Esempio n. 1
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def main(argv):

    import utils
    utils.prompt_for_breakpoint_mode()

#    utils.breakpoint ("Entering BootManager::main")
    
    # set to 1 if error occurred
    error= 0
    
    # all output goes through this class so we can save it and post
    # the data back to PlanetLab central
    LOG= log( BM_NODE_LOG )

    # NOTE: assume CWD is BM's source directory, but never fail
    utils.sysexec_noerr("./setup_bash_history_scripts.sh", LOG)

    LOG.LogEntry( "BootManager started at: %s" % \
                  time.strftime("%a, %d %b %Y %H:%M:%S +0000", time.gmtime()) )

    try:
        forceState = None
        if len(argv) == 2:
            fState = argv[1]
            if BootManager.NodeRunStates.has_key(fState):
                forceState = fState
            else:
                LOG.LogEntry("FATAL: cannot force node run state to=%s" % fState)
                error = 1
    except:
        traceback.print_exc(file=LOG.OutputFile)
        traceback.print_exc()
        
    if error:
        LOG.LogEntry( "BootManager finished at: %s" % \
                      time.strftime("%a, %d %b %Y %H:%M:%S +0000", time.gmtime()) )
        LOG.Upload()
        return error

    try:
        bm= BootManager(LOG,forceState)
        if bm.CAN_RUN == 0:
            LOG.LogEntry( "Unable to initialize BootManager." )
        else:
            LOG.LogEntry( "Running version %s of BootManager." % bm.VARS['VERSION'] )
            success= bm.Run()
            if success:
                LOG.LogEntry( "\nDone!" );
            else:
                LOG.LogEntry( "\nError occurred!" );
                error = 1
    except:
        traceback.print_exc(file=LOG.OutputFile)
        traceback.print_exc()

    LOG.LogEntry( "BootManager finished at: %s" % \
                  time.strftime("%a, %d %b %Y %H:%M:%S +0000", time.gmtime()) )
    LOG.Upload()

    return error
def main(argv):

    import utils
    utils.prompt_for_breakpoint_mode()

#    utils.breakpoint("Entering BootManager::main")

    # set to 1 if error occurred
    error = 0

    # all output goes through this class so we can save it and post
    # the data back to PlanetLab central
    LOG = log(BM_NODE_LOG)

    # NOTE: assume CWD is BM's source directory, but never fail
    utils.sysexec_noerr("./setup_bash_history_scripts.sh", LOG)

    LOG.LogEntry("BootManager started at: {}"\
                 .format(time.strftime("%a, %d %b %Y %H:%M:%S +0000", time.gmtime())))

    try:
        forceState = None
        if len(argv) == 2:
            fState = argv[1]
            if BootManager.NodeRunStates.has_key(fState):
                forceState = fState
            else:
                LOG.LogEntry("FATAL: cannot force node run state to={}".format(fState))
                error = 1
    except:
        traceback.print_exc(file=LOG.OutputFile)
        traceback.print_exc()

    if error:
        LOG.LogEntry("BootManager finished at: {}"\
                     .format(time.strftime("%a, %d %b %Y %H:%M:%S +0000", time.gmtime())))
        LOG.Upload()
        return error

    try:
        bm = BootManager(LOG, forceState)
        if bm.CAN_RUN == 0:
            LOG.LogEntry("Unable to initialize BootManager.")
        else:
            LOG.LogEntry("Running version {} of BootManager.".format(bm.VARS['VERSION']))
            success = bm.Run()
            if success:
                LOG.LogEntry("\nDone!");
            else:
                LOG.LogEntry("\nError occurred!");
                error = 1
    except:
        traceback.print_exc(file=LOG.OutputFile)
        traceback.print_exc()

    LOG.LogEntry("BootManager finished at: {}"\
                 .format(time.strftime("%a, %d %b %Y %H:%M:%S +0000", time.gmtime())))
    LOG.Upload()

    return error
def run_ansible(ansible_path, ansible_hash, playbook_name, log):
    try:
        if (ansible_hash):
            hash_arg = '-U {}'.format(ansible_hash)
        else:
            hash_arg = ''
        utils.sysexec_noerr('ansible-pull -i hosts {} {} {}'.format(ansible_path, hash_arg, playbook_name), log )
    except:
        pass
Esempio n. 4
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def bypassRaidIfNeeded(sysimg_path, log):
    try:
        [a, b, c, d] = file("%s/etc/redhat-release" % sysimg_path).readlines()[0].strip().split()
        if a != "CentOS":
            return
        [major, minor] = [int(x) for x in c.split(".")]
        if minor >= 3:
            utils.sysexec_noerr('echo "DMRAID=no" >> %s/etc/sysconfig/mkinitrd/noraid' % sysimg_path, log)
            utils.sysexec_noerr("chmod 755 %s/etc/sysconfig/mkinitrd/noraid" % sysimg_path, log)
    except:
        pass
Esempio n. 5
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 def __init__(self, vars, mode):
     utils.makedirs(self.mntpnt)
     try:
         utils.sysexec('mount -t auto -U %s %s' % (vars['DISCONNECTED_OPERATION'], self.mntpnt))
         # make sure it's not read-only
         f = file('%s/api.cache' % self.mntpnt, 'a')
         f.close()
         file.__init__(self, '%s/api.cache' % self.mntpnt, mode)
     except:
         utils.sysexec_noerr('umount %s' % self.mntpnt)
         raise BootManagerException, "Couldn't find API-cache for disconnected operation"
Esempio n. 6
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 def __init__(self, vars, mode):
     utils.makedirs(self.mntpnt)
     try:
         utils.sysexec('mount -t auto -U {} {}'.format(vars['DISCONNECTED_OPERATION'], self.mntpnt))
         # make sure it's not read-only
         f = file('{}/api.cache'.format(self.mntpnt), 'a')
         f.close()
         file.__init__(self, '{}/api.cache'.format(self.mntpnt), mode)
     except:
         utils.sysexec_noerr('umount {}'.format(self.mntpnt))
         raise BootManagerException("Couldn't find API-cache for disconnected operation")
Esempio n. 7
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def create_raid_partition(partitions, vars, log):
    """
    create raid array using specified partitions.  
    """
    raid_part = None
    raid_enabled = False
    node_tags = BootAPI.call_api_function(vars, "GetNodeTags",
                                          ({
                                              'node_id': vars['NODE_ID']
                                          }, ))
    for node_tag in node_tags:
        if node_tag['tagname'] == 'raid_enabled' and \
           node_tag['value'] == '1':
            raid_enabled = True
            break
    if not raid_enabled:
        return raid_part

    try:
        log.write("Software raid enabled.\n")
        # wipe everything
        utils.sysexec_noerr("mdadm --stop /dev/md0", log)
        time.sleep(1)
        for part_path in partitions:
            utils.sysexec_noerr(
                "mdadm --zero-superblock {} ".format(part_path), log)

        # assume each partiton is on a separate disk
        num_parts = len(partitions)
        if num_parts < 2:
            log.write(
                "Not enough disks for raid. Found: {}\n".format(partitions))
            raise BootManagerException(
                "Not enough disks for raid. Found: {}\n".format(partitions))
        if num_parts == 2:
            lvl = 1
        else:
            lvl = 5

        # make the array
        part_list = " ".join(partitions)
        raid_part = "/dev/md0"
        cmd = "mdadm --create {raid_part} --chunk=128 --level=raid{lvl} "\
              "--raid-devices={num_parts} {part_list}".format(**locals())
        utils.sysexec(cmd, log)

    except BootManagerException as e:
        log.write("create_raid_partition failed.\n")
        raid_part = None

    return raid_part
Esempio n. 8
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def bypassRaidIfNeeded(sysimg_path, log):
    try:
        a, b, c, d = file('{}/etc/redhat-release'.format(sysimg_path))\
            .readlines()[0].strip().split()
        if a != 'CentOS':
            return
        major, minor = [ int(x) for x in c.split('.') ]
        if minor >= 3:
            utils.sysexec_noerr('echo "DMRAID=no" >> {}/etc/sysconfig/mkinitrd/noraid'
                                .format(sysimg_path), log)
            utils.sysexec_noerr('chmod 755 {}/etc/sysconfig/mkinitrd/noraid'
                                .format(sysimg_path), log)
    except:
        pass
    def Upload(self, extra_file=None):
        """
        upload the contents of the log to the server
        """
        if self.OutputFile is not None:
            self.OutputFile.flush()

            self.LogEntry("Uploading logs to {}".format(
                self.VARS['UPLOAD_LOG_SCRIPT']))

            self.OutputFile.close()
            self.OutputFile = None

            hostname = self.VARS['INTERFACE_SETTINGS']['hostname'] + "." + \
                       self.VARS['INTERFACE_SETTINGS']['domainname']
            bs_request = BootServerRequest.BootServerRequest(self.VARS)
            try:
                # this was working until f10
                bs_request.MakeRequest(
                    PartialPath=self.VARS['UPLOAD_LOG_SCRIPT'],
                    GetVars=None,
                    PostVars=None,
                    DoSSL=True,
                    DoCertCheck=True,
                    FormData=[
                        "log=@" + self.OutputFilePath, "hostname=" + hostname,
                        "type=bm.log"
                    ])
            except:
                # new pycurl
                import pycurl
                bs_request.MakeRequest(
                    PartialPath=self.VARS['UPLOAD_LOG_SCRIPT'],
                    GetVars=None,
                    PostVars=None,
                    DoSSL=True,
                    DoCertCheck=True,
                    FormData=[('log', (pycurl.FORM_FILE, self.OutputFilePath)),
                              ("hostname", hostname), ("type", "bm.log")])
        if extra_file is not None:
            # NOTE: for code-reuse, evoke the bash function 'upload_logs';
            # by adding --login, bash reads .bash_profile before execution.
            # Also, never fail, since this is an optional feature.
            utils.sysexec_noerr(
                """bash --login -c "upload_logs {}" """.format(extra_file),
                self)
def create_raid_partition(partitions, vars, log):
    """
    create raid array using specified partitions.  
    """
    raid_part = None
    raid_enabled = False
    node_tags = BootAPI.call_api_function(vars, "GetNodeTags", ({"node_id": vars["NODE_ID"]},))
    for node_tag in node_tags:
        if node_tag["tagname"] == "raid_enabled" and node_tag["value"] == "1":
            raid_enabled = True
            break
    if not raid_enabled:
        return raid_part

    try:
        log.write("Software raid enabled.\n")
        # wipe everything
        utils.sysexec_noerr("mdadm --stop /dev/md0", log)
        time.sleep(1)
        for part_path in partitions:
            utils.sysexec_noerr("mdadm --zero-superblock %s " % part_path, log)

        # assume each partiton is on a separate disk
        num_parts = len(partitions)
        if num_parts < 2:
            log.write("Not enough disks for raid. Found: %s\n" % partitions)
            raise BootManagerException("Not enough disks for raid. Found: %s\n" % partitions)
        if num_parts == 2:
            lvl = 1
        else:
            lvl = 5

        # make the array
        part_list = " ".join(partitions)
        raid_part = "/dev/md0"
        cmd = (
            "mdadm --create %(raid_part)s --chunk=128 --level=raid%(lvl)s " % locals()
            + "--raid-devices=%(num_parts)s %(part_list)s" % locals()
        )
        utils.sysexec(cmd, log)

    except BootManagerException, e:
        log.write("create_raid_partition failed.\n")
        raid_part = None
Esempio n. 11
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    def Upload( self, extra_file=None ):
        """
        upload the contents of the log to the server
        """
        if self.OutputFile is not None:
            self.OutputFile.flush()

            self.LogEntry( "Uploading logs to %s" % self.VARS['UPLOAD_LOG_SCRIPT'] )
            
            self.OutputFile.close()
            self.OutputFile= None

            hostname= self.VARS['INTERFACE_SETTINGS']['hostname'] + "." + \
                      self.VARS['INTERFACE_SETTINGS']['domainname']
            bs_request = BootServerRequest.BootServerRequest(self.VARS)
            try:
                # this was working until f10
                bs_request.MakeRequest(PartialPath = self.VARS['UPLOAD_LOG_SCRIPT'],
                                       GetVars = None, PostVars = None,
                                       DoSSL = True, DoCertCheck = True,
                                       FormData = ["log=@" + self.OutputFilePath,
                                                   "hostname=" + hostname, 
                                                   "type=bm.log"])
            except:
                # new pycurl
                import pycurl
                bs_request.MakeRequest(PartialPath = self.VARS['UPLOAD_LOG_SCRIPT'],
                                       GetVars = None, PostVars = None,
                                       DoSSL = True, DoCertCheck = True,
                                       FormData = [('log',(pycurl.FORM_FILE, self.OutputFilePath)),
                                                   ("hostname",hostname),
                                                   ("type","bm.log")])
        if extra_file is not None:
            # NOTE: for code-reuse, evoke the bash function 'upload_logs'; 
            # by adding --login, bash reads .bash_profile before execution.
            # Also, never fail, since this is an optional feature.
            utils.sysexec_noerr( """bash --login -c "upload_logs %s" """ % extra_file, self)
Esempio n. 12
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def Run(vars, log):
    """
    Rebuilds the system initrd, on first install or in case the
    hardware changed.
    """

    log.write("\n\nStep: Rebuilding initrd\n")

    # make sure we have the variables we need
    try:
        SYSIMG_PATH = vars["SYSIMG_PATH"]
        if SYSIMG_PATH == "":
            raise ValueError("SYSIMG_PATH")

        PARTITIONS = vars["PARTITIONS"]
        if PARTITIONS == None:
            raise ValueError("PARTITIONS")

    except KeyError as var:
        raise BootManagerException(
            "Missing variable in vars: {}\n".format(var))
    except ValueError as var:
        raise BootManagerException(
            "Variable in vars, shouldn't be: {}\n".format(var))

    # mkinitrd needs /dev and /proc to do the right thing.
    # /proc is already mounted, so bind-mount /dev here
    # xxx tmp - trying to work around the f14 case:
    # check that /dev/ is mounted with devtmpfs
    # tmp - sysexec_noerr not returning what one would expect
    # if utils.sysexec_noerr ("grep devtmpfs /proc/mounts") != 0:
    utils.sysexec_noerr("mount -t devtmpfs none /dev")
    utils.sysexec("mount -o bind /dev {}/dev".format(SYSIMG_PATH))
    utils.sysexec("mount -t sysfs none {}/sys".format(SYSIMG_PATH))

    initrd, kernel_version = systeminfo.getKernelVersion(vars, log)
    try:
        utils.removefile("{}/boot/{}".format(SYSIMG_PATH, initrd))
    except:
        log.write("{}/boot/{} is already removed\n".format(
            SYSIMG_PATH, initrd))

    # hack for CentOS 5.3
    bypassRaidIfNeeded(SYSIMG_PATH, log)
    # specify ext3 for fedora14 and above as their default fs is ext4
    utils.sysexec_chroot(
        SYSIMG_PATH,
        "mkinitrd -v --with=ext3 --allow-missing /boot/initrd-{}.img {}".
        format(kernel_version, kernel_version), log)

    utils.sysexec_noerr("umount {}/sys".format(SYSIMG_PATH), log)
    utils.sysexec_noerr("umount {}/dev".format(SYSIMG_PATH), log)
Esempio n. 13
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def Run(vars, log):
    """
    Find any new large block devices we can add to the vservers volume group
    
    Expect the following variables to be set:
    SYSIMG_PATH          the path where the system image will be mounted
    MINIMUM_DISK_SIZE       any disks smaller than this size, in GB, are not used
    NODE_MODEL_OPTIONS   the node's model options
    
    Set the following variables upon successfully running:
    ROOT_MOUNTED             the node root file system is mounted
    """

    log.write("\n\nStep: Checking for unused disks to add to LVM.\n")

    # make sure we have the variables we need
    try:
        SYSIMG_PATH = vars["SYSIMG_PATH"]
        if SYSIMG_PATH == "":
            raise ValueError("SYSIMG_PATH")

        MINIMUM_DISK_SIZE = int(vars["MINIMUM_DISK_SIZE"])

        PARTITIONS = vars["PARTITIONS"]
        if PARTITIONS == None:
            raise ValueError("PARTITIONS")

        NODE_MODEL_OPTIONS = vars["NODE_MODEL_OPTIONS"]
    except KeyError as var:
        raise BootManagerException(
            "Missing variable in vars: {}\n".format(var))
    except ValueError as var:
        raise BootManagerException(
            "Variable in vars, shouldn't be: {}\n".format(var))

    devices_dict = systeminfo.get_block_devices_dict(vars, log)

    # will contain the new devices to add to the volume group
    new_devices = []

    # total amount of new space in gb
    extended_gb_size = 0

    utils.display_disks_status(PARTITIONS, "In CheckForNewDisks", log)

    for device, details in devices_dict.items():

        (major, minor, blocks, gb_size, readonly) = details

        if device[:14] == "/dev/planetlab":
            log.write("Skipping device {} in volume group.\n".format(device))
            continue

        if readonly:
            log.write("Skipping read only device {}\n".format(device))
            continue

        if gb_size < MINIMUM_DISK_SIZE:
            log.write("Skipping too small device {} ({:4.2f}) Gb\n"\
                      .format(device, gb_size))
            continue

        log.write("Checking device {} to see if it is part " \
                   "of the volume group.\n".format(device))

        # Thierry - June 2015
        # when introducing the 'upgrade' verb, we ran into the situation
        # where 'pvdisplay' at this point displays e.g. /dev/sda, instead
        # of /dev/sda1
        # we thus consider that if either of these is known, then
        # the disk is already part of LVM
        first_partition = InstallPartitionDisks.get_partition_path_from_device(
            device, vars, log)
        probe_first_part = "pvdisplay {} | grep -q planetlab".format(
            first_partition)
        probe_device = "pvdisplay {} | grep -q planetlab".format(device)
        already_added = utils.sysexec_noerr(probe_first_part, log, shell=True) \
                     or utils.sysexec_noerr(probe_device, log, shell=True)

        if already_added:
            log.write("It appears {} is part of the volume group, continuing.\n"\
                      .format(device))
            continue

        # just to be extra paranoid, ignore the device if it already has
        # an lvm partition on it (new disks won't have this, and that is
        # what this code is for, so it should be ok).
        cmd = "parted --script --list {} | grep -q lvm$".format(device)
        has_lvm = utils.sysexec_noerr(cmd, log, shell=True)
        if has_lvm:
            log.write(
                "It appears {} has lvm already setup on it.\n".format(device))
            paranoid = False
            if paranoid:
                log.write(
                    "Too paranoid to add {} to vservers lvm.\n".format(device))
                continue

        if not InstallPartitionDisks.single_partition_device(
                device, vars, log):
            log.write("Unable to partition {}, not using it.\n".format(device))
            continue

        log.write("Successfully partitioned {}\n".format(device))

        if NODE_MODEL_OPTIONS & ModelOptions.RAWDISK:
            log.write("Running on a raw disk node, not using it.\n")
            continue

        part_path = InstallPartitionDisks.get_partition_path_from_device(
            device, vars, log)

        log.write("Attempting to add {} to the volume group\n".format(device))

        if not InstallPartitionDisks.create_lvm_physical_volume(
                part_path, vars, log):
            log.write("Unable to create lvm physical volume {}, not using it.\n"\
                      .format(part_path))
            continue

        log.write("Adding {} to list of devices to add to "
                  "planetlab volume group.\n".format(device))

        extended_gb_size = extended_gb_size + gb_size
        new_devices.append(part_path)

    if len(new_devices) > 0:

        log.write("Extending planetlab volume group.\n")

        log.write("Unmounting disks.\n")
        try:
            # backwards compat, though, we should never hit this case post PL 3.2
            os.stat("{}/rcfs/taskclass".format(SYSIMG_PATH))
            utils.sysexec_chroot_noerr(SYSIMG_PATH, "umount /rcfs", log)
        except OSError as e:
            pass

        # umount in order to extend disk size
        utils.sysexec_noerr("umount {}/proc".format(SYSIMG_PATH), log)
        utils.sysexec_noerr("umount {}/vservers".format(SYSIMG_PATH), log)
        utils.sysexec_noerr("umount {}".format(SYSIMG_PATH), log)
        utils.sysexec("vgchange -an", log)

        vars['ROOT_MOUNTED'] = 0

        while True:
            cmd = "vgextend planetlab {}".format(" ".join(new_devices))
            if not utils.sysexec_noerr(cmd, log):
                log.write("Failed to add physical volumes {} to "\
                           "volume group, continuing.\n".format(" ".join(new_devices)))
                res = 1
                break

            # now, get the number of unused extents, and extend the vserver
            # logical volume by that much.
            remaining_extents = \
               InstallPartitionDisks.get_remaining_extents_on_vg(vars, log)

            log.write("Extending vservers logical volume.\n")
            utils.sysexec("vgchange -ay", log)
            cmd = "lvextend -l +{} {}".format(remaining_extents,
                                              PARTITIONS["vservers"])
            if not utils.sysexec_noerr(cmd, log):
                log.write(
                    "Failed to extend vservers logical volume, continuing\n")
                res = 1
                break

            log.write(
                "making the ext filesystem match new logical volume size.\n")

            vars['ROOT_MOUNTED'] = 1
            cmd = "mount {} {}".format(PARTITIONS["root"], SYSIMG_PATH)
            utils.sysexec_noerr(cmd, log)
            cmd = "mount {} {}/vservers".format(PARTITIONS["vservers"],
                                                SYSIMG_PATH)
            utils.sysexec_noerr(cmd, log)
            cmd = "resize2fs {}".format(PARTITIONS["vservers"])
            resize = utils.sysexec_noerr(cmd, log)
            utils.sysexec_noerr("umount {}/vservers".format(SYSIMG_PATH), log)
            utils.sysexec_noerr("umount {}".format(SYSIMG_PATH), log)
            vars['ROOT_MOUNTED'] = 0

            utils.sysexec("vgchange -an", log)

            if not resize:
                log.write("Failed to resize vservers partition, continuing.\n")
                res = 1
                break
            else:
                log.write("Extended vservers partition by {:4.2f} Gb\n"\
                          .format(extended_gb_size))
                res = 1
                break

    else:
        log.write("No new disk devices to add to volume group.\n")
        res = 1

    return res
def Run( vars, log ):   
    """
    read the machines node configuration file, which contains
    the node key and the node_id for this machine.
    
    these files can exist in several different locations with
    several different names. Below is the search order:

    filename      floppy   flash    ramdisk    cd
    plnode.txt      1        2      4 (/)      5 (/usr/boot), 6 (/usr)
    planet.cnf      3

    The locations will be searched in the above order, plnode.txt
    will be checked first, then planet.cnf. Flash devices will only
    be searched on 3.0 cds.

    Because some of the earlier
    boot cds don't validate the configuration file (which results
    in a file named /tmp/planet-clean.cnf), and some do, lets
    bypass this, and mount and attempt to read in the conf
    file ourselves. If it doesn't exist, we cannot continue, and a
    BootManagerException will be raised. If the configuration file is found
    and read, return 1.

    Expect the following variables from the store:
    
    Sets the following variables from the configuration file:
    WAS_NODE_ID_IN_CONF         Set to 1 if the node id was in the conf file
    WAS_NODE_KEY_IN_CONF         Set to 1 if the node key was in the conf file
    NONE_ID                     The db node_id for this machine
    NODE_KEY                    The key for this node
    INTERFACE_SETTINGS            A dictionary of the values from the network
                                configuration file. keys set:
                                   method               IP_METHOD
                                   ip                   IP_ADDRESS
                                   mac                  NET_DEVICE       
                                   gateway              IP_GATEWAY
                                   network              IP_NETADDR
                                   broadcast            IP_BROADCASTADDR
                                   netmask              IP_NETMASK
                                   dns1                 IP_DNS1
                                   dns2                 IP_DNS2
                                   hostname             HOST_NAME
                                   domainname           DOMAIN_NAME
                                -- wlan oriented --
                                   ssid                 WLAN_SSID
                                   iwconfig             WLAN_IWCONFIG

    the mac address is read from the machine unless it exists in the
    configuration file.
    """

    log.write( "\n\nStep: Reading node configuration file.\n" )


    # make sure we have the variables we need

    INTERFACE_SETTINGS= {}
    INTERFACE_SETTINGS['method']= "dhcp"
    INTERFACE_SETTINGS['ip']= ""
    INTERFACE_SETTINGS['mac']= ""
    INTERFACE_SETTINGS['gateway']= ""
    INTERFACE_SETTINGS['network']= ""
    INTERFACE_SETTINGS['broadcast']= ""
    INTERFACE_SETTINGS['netmask']= ""
    INTERFACE_SETTINGS['dns1']= ""
    INTERFACE_SETTINGS['dns2']= ""
    INTERFACE_SETTINGS['hostname']= "localhost"
    INTERFACE_SETTINGS['domainname']= "localdomain"
    vars['INTERFACE_SETTINGS']= INTERFACE_SETTINGS

    vars['NODE_ID']= 0
    vars['NODE_KEY']= ""

    vars['WAS_NODE_ID_IN_CONF']= 0
    vars['WAS_NODE_KEY_IN_CONF']= 0

    vars['DISCONNECTED_OPERATION']= ''

    # for any devices that need to be mounted to get the configuration
    # file, mount them here.
    mount_point= "/tmp/conffilemount"
    utils.makedirs( mount_point )

    old_conf_file_contents= None
    conf_file_contents= None
    
    
    # 1. check the regular floppy device
    log.write( "Checking standard floppy disk for plnode.txt file.\n" )

    log.write( "Mounting /dev/fd0 on %s\n" % mount_point )
    utils.sysexec_noerr( "mount -o ro -t ext2,msdos /dev/fd0 %s " \
                         % mount_point, log )

    conf_file_path= "%s/%s" % (mount_point,NEW_CONF_FILE_NAME)
    
#    log.write( "Checking for existence of %s\n" % conf_file_path )
    if os.access( conf_file_path, os.R_OK ):
        try:
            conf_file= file(conf_file_path,"r")
            conf_file_contents= conf_file.read()
            conf_file.close()
            log.write( "Read in contents of file %s\n" % conf_file_path )
        except IOError, e:
            log.write( "Unable to read file %s\n" % conf_file_path )
            pass

        utils.sysexec_noerr( "umount %s" % mount_point, log )
        if __parse_configuration_file( vars, log, conf_file_contents):
            log.write("ReadNodeConfiguration: [1] using %s from floppy /dev/fd0\n"%NEW_CONF_FILE_NAME)
            return 1
        else:
            raise BootManagerException( "Found configuration file plnode.txt " \
                                        "on floppy, but was unable to parse it." )
    # try to parse it later...
    conf_file_path= "%s/%s" % (mount_point,OLD_CONF_FILE_NAME)

# this message really does not convey any useful information
#    log.write( "Checking for existence of %s (used later)\n" % conf_file_path )
    if os.access( conf_file_path, os.R_OK ):
        try:
            old_conf_file= file(conf_file_path,"r")
            old_conf_file_contents= old_conf_file.read()
            old_conf_file.close()
            log.write( "Read in contents of file %s\n" % conf_file_path )
        except IOError, e:
            log.write( "Unable to read file %s\n" % conf_file_path )
            pass
        
    utils.sysexec_noerr( "umount %s" % mount_point, log )

    # 2. check flash devices on 3.0 based cds
    log.write( "Checking flash devices for plnode.txt file.\n" )

    # this is done the same way the 3.0 cds do it, by attempting
    # to mount and sd*1 devices that are removable
    devices= os.listdir("/sys/block/")

    for device in devices:
        if device[:2] != "sd":
            log.write( "Skipping non-scsi device %s\n" % device )
            continue

        # test removable
        removable_file_path= "/sys/block/%s/removable" % device
    def mkccissnod(dev,node):
        dev = dev + " b 104 %d" % (node)
	cmd = "mknod /dev/cciss/%s" %dev
        utils.sysexec_noerr(cmd)
        node = node + 1
        return node
Esempio n. 17
0
def Run(vars, log):
    """
    Setup the block devices for install, partition them w/ LVM
    
    Expect the following variables from the store:
    INSTALL_BLOCK_DEVICES    list of block devices to install onto
    TEMP_PATH                somewhere to store what we need to run
    ROOT_SIZE                the size of the root logical volume
    SWAP_SIZE                the size of the swap partition
    """

    log.write("\n\nStep: Install: partitioning disks.\n")

    # make sure we have the variables we need
    try:
        TEMP_PATH = vars["TEMP_PATH"]
        if TEMP_PATH == "":
            raise ValueError("TEMP_PATH")

        INSTALL_BLOCK_DEVICES = vars["INSTALL_BLOCK_DEVICES"]
        if (len(INSTALL_BLOCK_DEVICES) == 0):
            raise ValueError("INSTALL_BLOCK_DEVICES is empty")

        # use vs_ROOT_SIZE or lxc_ROOT_SIZE as appropriate
        varname = vars['virt'] + "_ROOT_SIZE"
        ROOT_SIZE = vars[varname]
        if ROOT_SIZE == "" or ROOT_SIZE == 0:
            raise ValueError("ROOT_SIZE invalid")

        SWAP_SIZE = vars["SWAP_SIZE"]
        if SWAP_SIZE == "" or SWAP_SIZE == 0:
            raise ValueError("SWAP_SIZE invalid")

        NODE_MODEL_OPTIONS = vars["NODE_MODEL_OPTIONS"]

        PARTITIONS = vars["PARTITIONS"]
        if PARTITIONS == None:
            raise ValueError("PARTITIONS")

        if NODE_MODEL_OPTIONS & ModelOptions.RAWDISK:
            VSERVERS_SIZE = "-1"
            if "VSERVERS_SIZE" in vars:
                VSERVERS_SIZE = vars["VSERVERS_SIZE"]
                if VSERVERS_SIZE == "" or VSERVERS_SIZE == 0:
                    raise ValueError("VSERVERS_SIZE")

    except KeyError as var:
        raise BootManagerException(
            "Missing variable in vars: {}\n".format(var))
    except ValueError as var:
        raise BootManagerException(
            "Variable in vars, shouldn't be: {}\n".format(var))

    bs_request = BootServerRequest.BootServerRequest(vars)

    # disable swap if its on
    utils.sysexec_noerr("swapoff {}".format(PARTITIONS["swap"]), log)

    # shutdown and remove any lvm groups/volumes
    utils.sysexec_noerr("vgscan", log)
    utils.sysexec_noerr("vgchange -ay", log)
    utils.sysexec_noerr("lvremove -f {}".format(PARTITIONS["root"]), log)
    utils.sysexec_noerr("lvremove -f {}".format(PARTITIONS["swap"]), log)
    utils.sysexec_noerr("lvremove -f {}".format(PARTITIONS["vservers"]), log)
    utils.sysexec_noerr("vgchange -an", log)
    utils.sysexec_noerr("vgremove -f planetlab", log)

    log.write("Running vgscan for devices\n")
    utils.sysexec_noerr("vgscan", log)

    used_devices = []

    INSTALL_BLOCK_DEVICES.sort()

    for device in INSTALL_BLOCK_DEVICES:
        if single_partition_device(device, vars, log):
            if (len(used_devices) > 0
                    and (vars['NODE_MODEL_OPTIONS'] & ModelOptions.RAWDISK)):
                log.write(
                    "Running in raw disk mode, not using {}.\n".format(device))
            else:
                used_devices.append(device)
                log.write("Successfully initialized {}\n".format(device))
        else:
            log.write("Unable to partition {}, not using it.\n".format(device))
            continue

    # list of devices to be used with vgcreate
    vg_device_list = ""

    # get partitions
    partitions = []
    for device in used_devices:
        part_path = get_partition_path_from_device(device, vars, log)
        partitions.append(part_path)

    # create raid partition
    raid_partition = create_raid_partition(partitions, vars, log)
    if raid_partition != None:
        partitions = [raid_partition]
    log.write("partitions={}\n".format(partitions))
    # initialize the physical volumes
    for part_path in partitions:
        if not create_lvm_physical_volume(part_path, vars, log):
            raise BootManagerException("Could not create lvm physical volume "
                                       "on partition {}".format(part_path))
        vg_device_list = vg_device_list + " " + part_path

    # create an lvm volume group
    utils.sysexec("vgcreate -s32M planetlab {}".format(vg_device_list), log)

    # create swap logical volume
    utils.sysexec("lvcreate -L{} -nswap planetlab".format(SWAP_SIZE), log)

    # check if we want a separate partition for VMs
    one_partition = vars['ONE_PARTITION'] == '1'
    if (one_partition):
        remaining_extents = get_remaining_extents_on_vg(vars, log)
        utils.sysexec(
            "lvcreate -l{} -nroot planetlab".format(remaining_extents), log)
    else:
        utils.sysexec("lvcreate -L{} -nroot planetlab".format(ROOT_SIZE), log)
        if vars['NODE_MODEL_OPTIONS'] & ModelOptions.RAWDISK and VSERVERS_SIZE != "-1":
            utils.sysexec(
                "lvcreate -L{} -nvservers planetlab".format(VSERVERS_SIZE),
                log)
            remaining_extents = get_remaining_extents_on_vg(vars, log)
            utils.sysexec(
                "lvcreate -l{} -nrawdisk planetlab".format(remaining_extents),
                log)
        else:
            # create vservers logical volume with all remaining space
            # first, we need to get the number of remaining extents we can use
            remaining_extents = get_remaining_extents_on_vg(vars, log)
            utils.sysexec(
                "lvcreate -l{} -nvservers planetlab".format(remaining_extents),
                log)

    # activate volume group (should already be active)
    #utils.sysexec(TEMP_PATH + "vgchange -ay planetlab", log)

    # make swap
    utils.sysexec("mkswap -f {}".format(PARTITIONS["swap"]), log)

    # check if badhd option has been set
    option = ''
    txt = ''
    if NODE_MODEL_OPTIONS & ModelOptions.BADHD:
        option = '-c'
        txt = " with bad block search enabled, which may take a while"

    # filesystems partitions names and their corresponding
    # reserved-blocks-percentages
    filesystems = {"root": 5, "vservers": 0}

    # ROOT filesystem is always with ext2
    fs = 'root'
    rbp = filesystems[fs]
    devname = PARTITIONS[fs]
    log.write("formatting {} partition ({}){}.\n".format(fs, devname, txt))
    utils.sysexec("mkfs.ext2 -q {} -m {} -j {}".format(option, rbp, devname),
                  log)
    # disable time/count based filesystems checks
    utils.sysexec_noerr("tune2fs -c -1 -i 0 {}".format(devname), log)

    # VSERVER filesystem with btrfs to support snapshoting and stuff
    fs = 'vservers'
    rbp = filesystems[fs]
    devname = PARTITIONS[fs]
    if vars['virt'] == 'vs':
        log.write("formatting {} partition ({}){}.\n".format(fs, devname, txt))
        utils.sysexec(
            "mkfs.ext2 -q {} -m {} -j {}".format(option, rbp, devname), log)
        # disable time/count based filesystems checks
        utils.sysexec_noerr("tune2fs -c -1 -i 0 {}".format(devname), log)
    elif not one_partition:
        log.write("formatting {} btrfs partition ({}).\n".format(fs, devname))
        # early BootCD's seem to come with a version of mkfs.btrfs that does not support -f
        # let's check for that before invoking it
        mkfs = "mkfs.btrfs"
        if os.system("mkfs.btrfs --help 2>&1 | grep force") == 0:
            mkfs += " -f"
        mkfs += " {}".format(devname)
        utils.sysexec(mkfs, log)
        # as of 2013/02 it looks like there's not yet an option to set fsck frequency with btrfs

    # save the list of block devices in the log
    log.write("Block devices used (in lvm): {}\n".format(repr(used_devices)))

    # list of block devices used may be updated
    vars["INSTALL_BLOCK_DEVICES"] = used_devices

    utils.display_disks_status(PARTITIONS, "End of InstallPartitionDisks", log)

    return 1
Esempio n. 18
0
 def close(self):
     file.close(self)
     utils.sysexec_noerr('umount {}'.format(self.mntpnt))
Esempio n. 19
0
    # if this is a fresh install, then nothing should be
    # here, but we support restarted installs without rebooting
    # so who knows what the current state is

    log.write("Unmounting any previous mounts\n")

    try:
        # backwards compat, though, we should never hit this case post PL 3.2
        os.stat("{}/rcfs/taskclass".format(SYSIMG_PATH))
        utils.sysexec_chroot_noerr(SYSIMG_PATH, "umount /rcfs", log)
    except OSError, e:
        pass

    # NOTE: added /sys and /dev b/c some nodes fail due to this when disk is
    # nearly full.
    utils.sysexec_noerr("umount {}/proc".format(SYSIMG_PATH), log)
    utils.sysexec_noerr("umount {}/mnt/cdrom".format(SYSIMG_PATH), log)
    utils.sysexec_noerr("umount {}/vservers".format(SYSIMG_PATH), log)
    utils.sysexec_noerr("umount {}/sys".format(SYSIMG_PATH), log)
    utils.sysexec_noerr("umount {}/dev".format(SYSIMG_PATH), log)
    utils.sysexec_noerr("umount {}".format(SYSIMG_PATH), log)
    vars['ROOT_MOUNTED'] = 0

    #    log.write( "Removing any old files, directories\n" )
    #    utils.removedir(TEMP_PATH)

    log.write("Cleaning up any existing PlanetLab config files\n")
    try:
        flist = os.listdir(PLCONF_DIR)
        for file in flist:
            utils.removedir(file)
Esempio n. 20
0
                # first run fsck to prevent fs corruption from hanging mount...
                log.write( "fsck %s file system\n" % filesystem )
                utils.sysexec("e2fsck -v -p %s" % (PARTITIONS[filesystem]), log, fsck=True)
            except BootManagerException, e:
                log.write( "BootManagerException during fsck of %s (%s) filesystem : %s\n" %
                           (filesystem, PARTITIONS[filesystem], str(e)) )
                try:
                    log.write( "Trying to recover filesystem errors on %s\n" % filesystem )
                    utils.sysexec("e2fsck -v -y %s" % (PARTITIONS[filesystem]),log, fsck=True)
                except BootManagerException, e:
                    log.write( "BootManagerException during trying to recover filesystem errors on %s (%s) filesystem : %s\n" %
                           (filesystem, PARTITIONS[filesystem], str(e)) )
                    return -1
            else:
                # disable time/count based filesystems checks
                utils.sysexec_noerr( "tune2fs -c -1 -i 0 %s" % PARTITIONS[filesystem], log)

        try:
            # then attempt to mount them
            log.write( "mounting root file system\n" )
            utils.sysexec("mount -t ext3 %s %s" % (PARTITIONS["root"],SYSIMG_PATH),log)
        except BootManagerException, e:
            log.write( "BootManagerException during mount of /root: %s\n" % str(e) )
            return -2
            
        try:
            PROC_PATH = "%s/proc" % SYSIMG_PATH
            utils.makedirs(PROC_PATH)
            log.write( "mounting /proc\n" )
            utils.sysexec( "mount -t proc none %s" % PROC_PATH, log )
        except BootManagerException, e:
Esempio n. 21
0
    except KeyError, var:
        raise BootManagerException, "Missing variable in vars: %s\n" % var
    except ValueError, var:
        raise BootManagerException, "Variable in vars, shouldn't be: %s\n" % var

    # constants
    ssh_source_files= "%s/debug_files/" % BM_SOURCE_DIR    
    ssh_dir= "/etc/ssh/"
    ssh_home= "/root/.ssh"
    cancel_boot_flag= "/tmp/CANCEL_BOOT"
    sshd_started_flag= "/tmp/SSHD_RUNNING"

    # pre-sshd
    pre_sshd_script= os.path.join(ssh_source_files, "pre-sshd")
    if os.path.exists(pre_sshd_script):
        utils.sysexec_noerr( pre_sshd_script, log )
    
    # create host keys if needed
    if not os.path.isdir (ssh_dir):
        utils.makedirs (ssh_dir)
    key=ssh_dir+"/ssh_host_key"
    if not os.path.isfile (key):
        log.write("Creating host rsa1 key %s\n"%key)
        utils.sysexec( "ssh-keygen -t rsa1 -b 1024 -f %s -N ''" % key, log )
    key=ssh_dir+"/ssh_host_rsa_key"
    if not os.path.isfile (key):
        log.write("Creating host rsa key %s\n"%key)
        utils.sysexec( "ssh-keygen -t rsa -f %s -N ''" % key, log )
    key=ssh_dir+"/ssh_host_dsa_key"
    if not os.path.isfile (key):
        log.write("Creating host dsa key %s\n"%key)
Esempio n. 22
0
def Run(vars, upgrade, log):
    """
    Download core + extensions bootstrapfs tarballs and install on the hard drive

    the upgrade boolean is True when we are upgrading a node root install while 
    preserving its slice contents; in that case we just perform extra cleanup
    before unwrapping the bootstrapfs
    this is because the running system may have extraneous files
    that is to say, files that are *not* present in the bootstrapfs
    and that can impact/clobber the resulting upgrade
    
    Expect the following variables from the store:
    SYSIMG_PATH          the path where the system image will be mounted
    PARTITIONS           dictionary of generic part. types (root/swap)
                         and their associated devices.
    NODE_ID              the id of this machine
    
    Sets the following variables:
    TEMP_BOOTCD_PATH     where the boot cd is remounted in the temp
                         path
    ROOT_MOUNTED         set to 1 when the the base logical volumes
                         are mounted.
    """

    log.write("\n\nStep: Install: bootstrapfs tarball (upgrade={}).\n".format(
        upgrade))

    # make sure we have the variables we need
    try:
        SYSIMG_PATH = vars["SYSIMG_PATH"]
        if SYSIMG_PATH == "":
            raise ValueError("SYSIMG_PATH")

        PARTITIONS = vars["PARTITIONS"]
        if PARTITIONS == None:
            raise ValueError("PARTITIONS")

        NODE_ID = vars["NODE_ID"]
        if NODE_ID == "":
            raise ValueError("NODE_ID")

        VERSION = vars['VERSION'] or 'unknown'

    except KeyError as var:
        raise BootManagerException(
            "Missing variable in vars: {}\n".format(var))
    except ValueError as var:
        raise BootManagerException(
            "Variable in vars, shouldn't be: {}\n".format(var))

    try:
        # make sure the required partitions exist
        val = PARTITIONS["root"]
        val = PARTITIONS["swap"]
        val = PARTITIONS["vservers"]
    except KeyError as part:
        log.write("Missing partition in PARTITIONS: {}\n".format(part))
        return 0

    bs_request = BootServerRequest.BootServerRequest(vars)

    # in upgrade mode, since we skip InstallPartitionDisks
    # we need to run this
    if upgrade:
        log.write("Upgrade mode init : Scanning for devices\n")
        systeminfo.get_block_devices_dict(vars, log)
        utils.sysexec_noerr("vgscan --mknodes", log)
        utils.sysexec_noerr("vgchange -ay", log)

    # debugging info - show in either mode
    utils.display_disks_status(PARTITIONS, "In InstallBootstrapFS", log)

    utils.breakpoint("we need to make /dev/mapper/* appear")

    log.write("turning on swap space\n")
    utils.sysexec("swapon {}".format(PARTITIONS["swap"]), log)

    # make sure the sysimg dir is present
    utils.makedirs(SYSIMG_PATH)

    log.write("mounting root file system\n")
    utils.sysexec(
        "mount -t ext3 {} {}".format(PARTITIONS["root"], SYSIMG_PATH), log)

    fstype = 'ext3' if vars['virt'] == 'vs' else 'btrfs'

    one_partition = vars['ONE_PARTITION'] == '1'

    if (not one_partition):
        log.write("mounting vserver partition in root file system (type {})\n".
                  format(fstype))
        utils.makedirs(SYSIMG_PATH + "/vservers")
        utils.sysexec("mount -t {} {} {}/vservers"\
                      .format(fstype, PARTITIONS["vservers"], SYSIMG_PATH), log)

        if vars['virt'] == 'lxc':
            # NOTE: btrfs quota is supported from version: >= btrfs-progs-0.20 (f18+)
            #       older versions will not recongize the 'quota' command.
            log.write(
                "Enabling btrfs quota on {}/vservers\n".format(SYSIMG_PATH))
            utils.sysexec_noerr(
                "btrfs quota enable {}/vservers".format(SYSIMG_PATH))

    vars['ROOT_MOUNTED'] = 1

    # this is now retrieved in GetAndUpdateNodeDetails
    nodefamily = vars['nodefamily']
    extensions = vars['extensions']

    # in upgrade mode: we need to cleanup the disk to make
    # it safe to just untar the new bootstrapfs tarball again
    # on top of the hard drive
    if upgrade:
        CleanupSysimgBeforeUpgrade(SYSIMG_PATH, nodefamily, log)

    # the 'plain' option is for tests mostly
    plain = vars['plain']
    if plain:
        download_suffix = ".tar"
        uncompress_option = ""
        log.write("Using plain bootstrapfs images\n")
    else:
        download_suffix = ".tar.bz2"
        uncompress_option = "-j"
        log.write("Using compressed bootstrapfs images\n")

    log.write("Using nodefamily={}\n".format(nodefamily))
    if not extensions:
        log.write("Installing only core software\n")
    else:
        log.write("Requested extensions {}\n".format(extensions))

    bootstrapfs_names = [nodefamily] + extensions

    for name in bootstrapfs_names:
        tarball = "bootstrapfs-{}{}".format(name, download_suffix)
        source_file = "/boot/{}".format(tarball)
        dest_file = "{}/{}".format(SYSIMG_PATH, tarball)

        source_hash_file = "/boot/{}.sha1sum".format(tarball)
        dest_hash_file = "{}/{}.sha1sum".format(SYSIMG_PATH, tarball)

        time_beg = time.time()
        log.write("downloading {}\n".format(source_file))
        # 30 is the connect timeout, 14400 is the max transfer time in
        # seconds (4 hours)
        result = bs_request.DownloadFile(source_file, None, None, 1, 1,
                                         dest_file, 30, 14400)
        time_end = time.time()
        duration = int(time_end - time_beg)
        log.write("Done downloading ({} seconds)\n".format(duration))
        if result:
            # Download SHA1 checksum file
            log.write("downloading sha1sum for {}\n".format(source_file))
            result = bs_request.DownloadFile(source_hash_file, None, None, 1,
                                             1, dest_hash_file, 30, 14400)

            log.write("verifying sha1sum for {}\n".format(source_file))
            if not utils.check_file_hash(dest_file, dest_hash_file):
                raise BootManagerException(
                    "FATAL: SHA1 checksum does not match between {} and {}"\
                    .format(source_file, source_hash_file))

            time_beg = time.time()
            log.write("extracting {} in {}\n".format(dest_file, SYSIMG_PATH))
            result = utils.sysexec(
                "tar -C {} -xpf {} {}".format(SYSIMG_PATH, dest_file,
                                              uncompress_option), log)
            time_end = time.time()
            duration = int(time_end - time_beg)
            log.write("Done extracting ({} seconds)\n".format(duration))
            utils.removefile(dest_file)
        else:
            # the main tarball is required
            if name == nodefamily:
                raise BootManagerException(
                    "FATAL: Unable to download main tarball {} from server."\
                    .format(source_file))
            # for extensions, just issue a warning
            else:
                log.write(
                    "WARNING: tarball for extension {} not found\n".format(
                        name))

    # copy resolv.conf from the base system into our temp dir
    # so DNS lookups work correctly while we are chrooted
    log.write("Copying resolv.conf to temp dir\n")
    utils.sysexec("cp /etc/resolv.conf {}/etc/".format(SYSIMG_PATH), log)

    # Copy the boot server certificate(s) and GPG public key to
    # /usr/boot in the temp dir.
    log.write("Copying boot server certificates and public key\n")

    if os.path.exists("/usr/boot"):
        # do nothing in case of upgrade
        if not os.path.exists(SYSIMG_PATH + "/usr/boot"):
            utils.makedirs(SYSIMG_PATH + "/usr")
            shutil.copytree("/usr/boot", SYSIMG_PATH + "/usr/boot")
    elif os.path.exists("/usr/bootme"):
        # do nothing in case of upgrade
        if not os.path.exists(SYSIMG_PATH + "/usr/bootme"):
            utils.makedirs(SYSIMG_PATH + "/usr/boot")
            boot_server = file("/usr/bootme/BOOTSERVER").readline().strip()
            shutil.copy("/usr/bootme/cacert/" + boot_server + "/cacert.pem",
                        SYSIMG_PATH + "/usr/boot/cacert.pem")
            file(SYSIMG_PATH + "/usr/boot/boot_server", "w").write(boot_server)
            shutil.copy("/usr/bootme/pubring.gpg",
                        SYSIMG_PATH + "/usr/boot/pubring.gpg")

    # For backward compatibility
    if os.path.exists("/usr/bootme"):
        # do nothing in case of upgrade
        if not os.path.exists(SYSIMG_PATH + "/mnt/cdrom/bootme"):
            utils.makedirs(SYSIMG_PATH + "/mnt/cdrom")
            shutil.copytree("/usr/bootme", SYSIMG_PATH + "/mnt/cdrom/bootme")

    # ONE_PARTITION => new distribution type
    if (vars['ONE_PARTITION'] != '1'):
        # Import the GPG key into the RPM database so that RPMS can be verified
        utils.makedirs(SYSIMG_PATH + "/etc/pki/rpm-gpg")
        utils.sysexec(
            "gpg --homedir=/root --export --armor"
            " --no-default-keyring --keyring {}/usr/boot/pubring.gpg"
            " > {}/etc/pki/rpm-gpg/RPM-GPG-KEY-planetlab".format(
                SYSIMG_PATH, SYSIMG_PATH), log)
        utils.sysexec_chroot(
            SYSIMG_PATH, "rpm --import /etc/pki/rpm-gpg/RPM-GPG-KEY-planetlab",
            log)

    # keep a log on the installed hdd
    stamp = file(SYSIMG_PATH + "/bm-install.txt", 'a')
    now = time.strftime("%Y-%b-%d @ %H:%M %Z", time.gmtime())
    stamp.write("Hard drive installed by BootManager {}\n".format(VERSION))
    stamp.write("Finished extraction of bootstrapfs on {}\n".format(now))
    # do not modify this, the upgrade code uses this line for checking compatibility
    stamp.write("Using nodefamily {}\n".format(nodefamily))
    stamp.close()

    return 1
        if NODE_MODEL_OPTIONS & ModelOptions.RAWDISK:
            VSERVERS_SIZE = "-1"
            if "VSERVERS_SIZE" in vars:
                VSERVERS_SIZE = vars["VSERVERS_SIZE"]
                if VSERVERS_SIZE == "" or VSERVERS_SIZE == 0:
                    raise ValueError, "VSERVERS_SIZE"

    except KeyError, var:
        raise BootManagerException, "Missing variable in vars: %s\n" % var
    except ValueError, var:
        raise BootManagerException, "Variable in vars, shouldn't be: %s\n" % var

    bs_request = BootServerRequest.BootServerRequest(vars)

    # disable swap if its on
    utils.sysexec_noerr("swapoff %s" % PARTITIONS["swap"], log)

    # shutdown and remove any lvm groups/volumes
    utils.sysexec_noerr("vgscan", log)
    utils.sysexec_noerr("vgchange -ay", log)
    utils.sysexec_noerr("lvremove -f %s" % PARTITIONS["root"], log)
    utils.sysexec_noerr("lvremove -f %s" % PARTITIONS["swap"], log)
    utils.sysexec_noerr("lvremove -f %s" % PARTITIONS["vservers"], log)
    utils.sysexec_noerr("vgchange -an", log)
    utils.sysexec_noerr("vgremove -f planetlab", log)

    log.write("Running vgscan for devices\n")
    utils.sysexec_noerr("vgscan", log)

    used_devices = []
Esempio n. 24
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        raise BootManagerException, "Missing variable in vars: %s\n" % var
    except ValueError, var:
        raise BootManagerException, "Variable in vars, shouldn't be: %s\n" % var

    # constants
    ssh_source_files = "%s/debug_files/" % BM_SOURCE_DIR
    ssh_dir = "/etc/ssh/"
    key_gen_prog = "ssh-keygen"
    ssh_home = "/root/.ssh"
    cancel_boot_flag = "/tmp/CANCEL_BOOT"
    sshd_started_flag = "/tmp/SSHD_RUNNING"

    # pre-sshd
    pre_sshd_script = os.path.join(ssh_source_files, "pre-sshd")
    if os.path.exists(pre_sshd_script):
        utils.sysexec_noerr(pre_sshd_script, log)

    # create host keys if needed
    if not os.path.isdir(ssh_dir):
        utils.makedirs(ssh_dir)

    # original code used to specify -b 1024 for the rsa1 key
    # fedora23 seems to come with a release of openssh that lacks suppport
    # for ssh1, and thus rsa1 keys; so we consider that failing to produce
    # the rsa1 key is not a showstopper
    key_specs = [
        ("/etc/ssh/ssh_host_key", 'rsa1', "SSH1 RSA", False),
        ("/etc/ssh/ssh_host_rsa_key", 'rsa', "SSH2 RSA", True),
        ("/etc/ssh/ssh_host_dsa_key", 'dsa', "SSH2 DSA", True),
    ]
Esempio n. 25
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    # if this is a fresh install, then nothing should be
    # here, but we support restarted installs without rebooting
    # so who knows what the current state is

    log.write( "Unmounting any previous mounts\n" )

    try:
        # backwards compat, though, we should never hit this case post PL 3.2
        os.stat("%s/rcfs/taskclass"%SYSIMG_PATH)
        utils.sysexec_chroot_noerr( SYSIMG_PATH, "umount /rcfs", log )
    except OSError, e:
        pass

    # NOTE: added /sys and /dev b/c some nodes fail due to this when disk is
    # nearly full.
    utils.sysexec_noerr( "umount %s/proc" % SYSIMG_PATH , log )
    utils.sysexec_noerr( "umount %s/mnt/cdrom" % SYSIMG_PATH , log )
    utils.sysexec_noerr( "umount %s/vservers" % SYSIMG_PATH , log )
    utils.sysexec_noerr( "umount %s/sys" % SYSIMG_PATH , log )
    utils.sysexec_noerr( "umount %s/dev" % SYSIMG_PATH , log )
    utils.sysexec_noerr( "umount %s" % SYSIMG_PATH , log )
    vars['ROOT_MOUNTED']= 0

#    log.write( "Removing any old files, directories\n" )
#    utils.removedir( TEMP_PATH )
    
    log.write( "Cleaning up any existing PlanetLab config files\n" )
    try:
        flist = os.listdir( PLCONF_DIR)
        for file in flist:
            utils.removedir( file )
                   vserver_dir )
        return

    file_path= "%s/etc/%s" % (vserver_dir,UPDATE_FILE_FLAG)
    update_files= 0
    if os.access(file_path,os.F_OK):
        update_files= 1

        
    if '/.vref/' in vserver_dir or \
       '/.vcache/' in vserver_dir or \
       '/vserver-reference' in vserver_dir:
        log.write( "Forcing update on vserver reference directory:\n%s\n" %
                   vserver_dir )
        utils.sysexec_noerr( "echo '%s' > %s/etc/%s" %
                             (UPDATE_FILE_FLAG,vserver_dir,UPDATE_FILE_FLAG),
                             log )
        update_files= 1
        

    if update_files:
        log.write( "Updating network files in %s.\n" % vserver_dir )
        try:
            # NOTE: this works around a recurring problem on public pl,
            # suspected to be due to mismatch between 2.6.12 bootcd and
            # 2.6.22/f8 root environment.  files randomly show up with the
            # immutible attribute set.  this clears it before trying to write
            # the files below.
            utils.sysexec( "chattr -i %s/etc/hosts" % vserver_dir , log )
            utils.sysexec( "chattr -i %s/etc/resolv.conf" % vserver_dir , log )
        except:
def update_vserver_network_files(vserver_dir, vars, log):
    """
    Update the /etc/resolv.conf and /etc/hosts files in the specified
    vserver directory. If the files do not exist, write them out. If they
    do exist, rewrite them with new values if the file UPDATE_FILE_FLAG
    exists it /etc. if this is called with the vserver-reference directory,
    always update the network config files and create the UPDATE_FILE_FLAG.

    This is currently called when setting up the initial vserver reference,
    and later when nodes boot to update existing vserver images.

    Expect the following variables from the store:
    SYSIMG_PATH        the path where the system image will be mounted
                       (always starts with TEMP_PATH)
    INTERFACE_SETTINGS   A dictionary of the values from the network
                       configuration file
    """

    try:
        SYSIMG_PATH = vars["SYSIMG_PATH"]
        if SYSIMG_PATH == "":
            raise ValueError("SYSIMG_PATH")

        INTERFACE_SETTINGS = vars["INTERFACE_SETTINGS"]
        if INTERFACE_SETTINGS == "":
            raise ValueError("INTERFACE_SETTINGS")

    except KeyError as var:
        raise BootManagerException(
            "Missing variable in vars: {}\n".format(var))
    except ValueError as var:
        raise BootManagerException(
            "Variable in vars, shouldn't be: {}\n".format(var))

    try:
        ip = INTERFACE_SETTINGS['ip']
        method = INTERFACE_SETTINGS['method']
        hostname = INTERFACE_SETTINGS['hostname']
        domainname = INTERFACE_SETTINGS['domainname']
    except KeyError as var:
        raise BootManagerException(
            "Missing network value {} in var INTERFACE_SETTINGS\n".format(var))

    try:
        os.listdir(vserver_dir)
    except OSError:
        log.write(
            "Directory {} does not exist to write network conf in.\n".format(
                vserver_dir))
        return

    file_path = "{}/etc/{}".format(vserver_dir, UPDATE_FILE_FLAG)
    update_files = 0
    if os.access(file_path, os.F_OK):
        update_files = 1

    # Thierry - 2012/03 - I'm renaming vserver-reference into sliceimage
    # however I can't quite grasp the reason for this test below, very likely
    # compatibility with very old node images or something
    if '/.vref/' in vserver_dir or \
       '/.vcache/' in vserver_dir or \
       '/vserver-reference' in vserver_dir:
        log.write(
            "Forcing update on vserver reference directory:\n{}\n".format(
                vserver_dir))
        utils.sysexec_noerr(
            "echo '{}' > {}/etc/{}".format(UPDATE_FILE_FLAG, vserver_dir,
                                           UPDATE_FILE_FLAG), log)
        update_files = 1

    if update_files:
        log.write("Updating network files in {}.\n".format(vserver_dir))
        try:
            # NOTE: this works around a recurring problem on public pl,
            # suspected to be due to mismatch between 2.6.12 bootcd and
            # 2.6.22/f8 root environment.  files randomly show up with the
            # immutible attribute set.  this clears it before trying to write
            # the files below.
            utils.sysexec("chattr -i {}/etc/hosts".format(vserver_dir), log)
            utils.sysexec("chattr -i {}/etc/resolv.conf".format(vserver_dir),
                          log)
        except:
            pass

        file_path = "{}/etc/hosts".format(vserver_dir)
        hosts_file = file(file_path, "w")
        hosts_file.write("127.0.0.1       localhost\n")
        if method == "static":
            hosts_file.write("{} {}.{}\n".format(ip, hostname, domainname))
        hosts_file.close()
        hosts_file = None

        file_path = "{}/etc/resolv.conf".format(vserver_dir)
        if method == "dhcp":
            # copy the resolv.conf from the boot cd env.
            utils.sysexec("cp /etc/resolv.conf {}/etc".format(vserver_dir),
                          log)
        else:
            # copy the generated resolv.conf from the system image, since
            # we generated it via static settings
            utils.sysexec(
                "cp {}/etc/resolv.conf {}/etc".format(SYSIMG_PATH,
                                                      vserver_dir), log)

    return
def Run(vars, log):
    """
    read the machines node configuration file, which contains
    the node key and the node_id for this machine.
    
    these files can exist in several different locations with
    several different names. Below is the search order:

    filename      floppy   flash    ramdisk    cd
    plnode.txt      1        2      4 (/)      5 (/usr/boot), 6 (/usr)
    planet.cnf      3

    The locations will be searched in the above order, plnode.txt
    will be checked first, then planet.cnf. Flash devices will only
    be searched on 3.0 cds.

    Because some of the earlier
    boot cds don't validate the configuration file (which results
    in a file named /tmp/planet-clean.cnf), and some do, lets
    bypass this, and mount and attempt to read in the conf
    file ourselves. If it doesn't exist, we cannot continue, and a
    BootManagerException will be raised. If the configuration file is found
    and read, return 1.

    Expect the following variables from the store:
    
    Sets the following variables from the configuration file:
    WAS_NODE_ID_IN_CONF         Set to 1 if the node id was in the conf file
    WAS_NODE_KEY_IN_CONF         Set to 1 if the node key was in the conf file
    NONE_ID                     The db node_id for this machine
    NODE_KEY                    The key for this node
    INTERFACE_SETTINGS            A dictionary of the values from the network
                                configuration file. keys set:
                                   method               IP_METHOD
                                   ip                   IP_ADDRESS
                                   mac                  NET_DEVICE       
                                   gateway              IP_GATEWAY
                                   network              IP_NETADDR
                                   broadcast            IP_BROADCASTADDR
                                   netmask              IP_NETMASK
                                   dns1                 IP_DNS1
                                   dns2                 IP_DNS2
                                   hostname             HOST_NAME
                                   domainname           DOMAIN_NAME
                                -- wlan oriented --
                                   ssid                 WLAN_SSID
                                   iwconfig             WLAN_IWCONFIG

    the mac address is read from the machine unless it exists in the
    configuration file.
    """

    log.write("\n\nStep: Reading node configuration file.\n")

    # make sure we have the variables we need

    INTERFACE_SETTINGS = {}
    INTERFACE_SETTINGS['method'] = "dhcp"
    INTERFACE_SETTINGS['ip'] = ""
    INTERFACE_SETTINGS['mac'] = ""
    INTERFACE_SETTINGS['gateway'] = ""
    INTERFACE_SETTINGS['network'] = ""
    INTERFACE_SETTINGS['broadcast'] = ""
    INTERFACE_SETTINGS['netmask'] = ""
    INTERFACE_SETTINGS['dns1'] = ""
    INTERFACE_SETTINGS['dns2'] = ""
    INTERFACE_SETTINGS['hostname'] = "localhost"
    INTERFACE_SETTINGS['domainname'] = "localdomain"
    vars['INTERFACE_SETTINGS'] = INTERFACE_SETTINGS

    vars['NODE_ID'] = 0
    vars['NODE_KEY'] = ""

    vars['WAS_NODE_ID_IN_CONF'] = 0
    vars['WAS_NODE_KEY_IN_CONF'] = 0

    vars['DISCONNECTED_OPERATION'] = ''

    # for any devices that need to be mounted to get the configuration
    # file, mount them here.
    mount_point = "/tmp/conffilemount"
    utils.makedirs(mount_point)

    old_conf_file_contents = None
    conf_file_contents = None

    # 1. check the regular floppy device
    log.write("Checking standard floppy disk for plnode.txt file.\n")

    log.write("Mounting /dev/fd0 on {}\n".format(mount_point))
    utils.sysexec_noerr(
        "mount -o ro -t ext2,msdos /dev/fd0 {} ".format(mount_point), log)

    conf_file_path = "{}/{}".format(mount_point, NEW_CONF_FILE_NAME)

    #    log.write("Checking for existence of {}\n".format(conf_file_path))
    if os.access(conf_file_path, os.R_OK):
        try:
            conf_file = file(conf_file_path, "r")
            conf_file_contents = conf_file.read()
            conf_file.close()
            log.write("Read in contents of file {}\n".format(conf_file_path))
        except IOError as e:
            log.write("Unable to read file {}\n".format(conf_file_path))
            pass

        utils.sysexec_noerr("umount {}".format(mount_point), log)
        if __parse_configuration_file(vars, log, conf_file_contents):
            log.write(
                "ReadNodeConfiguration: [1] using {} from floppy /dev/fd0\n".
                format(NEW_CONF_FILE_NAME))
            return 1
        else:
            raise BootManagerException(
                "Found configuration file plnode.txt "
                "on floppy, but was unable to parse it.")

    # try the old file name, same device. its actually number 3 on the search
    # order, but do it now to save mounting/unmounting the disk twice.
    # try to parse it later...
    conf_file_path = "{}/{}".format(mount_point, OLD_CONF_FILE_NAME)

    # this message really does not convey any useful information
    #    log.write("Checking for existence of %s (used later)\n" % conf_file_path)
    if os.access(conf_file_path, os.R_OK):
        try:
            old_conf_file = file(conf_file_path, "r")
            old_conf_file_contents = old_conf_file.read()
            old_conf_file.close()
            log.write("Read in contents of file {}\n".format(conf_file_path))
        except IOError as e:
            log.write("Unable to read file {}\n".format(conf_file_path))
            pass

    utils.sysexec_noerr("umount {}".format(mount_point), log)

    # 2. check flash devices on 3.0 based cds
    log.write("Checking flash devices for plnode.txt file.\n")

    # this is done the same way the 3.0 cds do it, by attempting
    # to mount and sd*1 devices that are removable
    devices = os.listdir("/sys/block/")

    for device in devices:
        if device[:2] != "sd":
            log.write("Skipping non-scsi device {}\n".format(device))
            continue

        # test removable
        removable_file_path = "/sys/block/{}/removable".format(device)
        try:
            removable = int(file(removable_file_path, "r").read().strip())
        except ValueError as e:
            continue
        except IOError as e:
            continue

        if not removable:
            log.write("Skipping non-removable device {}\n".format(device))
            continue

        log.write("Checking removable device {}\n".format(device))

        partitions = file("/proc/partitions", "r")
        for line in partitions:
            found_file = 0
            parsed_file = 0

            if not re.search("{}[0-9]*$".format(device), line):
                continue

            try:
                # major minor  #blocks  name
                parts = string.split(line)

                # ok, try to mount it and see if we have a conf file.
                full_device = "/dev/{}".format(parts[3])
            except IndexError as e:
                log.write(
                    "Incorrect /proc/partitions line:\n{}\n".format(line))
                continue

            log.write("Mounting {} on {}\n".format(full_device, mount_point))
            try:
                utils.sysexec(
                    "mount -o ro -t ext2,msdos {} {}".format(
                        full_device, mount_point), log)
            except BootManagerException as e:
                log.write("Unable to mount, trying next partition\n")
                continue

            conf_file_path = "{}/{}".format(mount_point, NEW_CONF_FILE_NAME)

            log.write("Checking for existence of {}\n".format(conf_file_path))
            if os.access(conf_file_path, os.R_OK):
                try:
                    conf_file = file(conf_file_path, "r")
                    conf_file_contents = conf_file.read()
                    conf_file.close()
                    found_file = 1
                    log.write(
                        "Read in contents of file {}\n".format(conf_file_path))

                    if __parse_configuration_file(vars, log,
                                                  conf_file_contents):
                        parsed_file = 1
                except IOError as e:
                    log.write(
                        "Unable to read file {}\n".format(conf_file_path))

            utils.sysexec_noerr("umount {}".format(mount_point), log)
            if found_file:
                if parsed_file:
                    log.write(
                        "ReadNodeConfiguration: [2] using {} from partition {}\n"
                        .format(NEW_CONF_FILE_NAME, full_device))
                    return 1
                else:
                    raise BootManagerException(
                        "Found configuration file on {}, "
                        "but was unable to parse it.".format(full_device))

    # 3. check standard floppy disk for old file name planet.cnf
    log.write(
        "Checking standard floppy disk for planet.cnf file (for legacy nodes).\n"
    )

    if old_conf_file_contents:
        if __parse_configuration_file(vars, log, old_conf_file_contents):
            log.write(
                "ReadNodeConfiguration: [3] using {} from floppy /dev/fd0\n".
                format(OLD_CONF_FILE_NAME))
            return 1
        else:
            raise BootManagerException(
                "Found configuration file planet.cnf "
                "on floppy, but was unable to parse it.")

    # 4. check for plnode.txt in / (ramdisk)
    log.write("Checking / (ramdisk) for plnode.txt file.\n")

    conf_file_path = "/{}".format(NEW_CONF_FILE_NAME)

    log.write("Checking for existence of {}\n".format(conf_file_path))
    if os.access(conf_file_path, os.R_OK):
        try:
            conf_file = file(conf_file_path, "r")
            conf_file_contents = conf_file.read()
            conf_file.close()
            log.write("Read in contents of file {}\n".format(conf_file_path))
        except IOError as e:
            log.write("Unable to read file {}\n".format(conf_file_path))
            pass

        if __parse_configuration_file(vars, log, conf_file_contents):
            log.write(
                "ReadNodeConfiguration: [4] using {} from ramdisk\n".format(
                    NEW_CONF_FILE_NAME))
            return 1
        else:
            raise BootManagerException("Found configuration file plnode.txt "
                                       "in /, but was unable to parse it.")

    # 5. check for plnode.txt in /usr/boot (mounted already)
    log.write("Checking /usr/boot (cd) for plnode.txt file.\n")

    conf_file_path = "/usr/boot/{}".format(NEW_CONF_FILE_NAME)

    log.write("Checking for existence of {}\n".format(conf_file_path))
    if os.access(conf_file_path, os.R_OK):
        try:
            conf_file = file(conf_file_path, "r")
            conf_file_contents = conf_file.read()
            conf_file.close()
            log.write("Read in contents of file {}\n".format(conf_file_path))
        except IOError as e:
            log.write("Unable to read file {}\n".format(conf_file_path))
            pass

        if __parse_configuration_file(vars, log, conf_file_contents):
            log.write(
                "ReadNodeConfiguration: [5] using {} from CD in /usr/boot\n".
                format(NEW_CONF_FILE_NAME))
            return 1
        else:
            raise BootManagerException(
                "Found configuration file plnode.txt "
                "in /usr/boot, but was unable to parse it.")

    # 6. check for plnode.txt in /usr (mounted already)
    log.write("Checking /usr (cd) for plnode.txt file.\n")

    conf_file_path = "/usr/{}".format(NEW_CONF_FILE_NAME)

    log.write("Checking for existence of {}\n".format(conf_file_path))
    if os.access(conf_file_path, os.R_OK):
        try:
            conf_file = file(conf_file_path, "r")
            conf_file_contents = conf_file.read()
            conf_file.close()
            log.write("Read in contents of file {}\n".format(conf_file_path))
        except IOError as e:
            log.write("Unable to read file {}\n".format(conf_file_path))
            pass

        if __parse_configuration_file(vars, log, conf_file_contents):
            log.write("ReadNodeConfiguration: [6] using {} from /usr\n".format(
                NEW_CONF_FILE_NAME))
            return 1
        else:
            raise BootManagerException("Found configuration file plnode.txt "
                                       "in /usr, but was unable to parse it.")

    raise BootManagerException(
        "Unable to find and read a node configuration file.")
Esempio n. 29
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        if readonly:
            log.write( "Skipping read only device %s\n" % device )
            continue

        if gb_size < MINIMUM_DISK_SIZE:
            log.write( "Skipping too small device %s (%4.2f)\n" %
                       (device,gb_size) )
            continue

        log.write( "Checking device %s to see if it is part " \
                   "of the volume group.\n" % device )

        # this is the lvm partition, if it exists on that device
        lvm_partition= InstallPartitionDisks.get_partition_path_from_device( device, vars, log )
        cmd = "pvdisplay %s | grep -q 'planetlab'" % lvm_partition
        already_added = utils.sysexec_noerr(cmd, log, shell=True)

        if already_added:
            log.write( "It appears %s is part of the volume group, continuing.\n" %
                       device )
            continue

        # just to be extra paranoid, ignore the device if it already has
        # an lvm partition on it (new disks won't have this, and that is
        # what this code is for, so it should be ok).
        cmd = "sfdisk -l %s | grep -q 'Linux LVM'" % device 
        has_lvm= utils.sysexec_noerr(cmd, log)
        if has_lvm:
            log.write( "It appears %s has lvm already setup on it.\n" % device)
            paranoid = False
            if paranoid:
Esempio n. 30
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def Run(vars, log):
    """
    Load the kernel off of a node and boot to it.
    This step assumes the disks are mounted on SYSIMG_PATH.
    If successful, this function will not return. If it returns, no chain
    booting has occurred.
    
    Expect the following variables:
    SYSIMG_PATH           the path where the system image will be mounted
                          (always starts with TEMP_PATH)
    ROOT_MOUNTED          the node root file system is mounted
    NODE_SESSION             the unique session val set when we requested
                             the current boot state
    PLCONF_DIR               The directory to store PL configuration files in
    
    Sets the following variables:
    ROOT_MOUNTED          the node root file system is mounted
    """

    log.write("\n\nStep: Chain booting node.\n")

    # make sure we have the variables we need
    try:
        SYSIMG_PATH = vars["SYSIMG_PATH"]
        if SYSIMG_PATH == "":
            raise ValueError("SYSIMG_PATH")

        PLCONF_DIR = vars["PLCONF_DIR"]
        if PLCONF_DIR == "":
            raise ValueError("PLCONF_DIR")

        # its ok if this is blank
        NODE_SESSION = vars["NODE_SESSION"]

        NODE_MODEL_OPTIONS = vars["NODE_MODEL_OPTIONS"]

        PARTITIONS = vars["PARTITIONS"]
        if PARTITIONS == None:
            raise ValueError("PARTITIONS")

    except KeyError as var:
        raise BootManagerException(
            "Missing variable in vars: {}\n".format(var))
    except ValueError as var:
        raise BootManagerException(
            "Variable in vars, shouldn't be: {}\n".format(var))

    ROOT_MOUNTED = 0
    if vars.has_key('ROOT_MOUNTED'):
        ROOT_MOUNTED = vars['ROOT_MOUNTED']

    if ROOT_MOUNTED == 0:
        log.write("Mounting node partitions\n")

        # simply creating an instance of this class and listing the system
        # block devices will make them show up so vgscan can find the planetlab
        # volume group
        systeminfo.get_block_devices_dict(vars, log)

        utils.sysexec("vgscan", log)
        utils.sysexec("vgchange -ay planetlab", log)

        utils.makedirs(SYSIMG_PATH)

        cmd = "mount {} {}".format(PARTITIONS["root"], SYSIMG_PATH)
        utils.sysexec(cmd, log)
        cmd = "mount -t proc none {}/proc".format(SYSIMG_PATH)
        utils.sysexec(cmd, log)
        cmd = "mount {} {}/vservers".format(PARTITIONS["vservers"],
                                            SYSIMG_PATH)
        utils.sysexec(cmd, log)

        ROOT_MOUNTED = 1
        vars['ROOT_MOUNTED'] = 1

    utils.display_disks_status(PARTITIONS, "In ChainBootNode", log)

    # write out the session value /etc/planetlab/session
    try:
        session_file_path = "{}/{}/session".format(SYSIMG_PATH, PLCONF_DIR)
        session_file = file(session_file_path, "w")
        session_file.write(str(NODE_SESSION))
        session_file.close()
        session_file = None
        log.write("Updated /etc/planetlab/session\n")
    except IOError as e:
        log.write(
            "Unable to write out /etc/planetlab/session, continuing anyway\n")

    # update configuration files
    log.write("Updating configuration files.\n")
    # avoid using conf_files initscript as we're moving to systemd on some platforms

    if (vars['ONE_PARTITION'] != '1'):
        try:
            cmd = "/usr/bin/env python /usr/share/NodeManager/conf_files.py --noscripts"
            utils.sysexec_chroot(SYSIMG_PATH, cmd, log)
        except IOError as e:
            log.write("conf_files failed with \n {}".format(e))

        # update node packages
        log.write("Running node update.\n")
        if os.path.exists(SYSIMG_PATH + "/usr/bin/NodeUpdate.py"):
            cmd = "/usr/bin/NodeUpdate.py start noreboot"
        else:
            # for backwards compatibility
            cmd = "/usr/local/planetlab/bin/NodeUpdate.py start noreboot"
        utils.sysexec_chroot(SYSIMG_PATH, cmd, log)

    # Re-generate initrd right before kexec call
    # this is not required anymore on recent depls.
    if vars['virt'] == 'vs':
        MakeInitrd.Run(vars, log)

    # the following step should be done by NM
    UpdateNodeConfiguration.Run(vars, log)

    log.write("Updating ssh public host key with PLC.\n")
    ssh_host_key = ""
    try:
        ssh_host_key_file = file(
            "{}/etc/ssh/ssh_host_rsa_key.pub".format(SYSIMG_PATH), "r")
        ssh_host_key = ssh_host_key_file.read().strip()
        ssh_host_key_file.close()
        ssh_host_key_file = None
    except IOError as e:
        pass

    update_vals = {}
    update_vals['ssh_rsa_key'] = ssh_host_key
    BootAPI.call_api_function(vars, "BootUpdateNode", (update_vals, ))

    # get the kernel version
    option = ''
    if NODE_MODEL_OPTIONS & ModelOptions.SMP:
        option = 'smp'

    log.write("Copying kernel and initrd for booting.\n")
    if vars['virt'] == 'vs':
        utils.sysexec(
            "cp {}/boot/kernel-boot{} /tmp/kernel".format(SYSIMG_PATH, option),
            log)
        utils.sysexec(
            "cp {}/boot/initrd-boot{} /tmp/initrd".format(SYSIMG_PATH, option),
            log)
    else:
        # Use chroot to call rpm, b/c the bootimage&nodeimage rpm-versions may not work together
        try:
            kversion = os.popen("chroot {} rpm -qa kernel | tail -1 | cut -c 8-"\
                                .format(SYSIMG_PATH)).read().rstrip()
            major_version = int(
                kversion[0])  # Check if the string looks like a kernel version
        except:
            # Try a different method for non-rpm-based distributions
            kversion = os.popen("ls -lrt {}/lib/modules | tail -1 | awk '{print $9;}'"\
                                .format(SYSIMG_PATH)).read().rstrip()

        utils.sysexec(
            "cp {}/boot/vmlinuz-{} /tmp/kernel".format(SYSIMG_PATH, kversion),
            log)
        candidates = []
        # f16/18: expect initramfs image here
        candidates.append("/boot/initramfs-{}.img".format(kversion))
        # f20: uses a uid of some kind, e.g. /boot/543f88c129de443baaa65800cf3927ce/<kversion>/initrd
        candidates.append("/boot/*/{}/initrd".format(kversion))
        # Ubuntu:
        candidates.append("/boot/initrd.img-{}".format(kversion))

        def find_file_in_sysimg(candidates):
            import glob
            for pattern in candidates:
                matches = glob.glob(SYSIMG_PATH + pattern)
                log.write("locating initrd: found {} matches in {}\n".format(
                    len(matches), pattern))
                if matches:
                    return matches[0]

        initrd = find_file_in_sysimg(candidates)
        if initrd:
            utils.sysexec("cp {} /tmp/initrd".format(initrd), log)
        else:
            raise Exception("Unable to locate initrd - bailing out")

    BootAPI.save(vars)

    log.write("Unmounting disks.\n")

    if (vars['ONE_PARTITION'] != '1'):
        utils.sysexec("umount {}/vservers".format(SYSIMG_PATH), log)
    utils.sysexec("umount {}/proc".format(SYSIMG_PATH), log)
    utils.sysexec_noerr("umount {}/dev".format(SYSIMG_PATH), log)
    utils.sysexec_noerr("umount {}/sys".format(SYSIMG_PATH), log)
    utils.sysexec("umount {}".format(SYSIMG_PATH), log)
    utils.sysexec("vgchange -an", log)

    ROOT_MOUNTED = 0
    vars['ROOT_MOUNTED'] = 0

    # Change runlevel to 'boot' prior to kexec.
    StopRunlevelAgent.Run(vars, log)

    log.write("Unloading modules and chain booting to new kernel.\n")

    # further use of log after Upload will only output to screen
    log.Upload("/root/.bash_eternal_history")

    # regardless of whether kexec works or not, we need to stop trying to
    # run anything
    cancel_boot_flag = "/tmp/CANCEL_BOOT"
    utils.sysexec("touch {}".format(cancel_boot_flag), log)

    # on 2.x cds (2.4 kernel) for sure, we need to shutdown everything
    # to get kexec to work correctly. Even on 3.x cds (2.6 kernel),
    # there are a few buggy drivers that don't disable their hardware
    # correctly unless they are first unloaded.

    utils.sysexec_noerr("ifconfig eth0 down", log)

    utils.sysexec_noerr("killall dhclient", log)

    if vars['virt'] == 'vs':
        utils.sysexec_noerr("umount -a -r -t ext2,ext3", log)
    else:
        utils.sysexec_noerr("umount -a -r -t ext2,ext3,btrfs", log)
    utils.sysexec_noerr("modprobe -r lvm-mod", log)

    # modules that should not get unloaded
    # unloading cpqphp causes a kernel panic
    blacklist = ["floppy", "cpqphp", "i82875p_edac", "mptspi"]
    try:
        modules = file("/tmp/loadedmodules", "r")

        for line in modules:
            module = string.strip(line)
            if module in blacklist:
                log.write(
                    "Skipping unload of kernel module '{}'.\n".format(module))
            elif module != "":
                log.write("Unloading {}\n".format(module))
                utils.sysexec_noerr("modprobe -r {}".format(module), log)
                if "e1000" in module:
                    log.write(
                        "Unloading e1000 driver; sleeping 4 seconds...\n")
                    time.sleep(4)

        modules.close()
    except IOError:
        log.write("Couldn't read /tmp/loadedmodules, continuing.\n")

    try:
        modules = file("/proc/modules", "r")

        # Get usage count for USB
        usb_usage = 0
        for line in modules:
            try:
                # Module Size UsageCount UsedBy State LoadAddress
                parts = string.split(line)

                if parts[0] == "usb_storage":
                    usb_usage += int(parts[2])
            except IndexError as e:
                log.write("Couldn't parse /proc/modules, continuing.\n")

        modules.seek(0)

        for line in modules:
            try:
                # Module Size UsageCount UsedBy State LoadAddress
                parts = string.split(line)

                # While we would like to remove all "unused" modules,
                # you can't trust usage count, especially for things
                # like network drivers or RAID array drivers. Just try
                # and unload a few specific modules that we know cause
                # problems during chain boot, such as USB host
                # controller drivers (HCDs) (PL6577).
                # if int(parts[2]) == 0:
                if False and re.search('_hcd$', parts[0]):
                    if usb_usage > 0:
                        log.write("NOT unloading {} since USB may be in use\n".
                                  format(parts[0]))
                    else:
                        log.write("Unloading {}\n".format(parts[0]))
                        utils.sysexec_noerr("modprobe -r {}".format(parts[0]),
                                            log)
            except IndexError as e:
                log.write("Couldn't parse /proc/modules, continuing.\n")
    except IOError:
        log.write("Couldn't read /proc/modules, continuing.\n")

    kargs = "root={} ramdisk_size=8192".format(PARTITIONS["root"])
    if NODE_MODEL_OPTIONS & ModelOptions.SMP:
        kargs = kargs + " " + "acpi=off"
    try:
        kargsfb = open("/kargs.txt", "r")
        moreargs = kargsfb.readline()
        kargsfb.close()
        moreargs = moreargs.strip()
        log.write(
            'Parsed in "{}" kexec args from /kargs.txt\n'.format(moreargs))
        kargs = kargs + " " + moreargs
    except IOError:
        # /kargs.txt does not exist, which is fine. Just kexec with default
        # kargs, which is ramdisk_size=8192
        pass

    utils.sysexec_noerr('hwclock --systohc --utc ', log)
    #    utils.breakpoint("Before kexec");
    try:
        utils.sysexec(
            'kexec --force --initrd=/tmp/initrd --append="{}" /tmp/kernel'.
            format(kargs), log)
    except BootManagerException as e:
        # if kexec fails, we've shut the machine down to a point where nothing
        # can run usefully anymore (network down, all modules unloaded, file
        # systems unmounted. write out the error, and cancel the boot process

        log.write("\n\n")
        log.write("-------------------------------------------------------\n")
        log.write("kexec failed with the following error. Please report\n")
        log.write("this problem to [email protected].\n\n")
        log.write(str(e) + "\n\n")
        log.write("The boot process has been canceled.\n")
        log.write(
            "-------------------------------------------------------\n\n")

    return
    vars['API_SERVER_INST']= api_inst

    if not __check_boot_version( vars, log ):
        raise BootManagerException, \
              "Boot CD version insufficient to run the Boot Manager"
    else:
        log.write( "Running on boot cd version: %s\n" %
                   str(vars['BOOT_CD_VERSION']) )

    BOOT_CD_VERSION= vars['BOOT_CD_VERSION']
    
    # In case we are booted with a kernel that does not have the
    # device mapper code compiled into the kernel.
    if not os.path.exists("/dev/mapper"):
        log.write( "Loading support for LVM\n" )
        utils.sysexec_noerr( "modprobe dm_mod", log )

    # for anything that needs to know we are running under the boot cd and
    # not the runtime os
    os.environ['PL_BOOTCD']= "1"
        
    return 1



def __check_boot_version( vars, log ):
    """
    identify which version of the boot os we are running on, and whether
    or not we can run at all on the given version. later, this will be
    used to identify extra packages to download to enable the boot manager
    to run on any supported version.
Esempio n. 32
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        PARTITIONS = vars["PARTITIONS"]
        if PARTITIONS == None:
            raise ValueError, "PARTITIONS"

    except KeyError, var:
        raise BootManagerException, "Missing variable in vars: %s\n" % var
    except ValueError, var:
        raise BootManagerException, "Variable in vars, shouldn't be: %s\n" % var

    # mkinitrd needs /dev and /proc to do the right thing.
    # /proc is already mounted, so bind-mount /dev here
    # xxx tmp - trying to work around the f14 case:
    # check that /dev/ is mounted with devtmpfs
    # tmp - sysexec_noerr not returning what one would expect
    # if utils.sysexec_noerr ("grep devtmpfs /proc/mounts") != 0:
    utils.sysexec_noerr("mount -t devtmpfs none /dev")
    utils.sysexec("mount -o bind /dev %s/dev" % SYSIMG_PATH)
    utils.sysexec("mount -t sysfs none %s/sys" % SYSIMG_PATH)

    initrd, kernel_version = systeminfo.getKernelVersion(vars, log)
    try:
        utils.removefile("%s/boot/%s" % (SYSIMG_PATH, initrd))
    except:
        print "%s/boot/%s is already removed" % (SYSIMG_PATH, initrd)

    # hack for CentOS 5.3
    bypassRaidIfNeeded(SYSIMG_PATH, log)
    # specify ext3 for fedora14 and above as their default fs is ext4
    utils.sysexec_chroot(
        SYSIMG_PATH,
        "mkinitrd -v --with=ext3 --allow-missing /boot/initrd-%s.img %s" % (kernel_version, kernel_version),
Esempio n. 33
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def Run(vars, log):
    """
    See if a node installation is valid. More checks should certainly be
    done in the future, but for now, make sure that the sym links kernel-boot
    exist in /boot
    
    Expect the following variables to be set:
    SYSIMG_PATH              the path where the system image will be mounted
                             (always starts with TEMP_PATH)
    ROOT_MOUNTED             the node root file system is mounted
    NODE_ID                  The db node_id for this machine
    PLCONF_DIR               The directory to store the configuration file in
    
    Set the following variables upon successfully running:
    ROOT_MOUNTED             the node root file system is mounted
    """

    log.write("\n\nStep: Validating node installation.\n")

    # make sure we have the variables we need
    try:
        SYSIMG_PATH = vars["SYSIMG_PATH"]
        if SYSIMG_PATH == "":
            raise ValueError("SYSIMG_PATH")

        NODE_ID = vars["NODE_ID"]
        if NODE_ID == "":
            raise ValueError("NODE_ID")

        PLCONF_DIR = vars["PLCONF_DIR"]
        if PLCONF_DIR == "":
            raise ValueError("PLCONF_DIR")
        
        NODE_MODEL_OPTIONS = vars["NODE_MODEL_OPTIONS"]

        PARTITIONS = vars["PARTITIONS"]
        if PARTITIONS == None:
            raise ValueError("PARTITIONS")

    except KeyError as var:
        raise BootManagerException("Missing variable in vars: {}\n".format(var))
    except ValueError as var:
        raise BootManagerException("Variable in vars, shouldn't be: {}\n".format(var))


    ROOT_MOUNTED = 0
    if vars.has_key('ROOT_MOUNTED'):
        ROOT_MOUNTED = vars['ROOT_MOUNTED']

    # mount the root system image if we haven't already.
    # capture BootManagerExceptions during the vgscan/change and mount
    # calls, so we can return 0 instead
    if ROOT_MOUNTED == 0:
            
        # simply creating an instance of this class and listing the system
        # block devices will make them show up so vgscan can find the planetlab
        # volume group
        systeminfo.get_block_devices_dict(vars, log)

        try:
            utils.sysexec("vgscan", log)
            utils.sysexec("vgchange -ay planetlab", log)
        except BootManagerException as e:
            log.write("BootManagerException during vgscan/vgchange: {}\n".format(e))
            return 0
            
        utils.makedirs(SYSIMG_PATH)

        # xxx - TODO - need to fsck the btrfs partition
        if vars['virt'] == 'vs':
            filesystems_tocheck = ['root', 'vservers']
        else:
            filesystems_tocheck = ['root']

        for filesystem in filesystems_tocheck:
            try:
                # first run fsck to prevent fs corruption from hanging mount...
                log.write("fsck {} file system\n".format(filesystem))
                utils.sysexec("e2fsck -v -p {}".format(PARTITIONS[filesystem]), log, fsck=True)
            except BootManagerException as e:
                log.write("BootManagerException during fsck of {} ({}) filesystem : {}\n"\
                          .format(filesystem, PARTITIONS[filesystem], str(e)))
                try:
                    log.write("Trying to recover filesystem errors on {}\n".format(filesystem))
                    utils.sysexec("e2fsck -v -y {}".format(PARTITIONS[filesystem]), log, fsck=True)
                except BootManagerException as e:
                    log.write("BootManagerException while trying to recover"
                              "filesystem errors on {} ({}) filesystem : {}\n"
                              .format(filesystem, PARTITIONS[filesystem], str(e)))
                    return -1
            else:
                # disable time/count based filesystems checks
                utils.sysexec_noerr("tune2fs -c -1 -i 0 {}".format(PARTITIONS[filesystem]), log)

        try:
            # then attempt to mount them
            log.write("mounting root file system\n")
            utils.sysexec("mount -t ext3 {} {}".format(PARTITIONS["root"], SYSIMG_PATH),log)
        except BootManagerException as e:
            log.write("BootManagerException during mount of /root: {}\n".format(str(e)))
            return -2
            
        try:
            PROC_PATH = "{}/proc".format(SYSIMG_PATH)
            utils.makedirs(PROC_PATH)
            log.write("mounting /proc\n")
            utils.sysexec("mount -t proc none {}".format(PROC_PATH), log)
        except BootManagerException as e:
            log.write("BootManagerException during mount of /proc: {}\n".format(str(e)))
            return -2


        one_partition = vars['ONE_PARTITION']=='1'

        if (not one_partition):
            try:
                VSERVERS_PATH = "{}/vservers".format(SYSIMG_PATH)
                utils.makedirs(VSERVERS_PATH)
                log.write("mounting vservers partition in root file system\n")
                if vars['virt'] == 'vs':
                    utils.sysexec("mount -t ext3 {} {}".format(PARTITIONS["vservers"], VSERVERS_PATH), log)
                else:
                    utils.sysexec("mount -t btrfs {} {}".format(PARTITIONS["vservers"], VSERVERS_PATH), log)
            except BootManagerException as e:
                log.write("BootManagerException while mounting /vservers: {}\n".format(str(e)))
                return -2

        ROOT_MOUNTED = 1
        vars['ROOT_MOUNTED'] = 1
        
    # check if the base kernel is installed 
    # these 2 links are created by our kernel's post-install scriplet
    log.write("Checking for a custom kernel\n")
    try:
        if vars['virt'] == 'vs':
            os.stat("{}/boot/kernel-boot".format(SYSIMG_PATH))
        else:
            try:
                kversion = os.popen("chroot {} rpm -qa kernel | tail -1 | cut -c 8-"\
                                    .format(SYSIMG_PATH)).read().rstrip()
                os.stat("{}/boot/vmlinuz-{}".format(SYSIMG_PATH, kversion))
                major_version = int(kversion[0]) # Check if the string looks like a kernel version
            except:
                kversion = os.popen("ls -lrt {}/lib/modules | tail -1 | awk '{print $9;}'"\
                                    .format(SYSIMG_PATH)).read().rstrip()
    except OSError as e:            
        log.write("Couldn't locate base kernel (you might be using the stock kernel).\n")
        return -3

    # check if the model specified kernel is installed
    option = ''
    if NODE_MODEL_OPTIONS & ModelOptions.SMP:
        option = 'smp'
        try:
            os.stat("{}/boot/kernel-boot{}".format(SYSIMG_PATH, option))
        except OSError as e:
            # smp kernel is not there; remove option from modeloptions
            # such that the rest of the code base thinks we are just
            # using the base kernel.
            NODE_MODEL_OPTIONS = NODE_MODEL_OPTIONS & ~ModelOptions.SMP
            vars["NODE_MODEL_OPTIONS"] = NODE_MODEL_OPTIONS
            log.write("WARNING: Couldn't locate smp kernel.\n")
            
    # write out the node id to /etc/planetlab/node_id. if this fails, return
    # 0, indicating the node isn't a valid install.
    try:
        node_id_file_path = "{}/{}/node_id".format(SYSIMG_PATH, PLCONF_DIR)
        node_id_file = file(node_id_file_path, "w")
        node_id_file.write(str(NODE_ID))
        node_id_file.close()
        node_id_file = None
        log.write("Updated /etc/planetlab/node_id\n")
    except IOError as e:
        log.write("Unable to write out /etc/planetlab/node_id\n")
        return 0

    log.write("Node installation appears to be ok\n")
    
    return 1
Esempio n. 34
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    # get the kernel version
    option = ''
    if NODE_MODEL_OPTIONS & ModelOptions.SMP:
        option = 'smp'

    log.write( "Copying kernel and initrd for booting.\n" )
    utils.sysexec( "cp %s/boot/kernel-boot%s /tmp/kernel" % (SYSIMG_PATH,option), log )
    utils.sysexec( "cp %s/boot/initrd-boot%s /tmp/initrd" % (SYSIMG_PATH,option), log )

    BootAPI.save(vars)

    log.write( "Unmounting disks.\n" )
    utils.sysexec( "umount %s/vservers" % SYSIMG_PATH, log )
    utils.sysexec( "umount %s/proc" % SYSIMG_PATH, log )
    utils.sysexec_noerr( "umount %s/dev" % SYSIMG_PATH, log )
    utils.sysexec_noerr( "umount %s/sys" % SYSIMG_PATH, log )
    utils.sysexec( "umount %s" % SYSIMG_PATH, log )
    utils.sysexec( "vgchange -an", log )

    ROOT_MOUNTED= 0
    vars['ROOT_MOUNTED']= 0

    # Change runlevel to 'boot' prior to kexec.
    StopRunlevelAgent.Run( vars, log )

    log.write( "Unloading modules and chain booting to new kernel.\n" )

    # further use of log after Upload will only output to screen
    log.Upload("/root/.bash_eternal_history")
 def mkccissnod(dev, node):
     dev = dev + " b 104 {}".format(node)
     cmd = "mknod /dev/cciss/{}".format(dev)
     utils.sysexec_noerr(cmd)
     node = node + 1
     return node
Esempio n. 36
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 def close(self):
     file.close(self)
     utils.sysexec_noerr('umount %s' % self.mntpnt)
def Run(vars, log):
    """
    Setup the boot manager so it can run, do any extra necessary
    hardware setup (to fix old cd problems)

    Sets the following variables:
    PARTITIONS        A dictionary of generic partition types and their
                      associated devices.
    BOOT_CD_VERSION   A two number tuple of the boot cd version
    """

    log.write("\n\nStep: Initializing the BootManager.\n")

    # Default model option.  Required in case we go into debug mode
    # before we successfully called GetAndUpdateNodeDetails().
    vars["NODE_MODEL_OPTIONS"] = vars.get("NODE_MODEL_OPTIONS", 0)

    # define the basic partition paths
    PARTITIONS = {}
    #    PARTITIONS["root"] = "/dev/planetlab/root"
    #    PARTITIONS["swap"] = "/dev/planetlab/swap"
    #    PARTITIONS["vservers"] = "/dev/planetlab/vservers"
    # Linux 2.6 mounts LVM with device mapper
    PARTITIONS["root"] = "/dev/mapper/planetlab-root"
    PARTITIONS["swap"] = "/dev/mapper/planetlab-swap"
    PARTITIONS["vservers"] = "/dev/mapper/planetlab-vservers"
    vars["PARTITIONS"] = PARTITIONS

    log.write("Opening connection to API server\n")
    try:
        server_url = vars['BOOT_API_SERVER']
    except:
        raise BootManagerException(
            "configuration file does not specify API server URL")

    api_inst = None
    # preferred strategy : select tlsv1 as the encryption protocol
    try:
        ssl_context = ssl.SSLContext(ssl.PROTOCOL_TLSv1)
        api_inst = xmlrpclib.ServerProxy(server_url,
                                         context=ssl_context,
                                         verbose=0)
    # this is only supported in python >= 2.7.9 though, so allow for failure
    except:
        print("Default xmlrpclib strategy failed")
        import traceback
        traceback.print_exc()
        pass

    # if that failed, resort to the old-fashioned code
    if api_inst is None:
        api_inst = xmlrpclib.ServerProxy(server_url, verbose=0)

    vars['API_SERVER_INST'] = api_inst

    if not __check_boot_version(vars, log):
        raise BootManagerException(
            "Boot CD version insufficient to run the Boot Manager")
    else:
        log.write("Running on boot cd version: {}\n".format(
            vars['BOOT_CD_VERSION']))

    BOOT_CD_VERSION = vars['BOOT_CD_VERSION']

    # In case we are booted with a kernel that does not have the
    # device mapper code compiled into the kernel.
    if not os.path.exists("/dev/mapper"):
        log.write("Loading support for LVM\n")
        utils.sysexec_noerr("modprobe dm_mod", log)

    # for anything that needs to know we are running under the boot cd and
    # not the runtime os
    os.environ['PL_BOOTCD'] = "1"

    return 1