Ejemplos: Configuración de la supervisión del rendimiento en tiempo real en enrutadores de las series MX, M, T y PTX
Configure una instancia de RPM identificada por el nombre probe1 de la sonda y el nombre test1de la prueba:
[edit services rpm]
probe probe1{
test test1 {
dscp-code-points 001111;
probe-interval 1;
probe-type icmp-ping;
target address 172.17.20.182;
test-interval 20;
thresholds rtt 10;
traps rtt-exceeded;
}
}
probe-server {
tcp {
destination-interface lt-0/0/0.0
port 50000;
}
udp {
destination-interface lt-0/0/0.0
port 50001;
}
}
probe-limit 200;
Configure la clasificación de paquetes mediante lt- interfaces para enviar los paquetes de sondeo a una interfaz de entrada de túnel lógico. Al enviar el paquete a la interfaz de túnel lógico, puede configurar clasificadores regulares y de múltiples campos, filtros de firewall y reescritura de encabezados para los paquetes de sondeo. Para utilizar el marco de túnel existente, se deben configurar las dlci instrucciones y encapsulation .
[edit services rpm]
probe p1 {
test t1 {
probe-type icmp-ping;
target address 10.8.4.1;
probe-count 10;
probe-interval 10;
test-interval 10;
source-address 10.8.4.2;
dscp-code-points ef;
data-size 100;
destination-interface lt-0/0/0.0;
}
}
[edit interfaces]
lt-0/0/0 {
unit 0 {
encapsulation frame-relay;
dlci 10;
peer-unit 1;
family inet;
}
unit 1 {
encapsulation frame-relay;
dlci 10;
peer-unit 0;
family inet;
}
}
[edit class-of-service]
interfaces {
lt-0/0/0 {
unit 1 {
classifiers {
dscp default;
}
}
}
}
Configure un filtro de entrada en la interfaz en la que se reciben los sondeos RPM. Este filtro permite priorizar los paquetes RPM recibidos, separándolos de los paquetes de datos normales recibidos en la misma interfaz.
[edit firewall]
filter recos {
term recos {
from {
source-address {
10.8.4.1/32;
}
destination-address {
10.8.4.2/32;
}
}
then {
loss-priority high;
forwarding-class network-control;
}
}
}
[edit interfaces]
fe-5/0/0 {
unit 0 {
family inet {
filter {
input recos;
}
address 10.8.4.2/24;
}
}
}
Configure una instancia de RPM y habilite RPM para los paquetes de proveedor de extensiones en la interfaz de servicios adaptables:
[edit services rpm]
probe probe1{
test test1 {
data-size 1024;
data-fill 0;
destination-interface ms-1/2/0.10;
dscp-code-points 001111;
probe-count 10;
probe-interval 1;
probe-type icmp-ping;
target address 172.17.20.182;
test-interval 20;
thresholds rtt 10;
traps rtt-exceeded;
}
}
[edit interfaces]
ms-1/2/0 {
unit 0 {
family inet;
}
unit 10 {
rpm client;
family inet {
address 192.0.2.1/32;
}
}
[edit chassis]
fpc 1 {
pic 2 {
adaptive-services {
service-package {
extension-provider {
control-cores 1;
data-cores 1;
object-cache-size 512;
policy-db-size 64;
package jservices-rpm;
syslog {
daemon any;
}
}
}
}
}
}
Configure las instrucciones mínimas necesarias para habilitar TWAMP:
[edit services]
rpm {
twamp {
server {
authentication-mode none;
port 10000; # Twamp server's listening port
client-list LIST-1 { # LIST-1 is the name of the client-list. Multiple lists can be configured.
address {
198.51.100.2/30; # IP address of the control client.
}
}
}
}
[edit interfaces sp-5/0/0]
unit 0 {
family inet;
}
unit 10 {
rpm {
twamp-server; # You must configure a separate logical interface on the service PIC interface for the TWAMP server.
}
family inet {
address 203.0.113.50/32; # This address must be a host address with a 32-bit mask.
}
}
[edit chassis]
fpc 5 {
pic 0 {
adaptive-services {
service-package layer-2; # Configure the service PIC to run in Layer 2 mode.
}
}
}
Configure opciones adicionales de TWAMP:
[edit services]
rpm {
twamp {
server {
maximum-sessions 5;
maximum-sessions-per-connection 2;
maximum-connections 3;
maximum-connections-per-client 1;
port 10000;
server-inactivity-timeout ;
client-list LIST-1 {
address {
198.51.100.2/30;
}
}
}
}
}