Exemplo n.º 1
0
    def nc_transfer(src, dst):
        nc_port = kvm_utils.find_free_port(1025, 5334, vm_ip[dst])
        listen_cmd = params.get("listen_cmd")
        send_cmd = params.get("send_cmd")

        #listen in dst
        listen_cmd = listen_cmd % (nc_port, "receive")
        session[dst].sendline(listen_cmd)
        time.sleep(2)
        #send file from src to dst
        send_cmd = send_cmd % (vlan_ip[dst], str(nc_port), "file")
        session[src].cmd(send_cmd, timeout=60)
        try:
            session[dst].read_up_to_prompt(timeout=60)
        except kvm_subprocess.ExpectError:
            raise error.TestFail("Fail to receive file"
                                 " from vm%s to vm%s" % (src + 1, dst + 1))
        #check MD5 message digest of receive file in dst
        output = session[dst].cmd_output("md5sum receive").strip()
        digest_receive = re.findall(r'(\w+)', output)[0]
        if digest_receive == digest_origin[src]:
            logging.info("file succeed received in vm %s", vlan_ip[dst])
        else:
            logging.info("digest_origin is  %s", digest_origin[src])
            logging.info("digest_receive is %s", digest_receive)
            raise error.TestFail("File transfered differ from origin")
        session[dst].cmd_output("rm -f receive")
Exemplo n.º 2
0
    def nc_transfer(src, dst):
        nc_port = kvm_utils.find_free_port(1025, 5334, vm_ip[dst])
        listen_cmd = params.get("listen_cmd")
        send_cmd = params.get("send_cmd")

        #listen in dst
        listen_cmd = listen_cmd % (nc_port, "receive")
        session[dst].sendline(listen_cmd)
        time.sleep(2)
        #send file from src to dst
        send_cmd = send_cmd % (vlan_ip[dst], str(nc_port), "file")
        session[src].cmd(send_cmd, timeout=60)
        try:
            session[dst].read_up_to_prompt(timeout=60)
        except kvm_subprocess.ExpectError:
            raise error.TestFail ("Fail to receive file"
                                    " from vm%s to vm%s" % (src+1, dst+1))
        #check MD5 message digest of receive file in dst
        output = session[dst].cmd_output("md5sum receive").strip()
        digest_receive = re.findall(r'(\w+)', output)[0]
        if digest_receive == digest_origin[src]:
            logging.info("file succeed received in vm %s", vlan_ip[dst])
        else:
            logging.info("digest_origin is  %s", digest_origin[src])
            logging.info("digest_receive is %s", digest_receive)
            raise error.TestFail("File transfered differ from origin")
        session[dst].cmd_output("rm -f receive")
Exemplo n.º 3
0
    def create(self, name=None, params=None, root_dir=None, for_migration=False, timeout=5.0):
        """
        Start the VM by running a qemu command.
        All parameters are optional. The following applies to all parameters
        but for_migration: If a parameter is not supplied, the corresponding
        value stored in the class attributes is used, and if it is supplied,
        it is stored for later use.

        @param name: The name of the object
        @param params: A dict containing VM params
        @param root_dir: Base directory for relative filenames
        @param for_migration: If True, start the VM with the -incoming
        option
        """
        self.destroy()

        if name != None:
            self.name = name
        if params != None:
            self.params = params
        if root_dir != None:
            self.root_dir = root_dir
        name = self.name
        params = self.params
        root_dir = self.root_dir

        # Verify the md5sum of the ISO image
        iso = params.get("cdrom")
        if iso:
            iso = kvm_utils.get_path(root_dir, iso)
            if not os.path.exists(iso):
                logging.error("ISO file not found: %s" % iso)
                return False
            compare = False
            if params.get("md5sum_1m"):
                logging.debug("Comparing expected MD5 sum with MD5 sum of " "first MB of ISO file...")
                actual_md5sum = kvm_utils.md5sum_file(iso, 1048576)
                expected_md5sum = params.get("md5sum_1m")
                compare = True
            elif params.get("md5sum"):
                logging.debug("Comparing expected MD5 sum with MD5 sum of ISO " "file...")
                actual_md5sum = kvm_utils.md5sum_file(iso)
                expected_md5sum = params.get("md5sum")
                compare = True
            if compare:
                if actual_md5sum == expected_md5sum:
                    logging.debug("MD5 sums match")
                else:
                    logging.error("Actual MD5 sum differs from expected one")
                    return False

        # Make sure the following code is not executed by more than one thread
        # at the same time
        lockfile = open("/tmp/kvm-autotest-vm-create.lock", "w+")
        fcntl.lockf(lockfile, fcntl.LOCK_EX)

        try:
            # Handle port redirections
            redir_names = kvm_utils.get_sub_dict_names(params, "redirs")
            host_ports = kvm_utils.find_free_ports(5000, 6000, len(redir_names))
            self.redirs = {}
            for i in range(len(redir_names)):
                redir_params = kvm_utils.get_sub_dict(params, redir_names[i])
                guest_port = int(redir_params.get("guest_port"))
                self.redirs[guest_port] = host_ports[i]

            # Find available VNC port, if needed
            if params.get("display") == "vnc":
                self.vnc_port = kvm_utils.find_free_port(5900, 6000)

            # Find random UUID if specified 'uuid = random' in config file
            if params.get("uuid") == "random":
                f = open("/proc/sys/kernel/random/uuid")
                self.uuid = f.read().strip()
                f.close()

            # Make qemu command
            qemu_command = self.make_qemu_command()

            # Is this VM supposed to accept incoming migrations?
            if for_migration:
                # Find available migration port
                self.migration_port = kvm_utils.find_free_port(5200, 6000)
                # Add -incoming option to the qemu command
                qemu_command += " -incoming tcp:0:%d" % self.migration_port

            logging.debug("Running qemu command:\n%s", qemu_command)
            self.process = kvm_subprocess.run_bg(qemu_command, None, logging.debug, "(qemu) ")

            if not self.process.is_alive():
                logging.error("VM could not be created; " "qemu command failed:\n%s" % qemu_command)
                logging.error("Status: %s" % self.process.get_status())
                logging.error("Output:" + kvm_utils.format_str_for_message(self.process.get_output()))
                self.destroy()
                return False

            if not kvm_utils.wait_for(self.is_alive, timeout, 0, 1):
                logging.error("VM is not alive for some reason; " "qemu command:\n%s" % qemu_command)
                self.destroy()
                return False

            # Get the output so far, to see if we have any problems with
            # hugepage setup.
            output = self.process.get_output()

            if "alloc_mem_area" in output:
                logging.error("Could not allocate hugepage memory; " "qemu command:\n%s" % qemu_command)
                logging.error("Output:" + kvm_utils.format_str_for_message(self.process.get_output()))
                return False

            logging.debug("VM appears to be alive with PID %d", self.process.get_pid())
            return True

        finally:
            fcntl.lockf(lockfile, fcntl.LOCK_UN)
            lockfile.close()
Exemplo n.º 4
0
    def create(self, name=None, params=None, root_dir=None, timeout=5.0,
               migration_mode=None, mac_source=None):
        """
        Start the VM by running a qemu command.
        All parameters are optional. If name, params or root_dir are not
        supplied, the respective values stored as class attributes are used.

        @param name: The name of the object
        @param params: A dict containing VM params
        @param root_dir: Base directory for relative filenames
        @param migration_mode: If supplied, start VM for incoming migration
                using this protocol (either 'tcp', 'unix' or 'exec')
        @param migration_exec_cmd: Command to embed in '-incoming "exec: ..."'
                (e.g. 'gzip -c -d filename') if migration_mode is 'exec'
        @param mac_source: A VM object from which to copy MAC addresses. If not
                specified, new addresses will be generated.
        """
        self.destroy()

        if name is not None:
            self.name = name
        if params is not None:
            self.params = params
        if root_dir is not None:
            self.root_dir = root_dir
        name = self.name
        params = self.params
        root_dir = self.root_dir

        # Verify the md5sum of the ISO image
        iso = params.get("cdrom")
        if iso:
            iso = kvm_utils.get_path(root_dir, iso)
            if not os.path.exists(iso):
                logging.error("ISO file not found: %s" % iso)
                return False
            compare = False
            if params.get("md5sum_1m"):
                logging.debug("Comparing expected MD5 sum with MD5 sum of "
                              "first MB of ISO file...")
                actual_hash = utils.hash_file(iso, 1048576, method="md5")
                expected_hash = params.get("md5sum_1m")
                compare = True
            elif params.get("md5sum"):
                logging.debug("Comparing expected MD5 sum with MD5 sum of ISO "
                              "file...")
                actual_hash = utils.hash_file(iso, method="md5")
                expected_hash = params.get("md5sum")
                compare = True
            elif params.get("sha1sum"):
                logging.debug("Comparing expected SHA1 sum with SHA1 sum of "
                              "ISO file...")
                actual_hash = utils.hash_file(iso, method="sha1")
                expected_hash = params.get("sha1sum")
                compare = True
            if compare:
                if actual_hash == expected_hash:
                    logging.debug("Hashes match")
                else:
                    logging.error("Actual hash differs from expected one")
                    return False

        # Make sure the following code is not executed by more than one thread
        # at the same time
        lockfile = open("/tmp/kvm-autotest-vm-create.lock", "w+")
        fcntl.lockf(lockfile, fcntl.LOCK_EX)

        try:
            # Handle port redirections
            redir_names = kvm_utils.get_sub_dict_names(params, "redirs")
            host_ports = kvm_utils.find_free_ports(5000, 6000, len(redir_names))
            self.redirs = {}
            for i in range(len(redir_names)):
                redir_params = kvm_utils.get_sub_dict(params, redir_names[i])
                guest_port = int(redir_params.get("guest_port"))
                self.redirs[guest_port] = host_ports[i]

            # Generate netdev IDs for all NICs
            self.netdev_id = []
            for nic in kvm_utils.get_sub_dict_names(params, "nics"):
                self.netdev_id.append(kvm_utils.generate_random_id())

            # Find available VNC port, if needed
            if params.get("display") == "vnc":
                self.vnc_port = kvm_utils.find_free_port(5900, 6100)

            # Find random UUID if specified 'uuid = random' in config file
            if params.get("uuid") == "random":
                f = open("/proc/sys/kernel/random/uuid")
                self.uuid = f.read().strip()
                f.close()

            # Generate or copy MAC addresses for all NICs
            num_nics = len(kvm_utils.get_sub_dict_names(params, "nics"))
            for vlan in range(num_nics):
                nic_name = kvm_utils.get_sub_dict_names(params, "nics")[vlan]
                nic_params = kvm_utils.get_sub_dict(params, nic_name)
                if nic_params.get("nic_mac", None):
                    mac = nic_params.get("nic_mac")
                    kvm_utils.set_mac_address(self.instance, vlan, mac)
                else:
                    mac = mac_source and mac_source.get_mac_address(vlan)
                    if mac:
                        kvm_utils.set_mac_address(self.instance, vlan, mac)
                    else:
                        kvm_utils.generate_mac_address(self.instance, vlan)

            # Assign a PCI assignable device
            self.pci_assignable = None
            pa_type = params.get("pci_assignable")
            if pa_type in ["vf", "pf", "mixed"]:
                pa_devices_requested = params.get("devices_requested")

                # Virtual Functions (VF) assignable devices
                if pa_type == "vf":
                    self.pci_assignable = kvm_utils.PciAssignable(
                        type=pa_type,
                        driver=params.get("driver"),
                        driver_option=params.get("driver_option"),
                        devices_requested=pa_devices_requested)
                # Physical NIC (PF) assignable devices
                elif pa_type == "pf":
                    self.pci_assignable = kvm_utils.PciAssignable(
                        type=pa_type,
                        names=params.get("device_names"),
                        devices_requested=pa_devices_requested)
                # Working with both VF and PF
                elif pa_type == "mixed":
                    self.pci_assignable = kvm_utils.PciAssignable(
                        type=pa_type,
                        driver=params.get("driver"),
                        driver_option=params.get("driver_option"),
                        names=params.get("device_names"),
                        devices_requested=pa_devices_requested)

                self.pa_pci_ids = self.pci_assignable.request_devs()

                if self.pa_pci_ids:
                    logging.debug("Successfuly assigned devices: %s",
                                  self.pa_pci_ids)
                else:
                    logging.error("No PCI assignable devices were assigned "
                                  "and 'pci_assignable' is defined to %s "
                                  "on your config file. Aborting VM creation.",
                                  pa_type)
                    return False

            elif pa_type and pa_type != "no":
                logging.warn("Unsupported pci_assignable type: %s", pa_type)

            # Make qemu command
            qemu_command = self.make_qemu_command()

            # Add migration parameters if required
            if migration_mode == "tcp":
                self.migration_port = kvm_utils.find_free_port(5200, 6000)
                qemu_command += " -incoming tcp:0:%d" % self.migration_port
            elif migration_mode == "unix":
                self.migration_file = "/tmp/migration-unix-%s" % self.instance
                qemu_command += " -incoming unix:%s" % self.migration_file
            elif migration_mode == "exec":
                self.migration_port = kvm_utils.find_free_port(5200, 6000)
                qemu_command += (' -incoming "exec:nc -l %s"' %
                                 self.migration_port)

            logging.debug("Running qemu command:\n%s", qemu_command)
            self.process = kvm_subprocess.run_bg(qemu_command, None,
                                                 logging.debug, "(qemu) ")

            # Make sure the process was started successfully
            if not self.process.is_alive():
                logging.error("VM could not be created; "
                              "qemu command failed:\n%s" % qemu_command)
                logging.error("Status: %s" % self.process.get_status())
                logging.error("Output:" + kvm_utils.format_str_for_message(
                    self.process.get_output()))
                self.destroy()
                return False

            # Establish monitor connections
            self.monitors = []
            for monitor_name in kvm_utils.get_sub_dict_names(params,
                                                             "monitors"):
                monitor_params = kvm_utils.get_sub_dict(params, monitor_name)
                # Wait for monitor connection to succeed
                end_time = time.time() + timeout
                while time.time() < end_time:
                    try:
                        if monitor_params.get("monitor_type") == "qmp":
                            # Add a QMP monitor
                            monitor = kvm_monitor.QMPMonitor(
                                monitor_name,
                                self.get_monitor_filename(monitor_name))
                        else:
                            # Add a "human" monitor
                            monitor = kvm_monitor.HumanMonitor(
                                monitor_name,
                                self.get_monitor_filename(monitor_name))
                    except kvm_monitor.MonitorError, e:
                        logging.warn(e)
                    else:
                        if monitor.is_responsive():
                            break
                    time.sleep(1)
                else:
                    logging.error("Could not connect to monitor '%s'" %
                                  monitor_name)
                    self.destroy()
                    return False
                # Add this monitor to the list
                self.monitors += [monitor]

            # Get the output so far, to see if we have any problems with
            # KVM modules or with hugepage setup.
            output = self.process.get_output()

            if re.search("Could not initialize KVM", output, re.IGNORECASE):
                logging.error("Could not initialize KVM; "
                              "qemu command:\n%s" % qemu_command)
                logging.error("Output:" + kvm_utils.format_str_for_message(
                              self.process.get_output()))
                self.destroy()
                return False

            if "alloc_mem_area" in output:
                logging.error("Could not allocate hugepage memory; "
                              "qemu command:\n%s" % qemu_command)
                logging.error("Output:" + kvm_utils.format_str_for_message(
                              self.process.get_output()))
                self.destroy()
                return False

            logging.debug("VM appears to be alive with PID %s", self.get_pid())

            # Establish a session with the serial console -- requires a version
            # of netcat that supports -U
            self.serial_console = kvm_subprocess.ShellSession(
                "nc -U %s" % self.get_serial_console_filename(),
                auto_close=False,
                output_func=kvm_utils.log_line,
                output_params=("serial-%s.log" % name,))

            return True