tiramisu-cmdline-parser/examples/AmonEcole/eosfunc.py
2024-07-30 11:41:46 +02:00

303 lines
7.5 KiB
Python

import re, random, ipaddress
def get_version(*args, **kwargs):
return u'2.6.2'
def is_instanciate(*args, **kwargs):
return 'oui'
def calc_val(valeur):
return valeur
def concat(*args, **kwargs):
""" concatène deux valeurs """
sortedkeys = list(kwargs.keys())
sortedkeys.sort()
sortedkwvalues = []
for key in sortedkeys:
if kwargs[key] == '' or kwargs[key] is None:
return None
sortedkwvalues.append(kwargs[key])
if None in args:
return None
return "".join(args)+''.join(sortedkwvalues)
def auto_dns(*args, **kwargs):
return []
def calc_multi_condition(param, match=None, mismatch=None, operator='AND',
default_match=None, default_mismatch=None,
eval_match='False', eval_mismatch='False',
**conditions):
if operator not in ('AND', 'OR'):
raise ValueError(_(u'Operator must be either "AND" or "OR"'))
if eval_match not in ('True', 'False'):
raise ValueError(_(u'eval_match must be either "True" or "False"'))
if eval_mismatch not in ('True', 'False'):
raise ValueError(_(u'eval_mismatch must be either "True" or "False"'))
if match is None:
if default_match is None:
match = u'oui'
else:
if default_match == 'None':
match = None
else:
match = default_match
if mismatch is None:
if default_mismatch is None:
mismatch = u'non'
else:
if default_mismatch == 'None':
mismatch = None
else:
mismatch = default_mismatch
conditions_keys = list(conditions.keys())
conditions_keys.sort()
for condition in conditions_keys:
if not condition.startswith('condition_'):
raise ValueError(_(u'Condition keys must start with "condition".'))
# si le paramètre est une liste...
if param.startswith('['):
param = eval(param)
# si il faut évaluer le résultat à retourner...
if eval_match == 'True':
match = eval(match)
if eval_mismatch == 'True':
mismatch = eval(mismatch)
if isinstance(param, list) and len(param) != len(conditions):
raise ValueError(_(u'Conditions and parameters counts do not match in calc_multi_condition.'))
for num in range(0, len(conditions)):
key = conditions_keys[num]
value = conditions[key]
if not isinstance(param, list):
if operator == 'AND' and value != param:
return mismatch
if operator == 'OR' and value == param:
return match
else:
if operator == 'AND' and value != param[num]:
return mismatch
if operator == 'OR' and value == param[num]:
return match
if operator == 'AND':
return match
else:
return mismatch
auto_copy_val = calc_val
def activate_master_only_web_app(*args, **kwargs):
return 'oui'
def calc_val_first_value(*args, **kwargs):
if args == tuple():
return None
return args[0]
def valid_entier(*args, **kwargs):
return True
def list_cdrom_devices(*args, **kwargs):
return 'cdrom'
def cdrom_minormajor(*args, **kwargs):
return 0
def calc_free_PE(*args, **kwargs):
return 0
def enable_lv_creation(*args, **kwargs):
return "oui"
def get_lv_names(*args, **kwargs):
return "lvm"
def calc_multi_val(*args, **kwargs):
res = []
for arg in args:
if arg is None:
if kwargs.get('allow_none', u'False') == u'True':
continue
else:
return []
# gestion des valeurs multi
if isinstance(arg, list):
for ev_arg in arg:
if ev_arg is not None and ev_arg not in res:
res.append(ev_arg)
else:
res.append(arg)
return res
def check_partitioning_auto_extend(*args, **kwargs):
return 'non'
def check_free_space(*args, **kwargs):
return 0
def is_fs_type(*args, **kwargs):
return "ext4"
def is_lv_name(*args, **kwargs):
return "/etc"
def get_net_device(*args, **kwargs):
return 'eth' + str(args[0])
def list_len_gt(param, max_len=None, match=None, mismatch=None,
default_match=None, default_mismatch=None,
eval_match='False', eval_mismatch='False',):
if match is None:
if default_match is None:
match = u'oui'
else:
if default_match == 'None':
match = None
else:
match = default_match
if mismatch is None:
if default_mismatch is None:
mismatch = u'non'
else:
if default_mismatch == 'None':
mismatch = None
else:
mismatch = default_mismatch
# si il faut évaluer le résultat à retourner...
if eval_match == 'True':
match = eval(match)
if eval_mismatch == 'True':
mismatch = eval(mismatch)
if isinstance(param, list):
if len(param) > int(max_len):
return match
else:
return mismatch
else:
return mismatch
def get_zone_name_bridge(*args, **kwargs):
return "non"
def get_zone_name(*args, **kwargs):
return 'eth0'
def auto_eth(*args, **kwargs):
if kwargs['parametre'] == kwargs['condition']:
return "192.168.1.1"
def auto_netmask(*args, **kwargs):
if kwargs['parametre'] == kwargs['condition']:
return "255.255.255.0"
def calc_or_auto_network(*args, **kwargs):
if kwargs['parametre'] == kwargs['condition']:
return "192.168.1.0"
return calc_network(kwargs['ip'], kwargs['netmask'])
def calc_or_auto_broadcast(*args, **kwargs):
if kwargs['parametre'] == kwargs['condition']:
return "192.168.1.255"
def auto_defaultgw_ip(*args, **kwargs):
if args[0] != 'statique':
return "192.168.1.254"
def calc_network(ip, netmask):
if None not in (ip, netmask):
try:
return str(ipaddress.ip_interface('{}/{}'.format(ip, netmask)).network.network_address)
except:
return None
def calc_broadcast(ip, netmask):
if None not in (ip, netmask):
return str(ipaddress.ip_interface('{}/{}'.format(ip, netmask)).network.broadcast_address)
def calc_ssl_country_name(*args, **kwargs):
return 'FR'
def valid_country(*args, **kwargs):
return
def valid_regexp(data, exp_reg, err_msg=u"Invalid syntax"):
if data == "":
return True
match = re.match(exp_reg, data)
if match is None:
raise ValueError(err_msg)
else:
return True
def gen_random(*args, **kwargs):
return '4444444444444444444'
def check_name_uniq(value, values, index):
values.pop(index)
if value in values:
raise ValueError('le nom {} est déjà attribué à une autre plage'.format(value))
def calc_classe(*args, **kwargs):
return "24"
def calc_webredirection(*args, **kwargs):
return "/toto"
def calc_container(mode_container, container_info, mode_zephir='non'):
return container_info
def calc_libelle_annuaire(*args, **kwargs):
return "LDAP label"
def valid_differ(data, value):
if data == value:
raise ValueError(u"Value must be different from {0}".format(value))
def device_type(*args, **kwargs):
return 'b'
def random_int(vmin, vmax, exclude=None):
values = list(range(int(vmin), int(vmax)+1))
if exclude != None and exclude in values:
values.remove(exclude)
return random.choice(values)