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/AWS1/CL_DCO=>CREATELAG()

About CreateLag

Creates a link aggregation group (LAG) with the specified number of bundled physical dedicated connections between the customer network and a specific Direct Connect location. A LAG is a logical interface that uses the Link Aggregation Control Protocol (LACP) to aggregate multiple interfaces, enabling you to treat them as a single interface.

All connections in a LAG must use the same bandwidth (either 1Gbps, 10Gbps, 100Gbps, or 400Gbps) and must terminate at the same Direct Connect endpoint.

You can have up to 10 dedicated connections per location. Regardless of this limit, if you request more connections for the LAG than Direct Connect can allocate on a single endpoint, no LAG is created..

You can specify an existing physical dedicated connection or interconnect to include in the LAG (which counts towards the total number of connections). Doing so interrupts the current physical dedicated connection, and re-establishes them as a member of the LAG. The LAG will be created on the same Direct Connect endpoint to which the dedicated connection terminates. Any virtual interfaces associated with the dedicated connection are automatically disassociated and re-associated with the LAG. The connection ID does not change.

If the Amazon Web Services account used to create a LAG is a registered Direct Connect Partner, the LAG is automatically enabled to host sub-connections. For a LAG owned by a partner, any associated virtual interfaces cannot be directly configured.

Method Signature

IMPORTING

Required arguments:

iv_numberofconnections TYPE /AWS1/DCOCOUNT /AWS1/DCOCOUNT

The number of physical dedicated connections initially provisioned and bundled by the LAG. You can have a maximum of four connections when the port speed is 1Gbps or 10Gbps, or two when the port speed is 100Gbps or 400Gbps.

iv_location TYPE /AWS1/DCOLOCATIONCODE /AWS1/DCOLOCATIONCODE

The location for the LAG.

iv_connectionsbandwidth TYPE /AWS1/DCOBANDWIDTH /AWS1/DCOBANDWIDTH

The bandwidth of the individual physical dedicated connections bundled by the LAG. The possible values are 1Gbps,10Gbps, 100Gbps, and 400Gbps.

iv_lagname TYPE /AWS1/DCOLAGNAME /AWS1/DCOLAGNAME

The name of the LAG.

Optional arguments:

iv_connectionid TYPE /AWS1/DCOCONNECTIONID /AWS1/DCOCONNECTIONID

The ID of an existing dedicated connection to migrate to the LAG.

it_tags TYPE /AWS1/CL_DCOTAG=>TT_TAGLIST TT_TAGLIST

The tags to associate with the LAG.

it_childconnectiontags TYPE /AWS1/CL_DCOTAG=>TT_TAGLIST TT_TAGLIST

The tags to associate with the automtically created LAGs.

iv_providername TYPE /AWS1/DCOPROVIDERNAME /AWS1/DCOPROVIDERNAME

The name of the service provider associated with the LAG.

iv_requestmacsec TYPE /AWS1/DCOREQUESTMACSEC /AWS1/DCOREQUESTMACSEC

Indicates whether the connection will support MAC Security (MACsec).

All connections in the LAG must be capable of supporting MAC Security (MACsec). For information about MAC Security (MACsec) prerequisties, see MACsec prerequisties in the Direct Connect User Guide.

RETURNING

oo_output TYPE REF TO /aws1/cl_dcolag /AWS1/CL_DCOLAG

Domain /AWS1/RT_ACCOUNT_ID
Primitive Type NUMC

Examples

Syntax Example

This is an example of the syntax for calling the method. It includes every possible argument and initializes every possible value. The data provided is not necessarily semantically accurate (for example the value "string" may be provided for something that is intended to be an instance ID, or in some cases two arguments may be mutually exclusive). The syntax shows the ABAP syntax for creating the various data structures.

DATA(lo_result) = lo_client->/aws1/if_dco~createlag(
  it_childconnectiontags = VALUE /aws1/cl_dcotag=>tt_taglist(
    (
      new /aws1/cl_dcotag(
        iv_key = |string|
        iv_value = |string|
      )
    )
  )
  it_tags = VALUE /aws1/cl_dcotag=>tt_taglist(
    (
      new /aws1/cl_dcotag(
        iv_key = |string|
        iv_value = |string|
      )
    )
  )
  iv_connectionid = |string|
  iv_connectionsbandwidth = |string|
  iv_lagname = |string|
  iv_location = |string|
  iv_numberofconnections = 123
  iv_providername = |string|
  iv_requestmacsec = ABAP_TRUE
).

This is an example of reading all possible response values

lo_result = lo_result.
IF lo_result IS NOT INITIAL.
  lv_bandwidth = lo_result->get_connectionsbandwidth( ).
  lv_count = lo_result->get_numberofconnections( ).
  lv_lagid = lo_result->get_lagid( ).
  lv_owneraccount = lo_result->get_owneraccount( ).
  lv_lagname = lo_result->get_lagname( ).
  lv_lagstate = lo_result->get_lagstate( ).
  lv_locationcode = lo_result->get_location( ).
  lv_region = lo_result->get_region( ).
  lv_count = lo_result->get_minimumlinks( ).
  lv_awsdevice = lo_result->get_awsdevice( ).
  lv_awsdevicev2 = lo_result->get_awsdevicev2( ).
  lv_awslogicaldeviceid = lo_result->get_awslogicaldeviceid( ).
  LOOP AT lo_result->get_connections( ) into lo_row.
    lo_row_1 = lo_row.
    IF lo_row_1 IS NOT INITIAL.
      lv_owneraccount = lo_row_1->get_owneraccount( ).
      lv_connectionid = lo_row_1->get_connectionid( ).
      lv_connectionname = lo_row_1->get_connectionname( ).
      lv_connectionstate = lo_row_1->get_connectionstate( ).
      lv_region = lo_row_1->get_region( ).
      lv_locationcode = lo_row_1->get_location( ).
      lv_bandwidth = lo_row_1->get_bandwidth( ).
      lv_vlan = lo_row_1->get_vlan( ).
      lv_partnername = lo_row_1->get_partnername( ).
      lv_loaissuetime = lo_row_1->get_loaissuetime( ).
      lv_lagid = lo_row_1->get_lagid( ).
      lv_awsdevice = lo_row_1->get_awsdevice( ).
      lv_jumboframecapable = lo_row_1->get_jumboframecapable( ).
      lv_awsdevicev2 = lo_row_1->get_awsdevicev2( ).
      lv_awslogicaldeviceid = lo_row_1->get_awslogicaldeviceid( ).
      lv_haslogicalredundancy = lo_row_1->get_haslogicalredundancy( ).
      LOOP AT lo_row_1->get_tags( ) into lo_row_2.
        lo_row_3 = lo_row_2.
        IF lo_row_3 IS NOT INITIAL.
          lv_tagkey = lo_row_3->get_key( ).
          lv_tagvalue = lo_row_3->get_value( ).
        ENDIF.
      ENDLOOP.
      lv_providername = lo_row_1->get_providername( ).
      lv_macseccapable = lo_row_1->get_macseccapable( ).
      lv_portencryptionstatus = lo_row_1->get_portencryptionstatus( ).
      lv_encryptionmode = lo_row_1->get_encryptionmode( ).
      LOOP AT lo_row_1->get_macseckeys( ) into lo_row_4.
        lo_row_5 = lo_row_4.
        IF lo_row_5 IS NOT INITIAL.
          lv_secretarn = lo_row_5->get_secretarn( ).
          lv_ckn = lo_row_5->get_ckn( ).
          lv_state = lo_row_5->get_state( ).
          lv_startondate = lo_row_5->get_starton( ).
        ENDIF.
      ENDLOOP.
    ENDIF.
  ENDLOOP.
  lv_booleanflag = lo_result->get_allowshostedconnections( ).
  lv_jumboframecapable = lo_result->get_jumboframecapable( ).
  lv_haslogicalredundancy = lo_result->get_haslogicalredundancy( ).
  LOOP AT lo_result->get_tags( ) into lo_row_2.
    lo_row_3 = lo_row_2.
    IF lo_row_3 IS NOT INITIAL.
      lv_tagkey = lo_row_3->get_key( ).
      lv_tagvalue = lo_row_3->get_value( ).
    ENDIF.
  ENDLOOP.
  lv_providername = lo_result->get_providername( ).
  lv_macseccapable = lo_result->get_macseccapable( ).
  lv_encryptionmode = lo_result->get_encryptionmode( ).
  LOOP AT lo_result->get_macseckeys( ) into lo_row_4.
    lo_row_5 = lo_row_4.
    IF lo_row_5 IS NOT INITIAL.
      lv_secretarn = lo_row_5->get_secretarn( ).
      lv_ckn = lo_row_5->get_ckn( ).
      lv_state = lo_row_5->get_state( ).
      lv_startondate = lo_row_5->get_starton( ).
    ENDIF.
  ENDLOOP.
ENDIF.