339
Step Command Remarks
9. Configure the X.25 over FR
SVC route
x25 switch svc
[ -number ]
x.121-address [
sub-dest
destination-address |
sub-source
source-address ] *
interface
interface-type interface-number
dlci
dlci-number
N/A
Configuring a PVC application of X.25 over FR
X.25 over FR is an extension to X.25 switching, so you must enable X.25 switch first.
To configure a PVC application of X.25 over FR:
Step Command Remarks
1. Enter system view.
system-view
N/A
2. Enable X.25 switching.
x25 switching
Not enabled by default.
3. Create an X.25 template.
x25 template
{ name }
N/A
4. Specify the virtual circuit
range.
x25 vc-range
{
bi-channel
ltc htc
[
out-channel
loc hoc ] |
in-channel
lic hic [
bi-channel
ltc
htc ] [
out-channel
loc hoc ] |
out-channel
loc hoc }
N/A
5. Configure a PVC route
under the X.25 template.
x25 switch pvc
pvc-number1
interface
interface-type
interface-number [
dlci
dlci-number ]
pvc
pvc-number2
[ option ]
N/A
6. Return to system view.
quit
N/A
7. Enter interface view.
interface
interface-type
interface-number
N/A
8. Configure the link layer
protocol as FR.
link-protocol fr
[
ietf
|
nonstandard
]
PPP by default.
9. Configure the FR interface
type.
fr
interface-type
{
dce
|
dte
|
nni
} DTE by default.
10. Configure an FR DLCI and
enter its view.
fr dlci
dlci-number
N/A
11. Configure the FR DLCI as
Annex G DLCI.
annexg
{
dce
|
dte
}
N/A
12. Apply the X.25 Template to
the Annex G DLCI.
x25-template
name
N/A
13. Enter interface view
interface
interface-type
interface-number
N/A
14. Configure the link layer
protocol as X.25
link-protocol x25
[
dce
|
dte
]
[
ietf
|
nonstandard
]
PPP by default.
15. Configure a PVC route
x25 switch pvc
pvc-number1
interface
interface-type
interface-number [
dlci
dlci-number ]
pvc
pvc-number2
[ option ]
N/A
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