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Classifying SLA probes for traffic prioritization

Classifying SLA probes for traffic prioritization

Traffic classification on SLA probes helps to ensure that they are prioritized in times of congestion. This prevents SD-WAN link flapping and unexpected routing behaviors, and stabilizes SD-WAN from unnecessary failovers.

SLA probes can be classified into a specific class ID so that SLA probes assigned to a class ID with higher priority are prioritized over other traffic. SLA probes are assigned using the class-id command:

config system sdwan
    config health-check
        edit <health-check name>
            set class-id <class name>
        next
    end
end
Note

For more information on traffic shaping, see Traffic shaping.

Example

In this example, SLA probes are assigned into different class ID. The interfaces dmz and vd1-01 both have outbandwidth of 1000000 Kbps (1 Gbps) configured. Three traffic shaping classes are defined:

Class ID

Name

Definition
2 sla_probe High priority with a guaranteed 10% of bandwidth (100 Mbps)
3 default Low priority with a guaranteed 80% of bandwidth (800 Mbps)
4 sla_probe_2 Medium priority with a guaranteed 10% of bandwidth (100 Mbps)

Under this scheme, when congestion occurs, traffic in each class will have their guaranteed bandwidth honored. If there is remaining bandwidth, higher priority traffic will get the bandwidth. On the SD-WAN health check, probes to server 2.2.2.2 are assigned to class 2 (sla_probe). This means it has a guaranteed bandwidth and has the highest priority to use unused bandwidth. This allows SD-WAN health check to function properly even during times of congestion.

To classify SLA probes for traffic prioritization:

  1. Configure the firewall traffic class:

    config firewall traffic-class
    edit 2
        set class-name "sla_probe"
    next
    edit 3
        set class-name "default"
    next
    edit 4
        set class-name "sla_probe_2"
    next
end

  2. Configure the class ID priority and guaranteed bandwidth:

    config firewall shaping-profile
    edit "profile-1"
        set default-class-id 3
        config shaping-entries
            edit 2
                set class-id 2
                set priority high
                set guaranteed-bandwidth-percentage 10
                set maximum-bandwidth-percentage 100
            next
            edit 3
                set class-id 3
                set priority low
                set guaranteed-bandwidth-percentage 80
                set maximum-bandwidth-percentage 100
            next
            edit 4
                set class-id 4
                set priority medium
                set guaranteed-bandwidth-percentage 10
                set maximum-bandwidth-percentage 100
            next
        end
    next
end

  3. Configure the interfaces:

    config system interface
    edit "dmz"
        set outbandwidth 1000000
        set egress-shaping-profile "profile-1"
        ...
    next
    edit "vd1-p1"
        set outbandwidth 1000000
        set egress-shaping-profile "profile-1"
        ...
    next
end

  4. Configure the SD-WAN health check and assign the SLA probes into class 2:

    config system sdwan
    set status enable
    config zone
        edit "virtual-wan-link"
        next
    end
    config members
        edit 1
            set interface "dmz"
            set gateway 172.16.208.2
        next
        edit 2
            set interface "vd1-p1"
        next
    end
    config health-check
        edit "1"
            set server "2.2.2.2"
            set members 1 2
            set class-id 2
            config sla
                edit 1
                next
            end
        next
    end
end
To verify the SLA probe assignment:

  1. Verify the health check diagnostics:

    # diagnose sys sdwan health-check
Health Check(1):
Seq(1 dmz): state(alive), packet-loss(0.000%) latency(0.247), jitter(0.022), mos(4.404), bandwidth-up(999999), bandwidth-dw(999997), bandwidth-bi(1999996) sla_map=0x1
Seq(2 vd1-p1): state(alive), packet-loss(0.000%) latency(0.247), jitter(0.018), mos(4.404), bandwidth-up(999999), bandwidth-dw(1000000), bandwidth-bi(1999999) sla_map=0x1

  2. Verify the SLA probes are assigned into class 2:

    # diagnose netlink interface list dmz
if=dmz family=00 type=1 index=5 mtu=1500 link=0 master=0
ref=36 state=start present fw_flags=10018000 flags=up broadcast run multicast
Qdisc=mq hw_addr=e0:23:ff:9d:f9:9e broadcast_addr=ff:ff:ff:ff:ff:ff
egress traffic control:
        bandwidth=1000000(kbps) lock_hit=0 default_class=3 n_active_class=3
        class-id=3      allocated-bandwidth=800000(kbps)        guaranteed-bandwidth=800000(kbps)
                            max-bandwidth=1000000(kbps)     current-bandwidth=1(kbps)
                            priority=low    forwarded_bytes=1446
                            dropped_packets=0       dropped_bytes=0
        class-id=4      allocated-bandwidth=100000(kbps)        guaranteed-bandwidth=100000(kbps)
                            max-bandwidth=1000000(kbps)     current-bandwidth=0(kbps)
                            priority=medium         forwarded_bytes=0
                            dropped_packets=0       dropped_bytes=0
        class-id=2      allocated-bandwidth=100000(kbps)        guaranteed-bandwidth=100000(kbps)
                            max-bandwidth=1000000(kbps)     current-bandwidth=1(kbps)
                            priority=high   forwarded_bytes=1404
                            dropped_packets=0       dropped_bytes=0
stat: rxp=19502 txp=14844 rxb=2233923 txb=802522 rxe=0 txe=0 rxd=0 txd=0 mc=0     collision=0 @ time=1675121675
re: rxl=0 rxo=0 rxc=0 rxf=0 rxfi=0 rxm=0
te: txa=0 txc=0 txfi=0 txh=0 txw=0
misc rxc=0 txc=0
input_type=0 state=3 arp_entry=0 refcnt=36
    # diagnose netlink interface list vd1-p1
if=vd1-p1 family=00 type=768 index=99 mtu=1420 link=0 master=0
ref=20 state=start present fw_flags=10010000 flags=up p2p run noarp multicast
Qdisc=noqueue
egress traffic control:
        bandwidth=1000000(kbps) lock_hit=0 default_class=3 n_active_class=3
        class-id=3      allocated-bandwidth=800000(kbps)        guaranteed-bandwidth=800000(kbps)
                            max-bandwidth=1000000(kbps)     current-bandwidth=0(kbps)
                            priority=low    forwarded_bytes=0
                            dropped_packets=0       dropped_bytes=0
        class-id=4      allocated-bandwidth=100000(kbps)        guaranteed-bandwidth=100000(kbps)
                            max-bandwidth=1000000(kbps)     current-bandwidth=0(kbps)
                            priority=medium         forwarded_bytes=0
                            dropped_packets=0       dropped_bytes=0
        class-id=2      allocated-bandwidth=100000(kbps)        guaranteed-bandwidth=100000(kbps)
                            max-bandwidth=1000000(kbps)     current-bandwidth=1(kbps)
                            priority=high   forwarded_bytes=1120
                            dropped_packets=0       dropped_bytes=0
stat: rxp=4097 txp=4586 rxb=540622 txb=221500 rxe=0 txe=19 rxd=0 txd=0 mc=0     collision=0 @ time=1675121742
re: rxl=0 rxo=0 rxc=0 rxf=0 rxfi=0 rxm=0
te: txa=0 txc=0 txfi=0 txh=0 txw=0
misc rxc=0 txc=0
input_type=0 state=3 arp_entry=0 refcnt=20
    Note

    When verifying the class assignment, the counter value should increase.

The example also demonstrates assigning SLA probes to class 4 (sla_probe_2), in which case the probes get medium priority.

To assign the SLA probe to medium priority:

  1. Assign SLA probes into class 4:

    config sys sdwan
    config health-check
        edit 1
            set class-id 4
        next
    end
    set status disable
end
config sys sdwan
    set status enable
end

  2. Verify the SLA probes are assigned into class 4. 

    # diagnose netlink interface list dmz
if=dmz family=00 type=1 index=5 mtu=1500 link=0 master=0
ref=34 state=start present fw_flags=10018000 flags=up broadcast run multicast
Qdisc=mq hw_addr=e0:23:ff:9d:f9:9e broadcast_addr=ff:ff:ff:ff:ff:ff
egress traffic control:
        bandwidth=1000000(kbps) lock_hit=0 default_class=3 n_active_class=3
        class-id=3      allocated-bandwidth=800000(kbps)        guaranteed-bandwidth=800000(kbps)
                            max-bandwidth=1000000(kbps)     current-bandwidth=1(kbps)
                            priority=low    forwarded_bytes=24K
                            dropped_packets=0       dropped_bytes=0
        class-id=4      allocated-bandwidth=100000(kbps)        guaranteed-bandwidth=100000(kbps)
                            max-bandwidth=1000000(kbps)     current-bandwidth=1(kbps)
                            priority=medium         forwarded_bytes=1674
                            dropped_packets=0       dropped_bytes=0
        class-id=2      allocated-bandwidth=100000(kbps)        guaranteed-bandwidth=100000(kbps)
                            max-bandwidth=1000000(kbps)     current-bandwidth=0(kbps)
                            priority=high   forwarded_bytes=0
                            dropped_packets=0       dropped_bytes=0
stat: rxp=20818 txp=15874 rxb=2382789 txb=857674 rxe=0 txe=0 rxd=0 txd=0 mc=0 collision=0 @ time=1675122057
re: rxl=0 rxo=0 rxc=0 rxf=0 rxfi=0 rxm=0
te: txa=0 txc=0 txfi=0 txh=0 txw=0
misc rxc=0 txc=0
input_type=0 state=3 arp_entry=0 refcnt=34
    # diagnose netlink interface list vd1-p1
if=vd1-p1 family=00 type=768 index=99 mtu=1420 link=0 master=0
ref=20 state=start present fw_flags=10010000 flags=up p2p run noarp multicast
Qdisc=noqueue
egress traffic control:
        bandwidth=1000000(kbps) lock_hit=0 default_class=3 n_active_class=3
        class-id=3      allocated-bandwidth=800000(kbps)        guaranteed-bandwidth=800000(kbps)
                            max-bandwidth=1000000(kbps)     current-bandwidth=0(kbps)
                            priority=low    forwarded_bytes=0
                            dropped_packets=0       dropped_bytes=0
        class-id=4      allocated-bandwidth=100000(kbps)        guaranteed-bandwidth=100000(kbps)
                            max-bandwidth=1000000(kbps)     current-bandwidth=1(kbps)
                            priority=medium         forwarded_bytes=1280
                            dropped_packets=0       dropped_bytes=0
        class-id=2      allocated-bandwidth=100000(kbps)        guaranteed-bandwidth=100000(kbps)
                            max-bandwidth=1000000(kbps)     current-bandwidth=0(kbps)
                            priority=high   forwarded_bytes=0
                            dropped_packets=0       dropped_bytes=0
stat: rxp=4097 txp=4703 rxb=540622 txb=226180 rxe=0 txe=19 rxd=0 txd=0 mc=0 collision=0 @ time=1675122058
re: rxl=0 rxo=0 rxc=0 rxf=0 rxfi=0 rxm=0
te: txa=0 txc=0 txfi=0 txh=0 txw=0
misc rxc=0 txc=0
input_type=0 state=3 arp_entry=0 refcnt=20
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Classifying SLA probes for traffic prioritization

Traffic classification on SLA probes helps to ensure that they are prioritized in times of congestion. This prevents SD-WAN link flapping and unexpected routing behaviors, and stabilizes SD-WAN from unnecessary failovers.

SLA probes can be classified into a specific class ID so that SLA probes assigned to a class ID with higher priority are prioritized over other traffic. SLA probes are assigned using the class-id command:

config system sdwan
    config health-check
        edit <health-check name>
            set class-id <class name>
        next
    end
end
Note

For more information on traffic shaping, see Traffic shaping.

Example

In this example, SLA probes are assigned into different class ID. The interfaces dmz and vd1-01 both have outbandwidth of 1000000 Kbps (1 Gbps) configured. Three traffic shaping classes are defined:

Class ID

Name

Definition
2 sla_probe High priority with a guaranteed 10% of bandwidth (100 Mbps)
3 default Low priority with a guaranteed 80% of bandwidth (800 Mbps)
4 sla_probe_2 Medium priority with a guaranteed 10% of bandwidth (100 Mbps)

Under this scheme, when congestion occurs, traffic in each class will have their guaranteed bandwidth honored. If there is remaining bandwidth, higher priority traffic will get the bandwidth. On the SD-WAN health check, probes to server 2.2.2.2 are assigned to class 2 (sla_probe). This means it has a guaranteed bandwidth and has the highest priority to use unused bandwidth. This allows SD-WAN health check to function properly even during times of congestion.

To classify SLA probes for traffic prioritization:

  1. Configure the firewall traffic class:

    config firewall traffic-class
    edit 2
        set class-name "sla_probe"
    next
    edit 3
        set class-name "default"
    next
    edit 4
        set class-name "sla_probe_2"
    next
end

  2. Configure the class ID priority and guaranteed bandwidth:

    config firewall shaping-profile
    edit "profile-1"
        set default-class-id 3
        config shaping-entries
            edit 2
                set class-id 2
                set priority high
                set guaranteed-bandwidth-percentage 10
                set maximum-bandwidth-percentage 100
            next
            edit 3
                set class-id 3
                set priority low
                set guaranteed-bandwidth-percentage 80
                set maximum-bandwidth-percentage 100
            next
            edit 4
                set class-id 4
                set priority medium
                set guaranteed-bandwidth-percentage 10
                set maximum-bandwidth-percentage 100
            next
        end
    next
end

  3. Configure the interfaces:

    config system interface
    edit "dmz"
        set outbandwidth 1000000
        set egress-shaping-profile "profile-1"
        ...
    next
    edit "vd1-p1"
        set outbandwidth 1000000
        set egress-shaping-profile "profile-1"
        ...
    next
end

  4. Configure the SD-WAN health check and assign the SLA probes into class 2:

    config system sdwan
    set status enable
    config zone
        edit "virtual-wan-link"
        next
    end
    config members
        edit 1
            set interface "dmz"
            set gateway 172.16.208.2
        next
        edit 2
            set interface "vd1-p1"
        next
    end
    config health-check
        edit "1"
            set server "2.2.2.2"
            set members 1 2
            set class-id 2
            config sla
                edit 1
                next
            end
        next
    end
end
To verify the SLA probe assignment:

  1. Verify the health check diagnostics:

    # diagnose sys sdwan health-check
Health Check(1):
Seq(1 dmz): state(alive), packet-loss(0.000%) latency(0.247), jitter(0.022), mos(4.404), bandwidth-up(999999), bandwidth-dw(999997), bandwidth-bi(1999996) sla_map=0x1
Seq(2 vd1-p1): state(alive), packet-loss(0.000%) latency(0.247), jitter(0.018), mos(4.404), bandwidth-up(999999), bandwidth-dw(1000000), bandwidth-bi(1999999) sla_map=0x1

  2. Verify the SLA probes are assigned into class 2:

    # diagnose netlink interface list dmz
if=dmz family=00 type=1 index=5 mtu=1500 link=0 master=0
ref=36 state=start present fw_flags=10018000 flags=up broadcast run multicast
Qdisc=mq hw_addr=e0:23:ff:9d:f9:9e broadcast_addr=ff:ff:ff:ff:ff:ff
egress traffic control:
        bandwidth=1000000(kbps) lock_hit=0 default_class=3 n_active_class=3
        class-id=3      allocated-bandwidth=800000(kbps)        guaranteed-bandwidth=800000(kbps)
                            max-bandwidth=1000000(kbps)     current-bandwidth=1(kbps)
                            priority=low    forwarded_bytes=1446
                            dropped_packets=0       dropped_bytes=0
        class-id=4      allocated-bandwidth=100000(kbps)        guaranteed-bandwidth=100000(kbps)
                            max-bandwidth=1000000(kbps)     current-bandwidth=0(kbps)
                            priority=medium         forwarded_bytes=0
                            dropped_packets=0       dropped_bytes=0
        class-id=2      allocated-bandwidth=100000(kbps)        guaranteed-bandwidth=100000(kbps)
                            max-bandwidth=1000000(kbps)     current-bandwidth=1(kbps)
                            priority=high   forwarded_bytes=1404
                            dropped_packets=0       dropped_bytes=0
stat: rxp=19502 txp=14844 rxb=2233923 txb=802522 rxe=0 txe=0 rxd=0 txd=0 mc=0     collision=0 @ time=1675121675
re: rxl=0 rxo=0 rxc=0 rxf=0 rxfi=0 rxm=0
te: txa=0 txc=0 txfi=0 txh=0 txw=0
misc rxc=0 txc=0
input_type=0 state=3 arp_entry=0 refcnt=36
    # diagnose netlink interface list vd1-p1
if=vd1-p1 family=00 type=768 index=99 mtu=1420 link=0 master=0
ref=20 state=start present fw_flags=10010000 flags=up p2p run noarp multicast
Qdisc=noqueue
egress traffic control:
        bandwidth=1000000(kbps) lock_hit=0 default_class=3 n_active_class=3
        class-id=3      allocated-bandwidth=800000(kbps)        guaranteed-bandwidth=800000(kbps)
                            max-bandwidth=1000000(kbps)     current-bandwidth=0(kbps)
                            priority=low    forwarded_bytes=0
                            dropped_packets=0       dropped_bytes=0
        class-id=4      allocated-bandwidth=100000(kbps)        guaranteed-bandwidth=100000(kbps)
                            max-bandwidth=1000000(kbps)     current-bandwidth=0(kbps)
                            priority=medium         forwarded_bytes=0
                            dropped_packets=0       dropped_bytes=0
        class-id=2      allocated-bandwidth=100000(kbps)        guaranteed-bandwidth=100000(kbps)
                            max-bandwidth=1000000(kbps)     current-bandwidth=1(kbps)
                            priority=high   forwarded_bytes=1120
                            dropped_packets=0       dropped_bytes=0
stat: rxp=4097 txp=4586 rxb=540622 txb=221500 rxe=0 txe=19 rxd=0 txd=0 mc=0     collision=0 @ time=1675121742
re: rxl=0 rxo=0 rxc=0 rxf=0 rxfi=0 rxm=0
te: txa=0 txc=0 txfi=0 txh=0 txw=0
misc rxc=0 txc=0
input_type=0 state=3 arp_entry=0 refcnt=20
    Note

    When verifying the class assignment, the counter value should increase.

The example also demonstrates assigning SLA probes to class 4 (sla_probe_2), in which case the probes get medium priority.

To assign the SLA probe to medium priority:

  1. Assign SLA probes into class 4:

    config sys sdwan
    config health-check
        edit 1
            set class-id 4
        next
    end
    set status disable
end
config sys sdwan
    set status enable
end

  2. Verify the SLA probes are assigned into class 4. 

    # diagnose netlink interface list dmz
if=dmz family=00 type=1 index=5 mtu=1500 link=0 master=0
ref=34 state=start present fw_flags=10018000 flags=up broadcast run multicast
Qdisc=mq hw_addr=e0:23:ff:9d:f9:9e broadcast_addr=ff:ff:ff:ff:ff:ff
egress traffic control:
        bandwidth=1000000(kbps) lock_hit=0 default_class=3 n_active_class=3
        class-id=3      allocated-bandwidth=800000(kbps)        guaranteed-bandwidth=800000(kbps)
                            max-bandwidth=1000000(kbps)     current-bandwidth=1(kbps)
                            priority=low    forwarded_bytes=24K
                            dropped_packets=0       dropped_bytes=0
        class-id=4      allocated-bandwidth=100000(kbps)        guaranteed-bandwidth=100000(kbps)
                            max-bandwidth=1000000(kbps)     current-bandwidth=1(kbps)
                            priority=medium         forwarded_bytes=1674
                            dropped_packets=0       dropped_bytes=0
        class-id=2      allocated-bandwidth=100000(kbps)        guaranteed-bandwidth=100000(kbps)
                            max-bandwidth=1000000(kbps)     current-bandwidth=0(kbps)
                            priority=high   forwarded_bytes=0
                            dropped_packets=0       dropped_bytes=0
stat: rxp=20818 txp=15874 rxb=2382789 txb=857674 rxe=0 txe=0 rxd=0 txd=0 mc=0 collision=0 @ time=1675122057
re: rxl=0 rxo=0 rxc=0 rxf=0 rxfi=0 rxm=0
te: txa=0 txc=0 txfi=0 txh=0 txw=0
misc rxc=0 txc=0
input_type=0 state=3 arp_entry=0 refcnt=34
    # diagnose netlink interface list vd1-p1
if=vd1-p1 family=00 type=768 index=99 mtu=1420 link=0 master=0
ref=20 state=start present fw_flags=10010000 flags=up p2p run noarp multicast
Qdisc=noqueue
egress traffic control:
        bandwidth=1000000(kbps) lock_hit=0 default_class=3 n_active_class=3
        class-id=3      allocated-bandwidth=800000(kbps)        guaranteed-bandwidth=800000(kbps)
                            max-bandwidth=1000000(kbps)     current-bandwidth=0(kbps)
                            priority=low    forwarded_bytes=0
                            dropped_packets=0       dropped_bytes=0
        class-id=4      allocated-bandwidth=100000(kbps)        guaranteed-bandwidth=100000(kbps)
                            max-bandwidth=1000000(kbps)     current-bandwidth=1(kbps)
                            priority=medium         forwarded_bytes=1280
                            dropped_packets=0       dropped_bytes=0
        class-id=2      allocated-bandwidth=100000(kbps)        guaranteed-bandwidth=100000(kbps)
                            max-bandwidth=1000000(kbps)     current-bandwidth=0(kbps)
                            priority=high   forwarded_bytes=0
                            dropped_packets=0       dropped_bytes=0
stat: rxp=4097 txp=4703 rxb=540622 txb=226180 rxe=0 txe=19 rxd=0 txd=0 mc=0 collision=0 @ time=1675122058
re: rxl=0 rxo=0 rxc=0 rxf=0 rxfi=0 rxm=0
te: txa=0 txc=0 txfi=0 txh=0 txw=0
misc rxc=0 txc=0
input_type=0 state=3 arp_entry=0 refcnt=20
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