コード例 #1
0
def test3():

    data = [numpy.arange(10) + 0.1, numpy.arange(10) + 0.1]
    names = ["latitudes", "longitudes"]
    units = ["degrees_north", "degrees_east"]
    missing = [-9999., -9999.]
    types = ["f4", "f4"]
    field_object = fields.Fields(data, names, types, units, missing)
    WxtCdf("out.nc", field_object)
コード例 #2
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def test2():

    data = [numpy.arange(10) + 0.1]
    names = ["data"]
    types = ["f4"]
    units = ["degrees_north"]
    missing = [-9999.]
    field_object = fields.Fields(data, names, types, units, missing)
    WxtCdf("out.nc", field_object)
コード例 #3
0
def test1():

    data = [numpy.arange(10)]
    names = ["data"]
    missing = [-9999]
    types = ["i4"]
    units = [""]
    field_object = fields.Fields(data, names, types, units, missing)
    WxtCdf("out.nc", field_object)
コード例 #4
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def test4():

    data = [numpy.arange(10) + 0.1, numpy.arange(10) + 0.1, numpy.arange(10) + 0.1, numpy.arange(10) + 0.1, numpy.arange(10) + 0.1]
    names = ["obs_time", "rec_time", "latitude", "longitude", "elevation"]
    missing = [-9999., -9999., -9999., -9999., -9999.]
    types = ["f8", "f8", "f8", "f8", "f4"]
    units = ["seconds since 1970-1-1 00:00", "seconds since 1970-1-1 00:00", "degrees_north", "degrees_east", "m"]
    sizes = [10, 10, 10, 10, 10]
    field_object = fields.Fields(data, names, types, units, missing, sizes)
    WxtCdf("out.nc", field_object)
コード例 #5
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def parse(in_file, out_file, cdfout, logg):
    """
    Takes a single json input file, converts it to netcdf or ASCII, and writes it out 
    """
    files_written = []

    field_names = [
        "id", "unit_id", "insertion_time", "observation_time", "latitude",
        "longitude", "elevation", "air_temp", "atmospheric_pressure",
        "light_level", "rain_intensity", "relative_humidity", "road_temp"
    ]
    field_types = [
        "a32", "a32", "a32", "a32", "f4", "f4", "f4", "f4", "f4", "f4", "f4",
        "f4", "f4"
    ]
    field_units = [
        None, None, "seconds since 1970-01-01 00 UTC",
        "seconds since 1970-01-01 00 UTC", "degrees north", "degrees east",
        "meters", "celsius", "hPa", "lux", None, "percent", "celsius"
    ]
    data = []
    missing = [
        "", "", "", "", -9999., -9999., -9999., -9999., -9999., -9999., -9999.,
        -9999., -9999.
    ]
    sizes = [
        None, None, None, None, None, None, None, None, None, None, None, None,
        None
    ]
    field_object = fields.Fields(data, field_names, field_types, field_units,
                                 missing, sizes)
    logg.write_info("parsing input file %s" % in_file)
    wxt_parse = wxtParse(in_file)
    observation_sets = ObservationSets("observation_time", field_object,
                                       wxt_parse.observation_set_dict)

    if cdfout:
        array = observation_sets.get_field_data()
        data_fields = []
        for field_name in field_names:
            data_fields.append(array[field_name])
        field_object.data = data_fields
        logg.write_info("writing netcdf file %s" % out_file)
        files_written.append(out_file)
        wxt_cdf.WxtCdf(out_file, field_object)
    else:
        fp_out = file(out_file, "w")
        files_written.append(out_file)
        observation_sets.write_ascii(fp_out)
        fp_out.close()

    return files_written
コード例 #6
0
def stocks(T, portfolio, portfolio_is_complete):
    """
    DataFrame Update 4 - Addtional columns added here from Stock Object calls or other APIs
    """

    feather = featherfile('stocks')
    cache_exists = os.path.exists(feather)

    S = None
    if cache_exists:
        S = pd.read_parquet(feather)
        # TODO: This needs to be disabled when Fields is updated
        if portfolio_is_complete: return S

    data = _pull_processed_holdings_data(portfolio)

    # 8. Field Extensions
    flds = fields.Fields(data)
    S = flds.refreshed(S)
    extensions = flds.extensions(S, T)
    with ShadyBar('%48s' % 'Refreshing Extended DataFrame and Cache',
                  max=len(extensions) + 2) as bar:
        for field in extensions:
            flds.extend(field, S, T)
            bar.next()

        if 'test' not in feather:
            # Emergency Sanitization
            # for column in S.columns:
            #    S[column] = S[column].map(lambda n: F(n) if type(n) in (str, float, int) else n)
            try:
                S.to_parquet(feather, index=False)
            except:
                print("Amended DataFrame can't be dumped")
                util.debug.ddump(
                    {
                        column: str(set(map(type, S[column])))
                        for column in S.columns
                    },
                    force=True)
                raise
        bar.next()

        flds.sort(S)
        bar.next()

    return S
コード例 #7
0
import fields
import string
import random
import re

# SHARED VARIABLES

tokens = fields.Fields("messages.xml")
metrics = dict()
features = dict()
utilities = [
    "ts", "state.code", "state.level", "state.description", "client.id",
    "probe.id"
]
tables = dict()
timeouts = dict()
attacks = dict()

table_clist = set()

__charset = string.letters + string.digits


class PrintUtils(object):

    _regex = None

    @classmethod
    def replace(self, body, on_match):
        if not PrintUtils._regex:
            feats_tokens = '|'.join(features)
コード例 #8
0
def main_menu():
    global disk_volume, lun_size, execute_change

    def _cancel_change(change_file_name):

        orig_change = '{0}/stgadm/changes/{1}.py'.format(
            config.stghome, change_file_name)
        dest_change = '{0}/stgadm/changes_canceled/{1}.py'.format(
            config.stghome, change_file_name)

        os.rename(orig_change, dest_change)

    def _finish_change(change_file_name):

        orig_change = '{0}/stgadm/changes/{1}.py'.format(
            config.stghome, change_file_name)
        dest_change = '{0}/stgadm/changes_executed/{1}.py'.format(
            config.stghome, change_file_name)

        os.rename(orig_change, dest_change)

    os.system('clear')
    print('')
    print('[ Storage Adm                           ]')
    print('[                                       ]')
    print('[ Version {0} - (c) 2016 Kairo Araujo ]'.format(globalvar.version))
    print('[ http://github.com/kairoaraujo/STGAdm  ]')
    print('[ BSD License                           ]')
    print('[                                       ]')

    stgadm = raw_input('\nMain Menu:\n\n'
                       '1. Add new volumes to existent host. (create change)\n'
                       '2. Execute changes created.\n'
                       '\nPlease choose an option: ')

    # Add new volumes to existent host menu

    if stgadm == '1':

        print('\n\n[ REQUEST INFORMATIONS ]\n')

        change = fields.Fields('change', 'Ticket/Change/Work Order: ')
        change.chkfieldstr()
        change = change.strvarout()

        hostname_client = fields.Fields('hostname', 'Hostname Client: ')
        hostname_client.chkfieldstr()
        hostname_client = hostname_client.strvarout()

        wwn_client = fields.Fields('wwn_client', 'WWN Server Client: ')
        wwn_client.chkfieldstr()
        wwn_client = wwn_client.strvarout()

        disk_volume = int()
        lun_size = int()

        while True:
            try:
                disk_volume = int(raw_input("Total Disk Required (GB): "))
                break
            except (TypeError, ValueError):
                print('\tERROR: Total Disk need to be an int value in GB. '
                      '\nDo not use GB. Example: 1000 for 1000GB (1TB).')

        while True:
            try:
                lun_size = int(raw_input("Default LUN size (GB): "))

                if disk_volume % lun_size == 0:
                    break
                else:
                    print('\tERROR: The LUN size need to be a divisor of Total'
                          'required disk.'
                          '\n\t       If Total Disk Required is wrong, please '
                          'use "Ctrl+C".')
            except (TypeError, ValueError):
                print('\tERROR: LUN Size need to be an int value.'
                      '\nDo not use GB. Example 100 for 100GB size of LUNs.')

        if ':' in wwn_client:
            wwn_client = wwn_client.replace(':', '')

        # select storage
        get_stg = systemstorages.SystemStorages()
        get_stg.selectstorage()

        stg_type = get_stg.gettype()

        if stg_type == 'EMC_VMAX':
            stg_sid = get_stg.getsid()
            stg_name = get_stg.getstorage()
            storage_name = stg_name
            menu_emc_vmax(change, hostname_client, storage_name, stg_name,
                          stg_type, stg_sid, wwn_client)

        elif stg_type == 'IBM_DS8K':
            stg_sid = get_stg.getsid()
            stg_name = get_stg.getstorage()
            storage_name = stg_name
            menu_ibm_ds8k(change, hostname_client, storage_name, stg_name,
                          stg_type, stg_sid, wwn_client)

        elif stg_type == 'EMC_VNX':
            storage_name = get_stg.getstorage()
            stg_1ip = get_stg.getvnx_1ip()
            stg_2ip = get_stg.getvnx_2ip()
            stg_user = get_stg.getvnx_user()
            stg_pass = get_stg.getvnx_pass()
            stg_scope = get_stg.getvnx_scope()

            menu_emc_vnx(change, hostname_client, storage_name, storage_name,
                         stg_type, stg_1ip, stg_2ip, stg_user, stg_pass,
                         stg_scope, wwn_client)

        else:
            print('ERROR: Storage type {0} invalid. Check config file'.format(
                stg_type))

    elif stgadm == '2':

        change_file = findchange.select().replace('.py', '')

        # import change_file
        change_module = importlib.import_module(
            'stgadm.changes.{0}'.format(change_file))
        try:
            change_module.preview()

        except ValueError:

            if change_module.stg_type == 'IBM_DS8K':
                print('Removing LUN ID reserve...')
                for l_1_id in change_module.lss_1_id_list:
                    ds8k_add_dev.remove_reserved_id(l_1_id)
                for l_2_id in change_module.lss_2_id_list:
                    ds8k_add_dev.remove_reserved_id(l_2_id)
                print('LUN ID cleanup finished.')

            elif change_module.stg_type == 'EMC_VNX':
                print('Removing LUN ID reserve...')
                # remove lu:
                for lu_id in change_module.lu_ids:
                    vnx_add_dev.remove_reserved_id(lu_id)
                print('Removing HLU ID reserve... ')
                # remove hlu
                for hlu_id in change_module.hlu_ids:
                    vnx_add_dev.remove_reserved_hlu_id(
                        hlu_id, change_module.stggroup_name)

                # remove hlu if is for cluster
                for cluster_node in change_module.cls_nodes.keys():
                    for hlu_id in change_module.cls_nodes[cluster_node][3]:
                        vnx_add_dev.remove_reserved_hlu_id(
                            hlu_id, change_module.cls_nodes[cluster_node][1])
                print('LUN and HLU ID cleanup finished.')

            _cancel_change(change_file)

            exit()

        execute_change = fields.YesNo(
            'Do you would like execute this '
            'change?[y/n]: ', 'n')
        execute_change = execute_change.check()

        if execute_change == 'y':
            print("Executing the change. Please wait...\n")

            # import change_file
            change_module = importlib.import_module(
                'stgadm.changes.{0}'.format(change_file))
            try:
                change_module.execute()
            except ValueError as e:
                print("ERROR: {}".format(e))

            _finish_change(change_file)

    else:
        print('Wrong option. Exiting.')
コード例 #9
0
def menu_ibm_ds8k(change=None,
                  hostname_client=None,
                  storage_name=None,
                  stg_name=None,
                  stg_type=None,
                  stg_sid=None,
                  wwn_client=None):
    global pool_1_option, pool_2_option, code_1_pool, code_2_pool

    if not os.path.isfile(config.dscli_bin):
        print("\nERROR: DSCLI not found. Check config file item dscli_bin.")
        exit()

    if not os.path.isfile(config.dscli_profile_path + '/' + stg_sid):
        print("\nERROR: DSCLI not found. Check config file item "
              "dscli_profile_path for {0}".format(stg_name))
        exit()

    ds8k = pystorage.IBM.DS8K(config.dscli_bin,
                              config.dscli_profile_path + '/' + stg_sid)

    def _get_stg_host_info(subtitle, wwn):

        volume_group = ds8k.get_volgrpid(wwn)
        hostname_client_storage = ds8k.get_hostname(wwn)

        if (volume_group[0] != 0) or hostname_client_storage[0] != 0:
            print("{0} - {1}".format(volume_group[1],
                                     hostname_client_storage[1]))
            exit(1)
        else:
            print('{0}Client informations:'.format(subtitle))
            print('Volume Group from \033[1;32m{0}\033[1;00m identified '
                  'as \033[1;32m{1}\033[1;00m.'.format(wwn_client,
                                                       volume_group[1]))
            print('Hostname used on storage is '
                  '\033[1;32m{0}\033[1;00m\n'.format(
                      hostname_client_storage[1]))

        return hostname_client_storage, volume_group

    print('\nGetting the Volume Group and hostname used on storage ...'
          '\n\nPlease wait...')

    hostname_client_stg, vol_group = _get_stg_host_info('', wwn_client)

    # get cluster node information.
    cls = fields.YesNo('Is it a CLUSTER provisioning? [y/n]: ', 'n')
    cls = cls.check()

    cls_nodes = {}

    if cls == 'y':

        count_node = 0
        check_new_cls_node = True
        while check_new_cls_node is True:
            cls_wwn_client = fields.Fields(
                'cls_wwn_client', '\n(Cluster) Insert the WWN Server Client: ')
            cls_wwn_client.chkfieldstr()
            cls_wwn_client = cls_wwn_client.strvarout()
            print('\nPlease wait.. ')

            cls_node_info = _get_stg_host_info('[Cluster Node] ',
                                               cls_wwn_client)
            cls_nodes.update({
                count_node:
                [cls_node_info[0][1], cls_node_info[1][1], cls_wwn_client]
            })

            count_node += 1

            new_cls = fields.YesNo(
                'Do you want add another cluster host? [y/n]: ', 'n')
            new_cls = new_cls.check()

            if new_cls is 'y':
                check_new_cls_node = True
            else:
                check_new_cls_node = False

    # select first and second pool

    print('\n[POOLS Selection]')
    print('\n\033[1;31mNOTE:\033[1;00m '
          'The Primary pool will be used for extra LUN if the number '
          'of LUNs is odd. '
          '\nExample: Total of LUNs = 11'
          '\n6 LUNs in Primary pool and 5 LUNs in the Secondary pool.\n'
          '\nPlease wait...')

    # pool informations
    ds8k_pools = ds8k.lsextpool()
    if ds8k_pools[0] != 0:
        print('ERROR: {0}'.format(ds8k_pools[1]))
        exit()
    else:
        print(ds8k_pools[1])

    pool_list = []
    for l_pool in ds8k_pools[1].split('\n')[3:]:
        try:
            pool_list.append(l_pool.split()[0])
        except (IndexError, ValueError):
            pass

    # disk count (number of disks)
    disk_count = disk_volume / lun_size
    if disk_count > 1:
        if (disk_count % 2) != 0:
            disk_1_count = (disk_count / 2) + 1
            disk_2_count = (disk_count / 2)
        else:
            disk_1_count = (disk_count / 2)
            disk_2_count = (disk_count / 2)
    else:
        disk_1_count = disk_count
        disk_2_count = 0

    # Primary Pool
    count = 0
    for l_pool in pool_list:
        print('{0}: {1}'.format(count, l_pool))
        count += 1

    while True:
        try:
            pool_1_option = int(raw_input("Select Primary pool: "))
            break
        except (IndexError, ValueError):
            print('\tERROR: Select an existing option between '
                  '0 and {0}.'.format(count))

    pool_1_option = pool_list[pool_1_option]
    # cleaning the selected pool
    pool_list.remove(pool_1_option)
    print("\nPlease select the LUN LSS ID CODE "
          "to be used by {0}\n"
          "The code need to be between 00 and FF".format(pool_1_option))

    while True:
        try:
            code_1_pool = raw_input('Digit the LSS: ')
            int(code_1_pool, 16)
            if len(code_1_pool) != 2:
                print("The code need to be between 00 and FF.")
            else:
                break
        except ValueError:
            print("The code need to be between 00 and FF.")

    print("Primary pool: {0} | LUN ID Code: {1}\n".format(
        pool_1_option, code_1_pool))

    # getting free IDs
    lss_free = getid.DS8K(config.dscli_bin,
                          config.dscli_profile_path + '/' + stg_sid,
                          code_1_pool)

    lss_1_free = lss_free.free_lss()

    # primary disk
    if len(lss_1_free) < disk_count:
        print("ERROR: Not exist sufficient free IDs on {0} LSS.".format(
            code_1_pool))
        exit()

    lss_1_id_list = lss_1_free[:disk_1_count]

    # The second pool need to be select just for more than one disk.
    if disk_count > 1:

        # Secondary Pool
        count = 0
        for l_pool in pool_list:
            print('{0}: {1}'.format(count, l_pool))
            count += 1

        while True:
            try:
                pool_2_option = int(raw_input("Select Secondary pool: "))
                break
            except (IndexError, ValueError):
                print('\tERROR: Select an existing option between '
                      '0 and {0}.'.format(count))

        pool_2_option = pool_list[pool_2_option]

        print("\nPlease select the LUN LSS ID CODE "
              "to be used by {0}\n"
              "The code need to be between 00 and FF".format(pool_2_option))

        while True:
            try:
                code_2_pool = raw_input('Digit the LSS: ')
                int(code_2_pool, 16)
                if len(code_2_pool) != 2:
                    print("The code need to be between 00 and FF.")
                else:
                    break
            except ValueError:
                print("The code need to be between 00 and FF.")

        print("\n* Primary pool   : {0} | LUN ID Code: {1}XX\n"
              "* Secondary pool : {2} | LUN ID Code: {3}XX\n".format(
                  pool_1_option, code_1_pool, pool_2_option, code_2_pool))

        # getting free IDs for LSS Secondary
        lss_free = getid.DS8K(config.dscli_bin,
                              config.dscli_profile_path + '/' + stg_sid,
                              code_2_pool)

        lss_2_free = lss_free.free_lss()

        lss_2_id_list = lss_2_free[:disk_2_count]

    # just one disk
    else:

        print("\n* Primary pool: {0} | LUN ID Code: {1}XX\n".format(
            pool_1_option, code_1_pool))

        disk_2_count = 0
        pool_2_option = None
        lss_2_id_list = []

    print("\nPlease wait...")

    print("Please give the TAG/SID (Code to identify) the LUNs.\n"
          "Use a name to identify the environment or client.\n"
          "Examples: DEV or MIGRATION or FOOBAR\n\n"
          "With this code the LUNs will be create as TAG/SID_LUN_SSL:\n"
          "Example: DEV_LUN_A601 or MIGRATION_LUN_AA07 or FOOBAR_LUN_045A\n")

    lun_sid = fields.Fields('lun_sid', 'LUN SID(TAG): ')
    lun_sid.chkfieldstr()
    lun_sid = lun_sid.strvarout()

    new_change = ds8k_add_dev.New(
        change, hostname_client, storage_name, wwn_client, stg_name, stg_type,
        stg_sid, pool_1_option, pool_2_option, disk_1_count, disk_2_count,
        lss_1_id_list, lss_2_id_list, disk_volume, lun_size, lun_sid,
        vol_group[1], hostname_client_stg[1], disk_count, cls, cls_nodes)
    new_change.preview()

    save_config = fields.YesNo(
        'Do you would like save this allocation?[y/n]: ', 'n')
    save_config = save_config.check()

    if save_config == 'y':

        new_change.headerchange()
        new_change.writechange()
        end_change = new_change.closechange()
        print(end_change)

    else:
        print('Finishing. Thank you.')
コード例 #10
0
def menu_emc_vnx(change=None,
                 hostname_client=None,
                 storage_name=None,
                 stg_name=None,
                 stg_type=None,
                 stg_1ip=None,
                 stg_2ip=None,
                 stg_user=None,
                 stg_pass=None,
                 stg_scope=None,
                 wwn_client=None):

    global pool_option, pool

    if not os.path.isfile(config.naviseccli_bin):
        print("\nERROR: NAVISECCLI not found. Check config file item "
              "naviseccli_bin.")
        exit()

    disk_count = disk_volume / lun_size

    vnx = pystorage.EMC.VNX(config.naviseccli_bin, stg_1ip, stg_2ip, stg_user,
                            stg_pass, stg_scope)

    def _get_stg_host_info(subtitle, wwn):

        hostname_client_stg = vnx.get_hostname(wwn)
        stg_group = vnx.get_stggroup(wwn)

        if (stg_group[0] != 0) or (hostname_client_stg[0] != 0):
            print("{0} - {1}".format(stg_group, hostname_client_stg))
            exit(1)
        else:
            print('{0}Client informations:'.format(subtitle))
            print('Storage Group Name used by \033[1;32m{0}\033[1;00m '
                  'identified as \033[1;32m{1}\033[1;00m.'.format(
                      wwn, stg_group[1]))
            print('Hostname used on storage is '
                  '\033[1;32m{0}\033[1;00m\n'.format(hostname_client_stg[1]))

        return hostname_client_stg[1], stg_group[1]

    print('\nGetting the hostname used on storage and Storage Group Name ...'
          '\n\nPlease wait...')

    # getting pool
    pools = vnx.pool_list()

    if pools[0] != 0:
        print("ERROR: {0}".format(pools[1]))
        exit(pools[0])

    else:
        if len(pools[1]) > 1:

            print('\nMultiples Pools detected. Please choose a Pool.\n')
            count = 0
            for l_pools in pools[1]:
                print('{0}: {1}'.format(count, l_pools))
                count += 1

            while True:
                try:
                    pool_option = int(raw_input("Select the Pool: "))
                    break
                except (IndexError, ValueError):
                    print('\tERROR: Select an existing option between'
                          '0 and {0}.'.format(count))

            pool = pools[1][pool_option]

        else:
            pool = pools[1][0]
            print('Using the only existent pool: '
                  '\033[1;32m{0}\033[1;00m\n'.format(pool))

    hostname_client_storage, stggroup_name = _get_stg_host_info('', wwn_client)

    # get cluster node information.
    cls = fields.YesNo('Is it a CLUSTER provisioning? [y/n]: ', 'n')
    cls = cls.check()

    cls_nodes = {}

    if cls == 'y':

        count_node = 0
        check_new_cls_node = True
        while check_new_cls_node is True:
            cls_wwn_client = fields.Fields(
                'cls_wwn_client', '\n(Cluster) Insert the WWN Server Client: ')
            cls_wwn_client.chkfieldstr()
            cls_wwn_client = cls_wwn_client.strvarout()
            print('\nPlease wait.. ')

            cls_node_info = _get_stg_host_info('[Cluster Node] ',
                                               cls_wwn_client)

            # hlu id for cluster node

            node_hlu_free = getid.VNX(config.naviseccli_bin, stg_1ip, stg_user,
                                      stg_pass, stg_scope, pool)

            node_hlu_free_ids = node_hlu_free.free_hlu(cls_node_info[1])

            if len(node_hlu_free_ids) < disk_count:
                print("ERROR: Not exist sufficient HLU free IDs "
                      "on {0} Storage Group.".format(cls_node_info[1]))
                exit()

            node_hlu_ids = node_hlu_free_ids[:disk_count]

            cls_nodes.update({
                count_node: [
                    cls_node_info[0], cls_node_info[1], cls_wwn_client,
                    node_hlu_ids
                ]
            })

            count_node += 1

            new_cls = fields.YesNo(
                'Do you want add another cluster host? [y/n]: ', 'n')
            new_cls = new_cls.check()

            if new_cls is 'y':
                check_new_cls_node = True
            else:
                check_new_cls_node = False

    print("Please give the TAG/SID (Code to identify) the LUNs.\n"
          "Use a name to identify the environment or client.\n"
          "Examples: DEV or MIGRATION or FOOBAR\n\n"
          "With this code the LUNs will be create as TAG/SID_LUN_SSL:\n"
          "Example: DEV_LUN_1 or MIGRATION_LUN_7 or FOOBAR_LUN_45\n")

    lun_sid = fields.Fields('lun_sid', 'LUN SID(TAG): ')
    lun_sid.chkfieldstr()
    lun_sid = lun_sid.strvarout()

    # lu id

    lu_free = getid.VNX(config.naviseccli_bin, stg_1ip, stg_user, stg_pass,
                        stg_scope, pool)
    lu_free_ids = lu_free.free_lu()

    if len(lu_free_ids) < disk_count:
        print("ERROR: Not exist sufficient free IDs on {0} pool.".format(pool))
        exit()

    lu_ids = lu_free_ids[:disk_count]

    # hlu id
    hlu_free = getid.VNX(config.naviseccli_bin, stg_1ip, stg_user, stg_pass,
                         stg_scope, pool)
    hlu_free_ids = hlu_free.free_hlu(stggroup_name)

    if len(hlu_free_ids) < disk_count:
        print("ERROR: Not exist sufficient HLU free IDs "
              "on {0} Storage Group.".format(stggroup_name))
        exit()

    hlu_ids = hlu_free_ids[:disk_count]

    new_change = vnx_add_dev.New(change, hostname_client, storage_name,
                                 wwn_client, stg_name, stg_type, stg_1ip,
                                 stg_2ip, stg_user, stg_pass, stg_scope, pool,
                                 disk_count, lu_ids, hlu_ids, disk_volume,
                                 lun_size, lun_sid, hostname_client_storage,
                                 stggroup_name, config.lun_type_create, cls,
                                 cls_nodes)
    new_change.preview()

    save_config = fields.YesNo(
        'Do you would like save this allocation?[y/n]: ', 'n')
    save_config = save_config.check()

    if save_config == 'y':

        new_change.headerchange()
        new_change.writechange()
        end_change = new_change.closechange()
        print(end_change)

    else:
        print('Finishing. Thank you.')
コード例 #11
0
def main():

    usage_str = "%prog in_file[s] out_file"
    parser = OptionParser(usage=usage_str)
    parser.add_option("-d",
                      "--directory",
                      dest="directory",
                      help="use all files in specified directory as input")
    parser.add_option("-n",
                      "--netcdf_file",
                      dest="cdf",
                      action="store_true",
                      help="write output netcdf file")
    parser.add_option("-l",
                      "--log",
                      dest="log",
                      help="write log messages to specified file")

    (options, args) = parser.parse_args()

    if (not options.directory and len(args) < 2) or (options.directory
                                                     and len(args) < 1):
        parser.print_help()
        sys.exit(2)

    if options.log:
        logg = log_msg.LogMessage(options.log)
    else:
        logg = log_msg.LogMessage("")

    logg.write_starting()
    in_files = []
    if options.directory:
        # create a list of file paths for all files in directory
        dirlist = os.listdir(options.directory)
        for fname in dirlist:
            path = os.path.join(options.directory, fname)
            in_files.append(path)
    else:
        in_files = args[0:-1]

    out_file = args[-1]
    field_names = [
        "id", "unit_id", "insertion_time", "observation_time", "latitude",
        "longitude", "elevation", "air_temp", "atmospheric_pressure",
        "light_level", "rain_intensity", "relative_humidity", "road_temp"
    ]
    field_types = [
        "a32", "a32", "a32", "a32", "f4", "f4", "f4", "f4", "f4", "f4", "f4",
        "f4", "f4"
    ]
    field_units = [
        None, None, "seconds since 1970-01-01 00 UTC",
        "seconds since 1970-01-01 00 UTC", "degrees north", "degrees east",
        "meters", "celsius", "hPa", "lux", None, "percent", "celsius"
    ]
    data = []
    missing = [
        "", "", "", "", -9999., -9999., -9999., -9999., -9999., -9999., -9999.,
        -9999., -9999.
    ]
    sizes = [
        None, None, None, None, None, None, None, None, None, None, None, None,
        None
    ]
    field_object = fields.Fields(data, field_names, field_types, field_units,
                                 missing, sizes)
    logg.write_info("parsing first input file %s" % in_files[0])
    wxt_parse = wxtParse(in_files[0])
    observation_sets = ObservationSets("observation_time", field_object,
                                       wxt_parse.observation_set_dict)

    logg.write_info("parsing input files")
    for in_file in in_files[1:]:
        logg.write_info("parsing %s" % in_file)
        wxt_parse = wxtParse(in_file)
        new_observation_sets = ObservationSets("observation_time",
                                               field_object,
                                               wxt_parse.observation_set_dict)
        observation_sets.merge(new_observation_sets)

    if options.cdf:
        array = observation_sets.get_field_data()
        for date_pairs in Dates:
            choose = numpy.logical_and(
                numpy.char.greater_equal(array["observation_time"],
                                         date_pairs[0]),
                numpy.char.less(array["observation_time"], date_pairs[1]))
            array_selection = array[choose]
            if array_selection.shape[0] == 0:
                continue

            data_fields = []
            for field_name in field_names:
                data_fields.append(array_selection[field_name])
            field_object.data = data_fields
            date_string = date_pairs[0][0:4] + date_pairs[0][5:7] + date_pairs[
                0][8:10] + date_pairs[0][11:13]
            out_file_name = "%s.%s.nc" % (out_file, date_string)
            logg.write_info("writing netcdf file %s" % out_file_name)
            wxt_cdf.WxtCdf(out_file_name, field_object)
    else:
        fp_out = file(out_file, "w")
        observation_sets.write_ascii(fp_out)
        fp_out.close()

    logg.write_ending()
コード例 #12
0
def parse_hourly(begin_date, end_date, in_files, out_file, cdfout, logg):
    files_written = []

    # Formulate date list
    delta_seconds = 3600
    single_dates = tim.date_list_time_delta_iso(begin_date, end_date,
                                                delta_seconds)
    if len(single_dates) <= 1:
        logg.write_error("date list too small")
        return files_written

    date_pairs = []
    for ind in range(len(single_dates) - 1):
        date_pairs.append((single_dates[ind], single_dates[ind + 1]))

    field_names = [
        "id", "unit_id", "insertion_time", "observation_time", "latitude",
        "longitude", "elevation", "air_temp", "atmospheric_pressure",
        "light_level", "rain_intensity", "relative_humidity", "road_temp"
    ]
    field_types = [
        "a32", "a32", "a32", "a32", "f4", "f4", "f4", "f4", "f4", "f4", "f4",
        "f4", "f4"
    ]
    field_units = [
        None, None, "seconds since 1970-01-01 00 UTC",
        "seconds since 1970-01-01 00 UTC", "degrees north", "degrees east",
        "meters", "celsius", "hPa", "lux", None, "percent", "celsius"
    ]
    data = []
    missing = [
        "", "", "", "", -9999., -9999., -9999., -9999., -9999., -9999., -9999.,
        -9999., -9999.
    ]
    sizes = [
        None, None, None, None, None, None, None, None, None, None, None, None,
        None
    ]
    field_object = fields.Fields(data, field_names, field_types, field_units,
                                 missing, sizes)
    logg.write_info("parsing first input file %s" % in_files[0])
    wxt_parse = wxtParse(in_files[0])
    observation_sets = ObservationSets("observation_time", field_object,
                                       wxt_parse.observation_set_dict)

    logg.write_info("parsing input files")
    for ind, in_file in enumerate(in_files[1:]):
        if ind > 0 and (ind % 1000) == 0:
            logg.write_info("finished parsing %d out of %d files" %
                            (ind, len(in_files)))

        wxt_parse = wxtParse(in_file)
        new_observation_sets = ObservationSets("observation_time",
                                               field_object,
                                               wxt_parse.observation_set_dict)
        observation_sets.merge(new_observation_sets)

    if cdfout:
        array = observation_sets.get_field_data()
        for date_pair in date_pairs:
            choose = numpy.logical_and(
                numpy.char.greater_equal(array["observation_time"],
                                         date_pair[0]),
                numpy.char.less(array["observation_time"], date_pair[1]))
            array_selection = array[choose]
            if array_selection.shape[0] == 0:
                continue

            data_fields = []
            for field_name in field_names:
                data_fields.append(array_selection[field_name])
            field_object.data = data_fields
            date_string = date_pair[0][0:4] + date_pair[0][5:7] + date_pair[0][
                8:10] + date_pair[0][11:13]
            out_file_name = "%s.%s.nc" % (out_file, date_string)
            logg.write_info("writing netcdf file %s" % out_file_name)
            files_written.append(out_file_name)
            wxt_cdf.WxtCdf(out_file_name, field_object)
    else:
        fp_out = file(out_file, "w")
        files_written.append(out_file)
        observation_sets.write_ascii(fp_out)
        fp_out.close()

    return files_written