a10_netflow_template

Synopsis

IPFIX Custom Template

Parameters

Parameters

Choices/Defaults

Comment

state

str/required

[‘noop’, ‘present’, ‘absent’]

State of the object to be created.

ansible_host

str/required

Host for AXAPI authentication

ansible_username

str/required

Username for AXAPI authentication

ansible_password

str/required

Password for AXAPI authentication

ansible_port

int/required

Port for AXAPI authentication

a10_device_context_id

int

[‘1-8’]

Device ID for aVCS configuration

a10_partition

str

Destination/target partition for object/command

name

str/required

IPFIX CUSTOM Template Name

information_element_blk

list

Field information_element_blk

information_element

str

‘fwd-tuple-vnp-id’= Session forward tuple partition id (ID= 33028); ‘rev-tuple- vnp-id’= Session reverse tuple partition id (ID= 33029); ‘source-ipv4-address’= IPv4 source address in the IP packet header (ID= 8); ‘source-ipv4-prefix-len’= Prefix length for IPv4 source address(ID= 9); ‘dest-ipv4-address’= IPv4 destination address in the IP packet header (ID= 12); ‘dest-ipv4-prefix-len’= Prefix length for IPv4 dest address(ID= 13); ‘source-ipv6-address’= IPv6 source address in the IP packet header (ID= 27); ‘source-ipv6-prefix-len’= Prefix length for IPv6 source address(ID=29); ‘dest-ipv6-address’= IPv6 destination address in the IP packet header (ID=28); ‘dest-ipv6-prefix-len’= Prefix length for IPv6 dest address (ID=30); ‘post-nat-source-ipv4-address’= IPv4 natted source address (ID= 225); ‘post-nat-dest-ipv4-address’= IPv4 natted destination address(ID= 226); ‘post-nat-source-ipv6-address’= IPv6 natted source address (ID= 281); ‘post-nat-dest-ipv6-address’= IPv6 natted destination address (ID= 282); ‘source-port’= Source port identifier in the transport header (ID= 7); ‘dest-port’= Destination port identifier in the transport header (ID= 11); ‘post-nat-source-port’= L4 natted source port(ID= 227); ‘post-nat-dest-port’= L4 natted destination port (ID= 228); ‘fwd-tuple-type’= Session forward tuple type (ID= 33024); ‘rev-tuple-type’= Session reverse tuple type (ID= 33025); ‘ip-proto’= Value of the protocol number in the IP packet header (ID= 4); ‘flow-direction’= Flow direction= 0=inbound(To an outside interface)/1=outbound(To an inside interface) (ID= 61); ‘tcp-control-bits’= Cumulative of all the TCP flags seen for this flow (ID= 6); ‘fwd-bytes’= Incoming bytes associated with an IP Flow (ID= 1); ‘fwd-packets’= Incoming packets associated with an IP Flow (ID= 2); ‘rev-bytes’= Delta bytes in reverse direction of bidirectional flow record (ID= 32769); ‘rev-packets’= Delta packets in reverse direction of bidirectional flow record (ID= 32770); ‘in- port’= Incoming interface port (ID= 10); ‘out-port’= Outcoming interface port (ID= 14); ‘in-interface’= Incoming interface name e.g. ethernet 0 (ID= 82); ‘out-interface’= Outcoming interface name e.g. ethernet 0 (ID= 32850); ‘port- range-start’= Port number identifying the start of a range of ports (ID= 361); ‘port-range-end’= Port number identifying the end of a range of ports (ID= 362); ‘port-range-step-size’= Step size in a port range (ID= 363); ‘port-range- num-ports’= Number of ports in a port range (ID= 364); ‘rule-name’= Rule Name (ID= 33034); ‘rule-set-name’= Rule-Set Name (ID= 33035); ‘fw-source-zone’= Firewall Source Zone Name (ID= 33036); ‘fw-dest-zone’= Firewall Dest Zone Name (ID= 33037); ‘application-id’= Application ID (ID= 95); ‘application-name’= Application Name (ID= 96); ‘imsi’= Subscriber Attribute IMSI (ID= 455); ‘msisdn’= Subscriber Attribute MSISDN (ID= 456); ‘imei’= Subscriber Attribute IMEI (ID= 33030); ‘radius-custom1’= Radius Attribute Custom 1 (ID= 33031); ‘radius-custom2’= Radius Attribute Custom 2(ID= 33032); ‘radius-custom3’= Radius Attribute Custom 3 (ID=33033); ‘radius-custom4’= Radius Attribute Custom 4 (ID= 33067); ‘radius-custom5’= Radius Attribute Custom 5(ID= 33068); ‘radius- custom6’= Radius Attribute Custom 6 (ID=33069); ‘flow-start-msec’= The absolute timestamp of the first packet of the flow (ID= 152); ‘flow-duration-msec’= Difference in time between the first observed packet of this flow and the last observed packet of this flow (4 bytes) (ID= 161); ‘flow-duration-msec-64’= Difference in time between the first observed packet of this flow and the last observed packet of this flow (8 bytes) (ID= 33039); ‘flow-end-msec’= The absolute timestamp of the last packet of the flow (ID= 153); ‘nat-event’= Indicates a NAT event (ID= 230); ‘fw-event’= Indicates a FW session event(ID= 233); ‘fw-deny-reset-event’= Indicates a FW deny/reset event (ID= 33038); ‘cgn- flow-direction’= Flow direction= 0=inbound(To an outside interface)/1=outbound(To an inside interface)/2=hairpin(From an inside interface to an inside interface) (ID= 33040); ‘fw-dest-fqdn’= Firewall matched fqdn(ID= 33041); ‘flow-end-reason’= A10 flow end reason(ID= 33042); ‘gtp-deny- reason’= Indicates a GTP deny event (ID= 33043); ‘gtp-apn’= Indicates GTP APN (ID= 33044); ‘gtp-steid’= Indicates GTP Source TEID (ID= 33045); ‘gtp-dteid’= Indicates GTP Destination TEID (ID= 33046); ‘gtp-selection-mode’= Indicates GTP Selection Mode (ID= 33047); ‘gtp-mcc’= Indicates the MCC of the Serving Network (ID= 33048); ‘gtp-mnc’= Indicates the MNC of the serving network (ID= 33049); ‘gtp-rat-type’= Indicates the RAT Type received in the GTP Control packet (ID= 33050); ‘gtp-pdn-pdp-type’= Indicates the PDN/PDP Type in the GTP Control Packet (ID= 33051); ‘gtp-uli’= Indicates the User Location Information (ID= 33052); ‘gtp-enduser-v4-addr’= Indicates the Subscriber IPv4 Address (ID= 33053); ‘gtp-enduser-v6-addr’= Indicates the Subscriber IPv6 Address (ID= 33054); ‘gtp-bearer-id-or-nsapi’= Indicates the EPS Bearer ID or NSAPI of the Subscriber (ID= 33055); ‘gtp-qci’= Indicates the QoS Profile or Traffic Class of the subscriber (ID= 33056); ‘gtp-info-event-ind’= Indicates a GTP Info event(ID= 33057); ‘gtp-restarted-node-ipv4’= Restarted S5 Node IPV4 Address(ID= 33058); ‘gtp-restarted-node-ipv6’= Restarted S5 Node IPV6 Address(ID= 33059); ‘gtp-c-tunnels-removed-with-node-restart’= Indicates GTP-C tunnels removed by Node restart (ID= 33060); ‘radius-imsi’= Subscriber Attribute IMSI (Deprecated Field) (ID= 455); ‘radius-msisdn’= Subscriber Attribute MSISDN (Deprecated Field) (ID= 456); ‘radius-imei’= Subscriber Attribute IMEI (Deprecated Field) (ID= 33030); ‘event-time-msec’= The absolute time in milliseconds of an event observation(ID= 323); ‘security-event-type’= Type of security event(ID= 33063); ‘limit-exceeded-count’= Limit exceeded count for FW concurrent session(ID= 33062); ‘rate-limit-key’= Rate Limit Key(ID= 33064); ‘rate-limit-type’= Rate Limit Type(ID= 33065); ‘rate-limit-drop-count’= Rate Limit Drop Count(ID= 33066);

ipfix_template_id

int

Custom IPFIX Template ID

uuid

str

uuid of the object

user_tag

str

Customized tag

Examples


Return Values

modified_values (changed, dict, )

Values modified (or potential changes if using check_mode) as a result of task operation

axapi_calls (always, list, )

Sequential list of AXAPI calls made by the task

endpoint (, str, [‘/axapi/v3/slb/virtual_server’, ‘/axapi/v3/file/ssl-cert’])

The AXAPI endpoint being accessed.

http_method (, str, [‘POST’, ‘GET’])

HTTP method being used by the primary task to interact with the AXAPI endpoint.

request_body (, complex, )

Params used to query the AXAPI

response_body (, complex, )

Response from the AXAPI

Status

  • This module is not guaranteed to have a backwards compatible interface. [preview]

  • This module is maintained by community.

Authors

  • A10 Networks