for item in data:
item["netmask"] = convert_ipv4_netmask_prefix(
item["prefix_length"])
+ # VAT returns addresses with reversed byte order (VPP-132)
+ item["ip"] = ".".join(item["ip"].split(".")[::-1])
return data
@staticmethod
"""This module implements keywords to manipulate ACL data structures using
Honeycomb REST API."""
+from robot.api import logger
from resources.libraries.python.topology import Topology
from resources.libraries.python.HTTPRequest import HTTPCodes
delete_honeycomb_data(node, "config_classify_table", path)
if status_code not in (HTTPCodes.OK, HTTPCodes.ACCEPTED):
- raise HoneycombError(
- "The configuration of classify table was not successful. "
- "Status code: {0}.".format(status_code))
+ if data is None and '"error-tag":"data-missing"' in resp:
+ logger.debug("data does not exist in path.")
+ else:
+ raise HoneycombError(
+ "The configuration of classify table was not successful. "
+ "Status code: {0}.".format(status_code))
return resp
@staticmethod
:rtype: dict
"""
- path = ("bridge-domains", )
new_bd = BridgeDomainKeywords._create_bd_structure(bd_name, **kwargs)
- bridge_domain = {"bridge-domain": [new_bd, ]}
- return BridgeDomainKeywords._set_bd_properties(node, bd_name, path,
- bridge_domain)
+ bridge_domain = {"bridge-domains": {"bridge-domain": [new_bd, ]}}
+ return BridgeDomainKeywords._configure_bd(node, bd_name, bridge_domain)
@staticmethod
def add_bd(node, bd_name, **kwargs):
status_code, resp = HcUtil.\
put_honeycomb_data(node, "config_bridge_domain", data)
- if status_code != HTTPCodes.OK:
+ if status_code not in (HTTPCodes.OK, HTTPCodes.ACCEPTED):
raise HoneycombError("Not possible to remove all bridge domains. "
"Status code: {0}.".format(status_code))
return resp
The keywords make possible to put and get configuration data and to get
operational data.
"""
+from robot.api import logger
+
from resources.libraries.python.topology import Topology
from resources.libraries.python.HTTPRequest import HTTPCodes
from resources.libraries.python.honeycomb.HoneycombSetup import HoneycombError
path = "/interface/{0}/v3po:l2".format(intf)
- status_code, _ = HcUtil.delete_honeycomb_data(
+ status_code, response = HcUtil.delete_honeycomb_data(
node, "config_vpp_interfaces", path)
if status_code != HTTPCodes.OK:
- raise HoneycombError(
- "Could not remove bridge domain assignment from interface "
- "'{0}'. Status code: {1}.".format(interface, status_code))
+ if '"error-tag":"data-missing"' in response:
+ logger.debug("Data does not exist in path.")
+ else:
+ raise HoneycombError(
+ "Could not remove bridge domain assignment from interface "
+ "'{0}'. Status code: {1}.".format(interface, status_code))
@staticmethod
def get_bd_oper_data_from_interface(node, interface):
node, super_interface, path, None)
@staticmethod
- def compare_data_structures(data, ref, ignore=()):
+ def compare_data_structures(data, ref, ignore=(), list_order=True):
"""Checks if data obtained from UUT is as expected.
:param data: Data to be checked.
:param ref: Referential data used for comparison.
:param ignore: Dictionary keys to be ignored.
+ :param list_order: Whether to consider the order of list items\
+ in comparison.
:type data: dict
:type ref: dict
:type ignore: iterable
+ :type list_order: bool
+
:raises HoneycombError: If a parameter from referential data is not
present in operational data or if it has different value.
"""
continue
try:
if data[key] != item:
- errors += ("\nThe value of parameter '{0}' is "
- "incorrect. It should be "
- "'{1}' but it is '{2}'".
- format(key, item, data[key]))
+ if not list_order and sorted(data[key]) == sorted(item):
+ pass
+ else:
+ errors += ("\nThe value of parameter '{0}' is "
+ "incorrect. It should be "
+ "'{1}' but it is '{2}'".
+ format(key, item, data[key]))
except KeyError:
errors += ("\nThe parameter '{0}' is not present in "
"operational data".format(key))
data = {
"v3po:acl": {
- "l2-acl": {
- "classify-table": table_name
- },
- "ip4-acl": {
- "classify-table": table_name
+ "ingress": {
+ "ip4-acl": {
+ "classify-table": table_name
+ },
+ "l2-acl": {
+ "classify-table": table_name
+ }
}
}
}
| | [Arguments] | ${node} | ${interface} | ${table_name}
| | ${data}= | InterfaceAPI.Get interface oper data | ${node} | ${interface}
| | Should be equal
-| | ... | ${table_name} | ${data['v3po:acl']['l2-acl']['classify-table']}
+| | ... | ${table_name}
+| | ... | ${data['v3po:acl']['ingress']['l2-acl']['classify-table']}
+| | ... | ${data['v3po:acl']['ingress']['ip4-acl']['classify-table']}
| Interface ACL settings from VAT should be
| | [Documentation] | Retrieves ACL interface settings from VAT\
| | ...
| | ... | \| Honeycomb should show no bridge domains \| ${nodes['DUT1']} \|
| | [Arguments] | ${node}
-| | ${bd_data}= | Get all BDs oper data | ${node}
-| | Should be empty | ${bd_data}
+| | Run keyword and expect error | *Not possible*Status code: 404*
+| | ... | Get all BDs oper data | ${node}
| VAT should show no bridge domains
| | [Documentation] | Uses VAT to verify the removal of all bridge domains.
| | Should be equal | ${vat_state} | ${state}
| Honeycomb sets interface ipv4 address
-| | [Documentation] | Uses Honeycomb API to change ipv4 configuration\
+| | [Documentation] | Uses Honeycomb API to change ipv4 address\
| | ... | of the specified interface.
| | ...
| | ... | *Arguments:*
| | ... | - interface - name of an interface on the specified node. Type: string
| | ... | - address - IP address to set. Type: string
| | ... | - netmask - subnet mask to set. Type: string
-| | ... | - settings - ipv4 interface settings. Type: dictionary
| | ...
| | ... | *Example:*
| | ...
-| | ... | \| Honeycomb sets interface ipv4 configuration \| ${nodes['DUT1']} \
-| | ... | \| GigabitEthernet0/8/0 \| 192.168.0.2 \| 255.255.255.0 \
-| | ... | \| ${{'enabled': True, 'mtu': 1500}} \|
+| | ... | \| Honeycomb sets interface ipv4 address \| ${nodes['DUT1']} \
+| | ... | \| GigabitEthernet0/8/0 \| 192.168.0.2 \| 255.255.255.0 \|
| | [Arguments] | ${node} | ${interface} | ${address} | ${netmask}
-| | ... | ${settings}
| | interfaceAPI.Add first ipv4 address
| | ... | ${node} | ${interface} | ${address} | ${netmask}
-| | :FOR | ${key} | IN | @{settings.keys()}
-| | | interfaceAPI.Configure interface ipv4
-| | | ... | ${node} | ${interface} | ${key} | ${settings['${key}']}
| Honeycomb sets interface ipv4 address with prefix
| | [Documentation] | Uses Honeycomb API to assign an ipv4 address to the\
| | ... | - interface - name of an interface on the specified node. Type: string
| | ... | - address - IP address to set. Type: string
| | ... | - prefix - length of address network prefix. Type: int
-| | ... | - settings - ipv4 interface settings. Type: dictionary
| | ...
| | ... | *Example:*
| | ...
| | ... | \| Honeycomb sets interface ipv4 address with prefix \
| | ... | \| ${nodes['DUT1']} \| GigabitEthernet0/8/0 \| 192.168.0.2 \| 24 \|
| | [Arguments] | ${node} | ${interface} | ${address} | ${prefix}
-| | ... | ${settings}
| | interfaceAPI.Add first ipv4 address
| | ... | ${node} | ${interface} | ${address} | ${prefix}
-| | :FOR | ${key} | IN | @{settings.keys()}
-| | | interfaceAPI.Configure interface ipv4
-| | | ... | ${node} | ${interface} | ${key} | ${settings['${key}']}
-| Honeycomb adds interface ipv4 neighbor
-| | [Documentation] | Uses Honeycomb API to assign an ipv4 neighbor to the\
-| | ... | specified interface.
-| | ...
-| | ... | *Arguments:*
-| | ... | - node - information about a DUT node. Type: dictionary
-| | ... | - interface - name of an interface on the specified node. Type: string
-| | ... | - fib_address - IP address to add to fib table. Type: string
-| | ... | - fib_mac - MAC address to add to fib table. Type: string
-| | ...
-| | ... | *Example:*
-| | ...
-| | ... | \| Honeycomb adds interface ipv4 neighbor \| ${nodes['DUT1']} \
-| | ... | \| GigabitEthernet0/8/0 \| 192.168.0.3 \| 08:00:27:c0:5d:37 \
-| | ... | \| ${{'enabled': True, 'mtu': 1500}} \|
-| | [Arguments] | ${node} | ${interface} | ${fib_address} | ${fib_mac}
-| | interfaceAPI.Add ipv4 neighbor
-| | ... | ${node} | ${interface} | ${fib_address} | ${fib_mac}
-
-| IPv4 config from Honeycomb should be
-| | [Documentation] | Retrieves interface ipv4 configuration through Honeycomb\
+| IPv4 address from Honeycomb should be
+| | [Documentation] | Retrieves interface ipv4 address through Honeycomb\
| | ... | and compares with state supplied in argument.
| | ...
| | ... | *Arguments:*
| | ... | - interface - name of an interface on the specified node. Type: string
| | ... | - address - IP address to expect. Type: string
| | ... | - prefix - prefix length to expect. Type: string
-| | ... | - fib_address - IP address to expect in fib table. Type: string
-| | ... | - fib_mac - MAC address to expect in fib table. Type: string
-| | ... | - settings - ipv4 interface settings to expect. Type: dictionary
| | ...
| | ... | *Example:*
| | ...
-| | ... | \| IPv4 config from Honeycomb should be \| ${nodes['DUT1']} \
+| | ... | \| IPv4 address from Honeycomb should be \| ${nodes['DUT1']} \
| | ... | \| GigabitEthernet0/8/0 \| 192.168.0.2 \| 255.255.255.0 \
-| | ... | \| 192.168.0.3 \| 08:00:27:c0:5d:37 \
-| | ... | \| ${{'enabled': True, 'mtu': 1500}} \|
| | [Arguments] | ${node} | ${interface} | ${address} | ${prefix}
-| | ... | ${fib_address} | ${fib_mac} | ${settings}
| | ${api_data}= | interfaceAPI.Get interface oper data | ${node} | ${interface}
| | Should be equal | ${address}
| | ... | ${api_data['ietf-ip:ipv4']['address'][0]['ip']}
| | Should be equal | ${prefix}
| | ... | ${api_data['ietf-ip:ipv4']['address'][0]['prefix-length']}
-| | Should be equal | ${fib_address}
-| | ... | ${api_data['ietf-ip:ipv4']['neighbor'][0]['ip']}
-| | Should be equal | ${fib_mac}
-| | ... | ${api_data['ietf-ip:ipv4']['neighbor'][0]['link-layer-address']}
-| | :FOR | ${key} | IN | @{settings.keys()}
-| | | Should be equal
-| | | ... | ${settings['${key}']} | ${api_data['ietf-ip:ipv4']['${key}']}
-| IPv4 config from VAT should be
-| | [Documentation] | Retrieves interface ipv4 configuration through VAT and\
+| IPv4 address from VAT should be
+| | [Documentation] | Retrieves interface ipv4 address through VAT and\
| | ... | compares with state supplied in argument.
| | ...
| | ... | *Arguments:*
| | ...
| | ... | *Example:*
| | ...
-| | ... | \| IPv4 config from VAT should be \| ${nodes['DUT1']} \
+| | ... | \| IPv4 address from VAT should be \| ${nodes['DUT1']} \
| | ... | \| GigabitEthernet0/8/0 \| 192.168.0.2 \| 255.255.255.0 \|
| | [Arguments] | ${node} | ${interface} | ${address} | ${netmask}
| | ${vpp_data}= | interfaceCLI.VPP get interface ip addresses
| | ... | \| GigabitEthernet0/8/0 \|
| | [Arguments] | ${node} | ${interface}
| | ${api_data}= | interfaceAPI.Get interface oper data | ${node} | ${interface}
-| | Should be empty | ${api_data['ietf-ip:ipv4']['address']
+| | Run keyword and expect error | *KeyError: 'ietf-ip:ipv4'
+| | ... | Set Variable | ${api_data['ietf-ip:ipv4']['address']}
| IPv4 address from VAT should be empty
| | [Documentation] | Retrieves interface ipv4 configuration through VAT and\
| | ... | \| IPv4 config from VAT should be empty \| ${nodes['DUT1']} \
| | ... | \| GigabitEthernet0/8/0 \|
| | [Arguments] | ${node} | ${interface}
-| | Run keyword and expect error | *No JSON object could be decoded.*
+| | Run keyword and expect error | *No JSON object could be decoded*
| | ... | InterfaceCLI.VPP get interface ip addresses
| | ... | ${node} | ${interface} | ipv4
-| Honeycomb sets interface ipv6 configuration
-| | [Documentation] | Uses Honeycomb API to change ipv6 configuration\
+| Honeycomb adds interface ipv4 neighbor
+| | [Documentation] | Uses Honeycomb API to assign an ipv4 neighbor to the\
+| | ... | specified interface.
+| | ...
+| | ... | *Arguments:*
+| | ... | - node - information about a DUT node. Type: dictionary
+| | ... | - interface - name of an interface on the specified node. Type: string
+| | ... | - fib_address - IP address to add to fib table. Type: string
+| | ... | - fib_mac - MAC address to add to fib table. Type: string
+| | ...
+| | ... | *Example:*
+| | ...
+| | ... | \| Honeycomb adds interface ipv4 neighbor \| ${nodes['DUT1']} \
+| | ... | \| GigabitEthernet0/8/0 \| 192.168.0.3 \| 08:00:27:c0:5d:37 \
+| | [Arguments] | ${node} | ${interface} | ${fib_address} | ${fib_mac}
+| | interfaceAPI.Add ipv4 neighbor
+| | ... | ${node} | ${interface} | ${fib_address} | ${fib_mac}
+
+| IPv4 neighbor from Honeycomb should be
+| | [Documentation] | Retrieves ipv4 neighbor list through Honeycomb\
+| | and compares with neighbor list supplied in argument.
+| | ...
+| | ... | *Arguments:*
+| | ... | - node - information about a DUT node. Type: dictionary
+| | ... | - interface - name of an interface on the specified node. Type: string
+| | ... | - neighbors - list of ipv4 neighbor dictionaries. Type: list
+| | ...
+| | ... | *Example:*
+| | ...
+| | ... | \| IPv4 neighbor from Honeycomb should be \| ${nodes['DUT1']} \
+| | ... | \| GigabitEthernet0/8/0 \| 192.168.0.4 \| 08:00:27:60:26:ab \|
+| | [Arguments] | ${node} | ${interface} | @{neighbors}
+| | ${api_data}= | interfaceAPI.Get interface oper data | ${node} | ${interface}
+| | ${data_neighbors}= | Set Variable | ${api_data['ietf-ip:ipv4']['neighbor']}
+| | Compare data structures
+| | ... | ${data_neighbors} | ${neighbors} | list_order=${False}
+| | Should be equal | ${neighbor['fib_address']}
+| | ... | ${api_data['ietf-ip:ipv4']['neighbor'][0]['ip']}
+| | Should be equal | ${neighbor['fib_mac']}
+| | ... | ${api_data['ietf-ip:ipv4']['neighbor'][0]['link-layer-address']}
+
+| Honeycomb clears all interface ipv4 neighbors
+| | [Documentation] | Uses Honeycomb API to assign an ipv4 neighbor to the\
+| | ... | specified interface.
+| | ...
+| | ... | *Arguments:*
+| | ... | - node - information about a DUT node. Type: dictionary
+| | ... | - interface - name of an interface on the specified node. Type: string
+| | ...
+| | ... | *Example:*
+| | ...
+| | ... | \| Honeycomb clears all interface ipv4 neighbors \| ${nodes['DUT1']} \
+| | ... | \| GigabitEthernet0/8/0 \|
+| | [Arguments] | ${node} | ${interface}
+| | interfaceAPI.clear all ipv4 neighbors | ${node} | ${interface}
+
+| Honeycomb sets interface ipv6 address
+| | [Documentation] | Uses Honeycomb API to change ipv6 address\
| | ... | of the specified interface.
| | ...
| | ... | *Arguments:*
| | ... | - interface - name of an interface on the specified node. Type: string
| | ... | - address - IP address to set. Type: string
| | ... | - prefix - length of subnet prefix to set. Type: string
-| | ... | - fib_address - IP address to add to fib table. Type: string
-| | ... | - fib_mac - MAC address to add to fib table. Type: string
-| | ... | - settings - ipv6 interface settings. Type: dictionary
| | ...
| | ... | *Example:*
| | ...
-| | ... | \| Honeycomb sets interface ipv6 configuration \| ${nodes['DUT1']} \
-| | ... | \| GigabitEthernet0/8/0 \| 10::10 \| 64 \
-| | ... | \| 10::11 \| 08:00:27:c0:5d:37 \| ${{'enabled': True, 'mtu': 1500}} \|
+| | ... | \| Honeycomb sets interface ipv6 address \| ${nodes['DUT1']} \
+| | ... | \| GigabitEthernet0/8/0 \| 10::10 \| 64 \|
| | [Arguments] | ${node} | ${interface} | ${address} | ${prefix}
-| | ... | ${fib_address} | ${fib_mac} | ${settings}
| | interfaceAPI.Add first ipv6 address
| | ... | ${node} | ${interface} | ${address} | ${prefix}
-| | interfaceAPI.Add first ipv6 neighbor
-| | ... | ${node} | ${interface} | ${fib_address} | ${fib_mac}
-| | :FOR | ${key} | IN | @{settings.keys()}
-| | | interfaceAPI.Configure interface ipv6
-| | | ... | ${node} | ${interface} | ${key} | ${settings['${key}']}
-| IPv6 config from Honeycomb should be
-| | [Documentation] | Retrieves interface ipv6 configuration through Honeycomb\
+| IPv6 address from Honeycomb should be
+| | [Documentation] | Retrieves interface ipv6 address through Honeycomb\
| | ... | and compares with state supplied in argument.
| | ...
| | ... | *Arguments:*
| | ... | - interface - name of an interface on the specified node. Type: string
| | ... | - address - IP address to expect. Type: string
| | ... | - prefix - length of subnet prefix to expect. Type: string
-| | ... | - fib_address - IP address to expect in fib table. Type: string
-| | ... | - fib_mac - MAC address to expect in fib table. Type: string
-| | ... | - settings - ipv6 interface settings to expect. Type: dictionary
| | ...
| | ... | *Example:*
| | ...
-| | ... | \| IPv6 config from Honeycomb should be \| ${nodes['DUT1']} \
-| | ... | \| GigabitEthernet0/8/0 \| 10::10 \| 64 \
-| | ... | \| 10::11 \| 08:00:27:c0:5d:37 \| ${{'enabled': True, 'mtu': 1500}} \|
+| | ... | \| IPv6 address from Honeycomb should be \| ${nodes['DUT1']} \
+| | ... | \| GigabitEthernet0/8/0 \| 10::10 \| 64 \|
| | [Arguments] | ${node} | ${interface} | ${address} | ${prefix}
-| | ... | ${fib_address} | ${fib_mac} | ${settings}
| | ${api_data}= | interfaceAPI.Get interface oper data | ${node} | ${interface}
| | Should be equal | ${address}
| | ... | ${api_data['ietf-ip:ipv6']['address'][0]['ip']}
| | Should be equal | ${prefix}
| | ... | ${api_data['ietf-ip:ipv6']['address'][0]['prefix-length']}
| | Should be equal | ${fib_address}
-| | ... | ${api_data['ietf-ip:ipv6']['neighbor'][0]['ip']
-| | Should be equal | ${fib_mac}
-| | ... | ${api_data['ietf-ip:ipv6']['neighbor'][0]['link-layer-address']
-| | :FOR | ${key} | IN | @{settings.keys()}
-| | | Should be equal
-| | ... | ${settings['{key']} | ${api_data['ietf-ip:ipv6']['{$key}']}
-| IPv6 config from VAT should be
-| | [Documentation] | Retrieves interface ipv6 configuration through VAT and\
+| IPv6 address from VAT should be
+| | [Documentation] | Retrieves interface ipv6 address through VAT and\
| | ... | compares with state supplied in argument.
| | ...
| | ... | *Arguments:*
| | ...
| | ... | *Example:*
| | ...
-| | ... | \| IPv6 config from VAT should be \| ${nodes['DUT1']} \
+| | ... | \| IPv6 address from VAT should be \| ${nodes['DUT1']} \
| | ... | \| GigabitEthernet0/8/0 \| 10::10 \| 64 \|
| | [Arguments] | ${node} | ${interface} | ${address} | ${prefix}
| | ${vpp_data}= | interfaceCLI.VPP get interface ip addresses
| | ${api_data}= | interfaceAPI.Get sub interface oper data
| | ... | ${node} | ${super_interface} | ${identifier}
| | interfaceAPI.Compare Data Structures | ${api_data} | ${sub_if_settings}
+| | ... | list_order=${False}
| Sub-interface configuration from Honeycomb should be empty
| | [Documentation] | Retrieves sub-interface configuration through Honeycomb \
| | ...
| | [Arguments] | ${node} | ${super_interface} | ${identifier}
| | ...
-| | Run keyword and expect error | *KeyError: 'sub-interface'*
+| | Run keyword and expect error | *KeyError: 'vpp-vlan:sub-interfaces'*
| | ... | interfaceAPI.Get sub interface oper data
| | ... | ${node} | ${super_interface} | ${identifier}
| | [Arguments] | ${node} | ${super_if} | ${identifier} | ${settings}
| | ${api_data}= | interfaceAPI.Get tag rewrite oper data
| | ... | ${node} | ${super_if} | ${identifier}
-| | interfaceAPI.Compare Data Structures | ${api_data} | ${settings}
+| | interfaceAPI.Compare Data Structures
+| | ... | ${api_data} | ${settings} | list_order=${False}
| Rewrite tag from VAT should be
| | [Documentation] | Retrieves sub-interface configuration through VAT and\
| | [Arguments] | ${node} | ${super_if} | ${identifier}
| | ${if_data}= | interfaceAPI.Get sub interface oper data
| | ... | ${node} | ${super_if} | ${identifier}
-| | Run keyword and expect error | *KeyError: 'address'*
+| | Run keyword and expect error | *KeyError: 'ipv4'*
| | ... | Set Variable | ${if_data['ipv4']['address'][0]['ip']}
| Sub-interface ipv4 address from VAT should be empty
| | ... | ${vat_data['encap_vrf_id']} | ${vxlan_gpe_params['encap-vrf-id']}
| | Should be equal as strings
| | ... | ${vat_data['decap_vrf_id']} | ${vxlan_gpe_params['decap-vrf-id']}
-| | Should be equal as strings | ${vat_data['protocol']}
+# VAT dump multiplies protocol value by 16777216
+| | Should be equal as strings | ${vat_data['protocol']/16777216}
| | ... | ${protocols['${vxlan_gpe_params['next-protocol']}']}
| VxLAN GPE Interface indices from Honeycomb and VAT should correspond
"tags": {
"tag": [
{
- "index": 1,
+ "index": 0,
"dot1q-tag": {
- "tag-type": "dot1q-types:c-vlan",
- "vlan-id": "any"
+ "tag-type": "dot1q-types:s-vlan",
+ "vlan-id": "100"
}
},
{
- "index": 0,
+ "index": 1,
"dot1q-tag": {
- "tag-type": "dot1q-types:s-vlan",
- "vlan-id": "100"
+ "tag-type": "dot1q-types:c-vlan",
+ "vlan-id": "any"
}
- }
+ },
]
},
"match": {
"index": 0,
"dot1q-tag": {
"tag-type": "dot1q-types:s-vlan",
- "vlan-id":123
+ "vlan-id": 123
}
},
{
"vlan-type": "vpp-vlan:802dot1q",
"push-tags": [
{
- "index": 1,
+ "index": 0,
"dot1q-tag": {
- "tag-type": "dot1q-types:c-vlan",
- "vlan-id": 456
+ "tag-type": "dot1q-types:s-vlan",
+ "vlan-id": 123
}
},
{
- "index": 0,
+ "index": 1,
"dot1q-tag": {
- "tag-type": "dot1q-types:s-vlan",
- "vlan-id": 123
+ "tag-type": "dot1q-types:c-vlan",
+ "vlan-id": 456
}
}
]
"pop-tags": 1,
"push-tags": [
{
- "index": 1,
+ "index": 0,
"dot1q-tag": {
- "tag-type": "dot1q-types:c-vlan",
- "vlan-id": 222
+ "tag-type": "dot1q-types:s-vlan",
+ "vlan-id": 111
}
},
{
- "index": 0,
+ "index": 1,
"dot1q-tag": {
- "tag-type": "dot1q-types:s-vlan",
- "vlan-id": 111
+ "tag-type": "dot1q-types:c-vlan",
+ "vlan-id": 222
}
- }
+ },
]
}
| ${ipv4_mask}= | 255.255.255.0
| ${ipv4_prefix}= | ${24}
| @{ipv4_neighbor}= | 192.168.0.4 | 08:00:27:c0:5d:37
-| &{ipv4_settings}= | enabled=${True} | forwarding=${True} | mtu=${9000}
+| &{ipv4_settings}= | mtu=${9000}
| @{ipv6_address}= | 10::10 | ${64}
| @{ipv6_neighbor}= | 10::11 | 08:00:27:c0:5d:37
| &{ipv6_settings}= | enabled=${True} | forwarding=${True} | mtu=${9000}
| ... | Test suite uses the first interface of the first DUT node.
*** Test Cases ***
-# TODO: Remove "continue on failure" once VPP bugs (VPP-132, VPP-333) are fixed.
| Honeycomb configures and reads interface state
| | [Documentation] | Check if Honeycomb API can modify the admin state of\
| | ... | VPP interfaces.
-| | Given Interface State Is | ${node} | ${interface} | down
+| | Given Interface state from Honeycomb should be
+| | ... | ${node} | ${interface} | down
+| | And Interface state from VAT should be | ${node} | ${interface} | down
| | When Honeycomb sets interface state | ${node} | ${interface} | up
| | Then Interface state from Honeycomb should be
| | ... | ${node} | ${interface} | up
| | ... | ${node} | ${interface} | down
| | And Interface state from VAT should be | ${node} | ${interface} | down
-| Honeycomb modifies interface configuration - ipv4 (netmask)
+| Honeycomb modifies interface IPv4 address with netmask
| | [Documentation] | Check if Honeycomb API can configure interfaces for ipv4\
| | ... | with address and netmask provided.
+| | Given IPv4 address from Honeycomb should be empty | ${node} | ${interface}
+| | And ipv4 address from VAT should be empty | ${node} | ${interface}
| | When Honeycomb sets interface ipv4 address | ${node} | ${interface}
-| | ... | ${ipv4_address} | ${ipv4_mask} | ${ipv4_settings}
-| | And Honeycomb adds interface ipv4 neighbor
-| | ... | ${node} | ${interface} | @{ipv4_neighbor}
-| | Run Keyword And Continue On Failure
-| | ... | Then IPv4 config from Honeycomb should be
-| | ... | ${node} | ${interface} | ${ipv4_address} | ${ipv4_prefix}
-| | ... | @{ipv4_neighbor} | ${ipv4_settings}
-| | Run Keyword And Continue On Failure
-| | ... | And IPv4 config from VAT should be
+| | ... | ${ipv4_address} | ${ipv4_mask}
+| | Then IPv4 address from Honeycomb should be
| | ... | ${node} | ${interface} | ${ipv4_address} | ${ipv4_prefix}
+| | And IPv4 address from VAT should be
+| | ... | ${node} | ${interface} | ${ipv4_address} | ${ipv4_mask}
-| Honeycomb removes ipv4 address from interface
+| Honeycomb removes IPv4 address from interface
| | [Documentation] | Check if Honeycomb API can remove configured ipv4\
| | ... | addresses from interface.
-| | Run Keyword And Continue On Failure
-| | ... | Given IPv4 config from Honeycomb should be
-| | ... | ${node} | ${interface} | ${ipv4_address} | ${ipv4_prefix}
-| | ... | @{ipv4_neighbor} | ${ipv4_settings}
-| | Run Keyword And Continue On Failure
-| | ... | And IPv4 config from VAT should be
+| | Given IPv4 address from Honeycomb should be
| | ... | ${node} | ${interface} | ${ipv4_address} | ${ipv4_prefix}
+| | And IPv4 address from VAT should be
+| | ... | ${node} | ${interface} | ${ipv4_address} | ${ipv4_mask}
| | When Honeycomb removes interface ipv4 addresses | ${node} | ${interface}
| | Then IPv4 address from Honeycomb should be empty | ${node} | ${interface}
| | And ipv4 address from VAT should be empty | ${node} | ${interface}
-| Honeycomb modifies interface configuration - ipv4 (prefix)
+| Honeycomb modifies interface IPv4 address with prefix
| | [Documentation] | Check if Honeycomb API can configure interfaces for ipv4\
| | ... | with address and prefix provided.
| | [Teardown] | Honeycomb removes interface ipv4 addresses | ${node}
| | ... | ${interface}
+| | Given IPv4 address from Honeycomb should be empty | ${node} | ${interface}
+| | And ipv4 address from VAT should be empty | ${node} | ${interface}
| | When Honeycomb sets interface ipv4 address with prefix
| | ... | ${node} | ${interface} | ${ipv4_address2} | ${ipv4_prefix}
-| | ... | ${ipv4_settings}
-| | And Honeycomb adds interface ipv4 neighbor
-| | ... | ${node} | ${interface} | @{ipv4_neighbor}
-| | Run Keyword And Continue On Failure
-| | ... | Then IPv4 config from Honeycomb should be
-| | ... | ${node} | ${interface} | ${ipv4_address2} | ${ipv4_prefix}
-| | ... | @{ipv4_neighbor}
-| | ... | ${ipv4_settings}
-| | Run Keyword And Continue On Failure
-| | ... | And IPv4 config from VAT should be
+| | Then IPv4 address from Honeycomb should be
| | ... | ${node} | ${interface} | ${ipv4_address2} | ${ipv4_prefix}
+| | And IPv4 address from VAT should be
+| | ... | ${node} | ${interface} | ${ipv4_address2} | ${ipv4_mask}
-| Honeycomb modifies interface configuration - ipv6
+| Honeycomb modifies IPv4 neighbor table
+| | [Documentation] | Check if Honeycomb API can add and remove ARP entries.
+# Feature not implemented
+| | [Tags] | EXPECTED_FAILING
+| | [Teardown] | Honeycomb clears all interface ipv4 neighbors
+| | ... | ${node} | ${interface}
+| | When Honeycomb adds interface ipv4 neighbor
+| | ... | ${node} | ${interface} | @{ipv4_neighbor}
+| | Then IPv4 neighbor from Honeycomb should be
+| | ... | ${node} | ${interface} | @{ipv4_neighbor}
+# VAT dump not available
+
+| Honeycomb modifies interface configuration - IPv6
| | [Documentation] | Check if Honeycomb API can configure interfaces for ipv6.
-| | When Honeycomb sets interface ipv6 configuration
-| | ... | ${node} | ${interface} | @{ipv6_address} | @{ipv6_neighbor}
-| | ... | ${ipv6_settings}
-| | Run Keyword And Continue On Failure
-| | ... | Then IPv6 config from Honeycomb should be
-| | ... | ${node} | ${interface} | @{ipv6_address} | @{ipv6_neighbor}
-| | ... | ${ipv6_settings}
-| | Run Keyword And Continue On Failure
-| | ... | And IPv6 config from VAT should be
+# Feature not implemented
+| | [Tags] | EXPECTED_FAILING
+| | When Honeycomb sets interface ipv6 address
+| | ... | ${node} | ${interface} | @{ipv6_address}
+| | Then IPv6 address from Honeycomb should be
+| | ... | ${node} | ${interface} | @{ipv6_address}
+| | And IPv6 address from VAT should be
| | ... | ${node} | ${interface} | @{ipv6_address}
| Honeycomb modifies interface configuration - ethernet,routing
| | [Documentation] | Check if Honeycomb API can configure interface ethernet\
| | ... | and routing settings.
+# Feature not implemented
+| | [Tags] | EXPECTED_FAILING
| | When Honeycomb sets interface ethernet and routing configuration
| | ... | ${node} | ${interface} | ${ethernet} | ${routing}
| | Then Interface ethernet and routing configuration from Honeycomb should be
| ... | Restart Honeycomb And VPP And Clear Persisted Configuration | ${node}
*** Test Cases ***
-# TODO: Remove "continue on failure" once VPP bugs (VPP-217, VPP-156) are fixed.
| Honeycomb creates VxLAN GPE tunnel
| | [Documentation] | Check if Honeycomb API can configure a VxLAN GPE tunnel.
| | ...
| | Then VxLAN GPE configuration from Honeycomb should be
| | ... | ${node} | ${vxlan_gpe_if1}
| | ... | ${vxlan_gpe_base_settings} | ${vxlan_gpe_settings}
-| | And run keyword and continue on failure
-| | ... | VxLAN GPE configuration from VAT should be
+| | And VxLAN GPE configuration from VAT should be
| | ... | ${node} | ${vxlan_gpe_if1} | ${vxlan_gpe_settings}
| | And VxLAN GPE Interface indices from Honeycomb and VAT should correspond
| | ... | ${node} | ${vxlan_gpe_if1}
| Honeycomb removes VxLAN GPE tunnel
| | [Documentation] | Check if Honeycomb API can remove VxLAN GPE tunnel.
| | ...
-| | Run Keyword And Continue On Failure
-| | ... | Given VxLAN GPE configuration from Honeycomb should be
+| | Given VxLAN GPE configuration from Honeycomb should be
| | ... | ${node} | ${vxlan_gpe_if1}
| | ... | ${vxlan_gpe_base_settings} | ${vxlan_gpe_settings}
-| | Run Keyword And Continue On Failure
-| | ... | And VxLAN GPE configuration from VAT should be
+| | VxLAN GPE configuration from VAT should be
| | ... | ${node} | ${vxlan_gpe_if1} | ${vxlan_gpe_settings}
| | When Honeycomb removes VxLAN GPE interface
| | ... | ${node} | ${vxlan_gpe_if1}
| | Then VxLAN GPE configuration from Honeycomb should be
| | ... | ${node} | ${vxlan_gpe_if6}
| | ... | ${vxlan_gpe_base_ipv6_settings2} | ${vxlan_gpe_ipv6_settings2}
-| | And run keyword and continue on failure
-| | ... | VxLAN GPE configuration from VAT should be
+| | And VxLAN GPE configuration from VAT should be
| | ... | ${node} | ${vxlan_gpe_if6} | ${vxlan_gpe_ipv6_settings2}
| | And VxLAN GPE Interface indices from Honeycomb and VAT should correspond
| | ... | ${node} | ${vxlan_gpe_if6}
| | ... | ${node} | ${sub_if_name}
| | When Honeycomb creates sub-interface | ${node} | ${super_if}
| | ... | ${sub_if_1_match} | ${sub_if_1_tags} | ${sub_if_1_settings}
-| | Then run keyword and continue on failure
-| | ... | Sub-interface configuration from Honeycomb should be
+| | Then Sub-interface configuration from Honeycomb should be
| | ... | ${node} | ${super_if} | ${sub_if_id} | ${sub_if_1_oper}
-| | And run keyword and continue on failure
-| | ... | Sub-interface configuration from VAT should be
+| | And Sub-interface configuration from VAT should be
| | ... | ${node} | ${sub_if_name} | ${sub_if_1_oper}
| | And sub-interface indices from Honeycomb and VAT should correspond
| | ... | ${node} | ${super_if} | ${sub_if_id}
| Honeycomb sets interface and sub-interface up
-| | [Documentation] | Honeycomb changes the state of interface up and then \
-| | ... | changes the state of its sub-interface up, in this order.
+| | [Documentation] | Honeycomb changes the state of interface\
+| | ... | and of its sub-interface to up.
| | ...
| | Given interface state from Honeycomb should be
| | ... | ${node} | ${super_if} | down
| | And interface state from VAT should be
| | ... | ${node} | ${super_if} | down
+| | Sub-interface state from Honeycomb should be
+| | ... | ${node} | ${super_if} | ${sub_if_id} | down | down
+| | Sub-interface state from VAT should be
+| | ... | ${node} | ${sub_if_name} | down | down
| | When Honeycomb sets interface state
| | ... | ${node} | ${super_if} | up
| | Then interface state from Honeycomb should be
| | ... | ${node} | ${super_if} | up
| | And interface state from VAT should be
| | ... | ${node} | ${super_if} | up
-| | Given run keyword and continue on failure
-| | ... | Sub-interface state from Honeycomb should be
-| | ... | ${node} | ${super_if} | ${sub_if_id} | down | down
-| | And run keyword and continue on failure
-| | ... | Sub-interface state from VAT should be
-| | ... | ${node} | ${sub_if_name} | down | down
| | When Honeycomb sets the sub-interface up
| | ... | ${node} | ${super_if} | ${sub_if_id}
-| | Then run keyword and continue on failure
-| | ... | Sub-interface state from Honeycomb should be
+| | Then Sub-interface state from Honeycomb should be
| | ... | ${node} | ${super_if} | ${sub_if_id} | up | up
| | And sub-interface state from VAT should be
| | ... | ${node} | ${sub_if_name} | up | up
| | ... | ${node} | ${super_if} | up
| | When Honeycomb sets the sub-interface down
| | ... | ${node} | ${super_if} | ${sub_if_id}
-| | Then sub-interface state from Honeycomb should be
-| | ... | ${node} | ${super_if} | ${sub_if_id} | down | down
-| | And sub-interface state from VAT should be
-| | ... | ${node} | ${sub_if_name} | down | down
-| | And interface state from Honeycomb should be
+| | Then interface state from Honeycomb should be
| | ... | ${node} | ${super_if} | up
| | And interface state from VAT should be
| | ... | ${node} | ${super_if} | up
+| | And sub-interface state from Honeycomb should be
+| | ... | ${node} | ${super_if} | ${sub_if_id} | down | up
+| | And sub-interface state from VAT should be
+| | ... | ${node} | ${sub_if_name} | down | up
| Honeycomb sets interface and sub-interface down
| | [Documentation] | Honeycomb changes the state of interface down and then \
| | ... | ${node} | ${super_if} | ${sub_if_id} | ${sub_if_1_oper}
| | And sub-interface configuration from VAT should be
| | ... | ${node} | ${sub_if_name} | ${sub_if_1_oper}
-| | When Honeycomb creates L2 bridge domain
+| | When Honeycomb creates first L2 bridge domain
| | ... | ${node} | ${bd_name} | ${bd_settings}
| | Then bridge domain configuration from Honeycomb should be
| | ... | ${node} | ${bd_name} | ${bd_settings}
| | ... | ${node} | ${sub_if_name}
| | ... | ${ipv4['address']} | ${ipv4['prefix-length']}
-#TODO: Remove "continue on failure" once VPP bug VPP-132 is fixed.
| Honeycomb removes sub-interface ipv4 address
| | [Documentation] | Check if Honeycomb can remove configured ipv4 addresses\
| | ... | from the sub-interface.
| | Honeycomb sets interface state | ${dut_node} | ${dut_to_tg_if1} | up
| | Honeycomb sets interface state | ${dut_node} | ${dut_to_tg_if2} | up
| | Honeycomb sets interface ipv4 address with prefix | ${dut_node}
-| | ... | ${dut_to_tg_if1} | ${dut_to_tg_if1_ip}
-| | ... | ${prefix_length} | ${if_settings}
+| | ... | ${dut_to_tg_if1} | ${dut_to_tg_if1_ip} | ${prefix_length}
| | Honeycomb sets interface ipv4 address with prefix | ${dut_node}
-| | ... | ${dut_to_tg_if2} | ${dut_to_tg_if2_ip}
-| | ... | ${prefix_length} | ${if_settings}
+| | ... | ${dut_to_tg_if2} | ${dut_to_tg_if2_ip} | ${prefix_length}
# TODO: Configure routes through Honeycomb when implemented.(Honeycomb-58)
| | Add ARP on DUT
| | ... | ${node} | ${dut_to_tg_if2} | ${gateway} | ${tg_to_dut_if2_mac}
| | ... | ${test_data_id} | ${acl_name}
| | Honeycomb Sets Interface State | ${dut_node} | ${dut_to_tg_if1} | up
| | Honeycomb Sets Interface State | ${dut_node} | ${dut_to_tg_if2} | up
-| | Honeycomb Creates L2 Bridge Domain
+| | Honeycomb Creates first L2 Bridge Domain
| | ... | ${dut_node} | ${bd_name} | ${bd_settings}
| | Honeycomb Adds Interfaces To Bridge Domain
| | ... | ${dut_node} | ${dut_to_tg_if1} | ${dut_to_tg_if2}