The following examples require the installation of the CE100b.LAN and iANS.LAN.
;- This file gives examples of load and bind statements to add to
;- your AUTOEXEC.NCF file for setting up Advanced Network Services
;- on Intel(R) PRO Ethernet adapters.
# CONTENTS
# Example 1: 2 Adapter Fault Tolerant Team (Gigabit & Intelligent Server)
# Example 2: 2 Adapter ALB Team with 2 PROTOCOLS (E_II Frame TYPE)
# Example 3: 2 TEAMS - 2 adapter AFT team & 4 Adapter FEC team
# Example 4: 1 Adapter, 4 FrameTypes, 2 802.1q VLANs (#5&6), 2 Protocols
# Example 5: 2 Adapter ALB team, 5 VLANs, 1 Frame Type, 2 Protocols
# Example 6: 2 ISL VLANs on 1 adapter, 2 frametypes per VLAN
#XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX
# Example 1: 2 Adapter Fault Tolerant Team (Gigabit & Intelligent Server)
# The following is an example of an AFT team that consists of a gigabit adapter
# and an Intelligent Server adapter. The Gigabit is the primary and the
# Intelligent Server is the secondary. For the sake of simplicity, only one
# frame type, the default of 802.2, is used. Because the default frame type
# is used, it does not need to be specified on the command line. It is also
# assumed that only one instance of each adapter is present in the system so
# a slot number does not need to be specified.
; First the base driver must be loaded for each adapter and frame type involved
; in the team. As this example only uses 802.2, each adapter only has it's
; base driver loaded once.
load CE1000
load CE100SNW
; Second step is to load IANS.LAN to form the basis of a team. For this
; example IANS is only loaded once. If multiple frame types are used, iANS
; is loaded once for each frame type.
load IANS
; Once IANS.LAN is loaded, it looks like a protocol, so we can bind it to the
; physical adapter. IANS.LAN needs to be bound to each physical adapter in
; the team. The "PRIMARY" keyword is used to make iANS favor one particular
; adapter. If a team loses the connection on it's primary adapter it will
; switch to the other adapter(s). If the primary adapter recovers, iANS
: will switch back to it. In mixed speed teams always set the fastest
; adapter in the team as the primary.
bind IANS CE1000 PRIMARY
bind IANS CE100SNW
; The commit command creates the team. The default mode is AFT. Since
; that is what this example is after, we do not need to specify a mode.
load IANS COMMIT
; Once the team has been committed, it looks like an adapter, so now we can
; bind protocols to IANS.
bind IPX IANS net=102
#XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX
# Example 2: 2 Adapter ALB Team with 2 PROTOCOLS (E_II Frame TYPE)
# This example is slightly more complicated. It still only uses one frame
# type, but it uses Ethernet_II which is not the default and must be specified.
# It will be a load balanced team (ALB) of Intelligent Server adapters and have
# both IPX and IP bound to the IANS team. This example assumes a server with
# 2 Intelligent Server adapters, one in PCI slot 1 and the other in PCI slot 2.
;Load TCPIP.NLM. This can be done at any point before binding IP.
load TCPIP
; Load the base drivers for each adapter in the team. Since the default
; frame type (802.2) is not the one in use, the frame type (Ethernet_II)
; must be specified on the driver load line. Also, as two different
; Intelligent Server adapters are in use, each one needs to be assigned a
; name for later reference.
load CE100SNW slot=1 frame=ETHERNET_II name=Primary_CE100SNW_II
load CE100SNW slot=2 frame=ETHERNET_II name=Secondary_CE100SNW_II
; Load IANS.LAN to form the groundwork for the team. Again, the frame type
; needs to be specified as it is not the default. If multiple frame types,
; multiple VLANs or multiple teams get used then this command requires that
; a "name" is issued for each instance of IANS. In this example a "name"
; for the team is optional.
load IANS frame=ETHERNET_II
; Bind IANS.LAN to each physical adapter using the names we defined when
; the base drivers were loaded
bind IANS Primary_CE100SNW_II
bind IANS Secondary_CE100SNW_II
; Create the team in load balancing mode.
load IANS COMMIT MODE=ALB
; bind both IPX and IP as if IANS was a physical adapter.
bind IPX IANS net=111
bind IP IANS Address=192.168.1.1 Mask=255.255.255.0
#XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX
# Example 3: 2 TEAMS - 2 adapter AFT team & 4 Adapter FEC team
# This example will make 2 teams. The first will be a fault tolerant team
# of a Gigabit Server Adapter (CE1000.LAN) and a PRO/100 (CE100B.LAN). The
# second team will consist of four Intelligent Server adapters (CE100SNW.LAN)
# configured as a "Fast Ether Channel" team. Note that the term "Fast Ether
# Channel" is a term that refers to Cisco's implementation of 100MB port
# aggregation. With Gigabit teams it would technically be called "Gigabit
# Ether Channel", or "GEC". This example uses IPX on both Ethernet 802.2
# and Ethernet II. It also uses IP on Ethernet II.
;load TCPIP.NLM. Must be done before IP is bound.
LOAD TCPIP
; Load the base drivers for the first team.
LOAD CE1000 SLOT=1 FRAME=Ethernet_802.2 NAME=GIG_E82
LOAD CE1000 SLOT=1 FRAME=Ethernet_II NAME=GIG_EII
LOAD CE100B SLOT=2 FRAME=Ethernet_802.2 NAME=100M_E82
LOAD CE100B SLOT=2 FRAME=Ethernet_II NAME=100M_EII
; Load IANS.LAN for the first team. The team number is included on the command
; line here. If "TEAM=1" is not included, IANS will default to team 1, so for
; this portion of the example, the "TEAM" command line switch is optional.
LOAD IANS FRAME=ETHERNET_802.2 NAME=GIG_FT_E82
TEAM=1
LOAD IANS FRAME=ETHERNET_II NAME=GIG_FT_EII TEAM=1
; Bind IANS to the base driver for each adapter and each frame type. Bind to
; the name of the base driver instance (assigned when the driver was loaded)
; and specify the team number.
BIND IANS GIG_E82 TEAM=1 PRIMARY
BIND IANS GIG_EII TEAM=1 PRIMARY
BIND IANS 100M_E82 TEAM=1
BIND IANS 100M_EII TEAM=1
; commit for team 1
LOAD IANS COMMIT MODE=AFT TEAM=1
; Bind IPX to both frame types and bind IP to Ethernet II.
BIND IPX GIG_FT_E82 NET=102
BIND IPX GIG_FT_EII NET=111
BIND IP GIG_FT_EII ADDR=128.181.11.1 MASK=255.255.255.0
; Now load the base drivers for the second team (FEC).
LOAD CE100SNW SLOT=6 FRAME=Ethernet_802.2 NAME=FEC_1_E82
LOAD CE100SNW SLOT=6 FRAME=Ethernet_II NAME=FEC_1_EII
LOAD CE100SNW SLOT=5 FRAME=Ethernet_802.2 NAME=FEC_2_E82
LOAD CE100SNW SLOT=5 FRAME=Ethernet_II NAME=FEC_2_EII
LOAD CE100SNW SLOT=4 FRAME=Ethernet_802.2 NAME=FEC_3_E82
LOAD CE100SNW SLOT=4 FRAME=Ethernet_II NAME=FEC_3_EII
LOAD CE100SNW SLOT=3 FRAME=Ethernet_802.2 NAME=FEC_4_E82
LOAD CE100SNW SLOT=3 FRAME=Ethernet_II NAME=FEC_4_EII
; Load IANS.LAN for the second team. Name each frame type with the "NAME"
; keyword and specify the second team with the "TEAM=2" keyword.
LOAD IANS FRAME=ETHERNET_802.2 NAME=FEC_TEAM_E82 TEAM=2
LOAD IANS FRAME=ETHERNET_II NAME=FEC_TEAM_EII TEAM=2
; Bind IANS to the base driver for each adapter and each frame type. Bind to
; the name of the base driver instance (assigned when the driver was loaded)
; and specify the team number.
bind IANS FEC_1_E82 TEAM=2
bind IANS FEC_1_EII TEAM=2
bind IANS FEC_2_E82 TEAM=2
bind IANS FEC_2_EII TEAM=2
bind IANS FEC_3_E82 TEAM=2
bind IANS FEC_3_EII TEAM=2
bind IANS FEC_4_E82 TEAM=2
bind IANS FEC_4_EII TEAM=2
; commit for team 2
LOAD IANS COMMIT MODE=FEC TEAM=2
; Bind IPX to both frame types and bind IP to Ethernet II.
BIND IPX FEC_TEAM_E82 NET=202
BIND IPX FEC_TEAM_EII NET=211
BIND IP FEC_TEAM_EII ADDR=128.181.22.1 MASK=255.255.255.0
#XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX
# Example 4: 1 Adapter, 4 FrameTypes, 2 802.1q VLANs (Vlan 5 & 6), 2 Protocols
# Now for VLAN...
# In order to use iANS.LAN in VLAN mode, the adapter (or adapters) need to
# be connected to a "tagged" port (Cisco calls it a trunk port) on an IEEE
# 802.1Q compliant switch. The exception to this is a specification of VLAN
# called "ISL VLAN", which is an older, Cisco implementation. For that, the
# adapter needs to be attached to a trunk port on an "ISL" capable Cisco
# switch, the base driver needs to support "ISL VLAN" (Currently only adapters
# that run under the driver for the Intelligent Server adapter support
# "ISL") This example uses 802.1Q VLAN which is supported by all new Intel
# adapters and most of the older ones. It will use a single 8255x based
# adapter and be configured for two VLANs, VLAN 5 and VLAN 6. It will also
# use all four NetWare frame types and bind both the IPX and IP protocols.
;load TCPIP.NLM. Must be done before IP is bound.
LOAD TCPIP
; load the base driver for each frame type
load ce100b slot=5 frame=ethernet_802.2 name=e82
load ce100b slot=5 frame=ethernet_802.3 name=e83
load ce100b slot=5 frame=ethernet_snap name=esp
load ce100b slot=5 frame=ethernet_ii name=eii
; load ians and specify the vlanid for each frame type and each VLAN the server
; is supposed to be part of. On a single team configuration "team=1" is
; optional as that is the default setting.
; First ians is loaded for vlan 5, assigning a name of 5xx to each instance.
load ians vlanid=5 frame=ethernet_802.2 name=582 team=1
load ians vlanid=5 frame=ethernet_802.3 name=583 team=1
load ians vlanid=5 frame=ethernet_snap name=5sp team=1
load ians vlanid=5 frame=ethernet_ii name=5ii team=1
; Then ians is loaded for vlan 6, assigning a name of 6xx to each instance.
load ians vlanid=6 frame=ethernet_802.2 name=682 team=1
load ians vlanid=6 frame=ethernet_802.3 name=683 team=1
load ians vlanid=6 frame=ethernet_snap name=6sp team=1
load ians vlanid=6 frame=ethernet_ii name=6ii team=1
; After loading ians for all the desired VLANs, bind ians to the base driver
; using the name that was defined when the base drivers were originally loaded.
bind ians e82 team=1
bind ians e83 team=1
bind ians esp team=1
bind ians eii team=1
; Now the team can be created with an ians commit command.
load ians commit team=1
; and protocols can be bound to each instance (VLAN and frame type) of ians in
; the same manner as if they were being bound to a physical adapter.
bind ipx 582 net=502
bind ipx 583 net=503
bind ipx 5sp net=505
bind ipx 5ii net=511
bind ip 5ii addr=192.168.52.1 mask=ff.ff.ff.0
bind ipx 682 net=602
bind ipx 683 net=603
bind ipx 6sp net=605
bind ipx 6ii net=611
bind ip 6ii addr=192.168.62.1 mask=ff.ff.ff.0
#XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX
# Example 5: 2 Adapter ALB team, 5 VLANs, 1 Frame Type, 2 Protocols
# Teaming and VLAN can be implemented at the same time. The script gets
# large quickly so this example will only use one frame type. So that both IP
# and IPX can be bound to it, the Ethernet_II frame type will be used instead
# of Novell's default 802.2. A homogenous team of 2 load balanced Intelligent
# Server adapters configured as members of 5 different VLANs will be used here.
; load TCPIP.NLM. Must be done before IP is bound.
LOAD TCPIP
; Load the base drivers for each adapter in the team.
LOAD CE100SNW SLOT=1 FRAME=ETHERNET_II NAME=Primary_II
LOAD CE100SNW SLOT=2 FRAME=ETHERNET_II NAME=Secondary_II
; Load IANS.LAN with the VLANID keyword once for each VLAN that the server is
; intended to communicate with. Assign a name so that each instance can
; referenced when binding the network protocols.
LOAD IANS FRAME=ETHERNET_II VLANID=10 NAME=V10 TEAM=1
LOAD IANS FRAME=ETHERNET_II VLANID=20 NAME=V20 TEAM=1
LOAD IANS FRAME=ETHERNET_II VLANID=30 NAME=V30 TEAM=1
LOAD IANS FRAME=ETHERNET_II VLANID=40 NAME=V40 TEAM=1
LOAD IANS FRAME=ETHERNET_II VLANID=50 NAME=V50 TEAM=1
; Bind ians to each physical adapter.
BIND IANS PRIMARY_II PRIMARY
BIND IANS SECONDARY_II
; Create the team in load balancing mode.
LOAD IANS COMMIT MODE=ALB
; And bind both IPX and IP to iANS for each VLAN.
;IPX first
BIND IPX V10 NET=1011
BIND IPX V20 NET=2011
BIND IPX V30 NET=3011
BIND IPX V40 NET=4011
BIND IPX V50 NET=5011
;and IP
BIND IP V10 ADDR=23.17.10.1 MASK=FF.FF.0.0
BIND IP V20 ADDR=23.17.20.1 MASK=FF.FF.0.0
BIND IP V30 ADDR=23.17.30.1 MASK=FF.FF.0.0
BIND IP V40 ADDR=23.17.40.1 MASK=FF.FF.0.0
BIND IP V50 ADDR=23.17.50.1 MASK=FF.FF.0.0
#XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX
# Example 6: 2 ISL VLANs on 1 adapter, 2 frametypes per VLAN
# An ISL VLAN configuration looks very similar to an IEEE VLAN configuration.
# The only real difference is that the keyword "VLANMODE=ISL" is added to the
# first set of IANS load lines. This example creates two ISL VLANs on a single
# Intelligent Server adapter, loads two frame types, Ethernet_802.2 and
# Ethernet_II, on each VLAN, binds IPX to each loaded frame type and binds IP
# to each instance of the Ethernet_II frame type.
load tcpip
; Load the base driver for each frame type.
LOAD CE100snw SLOT=2 FRAME=Ethernet_802.2 NAME=PRI_E82
LOAD CE100snw SLOT=2 FRAME=Ethernet_II NAME=PRI_EII
; Load IANS twice for each frame type, once for each vlan. Assign the vlanid
; number and include the "VLANMODE=ISL" keyword for each instance.
load ians frame=ethernet_802.2 name=E82_vl7 team=1 vlanmode=isl vlanid=7
load ians frame=ethernet_ii name=EII_vl7 team=1 vlanmode=isl vlanid=7
load ians frame=ethernet_802.2 name=E82_vl8 team=1 vlanmode=isl vlanid=8
load ians frame=ethernet_ii name=EII_vl8 team=1 vlanmode=isl vlanid=8
; Bind IANS to each frame type on the physical adapter.
bind ians PRI_E82 team=1
bind ians PRI_EII team=1
; Commit the team.
load ians commit team=1
; And bind the protocols to IANS for each VLAN and frame type.
BIND IPX E82_vl7 NET=702
BIND IPX EII_vl7 NET=711
BIND IP EII_vl7 addr=192.168.72.200 mask=255.255.255.0
BIND IPX E82_vl8 NET=802
BIND IPX EII_vl8 NET=811
BIND IP EII_vl8 addr=192.168.82.200 mask=255.255.255.0