Beispiel #1
0
    def login(self, nic_index=0, timeout=LOGIN_TIMEOUT):
        """
        Log into the guest via SSH/Telnet/Netcat.
        If timeout expires while waiting for output from the guest (e.g. a
        password prompt or a shell prompt) -- fail.

        @param nic_index: The index of the NIC to connect to.
        @param timeout: Time (seconds) before giving up logging into the
                guest.
        @return: A ShellSession object.
        """
        error.context("logging into '%s'" % self.name)
        username = self.params.get("username", "")
        password = self.params.get("password", "")
        prompt = self.params.get("shell_prompt", "[\#\$]")
        linesep = eval("'%s'" % self.params.get("shell_linesep", r"\n"))
        client = self.params.get("shell_client")
        address = self.get_address(nic_index)
        port = self.get_port(int(self.params.get("shell_port")))
        log_filename = ("session-%s-%s.log" %
                        (self.name, virt_utils.generate_random_string(4)))
        session = virt_remote.remote_login(client, address, port, username,
                                           password, prompt, linesep,
                                           log_filename, timeout)
        session.set_status_test_command(self.params.get("status_test_command",
                                                        ""))
        return session
Beispiel #2
0
    def __init__(self,
                 test,
                 params,
                 image_name,
                 blkdebug_cfg="",
                 prompt=r"qemu-io>\s*$",
                 log_filename=None,
                 io_options=""):
        self.type = ""
        if log_filename:
            log_filename += "-" + virt_utils.generate_random_string(4)
            self.output_func = virt_utils.log_line
            self.output_params = (log_filename, )
        else:
            self.output_func = None
            self.output_params = ()
        self.output_prefix = ""
        self.prompt = prompt
        self.blkdebug_cfg = blkdebug_cfg

        self.qemu_io_cmd = virt_utils.get_path(
            test.bindir, params.get("qemu_io_binary", "qemu-io"))
        self.io_options = io_options
        self.run_command = False
        self.image_name = image_name
        self.blkdebug_cfg = blkdebug_cfg
Beispiel #3
0
    def __init__(self,
                 test,
                 params,
                 image_name,
                 blkdebug_cfg="",
                 prompt=r"qemu-io>\s*$",
                 log_filename=None,
                 io_options=""):
        self.type = ""
        if log_filename:
            log_filename += "-" + virt_utils.generate_random_string(4)
            self.output_func = virt_utils.log_line
            self.output_params = (log_filename, )
        else:
            self.output_func = None
            self.output_params = ()
        self.output_prefix = ""
        self.prompt = prompt
        self.blkdebug_cfg = blkdebug_cfg

        self.qemu_io_cmd = virt_utils.get_path(
            test.bindir, params.get("qemu_io_binary", "qemu-io"))
        self.io_options = io_options
        self.run_command = False
        self.image_name = image_name
        self.blkdebug_cfg = blkdebug_cfg
Beispiel #4
0
    def login(self, nic_index=0, timeout=LOGIN_TIMEOUT):
        """
        Log into the guest via SSH/Telnet/Netcat.
        If timeout expires while waiting for output from the guest (e.g. a
        password prompt or a shell prompt) -- fail.

        @param nic_index: The index of the NIC to connect to.
        @param timeout: Time (seconds) before giving up logging into the
                guest.
        @return: A ShellSession object.
        """
        error.context("logging into '%s'" % self.name)
        username = self.params.get("username", "")
        password = self.params.get("password", "")
        prompt = self.params.get("shell_prompt", "[\#\$]")
        linesep = eval("'%s'" % self.params.get("shell_linesep", r"\n"))
        client = self.params.get("shell_client")
        address = self.get_address(nic_index)
        port = self.get_port(int(self.params.get("shell_port")))
        log_filename = ("session-%s-%s.log" %
                        (self.name, virt_utils.generate_random_string(4)))
        session = virt_utils.remote_login(client, address, port, username,
                                          password, prompt, linesep,
                                          log_filename, timeout)
        session.set_status_test_command(
            self.params.get("status_test_command", ""))
        return session
Beispiel #5
0
    def copy_files_from(self,
                        guest_path,
                        host_path,
                        nic_index=0,
                        verbose=False,
                        timeout=COPY_FILES_TIMEOUT):
        """
        Transfer files from the guest.

        @param host_path: Guest path
        @param guest_path: Host path
        @param nic_index: The index of the NIC to connect to.
        @param verbose: If True, log some stats using logging.debug (RSS only)
        @param timeout: Time (seconds) before giving up on doing the remote
                copy.
        """
        error.context("receiving file(s) from '%s'" % self.name)
        username = self.params.get("username", "")
        password = self.params.get("password", "")
        client = self.params.get("file_transfer_client")
        address = self.get_address(nic_index)
        port = self.get_port(int(self.params.get("file_transfer_port")))
        log_filename = (
            "transfer-%s-from-%s-%s.log" %
            (self.name, address, virt_utils.generate_random_string(4)))
        virt_utils.copy_files_from(address, client, username, password, port,
                                   guest_path, host_path, log_filename,
                                   verbose, timeout)
Beispiel #6
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    def copy_files_from(self, guest_path, host_path, nic_index=0, limit="",
                        verbose=False, timeout=COPY_FILES_TIMEOUT):
        """
        Transfer files from the guest.

        @param host_path: Guest path
        @param guest_path: Host path
        @param nic_index: The index of the NIC to connect to.
        @param limit: Speed limit of file transfer.
        @param verbose: If True, log some stats using logging.debug (RSS only)
        @param timeout: Time (seconds) before giving up on doing the remote
                copy.
        """
        error.context("receiving file(s) from '%s'" % self.name)
        username = self.params.get("username", "")
        password = self.params.get("password", "")
        client = self.params.get("file_transfer_client")
        address = self.get_address(nic_index)
        port = self.get_port(int(self.params.get("file_transfer_port")))
        log_filename = ("transfer-%s-from-%s-%s.log" %
                        (self.name, address,
                        virt_utils.generate_random_string(4)))
        virt_remote.copy_files_from(address, client, username, password, port,
                                    guest_path, host_path, limit, log_filename,
                                    verbose, timeout)
Beispiel #7
0
 def _generate_unique_id(self):
     """
     Generate a unique identifier for this VM
     """
     while True:
         self.instance = time.strftime("%Y%m%d-%H%M%S-") + virt_utils.generate_random_string(8)
         if not glob.glob("/tmp/*%s" % self.instance):
             break
def _take_screendumps(test, params, env):
    global _screendump_thread_termination_event
    temp_dir = test.debugdir
    if params.get("screendump_temp_dir"):
        temp_dir = virt_utils.get_path(test.bindir,
                                      params.get("screendump_temp_dir"))
        try:
            os.makedirs(temp_dir)
        except OSError:
            pass
    temp_filename = os.path.join(temp_dir, "scrdump-%s.ppm" %
                                 virt_utils.generate_random_string(6))
    delay = float(params.get("screendump_delay", 5))
    quality = int(params.get("screendump_quality", 30))

    cache = {}

    while True:
        for vm in env.get_all_vms():
            if not vm.is_alive():
                continue
            try:
                vm.monitor.screendump(filename=temp_filename, debug=False)
            except kvm_monitor.MonitorError, e:
                logging.warn(e)
                continue
            except AttributeError, e:
                continue
            if not os.path.exists(temp_filename):
                logging.warn("VM '%s' failed to produce a screendump", vm.name)
                continue
            if not ppm_utils.image_verify_ppm_file(temp_filename):
                logging.warn("VM '%s' produced an invalid screendump", vm.name)
                os.unlink(temp_filename)
                continue
            screendump_dir = os.path.join(test.debugdir,
                                          "screendumps_%s" % vm.name)
            try:
                os.makedirs(screendump_dir)
            except OSError:
                pass
            screendump_filename = os.path.join(screendump_dir,
                    "%s_%s.jpg" % (vm.name,
                                   time.strftime("%Y-%m-%d_%H-%M-%S")))
            hash = utils.hash_file(temp_filename)
            if hash in cache:
                try:
                    os.link(cache[hash], screendump_filename)
                except OSError:
                    pass
            else:
                try:
                    image = PIL.Image.open(temp_filename)
                    image.save(screendump_filename, format="JPEG", quality=quality)
                    cache[hash] = screendump_filename
                except NameError:
                    pass
            os.unlink(temp_filename)
Beispiel #9
0
    def cmd(self, cmd, args=None, timeout=CMD_TIMEOUT, debug=True, fd=None):
        """
        Send a QMP monitor command and return the response.

        Note: an id is automatically assigned to the command and the response
        is checked for the presence of the same id.

        @param cmd: Command to send
        @param args: A dict containing command arguments, or None
        @param timeout: Time duration to wait for response
        @param debug: Whether to print the commands being sent and responses
        @param fd: file object or file descriptor to pass

        @return: The response received

        @raise MonitorLockError: Raised if the lock cannot be acquired
        @raise MonitorSocketError: Raised if a socket error occurs
        @raise MonitorProtocolError: Raised if no response is received
        @raise QMPCmdError: Raised if the response is an error message
                            (the exception's args are (cmd, args, data)
                             where data is the error data)
        """
        self._log_command(cmd, debug)
        if not self._acquire_lock():
            raise MonitorLockError("Could not acquire exclusive lock to send "
                                   "QMP command '%s'" % cmd)

        try:
            # Read any data that might be available
            self._read_objects()
            # Send command
            id = virt_utils.generate_random_string(8)
            cmdobj = self._build_cmd(cmd, args, id)
            if fd is not None:
                if self._passfd is None:
                    self._passfd = virt_passfd_setup.import_passfd()
                # If command includes a file descriptor, use passfd module
                self._passfd.sendfd(self._socket, fd,
                                    json.dumps(cmdobj) + "\n")
            else:
                self._send(json.dumps(cmdobj) + "\n")
            # Read response
            r = self._get_response(id, timeout)
            if r is None:
                raise MonitorProtocolError("Received no response to QMP "
                                           "command '%s', or received a "
                                           "response with an incorrect id" %
                                           cmd)
            if "return" in r:
                ret = r["return"]
                if ret:
                    self._log_response(cmd, ret, debug)
                return ret
            if "error" in r:
                raise QMPCmdError(cmd, args, r["error"])

        finally:
            self._lock.release()
Beispiel #10
0
 def _generate_unique_id(self):
     """
     Generate a unique identifier for this VM
     """
     while True:
         self.instance = (time.strftime("%Y%m%d-%H%M%S-") +
                          virt_utils.generate_random_string(4))
         if not glob.glob("/tmp/*%s" % self.instance):
             break
Beispiel #11
0
 def get_backup_name(filename, backup_dir, good):
     if not os.path.isdir(backup_dir):
         os.makedirs(backup_dir)
     basename = os.path.basename(filename)
     if good:
         backup_filename = "%s.backup" % basename
     else:
         backup_filename = "%s.bad.%s" % (basename, virt_utils.generate_random_string(4))
     return os.path.join(backup_dir, backup_filename)
Beispiel #12
0
    def cmd(self, cmd, args=None, timeout=CMD_TIMEOUT, debug=True, fd=None):
        """
        Send a QMP monitor command and return the response.

        Note: an id is automatically assigned to the command and the response
        is checked for the presence of the same id.

        @param cmd: Command to send
        @param args: A dict containing command arguments, or None
        @param timeout: Time duration to wait for response
        @param debug: Whether to print the commands being sent and responses
        @param fd: file object or file descriptor to pass

        @return: The response received

        @raise MonitorLockError: Raised if the lock cannot be acquired
        @raise MonitorSocketError: Raised if a socket error occurs
        @raise MonitorProtocolError: Raised if no response is received
        @raise QMPCmdError: Raised if the response is an error message
                            (the exception's args are (cmd, args, data)
                             where data is the error data)
        """
        self._log_command(cmd, debug)
        if not self._acquire_lock():
            raise MonitorLockError("Could not acquire exclusive lock to send "
                                   "QMP command '%s'" % cmd)

        try:
            # Read any data that might be available
            self._read_objects()
            # Send command
            id = virt_utils.generate_random_string(8)
            cmdobj = self._build_cmd(cmd, args, id)
            if fd is not None:
                if self._passfd is None:
                    self._passfd = virt_passfd_setup.import_passfd()
                # If command includes a file descriptor, use passfd module
                self._passfd.sendfd(self._socket, fd, json.dumps(cmdobj) + "\n")
            else:
                self._send(json.dumps(cmdobj) + "\n")
            # Read response
            r = self._get_response(id, timeout)
            if r is None:
                raise MonitorProtocolError("Received no response to QMP "
                                           "command '%s', or received a "
                                           "response with an incorrect id"
                                           % cmd)
            if "return" in r:
                ret = r["return"]
                if ret:
                    self._log_response(cmd, ret, debug)
                return ret
            if "error" in r:
                raise QMPCmdError(cmd, args, r["error"])

        finally:
            self._lock.release()
Beispiel #13
0
 def get_backup_name(filename, backup_dir, good):
     if not os.path.isdir(backup_dir):
         os.makedirs(backup_dir)
     basename = os.path.basename(filename)
     if good:
         backup_filename = "%s.backup" % basename
     else:
         backup_filename = (
             "%s.bad.%s" % (basename, virt_utils.generate_random_string(4)))
     return os.path.join(backup_dir, backup_filename)
Beispiel #14
0
    def cmd(self, cmd, args=None, timeout=20, debug=True):
        """
        Send a QMP monitor command and return the response.

        Note: an id is automatically assigned to the command and the response
        is checked for the presence of the same id.

        @param cmd: Command to send
        @param args: A dict containing command arguments, or None
        @param timeout: Time duration to wait for response
        @return: The response received
        @raise MonitorLockError: Raised if the lock cannot be acquired
        @raise MonitorSocketError: Raised if a socket error occurs
        @raise MonitorProtocolError: Raised if no response is received
        @raise QMPCmdError: Raised if the response is an error message
                (the exception's args are (cmd, args, data) where data is the
                error data)
        """
        if debug:
            logging.debug("(monitor %s) Sending command '%s'",
                          self.name, cmd)
        if not self._acquire_lock(20):
            raise MonitorLockError("Could not acquire exclusive lock to send "
                                   "QMP command '%s'" % cmd)

        try:
            # Read any data that might be available
            self._read_objects()
            # Send command
            id = virt_utils.generate_random_string(8)
            self._send(json.dumps(self._build_cmd(cmd, args, id)) + "\n")
            # Read response
            r = self._get_response(id, timeout)
            if r is None:
                raise MonitorProtocolError("Received no response to QMP "
                                           "command '%s', or received a "
                                           "response with an incorrect id"
                                           % cmd)
            if "return" in r:
                if debug and r["return"]:
                    logging.debug("(monitor %s) "
                                  "Response to '%s'", self.name, cmd)
                    o = str(r["return"])
                    for l in o.splitlines():
                        logging.debug("(monitor %s)    %s", self.name, l)
                return r["return"]
            if "error" in r:
                raise QMPCmdError(cmd, args, r["error"])

        finally:
            self._lock.release()
Beispiel #15
0
    def cmd(self, cmd, args=None, timeout=20, debug=True):
        """
        Send a QMP monitor command and return the response.

        Note: an id is automatically assigned to the command and the response
        is checked for the presence of the same id.

        @param cmd: Command to send
        @param args: A dict containing command arguments, or None
        @param timeout: Time duration to wait for response
        @return: The response received
        @raise MonitorLockError: Raised if the lock cannot be acquired
        @raise MonitorSocketError: Raised if a socket error occurs
        @raise MonitorProtocolError: Raised if no response is received
        @raise QMPCmdError: Raised if the response is an error message
                (the exception's args are (cmd, args, data) where data is the
                error data)
        """
        if debug:
            logging.debug("(monitor %s) Sending command '%s'",
                          self.name, cmd)
        if not self._acquire_lock(20):
            raise MonitorLockError("Could not acquire exclusive lock to send "
                                   "QMP command '%s'" % cmd)

        try:
            # Read any data that might be available
            self._read_objects()
            # Send command
            id = virt_utils.generate_random_string(8)
            self._send(json.dumps(self._build_cmd(cmd, args, id)) + "\n")
            # Read response
            r = self._get_response(id, timeout)
            if r is None:
                raise MonitorProtocolError("Received no response to QMP "
                                           "command '%s', or received a "
                                           "response with an incorrect id"
                                           % cmd)
            if "return" in r:
                if debug and r["return"]:
                    logging.debug("(monitor %s) "
                                  "Response to '%s'", self.name, cmd)
                    o = str(r["return"])
                    for l in o.splitlines():
                        logging.debug("(monitor %s)    %s", self.name, l)
                return r["return"]
            if "error" in r:
                raise QMPCmdError(cmd, args, r["error"])

        finally:
            self._lock.release()
Beispiel #16
0
    def copy_files_to(self, host_path, guest_path, nic_index=0, verbose=False,
                      timeout=600):
        """
        Transfer files to the remote host(guest).

        @param host_path: Host path
        @param guest_path: Guest path
        @param nic_index: The index of the NIC to connect to.
        @param verbose: If True, log some stats using logging.debug (RSS only)
        @param timeout: Time (seconds) before giving up on doing the remote
                copy.
        """
        error.context("sending file(s) to '%s'" % self.name)
        username = self.params.get("username", "")
        password = self.params.get("password", "")
        client = self.params.get("file_transfer_client")
        address = self.get_address(nic_index)
        port = self.get_port(int(self.params.get("file_transfer_port")))
        log_filename = ("transfer-%s-to-%s-%s.log" %
                        (self.name, address,
                        virt_utils.generate_random_string(4)))
        virt_utils.copy_files_to(address, client, username, password, port,
                                host_path, guest_path, log_filename, verbose,
                                timeout)
def run_file_transfer(test, params, env):
    """
    Transfer a file back and forth between host and guest.

    1) Boot up a VM.
    2) Create a large file by dd on host.
    3) Copy this file from host to guest.
    4) Copy this file from guest to host.
    5) Check if file transfers ended good.

    @param test: KVM test object.
    @param params: Dictionary with the test parameters.
    @param env: Dictionary with test environment.
    """
    vm = env.get_vm(params["main_vm"])
    vm.verify_alive()
    login_timeout = int(params.get("login_timeout", 360))

    session = vm.wait_for_login(timeout=login_timeout)

    dir_name = test.tmpdir
    transfer_timeout = int(params.get("transfer_timeout"))
    transfer_type = params.get("transfer_type")
    tmp_dir = params.get("tmp_dir", "/tmp/")
    clean_cmd = params.get("clean_cmd", "rm -f")
    filesize = int(params.get("filesize", 4000))
    count = int(filesize / 10)
    if count == 0:
        count = 1

    host_path = os.path.join(dir_name,
                             "tmp-%s" % virt_utils.generate_random_string(8))
    host_path2 = host_path + ".2"
    cmd = "dd if=/dev/zero of=%s bs=10M count=%d" % (host_path, count)
    guest_path = (tmp_dir +
                  "file_transfer-%s" % virt_utils.generate_random_string(8))

    try:
        logging.info("Creating %dMB file on host", filesize)
        utils.run(cmd)

        if transfer_type == "remote":
            logging.info("Transfering file host -> guest, timeout: %ss",
                         transfer_timeout)
            t_begin = time.time()
            vm.copy_files_to(host_path, guest_path, timeout=transfer_timeout)
            t_end = time.time()
            throughput = filesize / (t_end - t_begin)
            logging.info(
                "File transfer host -> guest succeed, "
                "estimated throughput: %.2fMB/s", throughput)

            logging.info("Transfering file guest -> host, timeout: %ss",
                         transfer_timeout)
            t_begin = time.time()
            vm.copy_files_from(guest_path,
                               host_path2,
                               timeout=transfer_timeout)
            t_end = time.time()
            throughput = filesize / (t_end - t_begin)
            logging.info(
                "File transfer guest -> host succeed, "
                "estimated throughput: %.2fMB/s", throughput)
        else:
            raise error.TestError("Unknown test file transfer mode %s" %
                                  transfer_type)

        if (utils.hash_file(host_path, method="md5") != utils.hash_file(
                host_path2, method="md5")):
            raise error.TestFail("File changed after transfer host -> guest "
                                 "and guest -> host")

    finally:
        logging.info('Cleaning temp file on guest')
        session.cmd("%s %s" % (clean_cmd, guest_path))
        logging.info('Cleaning temp files on host')
        try:
            os.remove(host_path)
            os.remove(host_path2)
        except OSError:
            pass
        session.close()
def _take_screendumps(test, params, env):
    global _screendump_thread_termination_event
    temp_dir = test.debugdir
    if params.get("screendump_temp_dir"):
        temp_dir = virt_utils.get_path(test.bindir,
                                       params.get("screendump_temp_dir"))
        try:
            os.makedirs(temp_dir)
        except OSError:
            pass
    temp_filename = os.path.join(
        temp_dir, "scrdump-%s.ppm" % virt_utils.generate_random_string(6))
    delay = float(params.get("screendump_delay", 5))
    quality = int(params.get("screendump_quality", 30))

    cache = {}
    counter = {}

    while True:
        for vm in env.get_all_vms():
            if vm not in counter.keys():
                counter[vm] = 0
            if not vm.is_alive():
                continue
            try:
                vm.screendump(filename=temp_filename, debug=False)
            except kvm_monitor.MonitorError, e:
                logging.warn(e)
                continue
            except AttributeError, e:
                continue
            if not os.path.exists(temp_filename):
                logging.warn("VM '%s' failed to produce a screendump", vm.name)
                continue
            if not ppm_utils.image_verify_ppm_file(temp_filename):
                logging.warn("VM '%s' produced an invalid screendump", vm.name)
                os.unlink(temp_filename)
                continue
            screendump_dir = os.path.join(test.debugdir,
                                          "screendumps_%s" % vm.name)
            try:
                os.makedirs(screendump_dir)
            except OSError:
                pass
            counter[vm] += 1
            screendump_filename = os.path.join(screendump_dir,
                                               "%04d.jpg" % counter[vm])
            hash = utils.hash_file(temp_filename)
            if hash in cache:
                try:
                    os.link(cache[hash], screendump_filename)
                except OSError:
                    pass
            else:
                try:
                    try:
                        image = PIL.Image.open(temp_filename)
                        image.save(screendump_filename,
                                   format="JPEG",
                                   quality=quality)
                        cache[hash] = screendump_filename
                    except IOError, error_detail:
                        logging.warning(
                            "VM '%s' failed to produce a "
                            "screendump: %s", vm.name, error_detail)
                        # Decrement the counter as we in fact failed to
                        # produce a converted screendump
                        counter[vm] -= 1
                except NameError:
                    pass
            os.unlink(temp_filename)
Beispiel #19
0
    def __init__(self, command=None, id=None, auto_close=False, echo=False, linesep="\n"):
        """
        Initialize the class and run command as a child process.

        @param command: Command to run, or None if accessing an already running
                server.
        @param id: ID of an already running server, if accessing a running
                server, or None if starting a new one.
        @param auto_close: If True, close() the instance automatically when its
                reference count drops to zero (default False).
        @param echo: Boolean indicating whether echo should be initially
                enabled for the pseudo terminal running the subprocess.  This
                parameter has an effect only when starting a new server.
        @param linesep: Line separator to be appended to strings sent to the
                child process by sendline().
        """
        self.id = id or virt_utils.generate_random_string(8)

        # Define filenames for communication with server
        base_dir = "/tmp/kvm_spawn"
        try:
            os.makedirs(base_dir)
        except:
            pass
        (
            self.shell_pid_filename,
            self.status_filename,
            self.output_filename,
            self.inpipe_filename,
            self.lock_server_running_filename,
            self.lock_client_starting_filename,
        ) = _get_filenames(base_dir, self.id)

        # Remember some attributes
        self.auto_close = auto_close
        self.echo = echo
        self.linesep = linesep

        # Make sure the 'readers' and 'close_hooks' attributes exist
        if not hasattr(self, "readers"):
            self.readers = []
        if not hasattr(self, "close_hooks"):
            self.close_hooks = []

        # Define the reader filenames
        self.reader_filenames = dict(
            (reader, _get_reader_filename(base_dir, self.id, reader)) for reader in self.readers
        )

        # Let the server know a client intends to open some pipes;
        # if the executed command terminates quickly, the server will wait for
        # the client to release the lock before exiting
        lock_client_starting = _lock(self.lock_client_starting_filename)

        # Start the server (which runs the command)
        if command:
            sub = subprocess.Popen(
                "%s %s" % (sys.executable, __file__),
                shell=True,
                stdin=subprocess.PIPE,
                stdout=subprocess.PIPE,
                stderr=subprocess.STDOUT,
            )
            # Send parameters to the server
            sub.stdin.write("%s\n" % self.id)
            sub.stdin.write("%s\n" % echo)
            sub.stdin.write("%s\n" % ",".join(self.readers))
            sub.stdin.write("%s\n" % command)
            # Wait for the server to complete its initialization
            while not "Server %s ready" % self.id in sub.stdout.readline():
                pass

        # Open the reading pipes
        self.reader_fds = {}
        try:
            assert _locked(self.lock_server_running_filename)
            for reader, filename in self.reader_filenames.items():
                self.reader_fds[reader] = os.open(filename, os.O_RDONLY)
        except:
            pass

        # Allow the server to continue
        _unlock(lock_client_starting)
Beispiel #20
0
def _take_screendumps(test, params, env):
    global _screendump_thread_termination_event
    temp_dir = test.debugdir
    if params.get("screendump_temp_dir"):
        temp_dir = virt_utils.get_path(test.bindir,
                                       params.get("screendump_temp_dir"))
        try:
            os.makedirs(temp_dir)
        except OSError:
            pass
    temp_filename = os.path.join(
        temp_dir, "scrdump-%s.ppm" % virt_utils.generate_random_string(6))
    delay = float(params.get("screendump_delay", 5))
    quality = int(params.get("screendump_quality", 30))

    cache = {}

    while True:
        for vm in env.get_all_vms():
            if not vm.is_alive():
                continue
            try:
                vm.monitor.screendump(filename=temp_filename, debug=False)
            except kvm_monitor.MonitorError, e:
                logging.warning(e)
                continue
            except AttributeError, e:
                continue
            if not os.path.exists(temp_filename):
                logging.warning("VM '%s' failed to produce a screendump",
                                vm.name)
                continue
            if not ppm_utils.image_verify_ppm_file(temp_filename):
                logging.warning("VM '%s' produced an invalid screendump",
                                vm.name)
                os.unlink(temp_filename)
                continue
            screendump_dir = os.path.join(test.debugdir,
                                          "screendumps_%s" % vm.name)
            try:
                os.makedirs(screendump_dir)
            except OSError:
                pass
            screendump_filename = os.path.join(
                screendump_dir,
                "%s_%s.jpg" % (vm.name, time.strftime("%Y-%m-%d_%H-%M-%S")))
            hash = utils.hash_file(temp_filename)
            if hash in cache:
                try:
                    os.link(cache[hash], screendump_filename)
                except OSError:
                    pass
            else:
                try:
                    image = PIL.Image.open(temp_filename)
                    image.save(screendump_filename,
                               format="JPEG",
                               quality=quality)
                    cache[hash] = screendump_filename
                except NameError:
                    pass
            os.unlink(temp_filename)
Beispiel #21
0
def _take_screendumps(test, params, env):
    global _screendump_thread_termination_event
    temp_dir = test.debugdir
    if params.get("screendump_temp_dir"):
        temp_dir = virt_utils.get_path(test.bindir,
                                      params.get("screendump_temp_dir"))
        try:
            os.makedirs(temp_dir)
        except OSError:
            pass
    temp_filename = os.path.join(temp_dir, "scrdump-%s.ppm" %
                                 virt_utils.generate_random_string(6))
    delay = float(params.get("screendump_delay", 5))
    quality = int(params.get("screendump_quality", 30))

    cache = {}
    counter = {}

    while True:
        for vm in env.get_all_vms():
            if vm not in counter.keys():
                counter[vm] = 0
            if not vm.is_alive():
                continue
            try:
                vm.screendump(filename=temp_filename, debug=False)
            except kvm_monitor.MonitorError, e:
                logging.warn(e)
                continue
            except AttributeError, e:
                logging.warn(e)
                continue
            if not os.path.exists(temp_filename):
                logging.warn("VM '%s' failed to produce a screendump", vm.name)
                continue
            if not ppm_utils.image_verify_ppm_file(temp_filename):
                logging.warn("VM '%s' produced an invalid screendump", vm.name)
                os.unlink(temp_filename)
                continue
            screendump_dir = os.path.join(test.debugdir,
                                          "screendumps_%s" % vm.name)
            try:
                os.makedirs(screendump_dir)
            except OSError:
                pass
            counter[vm] += 1
            screendump_filename = os.path.join(screendump_dir, "%04d.jpg" %
                                               counter[vm])
            hash = utils.hash_file(temp_filename)
            if hash in cache:
                try:
                    os.link(cache[hash], screendump_filename)
                except OSError:
                    pass
            else:
                try:
                    try:
                        image = PIL.Image.open(temp_filename)
                        image.save(screendump_filename, format="JPEG",
                                   quality=quality)
                        cache[hash] = screendump_filename
                    except IOError, error_detail:
                        logging.warning("VM '%s' failed to produce a "
                                        "screendump: %s", vm.name, error_detail)
                        # Decrement the counter as we in fact failed to
                        # produce a converted screendump
                        counter[vm] -= 1
                except NameError:
                    pass
            os.unlink(temp_filename)
Beispiel #22
0
def run_file_transfer(test, params, env):
    """
    Transfer a file back and forth between host and guest.

    1) Boot up a VM.
    2) Create a large file by dd on host.
    3) Copy this file from host to guest.
    4) Copy this file from guest to host.
    5) Check if file transfers ended good.

    @param test: KVM test object.
    @param params: Dictionary with the test parameters.
    @param env: Dictionary with test environment.
    """
    vm = env.get_vm(params["main_vm"])
    vm.verify_alive()
    login_timeout = int(params.get("login_timeout", 360))

    session = vm.wait_for_login(timeout=login_timeout)

    dir_name = test.tmpdir
    transfer_timeout = int(params.get("transfer_timeout"))
    transfer_type = params.get("transfer_type")
    tmp_dir = params.get("tmp_dir", "/tmp/")
    clean_cmd = params.get("clean_cmd", "rm -f")
    filesize = int(params.get("filesize", 4000))
    count = int(filesize / 10)
    if count == 0:
        count = 1

    host_path = os.path.join(dir_name, "tmp-%s" %
                             virt_utils.generate_random_string(8))
    host_path2 = host_path + ".2"
    cmd = "dd if=/dev/zero of=%s bs=10M count=%d" % (host_path, count)
    guest_path = (tmp_dir + "file_transfer-%s" %
                  virt_utils.generate_random_string(8))

    try:
        logging.info("Creating %dMB file on host", filesize)
        utils.run(cmd)

        if transfer_type == "remote":
            logging.info("Transfering file host -> guest, timeout: %ss",
                         transfer_timeout)
            t_begin = time.time()
            vm.copy_files_to(host_path, guest_path, timeout=transfer_timeout)
            t_end = time.time()
            throughput = filesize / (t_end - t_begin)
            logging.info("File transfer host -> guest succeed, "
                         "estimated throughput: %.2fMB/s", throughput)

            logging.info("Transfering file guest -> host, timeout: %ss",
                         transfer_timeout)
            t_begin = time.time()
            vm.copy_files_from(guest_path, host_path2, timeout=transfer_timeout)
            t_end = time.time()
            throughput = filesize / (t_end - t_begin)
            logging.info("File transfer guest -> host succeed, "
                         "estimated throughput: %.2fMB/s", throughput)
        else:
            raise error.TestError("Unknown test file transfer mode %s" %
                                  transfer_type)

        if (utils.hash_file(host_path, method="md5") !=
            utils.hash_file(host_path2, method="md5")):
            raise error.TestFail("File changed after transfer host -> guest "
                                 "and guest -> host")

    finally:
        logging.info('Cleaning temp file on guest')
        session.cmd("%s %s" % (clean_cmd, guest_path))
        logging.info('Cleaning temp files on host')
        try:
            os.remove(host_path)
            os.remove(host_path2)
        except OSError:
            pass
        session.close()
Beispiel #23
0
    def __init__(self, command=None, id=None, auto_close=False, echo=False,
                 linesep="\n"):
        """
        Initialize the class and run command as a child process.

        @param command: Command to run, or None if accessing an already running
                server.
        @param id: ID of an already running server, if accessing a running
                server, or None if starting a new one.
        @param auto_close: If True, close() the instance automatically when its
                reference count drops to zero (default False).
        @param echo: Boolean indicating whether echo should be initially
                enabled for the pseudo terminal running the subprocess.  This
                parameter has an effect only when starting a new server.
        @param linesep: Line separator to be appended to strings sent to the
                child process by sendline().
        """
        self.id = id or virt_utils.generate_random_string(8)

        # Define filenames for communication with server
        base_dir = "/tmp/kvm_spawn"
        try:
            os.makedirs(base_dir)
        except Exception:
            pass
        (self.shell_pid_filename,
         self.status_filename,
         self.output_filename,
         self.inpipe_filename,
         self.lock_server_running_filename,
         self.lock_client_starting_filename) = _get_filenames(base_dir,
                                                              self.id)

        # Remember some attributes
        self.auto_close = auto_close
        self.echo = echo
        self.linesep = linesep

        # Make sure the 'readers' and 'close_hooks' attributes exist
        if not hasattr(self, "readers"):
            self.readers = []
        if not hasattr(self, "close_hooks"):
            self.close_hooks = []

        # Define the reader filenames
        self.reader_filenames = dict(
            (reader, _get_reader_filename(base_dir, self.id, reader))
            for reader in self.readers)

        # Let the server know a client intends to open some pipes;
        # if the executed command terminates quickly, the server will wait for
        # the client to release the lock before exiting
        lock_client_starting = _lock(self.lock_client_starting_filename)

        # Start the server (which runs the command)
        if command:
            sub = subprocess.Popen("%s %s" % (sys.executable, __file__),
                                   shell=True,
                                   stdin=subprocess.PIPE,
                                   stdout=subprocess.PIPE,
                                   stderr=subprocess.STDOUT)
            # Send parameters to the server
            sub.stdin.write("%s\n" % self.id)
            sub.stdin.write("%s\n" % echo)
            sub.stdin.write("%s\n" % ",".join(self.readers))
            sub.stdin.write("%s\n" % command)
            # Wait for the server to complete its initialization
            while not "Server %s ready" % self.id in sub.stdout.readline():
                pass

        # Open the reading pipes
        self.reader_fds = {}
        try:
            assert(_locked(self.lock_server_running_filename))
            for reader, filename in self.reader_filenames.items():
                self.reader_fds[reader] = os.open(filename, os.O_RDONLY)
        except Exception:
            pass

        # Allow the server to continue
        _unlock(lock_client_starting)