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However, if these PKT ports are SR-IOV interfaces,
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port redundancy cannot be managed the same way for the PKT interfaces since the hypervisor is by-passed in such a NIC configuration. To support port redundancy on SR-IOV interfaces
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on the SBC SWe cloud platform,
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the process works based on an ICMP/ARP probing mechanism. This mechanism requires four PKT ports (SR-IOV VFs) configured on a SWe instance, where each of these SR-IOV VFs may come from different physical NICs for better handling of connectivity failures due to physical NIC or physical link connected towards different physical switches.
The PKT ports are automatically configured in active-standby mode to provide port redundancy on an active SWe instance. The PKT ports connected
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on a standby SWe instance
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remain in standby mode. The ICMPv4/v6 probing mechanism is used on active PKT ports, while ARP ACD/ICMPv6 NUD mechanism is used on standby ports.
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The port redundancy feature |
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applies to the following SBC platforms only:
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If an SBC SWe deployment includes four packet ports, it can be configured for port redundancy in which each active port is backed up by a standby port. To enable packet port redundancy, four packet ports must be attached to the SBC SWe instance when it is instantiated. Within the Link Monitor object that is configured for each port (part of Link Detection Group (LDG) configuration), ensure that the Physical Port (physicalPort <portname>
) configuration is completed and that the Probe On Standby (probeOnStandby enabled
) option is enabled. This configuration enables port redundancy through regular monitoring of the link state of standby ports using the ARP/ICMPv6 NUD probing mechanism.
The following figure shows the
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remain as standby. For example, in this diagram, the active SWe ports are PKT0_P and PKT1_S ports.
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Active port: The PKT port that is currently selected for use (For example, signaling, media); either a primary or a secondary port on an active SWe node.
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A PKT port's role (primary/secondary) is independent of the port's state (active/standby). A |
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port in the active state does not necessarily imply it is "up". |
Enabled or Disabled ports: The PKT port may be administratively enabled or disabled. A PKT port that is disabled cannot be an active port.
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The PKT port's role (Primary/Secondary) is independent of the port's state (Active/Standby). |
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For the |
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SBC SWe Cloud platform, the Out of Service (OOS) |
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pkt0P, pkt0S, pkt1P and pkt1S) are down. |
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ensure the health of a standby port before initiating a switchover
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to it. By default, physical link detection is enabled on all ports configured in Link Monitor. This mechanism checks for the presence of the cable and that the adjacent device is powered on. If hardware failures are detected they are reported to the SBC processes that monitor ports and a switchover can be triggered if the standby port is available.
A second level of link detection can be enabled that checks connectivity between a port and and a configured destination. The specific mechanism used to check the port depends on the whether the port is in an active or standby state. These probing mechanisms for link detection are available regardless of the number of ports attached to the SWe instance and are summarized in the following table.
The following probing mechanisms are available on the
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* Address Resolution Protocol - Address Conflict Detection / Internet Control Message Protocol Version 6 – Neighbor Unreachability Detection
If the destination address configured is an IPv4 address, then IPv4 probing is initiated by sending an ARP Probe requests and listening for the responses.
ARP request probes are sent with:
The target can be expected to respond with an ARP Response using L2 unicast.
If the destination address configured is an IPv6 address, then IPv6 probing would be initiated using Neighbor Unreachability Detection mechanism (RFC 4861 section 7). This is based on Neighbor Solicitation and Neighbor Advertisement ICMPv6 messages.
Because these are IP packets, the
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Neighbor Solicitation messages are sent with:
The Neighbor Solicitation message is sent on the LAN via L2 unicast to the system with the target IP address.
The target can be expected to respond with a Neighbor Advertisement using L2 unicast. Received messages are validated per RFC 4861 section 7.1.2: Check that the S bit = 1 (solicited) and that the target address = our configured target IP address.
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The |
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may reduce the call accept rate when it syncs from the active to the standby CE under full load causing some calls to get rejected with a 503 message even though the applied load is below the specified maximum call rate. This condition clears once the synchronization to the standby completes. Additionally, some calls may get rejected with a 503 message when synchronization occurs while the applied load is near the maximum specified. |
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