How to use the ciscoconfparse.ccp_util.CiscoRange function in ciscoconfparse
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mpenning / ciscoconfparse / tests / test_Ccp_Util.py View on Github 
def test_CiscoRange_contanis():
assert 'Ethernet1/2' in CiscoRange('Ethernet1/1-20')def test_CiscoRange_11():
"""Basic interface slot range test"""
result_correct = ['interface Eth2/1/1', 'interface Eth2/1/2', 'interface Eth2/1/3', 'interface Eth2/1/4', 'interface Eth2/1/5']
assert CiscoRange('interface Eth2/1/1-3,4,5').as_list==result_correctdef test_CiscoRange_10():
"""Basic slot range test"""
result_correct = ['2/1/1', '2/1/2', '2/1/3', '2/1/4', '2/1/5']
assert CiscoRange('2/1/1,2,3-5').as_list==result_correctdef test_CiscoRange_13():
"""Basic interface slot range test"""
result_correct = ['interface Eth2/1/1', 'interface Eth2/1/2', 'interface Eth2/1/3', 'interface Eth2/1/4', 'interface Eth2/1/5']
assert CiscoRange('interface Eth2/1/1,2,3-5').as_list==result_correctdef test_CiscoRange_03():
"""Basic vlan range test"""
result_correct = ['1', '2', '3', '4', '5']
assert CiscoRange('1,2-4,5').as_list==result_correctdef test_CiscoRange_01():
"""Basic vlan range test"""
result_correct = ['1']
assert CiscoRange('1').as_list==result_correct'except_str': exc_str,
'remove_str': rem_str,
}
## Analyze each vdict in sequence and apply to retval sequentially
for key, val in vdict.items():
if val!='_nomatch_':
## absolute in the key overrides previous values
if 'absolute' in key:
if val.lower()=='all':
retval = CiscoRange('1-{0}'.format(MAX_VLAN),
result_type=int)
elif val.lower()=='none':
retval = CiscoRange(result_type=int)
else:
retval = CiscoRange(val, result_type=int)
elif 'add' in key:
retval.append(val)
elif 'except' in key:
retval = CiscoRange('1-{0}'.format(MAX_VLAN),
result_type=int)
retval.remove(val)
elif 'remove' in key:
retval.remove(val)
return retval'except_str': exc_str,
'remove_str': rem_str,
}
## Analyze each vdict in sequence and apply to retval sequentially
for key, val in vdict.items():
if val!='_nomatch_':
## absolute in the key overrides previous values
if 'absolute' in key:
if val.lower()=='all':
retval = CiscoRange('1-{0}'.format(MAX_VLAN),
result_type=int)
elif val.lower()=='none':
retval = CiscoRange(result_type=int)
else:
retval = CiscoRange(val, result_type=int)
elif 'add' in key:
retval.append(val)
elif 'except' in key:
retval = CiscoRange('1-{0}'.format(MAX_VLAN),
result_type=int)
retval.remove(val)
elif 'remove' in key:
retval.remove(val)
return retvaldef trunk_vlans_allowed(self):
"""Return a CiscoRange() with the list of allowed vlan numbers (as int). Return 0 if the port isn't a switchport in trunk mode"""
# The default values...
if self.is_switchport and not self.has_manual_switch_access:
retval = CiscoRange('1-{0}'.format(MAX_VLAN), result_type=int)
else:
return 0
## Iterate over switchport trunk statements
for obj in self.children:
## For every child object, check whether the vlan list is modified
abs_str = obj.re_match_typed(
'^\s+switchport\s+trunk\s+allowed\s+vlan\s(all|none|\d.*?)$',
default='_nomatch_', result_type=str).lower()
add_str = obj.re_match_typed(
'^\s+switchport\s+trunk\s+allowed\s+vlan\s+add\s+(\d.*?)$',
default='_nomatch_', result_type=str).lower()
exc_str = obj.re_match_typed(
'^\s+switchport\s+trunk\s+allowed\s+vlan\s+except\s+(\d.*?)$',
default='_nomatch_', result_type=str).lower()'absolute_str': abs_str,
'add_str': add_str,
'except_str': exc_str,
'remove_str': rem_str,
}
## Analyze each vdict in sequence and apply to retval sequentially
for key, val in vdict.items():
if val!='_nomatch_':
## absolute in the key overrides previous values
if 'absolute' in key:
if val.lower()=='all':
retval = CiscoRange('1-{0}'.format(MAX_VLAN),
result_type=int)
elif val.lower()=='none':
retval = CiscoRange(result_type=int)
else:
retval = CiscoRange(val, result_type=int)
elif 'add' in key:
retval.append(val)
elif 'except' in key:
retval = CiscoRange('1-{0}'.format(MAX_VLAN),
result_type=int)
retval.remove(val)
elif 'remove' in key:
retval.remove(val)
return retvalciscoconfparse
Parse, Audit, Query, Build, and Modify Cisco IOS-style and JunOS-style configs
Package Health Score
73 / 100Popular ciscoconfparse functions
- ciscoconfparse.ccp_abc.BaseCfgLine
- ciscoconfparse.ccp_util.CiscoRange
- ciscoconfparse.ccp_util.IPv4Obj
- ciscoconfparse.ccp_util.IPv6Obj
- ciscoconfparse.ccp_util.L4Object
- ciscoconfparse.CiscoConfParse
- ciscoconfparse.ciscoconfparse
- ciscoconfparse.ciscoconfparse.CiscoConfParse
- ciscoconfparse.ciscoconfparse.IOSConfigList
- ciscoconfparse.errors.DynamicAddressException
- ciscoconfparse.local_py.ipaddr._BaseNet
- ciscoconfparse.local_py.ipaddr._BaseV4
- ciscoconfparse.local_py.ipaddr.AddressValueError
- ciscoconfparse.local_py.ipaddr.IPv4Address
- ciscoconfparse.local_py.ipaddr.IPv4Network
- ciscoconfparse.local_py.ipaddr.IPv6Address
- ciscoconfparse.local_py.ipaddr.IPv6Network
- ciscoconfparse.local_py.ipaddr.NetmaskValueError
- ciscoconfparse.models_asa
- ciscoconfparse.models_asa.ASACfgLine