
+                   ("%11s") % "TIME"]
+        textstatus = []
+        for pid in pids:
+            stat = self.stats[pid][2].get_status()
+            time = stat[1]
+            stat = stat[0]
+            textstatus.append(["%s" % self.stats[pid][0],
+                               "%7s" % pid,
+                               "%10dMB" % (stat[0] / 1024),
+                               "%8dMB" % (stat[1] / 1024),
+                               "%12dMB" % (stat[2] / 1024),
+                               "%11dMB" % (stat[3] / 1024),
+                               "%10.3fs" % time])
+
+        return matrix_to_string(textstatus, tuple(headers))
+
+
+def get_arch(run_function=run):
+    """
+    Get the hardware architecture of the machine.
+    run_function is used to execute the commands. It defaults to
+    utils.run() but a custom method (if provided) should be of the
+    same schema as utils.run. It should return a CmdResult object and
+    throw a CmdError exception.
+    """
+    arch = run_function('/bin/uname -m').stdout.rstrip()
+    if re.match(r'i\d86$', arch):
+        arch = 'i386'
+    return arch
+
+
+def get_num_logical_cpus_per_socket(run_function=run):
+    """
+    Get the number of cores (including hyperthreading) per cpu.
+    run_function is used to execute the commands. It defaults to
+    utils.run() but a custom method (if provided) should be of the
+    same schema as utils.run. It should return a CmdResult object and
+    throw a CmdError exception.
+    """
+    siblings = run_function('grep "^siblings" /proc/cpuinfo').stdout.rstrip()
+    num_siblings = map(int,
+                       re.findall(r'^siblings\s*:\s*(\d+)\s*$',
+                                  siblings, re.M))
+    if len(num_siblings) == 0:
+        raise error.TestError('Unable to find siblings info in /proc/cpuinfo')
+    if min(num_siblings) != max(num_siblings):
+        raise error.TestError('Number of siblings differ %r' %
+                              num_siblings)
+    return num_siblings[0]
+
+
+def merge_trees(src, dest):
+    """
+    Merges a source directory tree at 'src' into a destination tree at
+    'dest'. If a path is a file in both trees than the file in the source
+    tree is APPENDED to the one in the destination tree. If a path is
+    a directory in both trees then the directories are recursively merged
+    with this function. In any other case, the function will skip the
+    paths that cannot be merged (instead of failing).
+    """
+    if not os.path.exists(src):
+        return # exists only in dest
+    elif not os.path.exists(dest):
+        if os.path.isfile(src):
+            shutil.copy2(src, dest) # file only in src
+        else:
+            shutil.copytree(src, dest, symlinks=True) # dir only in src
+        return
+    elif os.path.isfile(src) and os.path.isfile(dest):
+        # src & dest are files in both trees, append src to dest
+        destfile = open(dest, "a")
+        try:
+            srcfile = open(src)
+            try:
+                destfile.write(srcfile.read())
+            finally:
+                srcfile.close()
+        finally:
+            destfile.close()
+    elif os.path.isdir(src) and os.path.isdir(dest):
+        # src & dest are directories in both trees, so recursively merge
+        for name in os.listdir(src):
+            merge_trees(os.path.join(src, name), os.path.join(dest, name))
+    else:
+        # src & dest both exist, but are incompatible
+        return
+
+
+class CmdResult(object):
+    """
+    Command execution result.
+
+    command:     String containing the command line itself
+    exit_status: Integer exit code of the process
+    stdout:      String containing stdout of the process
+    stderr:      String containing stderr of the process
+    duration:    Elapsed wall clock time running the process
+    """
+
+
+    def __init__(self, command="", stdout="", stderr="",
+                 exit_status=None, duration=0):
+        self.command = command
+        self.exit_status = exit_status
+        self.stdout = stdout
+        self.stderr = stderr
+        self.duration = duration
+
+
+    def __repr__(self):
+        wrapper = textwrap.TextWrapper(width = 78,
+                                       initial_indent="\n    ",
+                                       subsequent_indent="    ")
+
+        stdout = self.stdout.rstrip()
+        if stdout:
+            stdout = "\nstdout:\n%s" % stdout
+
+        stderr = self.stderr.rstrip()
+        if stderr:
+            stderr = "\nstderr:\n%s" % stderr
+
+        return ("* Command: %s\n"
+                "Exit status: %s\n"
+                "Duration: %s\n"
+                "%s"
+                "%s"
+                % (wrapper.fill(self.command), self.exit_status,
+                self.duration, stdout, stderr))
+
+
+class run_randomly:
+    def __init__(self, run_sequentially=False):
+        # Run sequentially is for debugging control files
+        self.test_list = []
+        self.run_sequentially = run_sequentially
+
+
+    def add(self, *args, **dargs):
+        test = (args, dargs)
+        self.test_list.append(test)
+
+
+    def run(self, fn):
+        while self.test_list:
+            test_index = random.randint(0, len(self.test_list)-1)
+            if self.run_sequentially:
+                test_index = 0
+            (args, dargs) = self.test_list.pop(test_index)
+            fn(*args, **dargs)
+
+
+def import_site_module(path, module, dummy=None, modulefile=None):
+    """
+    Try to import the site specific module if it exists.
+
+    @param path full filename of the source file calling this (ie __file__)
+    @param module full module name
+    @param dummy dummy value to return in case there is no symbol to import
+    @param modulefile module filename
+
+    @return site specific module or dummy
+
+    @raises ImportError if the site file exists but imports fails
+    """
+    short_module = module[module.rfind(".") + 1:]
+
+    if not modulefile:
+        modulefile = short_module + ".py"
+
+    if os.path.exists(os.path.join(os.path.dirname(path), modulefile)):
+        return __import__(module, {}, {}, [short_module])
+    return dummy
+
+
+def import_site_symbol(path, module, name, dummy=None, modulefile=None):
+    """
+    Try to import site specific symbol from site specific file if it exists
+
+    @param path full filename of the source file calling this (ie __file__)
+    @param module full module name
+    @param name symbol name to be imported from the site file
+    @param dummy dummy value to return in case there is no symbol to import
+    @param modulefile module filename
+
+    @return site specific symbol or dummy
+
+    @raises ImportError if the site file exists but imports fails
+    """
+    module = import_site_module(path, module, modulefile=modulefile)
+    if not module:
+        return dummy
+
+    # special unique value to tell us if the symbol can't be imported
+    cant_import = object()
+
+    obj = getattr(module, name, cant_import)
+    if obj is cant_import:
+        logging.debug("unable to import site symbol '%s', using non-site "
+                      "implementation", name)
+        return dummy
+
+    return obj
+
+
+def import_site_class(path, module, classname, baseclass, modulefile=None):
+    """
+    Try to import site specific class from site specific file if it exists
+
+    Args:
+        path: full filename of the source file calling this (ie __file__)
+        module: full module name
+        classname: class name to be loaded from site file
+        baseclass: base class object to return when no site file present or
+            to mixin when site class exists but is not inherited from baseclass
+        modulefile: module filename
+
+    Returns: baseclass if site specific class does not exist, the site specific
+        class if it exists and is inherited from baseclass or a mixin of the
+        site specific class and baseclass when the site specific class exists
+        and is not inherited from baseclass
+
+    Raises: ImportError if the site file exists but imports fails
+    """
+
+    res = import_site_symbol(path, module, classname, None, modulefile)
+    if res:
+        if not issubclass(res, baseclass):
+            # if not a subclass of baseclass then mix in baseclass with the
+            # site specific class object and return the result
+            res = type(classname, (res, baseclass), {})
+    else:
+        res = baseclass
+
+    return res
+
+
+def import_site_function(path, module, funcname, dummy, modulefile=None):
+    """
+    Try to import site specific function from site specific file if it exists
+
+    Args:
+        path: full filename of the source file calling this (ie __file__)
+        module: full module name
+        funcname: function name to be imported from site file
+        dummy: dummy function to return in case there is no function to import
+        modulefile: module filename
+
+    Returns: site specific function object or dummy
+
+    Raises: ImportError if the site file exists but imports fails
+    """
+
+    return import_site_symbol(path, module, funcname, dummy, modulefile)
+
+
+def _get_pid_path(program_name):
+    my_path = os.path.dirname(__file__)
+    return os.path.abspath(os.path.join(my_path, "..", "..",
+                                        "%s.pid" % program_name))
+
+
+def write_pid(program_name):
+    """
+    Try to drop <program_name>.pid in the main autotest directory.
+
+    Args:
+      program_name: prefix for file name
+    """
+    pidfile = open(_get_pid_path(program_name), "w")
+    try:
+        pidfile.write("%s\n" % os.getpid())
+    finally:
+        pidfile.close()
+
+
+def delete_pid_file_if_exists(program_name):
+    """
+    Tries to remove <program_name>.pid from the main autotest directory.
+    """
+    pidfile_path = _get_pid_path(program_name)
+
+    try:
+        os.remove(pidfile_path)
+    except OSError:
+        if not os.path.exists(pidfile_path):
+            return
+        raise
+
+
+def get_pid_from_file(program_name):
+    """
+    Reads the pid from <program_name>.pid in the autotest directory.
+
+    @param program_name the name of the program
+    @return the pid if the file exists, None otherwise.
+    """
+    pidfile_path = _get_pid_path(program_name)
+    if not os.path.exists(pidfile_path):
+        return None
+
+    pidfile = open(_get_pid_path(program_name), 'r')
+
+    try:
+        try:
+            pid = int(pidfile.readline())
+        except IOError:
+            if not os.path.exists(pidfile_path):
+                return None
+            raise
+    finally:
+        pidfile.close()
+
+    return pid
+
+
+def get_process_name(pid):
+    """
+    Get process name from PID.
+    @param pid: PID of process.
+    """
+    return get_field(read_file("/proc/%d/stat" % pid), 1)[1:-1]
+
+
+def program_is_alive(program_name):
+    """
+    Checks if the process is alive and not in Zombie state.
+
+    @param program_name the name of the program
+    @return True if still alive, False otherwise
+    """
+    pid = get_pid_from_file(program_name)
+    if pid is None:
+        return False
+    return pid_is_alive(pid)
+
+
+def signal_program(program_name, sig=signal.SIGTERM):
+    """
+    Sends a signal to the process listed in <program_name>.pid
+
+    @param program_name the name of the program
+    @param sig signal to send
+    """
+    pid = get_pid_from_file(program_name)
+    if pid:
+        signal_pid(pid, sig)
+
+
+def get_relative_path(path, reference):
+    """Given 2 absolute paths "path" and "reference", compute the path of
+    "path" as relative to the directory "reference".
+
+    @param path the absolute path to convert to a relative path
+    @param reference an absolute directory path to which the relative
+        path will be computed
+    """
+    # normalize the paths (remove double slashes, etc)
+    assert(os.path.isabs(path))
+    assert(os.path.isabs(reference))
+
+    path = os.path.normpath(path)
+    reference = os.path.normpath(reference)
+
+    # we could use os.path.split() but it splits from the end
+    path_list = path.split(os.path.sep)[1:]
+    ref_list = reference.split(os.path.sep)[1:]
+
+    # find the longest leading common path
+    for i in xrange(min(len(path_list), len(ref_list))):
+        if path_list[i] != ref_list[i]:
+            # decrement i so when exiting this loop either by no match or by
+            # end of range we are one step behind
+            i -= 1
+            break
+    i += 1
+    # drop the common part of the paths, not interested in that anymore
+    del path_list[:i]
+
+    # for each uncommon component in the reference prepend a ".."
+    path_list[:0] = ['..'] * (len(ref_list) - i)
+
+    return os.path.join(*path_list)
+
+
+def sh_escape(command):
+    """
+    Escape special characters from a command so that it can be passed
+    as a double quoted (" ") string in a (ba)sh command.
+
+    Args:
+            command: the command string to escape.
+
+    Returns:
+            The escaped command string. The required englobing double
+            quotes are NOT added and so should be added at some point by
+            the caller.
+
+    See also: http://www.tldp.org/LDP/abs/html/escapingsection.html
+    """
+    command = command.replace("\\", "\\\\")
+    command = command.replace("$", r'\$')
+    command = command.replace('"', r'\"')
+    command = command.replace('`', r'\`')
+    return command
+
+
+def configure(extra=None, configure='./configure'):
+    """
+    Run configure passing in the correct host, build, and target options.
+
+    @param extra: extra command line arguments to pass to configure
+    @param configure: which configure script to use
+    """
+    args = []
+    if 'CHOST' in os.environ:
+        args.append('--host=' + os.environ['CHOST'])
+    if 'CBUILD' in os.environ:
+        args.append('--build=' + os.environ['CBUILD'])
+    if 'CTARGET' in os.environ:
+        args.append('--target=' + os.environ['CTARGET'])
+    if extra:
+        args.append(extra)
+
+    system('%s %s' % (configure, ' '.join(args)))
+
+
+def make(extra='', make='make', timeout=None, ignore_status=False):
+    """
+    Run make, adding MAKEOPTS to the list of options.
+
+    @param extra: extra command line arguments to pass to make.
+    """
+    cmd = '%s %s %s' % (make, os.environ.get('MAKEOPTS', ''), extra)
+    return system(cmd, timeout=timeout, ignore_status=ignore_status)
+
+
+def compare_versions(ver1, ver2):
+    """Version number comparison between ver1 and ver2 strings.
+
+    >>> compare_tuple("1", "2")
+    -1
+    >>> compare_tuple("foo-1.1", "foo-1.2")
+    -1
+    >>> compare_tuple("1.2", "1.2a")
+    -1
+    >>> compare_tuple("1.2b", "1.2a")
+    1
+    >>> compare_tuple("1.3.5.3a", "1.3.5.3b")
+    -1
+
+    Args:
+        ver1: version string
+        ver2: version string
+
+    Returns:
+        int:  1 if ver1 >  ver2
+              0 if ver1 == ver2
+             -1 if ver1 <  ver2
+    """
+    ax = re.split('[.-]', ver1)
+    ay = re.split('[.-]', ver2)
+    while len(ax) > 0 and len(ay) > 0:
+        cx = ax.pop(0)
+        cy = ay.pop(0)
+        maxlen = max(len(cx), len(cy))
+        c = cmp(cx.zfill(maxlen), cy.zfill(maxlen))
+        if c != 0:
+            return c
+    return cmp(len(ax), len(ay))
+
+
+def args_to_dict(args):
+    """Convert autoserv extra arguments in the form of key=val or key:val to a
+    dictionary.  Each argument key is converted to lowercase dictionary key.
+
+    Args:
+        args - list of autoserv extra arguments.
+
+    Returns:
+        dictionary
+    """
+    arg_re = re.compile(r'(\w+)[:=](.*)$')
+    dict = {}
+    for arg in args:
+        match = arg_re.match(arg)
+        if match:
+            dict[match.group(1).lower()] = match.group(2)
+        else:
+            logging.warning("args_to_dict: argument '%s' doesn't match "
+                            "'%s' pattern. Ignored." % (arg, arg_re.pattern))
+    return dict
+
+
+def get_unused_port():
+    """
+    Finds a semi-random available port. A race condition is still
+    possible after the port number is returned, if another process
+    happens to bind it.
+
+    Returns:
+        A port number that is unused on both TCP and UDP.
+    """
+
+    def try_bind(port, socket_type, socket_proto):
+        s = socket.socket(socket.AF_INET, socket_type, socket_proto)
+        try:
+            try:
+                s.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
+                s.bind(('', port))
+                return s.getsockname()[1]
+            except socket.error:
+                return None
+        finally:
+            s.close()
+
+    # On the 2.6 kernel, calling try_bind() on UDP socket returns the
+    # same port over and over. So always try TCP first.
+    while True:
+        # Ask the OS for an unused port.
+        port = try_bind(0, socket.SOCK_STREAM, socket.IPPROTO_TCP)
+        # Check if this port is unused on the other protocol.
+        if port and try_bind(port, socket.SOCK_DGRAM, socket.IPPROTO_UDP):
+            return port