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������������<���$�(��Lt��MUI���-� ��"��F\�3t�"�{�De�K��|$���MUIen-US�The Virtual Filtering Platform (VFP) Port Average Inbound Network Traffic counter set tracks the average inbound network traffic of a port.(VFP Port Average Inbound Network Traffic(VFP Port Average Inbound Network TrafficuAverage Inbound Packets is the rate, in packets per second, at which VFP received inbound network traffic for a port.Average Inbound PacketsAverage Inbound Packets�Average Inbound Pending Packets is the rate, in packets per second, at which VFP has placed inbound network packets for a port in a pending queue.Average Inbound Pending PacketsAverage Inbound Pending Packets}Average Inbound TCP SYN packets is the rate, in packets per second, at which VFP received inbound TCP SYN packets for a port.Average Inbound TCP SYN PacketsAverage Inbound TCP SYN Packets�Average Inbound TCP SYN ACK packets is the rate, in packets per second, at which VFP received inbound TCP SYN ACK packets for a port.#Average Inbound TCP SYN ACK Packets#Average Inbound TCP SYN ACK PacketsqAverage Inbound Bytes is the rate, in bytes per second, at which VFP received inbound network traffic for a port.Average Inbound BytesAverage Inbound Bytes�Average Inbound Non-IP Packets is the rate, in packets per second, at which VFP received inbound non-IP network traffic for a port.Average Inbound Non-IP PacketsAverage Inbound Non-IP Packets�Average Inbound Intercepted Packets is the rate, in packets per second, at which VFP intercepted inbound network traffic for a port.#Average Inbound Intercepted PacketsPA#Average Inbound Intercepted Packets�Average Inbound Missed Intercepted Packets is the rate, in packets per second, at which VFP missed intercepting inbound network traffic for a port.*Average Inbound Missed Intercepted Packets*Average Inbound Missed Intercepted Packets�Average Inbound Throttled Packets is the rate, in packets per second, at which VFP throttled inbound network traffic for a port.!Average Inbound Throttled Packets!Average Inbound Throttled Packets�Average Inbound Forwarded Unicast Packets is the rate, in packets per second, at which VFP forwarded inbound unicast network traffic for a port.)Average Inbound Forwarded Unicast Packets)Average Inbound Forwarded Unicast Packets�Average Inbound Forwarded Multicast Packets is the rate, in packets per second, at which VFP forwarded inbound multicast network traffic for a port.+Average Inbound Forwarded Multicast PacketsPA+Average Inbound Forwarded Multicast Packets�Average Inbound Hair-Pinned Packets is the rate, in packets per second, at which VFP hair-pinned inbound network traffic for a port.#Average Inbound Hair-Pinned Packets#Average Inbound Hair-Pinned Packets�The Virtual Filtering Platform (VFP) Port Total Inbound Network Traffic counter set tracks the total inbound network traffic of a port.&VFP Port Total Inbound Network Traffic&VFP Port Total Inbound Network Traffic^Total Inbound Packets is the total number of inbound packets that VFP has received for a port.Total Inbound PacketsPATotal Inbound PacketswTotal Inbound Pending Packets is the total number of inbound packets for a port that VFP has placed in a pending queue.Total Inbound Pending PacketsTotal Inbound Pending PacketsnTotal Inbound TCP SYN Packets is the total number of inbound TCP SYN packets that VFP has received for a port.Total Inbound TCP SYN PacketsTotal Inbound TCP SYN PacketsvTotal Inbound TCP SYN ACK Packets is the total number of inbound TCP SYN ACK packets that VFP has received for a port.!Total Inbound TCP SYN ACK Packets!Total Inbound TCP SYN ACK PacketsZTotal Inbound Bytes is the total number of inbound bytes that VFP has received for a port.Total Inbound BytesPATotal Inbound ByteslTotal Inbound Non-IP Packets is the total number of inbound non-IP packets that VFP has received for a port.Total Inbound Non-IP PacketsTotal Inbound Non-IP PacketsmTotal Inbound Intercepted Packets is the total number of inbound packets for a port that VFP has intercepted.!Total Inbound Intercepted Packets!Total Inbound Intercepted Packets|Total Inbound Missed Intercepted Packets is the total number of inbound packets for a port that VFP has failed to intercept.(Total Inbound Missed Intercepted Packets(Total Inbound Missed Intercepted PacketsiTotal Inbound Throttled Packets is the total number of inbound packets for a port that VFP has throttled.Total Inbound Throttled PacketsTotal Inbound Throttled PacketsyTotal Inbound Forwarded Unicast Packets is the total number of inbound unicast packets that VFP has forwarded for a port.'Total Inbound Forwarded Unicast Packets'Total Inbound Forwarded Unicast Packets}Total Inbound Forwarded Multicast Packets is the total number of inbound multicast packets that VFP has forwarded for a port.)Total Inbound Forwarded Multicast Packets)Total Inbound Forwarded Multicast PacketskTotal Inbound Hairpinned Packets is the total number of inbound packets for a port that VFP has hairpinned. Total Inbound Hairpinned Packets Total Inbound Hairpinned Packets�The Virtual Filtering Platform (VFP) Port Total Inbound Dropped Network Packets counter set tracks the total inbound dropped network packets of a port..VFP Port Total Inbound Dropped Network Packets.VFP Port Total Inbound Dropped Network Packets`Total Inbound Dropped Packets is the total number of inbound dropped network packets for a port.Total Inbound Dropped PacketsTotal Inbound Dropped PacketsnTotal Inbound Dropped Non-IP Packets is the total number of dropped inbound non-IP network packets for a port.$Total Inbound Dropped Non-IP PacketsPA$Total Inbound Dropped Non-IP Packets�Total Inbound Dropped ARP-Guard Packets is the total number of inbound network packets for a port that were dropped due to ARP guard policy.'Total Inbound Dropped ARP-Guard Packets'Total Inbound Dropped ARP-Guard Packets�Total Inbound Dropped DHCP-Guard Packets is the total number of inbound packets for a port that were dropped due to DHCP guard policy.(Total Inbound Dropped DHCP-Guard Packets(Total Inbound Dropped DHCP-Guard Packets�Total Inbound Dropped DHCP-Limiter Packets is the total number of inbound packets for a port that were dropped due to DHCP limiter policy.*Total Inbound Dropped DHCP-Limiter Packets*Total Inbound Dropped DHCP-Limiter PacketsvTotal Inbound Dropped Broadcast Packets is the total number of inbound broadcast packets for a port that were dropped.'Total Inbound Dropped Broadcast PacketsPA'Total Inbound Dropped Broadcast PacketszTotal Inbound Dropped Invalid Packets is the total number of invalid inbound network packets for a port that were dropped.%Total Inbound Dropped Invalid Packets%Total Inbound Dropped Invalid Packets�Total Inbound Dropped ARP-Limiter Packets is the total number of inbound packets for a port that were dropped due to ARP limiter policy.)Total Inbound Dropped ARP-Limiter Packets)Total Inbound Dropped ARP-Limiter Packets�Total Inbound Dropped ARP-Filter Packets is the total number of inbound packets for a port that were dropped due to ARP filter policy.(Total Inbound Dropped ARP-Filter Packets(Total Inbound Dropped ARP-Filter Packets�Total Inbound Dropped IPV4 Spoofing Packets is the total number of inbound packets for a port that were dropped due to IPV4 address spoof prevention policy.+Total Inbound Dropped IPV4 Spoofing Packets+Total Inbound Dropped IPV4 Spoofing Packets�Total Inbound Dropped IPV6 Spoofing Packets is the total number of inbound packets for a port that were dropped due to IPV6 address spoof prevention policy.+Total Inbound Dropped IPV6 Spoofing Packets+Total Inbound Dropped IPV6 Spoofing Packets�Total Inbound Dropped Blocked Packets is the total number of inbound packets for a port that were dropped due to the port being blocked.%Total Inbound Dropped Blocked Packets%Total Inbound Dropped Blocked PacketszTotal Inbound Dropped Pending Packets is the total number of inbound pending network packets for a port that were dropped.%Total Inbound Dropped Pending Packets%Total Inbound Dropped Pending Packets�Total Inbound Dropped No-Resource Packets is the total number of inbound network packets for a port that were dropped due to a lack of resources.)Total Inbound Dropped No-Resource PacketsPA)Total Inbound Dropped No-Resource Packets�Total Inbound Dropped Simulation Packets is the total number of inbound network packets for a port that were dropped by policy during packet flow simulation.(Total Inbound Dropped Simulation Packets(Total Inbound Dropped Simulation Packets�Total Inbound Dropped ACL Packets is the total number of inbound packets for a port that were dropped due to enforcement of an ACL rule.!Total Inbound Dropped ACL Packets!Total Inbound Dropped ACL Packets�Total Inbound Dropped Malformed Packets is the total number of inbound network packets for a port that were dropped because they were malformed.'Total Inbound Dropped Malformed Packets'Total Inbound Dropped Malformed Packets�Total Inbound Dropped Invalid Rule Match Packets is the total number of inbound packets for a port that were dropped because they matched rules that were not valid for those packets.0Total Inbound Dropped Invalid Rule Match Packets0Total Inbound Dropped Invalid Rule Match Packets�Total Inbound Dropped Forwarding Packets is the total number of inbound network packets for a port that were dropped by forwarding policy.(Total Inbound Dropped Forwarding Packets(Total Inbound Dropped Forwarding Packets�Total Inbound Dropped MAC Spoofing Packets is the total number of inbound packets for a port that were dropped due to MAC address spoof prevention policy.*Total Inbound Dropped MAC Spoofing Packets*Total Inbound Dropped MAC Spoofing Packets�The Virtual Filtering Platform (VFP) Port Average Outbound Network Traffic counter set tracks the average outbound network traffic of a port.)VFP Port Average Outbound Network Traffic)VFP Port Average Outbound Network TrafficxAverage Outbound Packets is the rate, in packets per second, at which VFP received outbound network traffic from a port.Average Outbound PacketsAverage Outbound Packets�Average Outbound Pending Packets is the rate, in packets per second, at which VFP has placed outbound network packets from a port in a pending queue. Average Outbound Pending Packets Average Outbound Pending Packets�Average Outbound TCP SYN packets is the rate, in packets per second, at which VFP received outbound TCP SYN packets from a port. Average Outbound TCP SYN Packets Average Outbound TCP SYN Packets�Average Outbound TCP SYN ACK packets is the rate, in packets per second, at which VFP received outbound TCP SYN ACK packets from a port.$Average Outbound TCP SYN ACK Packets$Average Outbound TCP SYN ACK PacketstAverage Outbound Bytes is the rate, in bytes per second, at which VFP received outbound network traffic from a port.Average Outbound BytesAverage Outbound Bytes�Average Outbound Non-IP Packets is the rate, in packets per second, at which VFP received outbound non-IP network traffic from a port.Average Outbound Non-IP PacketsAverage Outbound Non-IP Packets�Average Outbound Intercepted Packets is the rate, in packets per second, at which VFP intercepted outbound network traffic from a port.$Average Outbound Intercepted Packets$Average Outbound Intercepted Packets�Average Outbound Missed Intercepted Packets is the rate, in packets per second, at which VFP missed intercepting outbound network traffic from a port.+Average Outbound Missed Intercepted Packets+Average Outbound Missed Intercepted Packets�Average Outbound Throttled Packets is the rate, in packets per second, at which VFP throttled outbound network traffic from a port."Average Outbound Throttled Packets"Average Outbound Throttled Packets�Average Outbound Forwarded Unicast Packets is the rate, in packets per second, at which VFP forwarded outbound unicast network traffic from a port.*Average Outbound Forwarded Unicast Packets*Average Outbound Forwarded Unicast Packets�Average Outbound Forwarded Multicast Packets is the rate, in packets per second, at which VFP forwarded outbound multicast network traffic from a port.,Average Outbound Forwarded Multicast Packets,Average Outbound Forwarded Multicast Packets�Average Outbound Hairpinned Packets is the rate, in packets per second, at which VFP hairpinned outbound network traffic from a port.#Average Outbound Hairpinned Packets#Average Outbound Hairpinned Packets�The Virtual Filtering Platform (VFP) Port Total Outbound Network Traffic counter set tracks the total outbound network traffic of a port.'VFP Port Total Outbound Network Traffic'VFP Port Total Outbound Network TrafficaTotal Outbound Packets is the total number of outbound packets that VFP has received from a port.Total Outbound PacketsTotal Outbound PacketszTotal Outbound Pending Packets is the total number of outbound packets from a port that VFP has placed in a pending queue.Total Outbound Pending PacketsPATotal Outbound Pending PacketsqTotal Outbound TCP SYN Packets is the total number of outbound TCP SYN packets that VFP has received from a port.Total Outbound TCP SYN PacketsTotal Outbound TCP SYN PacketsyTotal Outbound TCP SYN ACK Packets is the total number of Outbound TCP SYN ACK packets that VFP has received from a port."Total Outbound TCP SYN ACK Packets"Total Outbound TCP SYN ACK Packets]Total Outbound Bytes is the total number of outbound bytes that VFP has received from a port.Total Outbound BytesTotal Outbound BytesoTotal Outbound Non-IP Packets is the total number of non-IP outbound packets that VFP has received from a port.Total Outbound Non-IP PacketsPATotal Outbound Non-IP PacketspTotal Outbound Intercepted Packets is the total number of outbound packets from a port that VFP has intercepted."Total Outbound Intercepted Packets"Total Outbound Intercepted PacketsTotal Outbound Missed Intercepted Packets is the total number of outbound packets from a port that VFP has missed to intercept.)Total Outbound Missed Intercepted Packets)Total Outbound Missed Intercepted PacketslTotal Outbound Throttled Packets is the total number of outbound packets from a port that VFP has throttled. Total Outbound Throttled Packets Total Outbound Throttled Packets|Total Outbound Forwarded Unicast Packets is the total number of outbound unicast packets from a port that VFP has forwarded.(Total Outbound Forwarded Unicast Packets(Total Outbound Forwarded Unicast Packets�Total Outbound Forwarded Multicast Packets is the total number of outbound multicast packets from a port that VFP has forwarded.*Total Outbound Forwarded Multicast Packets*Total Outbound Forwarded Multicast PacketspTotal Outbound Hair-Pinned Packets is the total number of outbound packets from a port that VFP has hair-pinned."Total Outbound Hair-Pinned Packets"Total Outbound Hair-Pinned Packets�The Virtual Filtering Platform (VFP) Port Total Outbound Dropped Network Packets counter set tracks the total outbound dropped network packets for a port./VFP Port Total Outbound Dropped Network Packets/VFP Port Total Outbound Dropped Network PacketsmTotal Outbound Dropped Packets is the total number of outbound network packets from a port that were dropped.Total Outbound Dropped PacketsTotal Outbound Dropped Packets{Total Outbound Dropped Non-IP Packets is the total number of non-IP outbound network packets from a port that were dropped.%Total Outbound Dropped Non-IP Packets%Total Outbound Dropped Non-IP Packets�Total Outbound Dropped ARP-Guard Packets is the total number of outbound network packets from a port that were dropped due to ARP guard policy.(Total Outbound Dropped ARP-Guard PacketsPA(Total Outbound Dropped ARP-Guard Packets�Total Outbound Dropped DHCP-Guard Packets is the total number of outbound packets from a port that were dropped due to DHCP guard policy.)Total Outbound Dropped DHCP-Guard Packets)Total Outbound Dropped DHCP-Guard Packets�Total Outbound Dropped DHCP-Limiter Packets is the total number of outbound packets from a port that were dropped due to DHCP limiter policy.+Total Outbound Dropped DHCP-Limiter Packets+Total Outbound Dropped DHCP-Limiter PacketsyTotal Outbound Dropped Broadcast Packets is the total number of outbound broadcast packets from a port that were dropped.(Total Outbound Dropped Broadcast Packets(Total Outbound Dropped Broadcast Packets}Total Outbound Dropped Invalid Packets is the total number of invalid outbound network packets from a port that were dropped.&Total Outbound Dropped Invalid Packets&Total Outbound Dropped Invalid Packets�Total Outbound Dropped ARP-Limiter Packets is the total number of outbound packets from a port that were dropped due to ARP limiter policy.*Total Outbound Dropped ARP-Limiter Packets*Total Outbound Dropped ARP-Limiter Packets�Total Outbound Dropped ARP-Filter Packets is the total number of outbound packets from a port that were dropped due to ARP filter policy.)Total Outbound Dropped ARP-Filter Packets)Total Outbound Dropped ARP-Filter Packets�Total Outbound Dropped IPV4 Spoofing Packets is the total number of outbound packets from a port that were dropped due to IPV4 address spoof prevention policy.,Total Outbound Dropped IPV4 Spoofing Packets,Total Outbound Dropped IPV4 Spoofing Packets�Total Outbound Dropped IPV6 Spoofing Packets is the total number of outbound packets from a port that were dropped due to IPV6 address spoof prevention policy.,Total Outbound Dropped IPV6 Spoofing Packets,Total Outbound Dropped IPV6 Spoofing Packets�Total Outbound Dropped Blocked Packets is the total number of outbound packets from a port that were dropped due to the port being blocked.&Total Outbound Dropped Blocked Packets&Total Outbound Dropped Blocked PacketsmTotal Outbound Dropped Pending Packets is the total number of outbound packets from a port that were dropped.&Total Outbound Dropped Pending Packets&Total Outbound Dropped Pending Packets�Total Outbound Dropped No-Resource Packets is the total number of outbound network packets from a port that were dropped due to a lack of resources.*Total Outbound Dropped No-Resource Packets*Total Outbound Dropped No-Resource Packets�Total Outbound Dropped Simulation Packets is the total number of outbound network packets from a port that were dropped due to simulating a network policy.)Total Outbound Dropped Simulation Packets)Total Outbound Dropped Simulation Packets�Total Outbound Dropped ACL Packets is the total number of outbound packets from a port that were dropped due to enforcement of an ACL rule."Total Outbound Dropped ACL Packets"Total Outbound Dropped ACL Packets�Total Outbound Dropped Malformed Packets is the total number of outbound network packets from a port that were dropped because they were malformed.(Total Outbound Dropped Malformed Packets(Total Outbound Dropped Malformed Packets�Total Outbound Dropped Invalid Rule Match Packets is the total number of outbound packets from a port that were dropped because they matched rules that were not valid for those packets.1Total Outbound Dropped Invalid Rule Match Packets1Total Outbound Dropped Invalid Rule Match Packets�Total Outbound Dropped Forwarding Packets is the total number of outbound network packets from a port that were dropped by forwarding policy.)Total Outbound Dropped Forwarding Packets)Total Outbound Dropped Forwarding Packets�Total Outbound Dropped MAC Spoofing Packets is the total number of outbound packets from a port that were dropped due to MAC address spoof prevention policy.+Total Outbound Dropped MAC Spoofing Packets+Total Outbound Dropped MAC Spoofing Packets�Average Inbound GFT Exception Packets is the rate, in packets per second, at which GFT provider indicates GFT exception packets for a port.%Average Inbound GFT Exception Packets%Average Inbound GFT Exception Packets�Average Inbound GFT Exception UF Packets is the rate, in packets per second, at which GFT provider indicates GFT exception packets for a port that are marked as exception packets and have a unified flow.(Average Inbound GFT Exception UF Packets(Average Inbound GFT Exception UF Packets�Average Inbound GFT Exception UF Offloaded TCP Packets is the rate, in packets per second, at which GFT provider indicates TCP GFT exception packets for a port that have a unified flow already offloaded to the provider.6Average Inbound GFT Exception UF Offloaded TCP Packets6Average Inbound GFT Exception UF Offloaded TCP Packets�Average Inbound GFT Exception UF Offload Pending Packets is the rate, in packets per second, at which GFT provider indicates GFT exception packets for a port that have a unified flow that is pending offload to the provider.8Average Inbound GFT Exception UF Offload Pending Packets8Average Inbound GFT Exception UF Offload Pending Packets�Average Inbound GFT Exception UF Offload Failed Packets is the rate, in packets per second, at which GFT provider indicates GFT exception packets for a port that have a unified flow that failed offload to the provider.7Average Inbound GFT Exception UF Offload Failed Packets7Average Inbound GFT Exception UF Offload Failed Packets�Average Inbound Unicast Forwarded GFT Exception Packets is the rate, in packets per second, at which GFT exception packets indicated by the GFT provider are forwarded for a port.7Average Inbound Unicast Forwarded GFT Exception PacketsPA7Average Inbound Unicast Forwarded GFT Exception Packets�Average Inbound GFT Copy Packets is the rate, in packets per second, at which GFT provider indicates GFT copy packets for a port. Average Inbound GFT Copy Packets Average Inbound GFT Copy Packets�Average Inbound GFT Copy Reset Packets is the rate, in packets per second, at which GFT provider indicates GFT copy packets that have the TCP RST bit set for a port.&Average Inbound GFT Copy Reset Packets&Average Inbound GFT Copy Reset Packets�Average Inbound GFT Copy FIN Packets is the rate, in packets per second, at which GFT provider indicates GFT copy packets that have the TCP FIN bit set for a port.$Average Inbound GFT Copy FIN Packets$Average Inbound GFT Copy FIN Packets�Average Inbound GFT Exception UF Offload Deferred Packets is the rate, in packets per second, at which GFT provider indicates GFT exception packets for a port that have a unified flow that is in the deferred offload state.9Average Inbound GFT Exception UF Offload Deferred PacketsPA9Average Inbound GFT Exception UF Offload Deferred PacketsPA�Total Inbound GFT Exception Packets is the total number of inbound packets for a port that are marked as exception packets by the GFT provider.#Total Inbound GFT Exception Packets#Total Inbound GFT Exception Packets�Total Inbound GFT Exception UF Packets is the total number of inbound packets for a port that are marked as exception packets by the GFT provider and have a unified flow.&Total Inbound GFT Exception UF Packets&Total Inbound GFT Exception UF Packets�Total Inbound GFT Exception UF Offloaded TCP Packets is the total number of inbound TCP packets for a port that are marked as exception packets by the GFT provider and have a unified flow already offloaded to the provider.4Total Inbound GFT Exception UF Offloaded TCP Packets4Total Inbound GFT Exception UF Offloaded TCP Packets�Total Inbound GFT Exception UF Offload Pending Packets is the total number of inbound packets for a port that are marked as exception packets by the GFT provider and have a unified flow that is pending offload to the provider.6Total Inbound GFT Exception UF Offload Pending PacketsPA6Total Inbound GFT Exception UF Offload Pending Packets�Total Inbound GFT Exception UF Offload Failed Packets is the total number of inbound packets for a port that are marked as exception packets by the GFT provider and have a unified flow that failed offload to the provider.5Total Inbound GFT Exception UF Offload Failed Packets5Total Inbound GFT Exception UF Offload Failed Packets�Total Inbound Unicast Forwarded GFT Exception Packets is the total number of inbound packets for a port that are marked as exception packets by the GFT provider and forwarded for a port.5Total Inbound Unicast Forwarded GFT Exception Packets5Total Inbound Unicast Forwarded GFT Exception Packets�Total Inbound GFT Copy Packets is the total number of inbound packets for a port that are marked as copy packets by the GFT provider.Total Inbound GFT Copy PacketsTotal Inbound GFT Copy Packets�Total Inbound GFT Copy Reset Packets is the total number of inbound packets for a port that are marked as copy packets by the GFT provider and have TCP RST  bit set.$Total Inbound GFT Copy Reset PacketsPA$Total Inbound GFT Copy Reset Packets�Total Inbound GFT Copy FIN Packets is the total number of inbound packets for a port that are marked as copy packets by the GFT provider and have TCP FIN bit set."Total Inbound GFT Copy FIN Packets"Total Inbound GFT Copy FIN Packets�Total Inbound GFT Exception UF Offload Deferred Packets is the total number of inbound packets for a port that are marked as exception packets by the GFT provider and have a unified flow in the deferred offload state.7Total Inbound GFT Exception UF Offload Deferred Packets7Total Inbound GFT Exception UF Offload Deferred Packets�Total Inbound Dropped GFT Exception Packets is the total number of inbound GFT exception packets for a port that were dropped as port specified by the OOB was not found.+Total Inbound Dropped GFT Exception Packets+Total Inbound Dropped GFT Exception Packets�The Virtual Filtering Platform (VFP) QoS Queue Average Inbound Network Traffic counter set tracks the average network traffic through an inbound QoS Queue.-VFP QoS Queue Average Inbound Network Traffic-VFP QoS Queue Average Inbound Network TrafficuAverage Inbound Bytes Entering the Queue is the rate, in bytes per second, of inbound traffic entering the QoS queue.(Average Inbound Bytes Entering the Queue(Average Inbound Bytes Entering the QueueyAverage Inbound Packets Entering the Queue is the rate, in packets per second, of inbound traffic entering the QoS queue.*Average Inbound Packets Entering the Queue*Average Inbound Packets Entering the Queue�Average Inbound Bytes Allowed Through the Queue is the rate, in bytes per second, of inbound traffic allowed through the QoS queue without wait./Average Inbound Bytes Allowed Through the Queue/Average Inbound Bytes Allowed Through the Queue�Average Inbound Packets Allowed Through the Queue is the rate, in packets per second, of inbound traffic allowed through the QoS queue without wait.1Average Inbound Packets Allowed Through the Queue1Average Inbound Packets Allowed Through the QueueqAverage Inbound Bytes Dropped, is the rate, in bytes per second, of inbound traffic discarded from the QoS queue.Average Inbound Bytes DroppedAverage Inbound Bytes DroppeduAverage Inbound Packets Dropped, is the rate, in packets per second, of inbound traffic discarded from the QoS queue.Average Inbound Packets DroppedAverage Inbound Packets Dropped�Average Inbound Bytes Queued due to Backlog is the rate, in bytes per second, of inbound traffic queued upon entering the queue due to existing backlog.+Average Inbound Bytes Queued due to Backlog+Average Inbound Bytes Queued due to Backlog�Average Inbound Packets Queued due to Backlog is the rate, in packets per second, of inbound traffic queued upon entering the queue due to existing backlog.PA-Average Inbound Packets Queued due to Backlog-Average Inbound Packets Queued due to Backlog�Average Inbound Bytes Queued due to Insufficient Tokens is the rate, in bytes per second, of inbound traffic queued upon entering the queue due to Insufficient Tokens.7Average Inbound Bytes Queued due to Insufficient Tokens7Average Inbound Bytes Queued due to Insufficient Tokens�Average Inbound Packets Queued due to Insufficient Tokens is the rate, in packets per second, of inbound traffic queued upon entering the queue due to Insufficient Tokens.9Average Inbound Packets Queued due to Insufficient Tokens9Average Inbound Packets Queued due to Insufficient TokenskAverage Inbound Bytes Resumed is the rate, in bytes per second, of inbound traffic released from the queue.Average Inbound Bytes ResumedAverage Inbound Bytes ResumedoAverage Inbound Packets Resumed is the rate, in packets per second, of inbound traffic released from the queue.Average Inbound Packets ResumedAverage Inbound Packets Resumed�Total Outbound Dropped GFT Exception Packets is the total number of outbound GFT exception packets from a port that were dropped as port specified by the OOB was not found.,Total Outbound Dropped GFT Exception Packets,Total Outbound Dropped GFT Exception Packets�Total Outbound Dropped GFT Copy Packets is the total number of outbound GFT copy packets from a port that were dropped as port specified by the OOB was not found or the packet had invalid data.'Total Outbound Dropped GFT Copy Packets'Total Outbound Dropped GFT Copy Packets�Total Outbound Monitoring Ping Packet Dropped is the total number of outbound infrastructure diagnostics ping packets for a port that were dropped.Total Outbound Dropped Monitoring Ping PacketsPA.Total Outbound Dropped Monitoring Ping Packets�The Virtual Filtering Platform (VFP) QoS Queue Total Inbound Network Traffic counter set tracks the total network traffic through an inbound QoS Queue.+VFP QoS Queue Total Inbound Network Traffic+VFP QoS Queue Total Inbound Network TrafficeTotal Inbound Bytes Entering the Queue is the number of inbound traffic bytes entering the QoS queue.&Total Inbound Bytes Entering the Queue&Total Inbound Bytes Entering the QueueaTotal Inbound Packets Entering the Queue is the number of inbound packets entering the QoS queue.(Total Inbound Packets Entering the Queue(Total Inbound Packets Entering the Queue�Total Inbound Bytes Allowed Through the Queue is the number of inbound traffic bytes allowed through the QoS queue without wait.-Total Inbound Bytes Allowed Through the Queue-Total Inbound Bytes Allowed Through the Queue|Total Inbound Packets Allowed Through the Queue is the number of inbound packets allowed through the QoS queue without wait./Total Inbound Packets Allowed Through the Queue/Total Inbound Packets Allowed Through the Queue^Total Inbound Bytes Dropped is the total number of inbound bytes discarded from the QoS Queue.Total Inbound Bytes DroppedTotal Inbound Bytes DroppedbTotal Inbound Packets Dropped is the total number of inbound packets discarded from the QoS Queue.Total Inbound Packets DroppedTotal Inbound Packets Dropped�Total Inbound Bytes Queued due to Backlog is the number of inbound traffic bytes queued upon entering the queue due to existing backlog.)Total Inbound Bytes Queued due to Backlog)Total Inbound Bytes Queued due to Backlog�Total Inbound Packets Queued due to Backlog is the number of inbound packets queued upon entering the queue due to existing backlog.+Total Inbound Packets Queued due to Backlog+Total Inbound Packets Queued due to Backlog�Total Inbound Bytes Queued due to Insufficient Tokens is the number of inbound traffic bytes queued upon entering the queue due to Insufficient Tokens.5Total Inbound Bytes Queued due to Insufficient Tokens5Total Inbound Bytes Queued due to Insufficient Tokens�Total Inbound Packets Queued due to Insufficient Tokens is the number of inbound packets queued upon entering the queue due to Insufficient Tokens.7Total Inbound Packets Queued due to Insufficient Tokens7Total Inbound Packets Queued due to Insufficient Tokens[Total Inbound Bytes Resumed is the number of inbound traffic bytes released from the queue.Total Inbound Bytes ResumedPATotal Inbound Bytes ResumedWTotal Inbound Packets Resumed is the number of inbound packets released from the queue.Total Inbound Packets ResumedTotal Inbound Packets Resumed�The Virtual Filtering Platform (VFP) QoS Queue Average Outbound Network Traffic counter set tracks the average network traffic through an outbound QoS Queue..VFP QoS Queue Average Outbound Network Traffic.VFP QoS Queue Average Outbound Network TrafficwAverage Outbound Bytes Entering the Queue is the rate, in bytes per second, of outbound traffic entering the QoS queue.)Average Outbound Bytes Entering the Queue)Average Outbound Bytes Entering the Queue{Average Outbound Packets Entering the Queue is the rate, in packets per second, of outbound traffic entering the QoS queue.+Average Outbound Packets Entering the Queue+Average Outbound Packets Entering the Queue�Average Outbound Bytes Allowed Through the Queue is the rate, in bytes per second, of outbound traffic allowed through the QoS queue without wait.0Average Outbound Bytes Allowed Through the Queue0Average Outbound Bytes Allowed Through the Queue�Average Outbound Packets Allowed Through the Queue is the rate, in packets per second, of outbound traffic allowed through the QoS queue without wait.2Average Outbound Packets Allowed Through the Queue2Average Outbound Packets Allowed Through the QueuesAverage Outbound Bytes Dropped, is the rate, in bytes per second, of outbound traffic discarded from the QoS queue.Average Outbound Bytes DroppedAverage Outbound Bytes DroppedwAverage Outbound Packets Dropped, is the rate, in packets per second, of outbound traffic discarded from the QoS queue. Average Outbound Packets DroppedPA Average Outbound Packets Dropped�Average Outbound Bytes Queued due to Backlog is the rate, in bytes per second, of outbound traffic queued upon entering the queue due to existing backlog.,Average Outbound Bytes Queued due to Backlog,Average Outbound Bytes Queued due to Backlog�Average Outbound Packets Queued due to Backlog is the rate, in packets per second, of outbound traffic queued upon entering the queue due to existing backlog..Average Outbound Packets Queued due to Backlog.Average Outbound Packets Queued due to Backlog�Average Outbound Bytes Queued due to Insufficient Tokens is the rate, in bytes per second, of outbound traffic queued upon entering the queue due to Insufficient Tokens.8Average Outbound Bytes Queued due to Insufficient Tokens8Average Outbound Bytes Queued due to Insufficient Tokens�Average Outbound Packets Queued due to Insufficient Tokens is the rate, in packets per second, of outbound traffic queued upon entering the queue due to Insufficient Tokens.:Average Outbound Packets Queued due to Insufficient Tokens:Average Outbound Packets Queued due to Insufficient TokensmAverage Outbound Bytes Resumed is the rate, in bytes per second, of outbound traffic released from the queue.Average Outbound Bytes ResumedAverage Outbound Bytes ResumedqAverage Outbound Packets Resumed is the rate, in packets per second, of outbound traffic released from the queue. Average Outbound Packets Resumed Average Outbound Packets Resumed�The Virtual Filtering Platform (VFP) QoS Queue Total Outbound Network Traffic counter set tracks the total network traffic through an outbound QoS Queue.,VFP QoS Queue Total Outbound Network Traffic,VFP QoS Queue Total Outbound Network TrafficgTotal Outbound Bytes Entering the Queue is the number of outbound traffic bytes entering the QoS queue.'Total Outbound Bytes Entering the QueuePA'Total Outbound Bytes Entering the QueuecTotal Outbound Packets Entering the Queue is the number of outbound packets entering the QoS queue.)Total Outbound Packets Entering the Queue)Total Outbound Packets Entering the Queue�Total Outbound Bytes Allowed Through the Queue is the number of outbound traffic bytes allowed through the QoS queue without wait..Total Outbound Bytes Allowed Through the Queue.Total Outbound Bytes Allowed Through the Queue~Total Outbound Packets Allowed Through the Queue is the number of outbound packets allowed through the QoS queue without wait.0Total Outbound Packets Allowed Through the Queue0Total Outbound Packets Allowed Through the Queue`Total Outbound Bytes Dropped is the total number of outbound bytes discarded from the QoS Queue.Total Outbound Bytes DroppedTotal Outbound Bytes DroppeddTotal Outbound Packets Dropped is the total number of outbound packets discarded from the QoS Queue.Total Outbound Packets DroppedTotal Outbound Packets Dropped�Total Outbound Bytes Queued due to Backlog is the number of outbound traffic bytes queued upon entering the queue due to existing backlog.*Total Outbound Bytes Queued due to Backlog*Total Outbound Bytes Queued due to Backlog�Total Outbound Packets Queued due to Backlog is the number of outbound packets queued upon entering the queue due to existing backlog.,Total Outbound Packets Queued due to Backlog,Total Outbound Packets Queued due to Backlog�Total Outbound Bytes Queued due to Insufficient Tokens is the number of outbound traffic bytes queued upon entering the queue due to Insufficient Tokens.6Total Outbound Bytes Queued due to Insufficient TokensPA6Total Outbound Bytes Queued due to Insufficient Tokens�Total Outbound Packets Queued due to Insufficient Tokens is the number of outbound packets queued upon entering the queue due to Insufficient Tokens.8Total Outbound Packets Queued due to Insufficient Tokens8Total Outbound Packets Queued due to Insufficient Tokens]Total Outbound Bytes Resumed is the number of outbound traffic bytes released from the queue.Total Outbound Bytes ResumedTotal Outbound Bytes ResumedYTotal Outbound Packets Resumed is the number of outbound packets released from the queue.Total Outbound Packets ResumedTotal Outbound Packets Resumed�Total Inbound Dropped GFT Copy Packets is the total number of inbound GFT copy packets for a port that were dropped as port specified by the OOB was not found or the packet had invalid data.&Total Inbound Dropped GFT Copy PacketsPA&Total Inbound Dropped GFT Copy Packets�Total Inbound Monitoring Ping Packet Dropped is the total number of inbound infrastructure diagnostics ping packets for a port that were dropped-Total Inbound Dropped Monitoring Ping Packets-Total Inbound Dropped Monitoring Ping Packets�Average Outbound GFT Exception Packets is the rate, in packets per second, at which the GFT provider indicated exception packets outbound from the port.&Average Outbound GFT Exception Packets&Average Outbound GFT Exception Packets�Average Outbound GFT Exception UF Packets is the rate, in packets per second, at which the GFT provider indicated exception packets outbound from the port that already have a UF.)Average Outbound GFT Exception UF Packets)Average Outbound GFT Exception UF Packets�Average Outbound GFT Exception UF Offloaded TCP Packets is the rate, in packets per second, at which the GFT provider indicated TCP exception packets outbound from the port that already have a UF offloaded to the hardware7Average Outbound GFT Exception UF Offloaded TCP Packets7Average Outbound GFT Exception UF Offloaded TCP Packets�Average Outbound GFT Exception UF Offload Pending Packets is the rate, in packets per second, at which the GFT provider indicated exception packets outbound from the port that have a UF offload pending.9Average Outbound GFT Exception UF Offload Pending Packets9Average Outbound GFT Exception UF Offload Pending Packets�Average Outbound GFT Exception UF Offload Failed Packets is the rate, in packets per second, at which the GFT provider indicated exception packets outbound from the port and have a unified flow that failed offload to the provider.8Average Outbound GFT Exception UF Offload Failed Packets8Average Outbound GFT Exception UF Offload Failed Packets�Average Outbound Unicast Forwarded GFT Exception Packets is the rate, in packets per second, at which the GFT provider indicated exception packets that were forwarded from a port.8Average Outbound Unicast Forwarded GFT Exception Packets8Average Outbound Unicast Forwarded GFT Exception Packets�Average Outbound GFT Copy Packets is the rate, in packets per second, at which the GFT provider indicated copy packets outbound from the port.!Average Outbound GFT Copy PacketsPA!Average Outbound GFT Copy Packets�Average Outbound GFT Copy Reset Packets is the rate, in packets per second, at which the GFT provider indicated copy packets outbound from the port that have TCP RST bit set.'Average Outbound GFT Copy Reset Packets'Average Outbound GFT Copy Reset Packets�Average Outbound GFT Copy FIN Packets is the rate, in packets per second, at which the GFT provider indicated copy packets outbound from the port that have TCP FIN bit set.%Average Outbound GFT Copy FIN Packets%Average Outbound GFT Copy FIN Packets�Average Outbound GFT Exception UF Offload Deferred Packets is the rate, in packets per second, at which GFT provider indicates GFT exception packets outbound from a port that have a unified flow that is in the deferred offload state.:Average Outbound GFT Exception UF Offload Deferred Packets:Average Outbound GFT Exception UF Offload Deferred Packets�Total Outbound GFT Exception Packets is the total number of outbound packets from a port that are marked as exception packets by the GFT provider.$Total Outbound GFT Exception Packets$Total Outbound GFT Exception Packets�Total Outbound GFT Exception UF Packets is the total number of outbound packets from a port that are marked as exception packets by the GFT provider and have a unified flow.'Total Outbound GFT Exception UF Packets'Total Outbound GFT Exception UF Packets�Total Outbound GFT Exception UF Offloaded Packets is the total number of outbound TCP packets from a port that are marked as exception packets by the GFT provider and have a unified flow already offloaded to the provider.5Total Outbound GFT Exception UF Offloaded TCP Packets5Total Outbound GFT Exception UF Offloaded TCP Packets�Total Outbound GFT Exception UF Offload Pending Packets is the total number of outbound packets from a port that are marked as exception packets by the GFT provider and have a unified flow that is pending offload to the provider.7Total Outbound GFT Exception UF Offload Pending Packets7Total Outbound GFT Exception UF Offload Pending Packets�Total Outbound GFT Exception UF Offload Failed Packets is the total number of outbound packets from a port that are marked as exception packets by the GFT provider and have a unified flow that failed offload to the provider.6Total Outbound GFT Exception UF Offload Failed PacketsPA6Total Outbound GFT Exception UF Offload Failed Packets�Total Outbound Unicast Forwarded GFT Exception Packets is the total number of outbound packets from a port that are marked as exception packets by the GFT provider and forwarded from a port.6Total Outbound Unicast Forwarded GFT Exception Packets6Total Outbound Unicast Forwarded GFT Exception Packets�Total Outbound GFT Copy Packets is the total number of outbound packets from a port that are marked as copy packets by the GFT provider.Total Outbound GFT Copy PacketsTotal Outbound GFT Copy Packets�Total Outbound GFT Copy Reset Packets is the total number of outbound packets from a port that are marked as copy packets by the GFT provider and have TCP RST  bit set.%Total Outbound GFT Copy Reset Packets%Total Outbound GFT Copy Reset Packets�Total Outbound GFT Copy FIN Packets is the total number of outbound packets from a port that are marked as copy packets by the GFT provider and have TCP FIN bit set.#Total Outbound GFT Copy FIN Packets#Total Outbound GFT Copy FIN Packets�Total Outbound GFT Exception UF Offload Deferred Packets is the total number of outbound packets from a port that are marked as exception packets by the GFT provider and have a unified flow in the deferred offload state.8Total Outbound GFT Exception UF Offload Deferred Packets8Total Outbound GFT Exception UF Offload Deferred Packets�Average Inbound GFT Exception UF Offload Blocked Packets is the rate, in packets per second, at which GFT provider indicates GFT exception packets for a port that have a unified flow that is blocked from offload.8Average Inbound GFT Exception UF Offload Blocked Packets8Average Inbound GFT Exception UF Offload Blocked Packets�Total Inbound GFT Exception UF Blocked Packets is the total number of inbound packets for a port that are marked as exception packets by the GFT provider and have a unified flow that is blocked from offload.6Total Inbound GFT Exception UF Offload Blocked Packets6Total Inbound GFT Exception UF Offload Blocked Packets�Average Outbound GFT Exception UF Offload Blocked Packets is the rate, in packets per second, at which GFT provider indicates GFT exception packets outbound from a port that have a unified flow that is blocked from offload.9Average Outbound GFT Exception UF Offload Blocked Packets9Average Outbound GFT Exception UF Offload Blocked Packets�Total Outbound GFT Exception UF Blocked Packets is the total number of outbound packets from a port that are marked as exception packets by the GFT provider and have a unified flow that is blocked from offload.7Total Outbound GFT Exception UF Offload Blocked Packets7Total Outbound GFT Exception UF Offload Blocked Packets�Average Inbound GFT Exception UF Offloaded UDP Packets is the rate, in packets per second, at which GFT provider indicates UDP GFT exception packets for a port that have a unified flow already offloaded to the provider.6Average Inbound GFT Exception UF Offloaded UDP Packets6Average Inbound GFT Exception UF Offloaded UDP Packets�Total Inbound GFT Exception UF Offloaded UDP Packets is the total number of inbound UDP packets for a port that are marked as exception packets by the GFT provider and have a unified flow already offloaded to the provider.4Total Inbound GFT Exception UF Offloaded UDP Packets4Total Inbound GFT Exception UF Offloaded UDP Packets�Average Outbound GFT Exception UF Offloaded UDP Packets is the rate, in packets per second, at which the GFT provider indicated UDP exception packets outbound from the port that already have a UF offloaded to the hardware7Average Outbound GFT Exception UF Offloaded UDP Packets7Average Outbound GFT Exception UF Offloaded UDP Packets�Total Outbound GFT Exception UF Offloaded Packets is the total number of outbound UDP packets from a port that are marked as exception packets by the GFT provider and have a unified flow already offloaded to the provider.5Total Outbound GFT Exception UF Offloaded UDP Packets5Total Outbound GFT Exception UF Offloaded UDP Packets�Average Inbound GFT Exception UF Offload Retry Awaiting Packets is the rate, in packets per second, at which GFT provider indicates GFT exception packets for a port that have a unified flow that is in the retry awaiting state.?Average Inbound GFT Exception UF Offload Retry Awaiting Packets?Average Inbound GFT Exception UF Offload Retry Awaiting Packets�Average Inbound GFT Packets is the rate, in packets per second, at which GFT provider received and processed inbound network traffic for a port.!Average Inbound GFT Total Packets!Average Inbound GFT Total Packets�Average Inbound GFT Bytes is the rate, in bytes per second, at which GFT provider received and processed inbound network traffic for a port.Average Inbound GFT Total BytesPAAverage Inbound GFT Total Bytes�Total Inbound GFT Exception UF Offloaded Retry Awaiting Packets is the total number of inbound packets for a port that are marked as exception packets by the GFT provider and have a unified flow that is retry awaiting.5Total Inbound GFT Exception UF Retry Awaiting Packets5Total Inbound GFT Exception UF Retry Awaiting PacketsyTotal Inbound GFT packets is the total number of inbound packets that GFT provider has received and processed for a port.Total Inbound GFT PacketsTotal Inbound GFT PacketsuTotal Inbound GFT Bytes is the total number of inbound bytes that GFT provider has received and processed for a port.Total Inbound GFT BytesTotal Inbound GFT Bytes�Average Outbound GFT Exception UF Offload Retry Awaiting Packets is the rate, in packets per second, at which the GFT provider indicated exception packets outbound from the port that are awaiting retry.PA@Average Outbound GFT Exception UF Offload Retry Awaiting Packets@Average Outbound GFT Exception UF Offload Retry Awaiting Packets�Average Outbound GFT Packets is the rate, in packets per second, at which GFT provider received and processed outbound network traffic from a port.Average Outbound GFT PacketsAverage Outbound GFT Packets�Average Outbound GFT Bytes is the rate, in bytes per second, at which GFT provider received and processed outbound network traffic from a port.Average GFT Outbound BytesAverage GFT Outbound Bytes�Total Outbound GFT Exception UF Offload Retry Awaiting Packets is the total number of outbound packets from a port that are marked as exception packets by the GFT provider and have a unified flow that is awaiting retry.)Total Outbound GFT Retry Awaiting Packets)Total Outbound GFT Retry Awaiting Packets|Total Outbound GFT Packets is the total number of outbound packets that GFT provider has received and processed from a port.PATotal Outbound GftTotalPacketsTotal Outbound GftTotalPacketsxTotal Outbound GFT Bytes is the total number of outbound bytes that GFT provider has received and processed from a port.Total Outbound GFT BytesTotal Outbound GFT Bytes8PP�QQ�QQ�����<3�5�h7�7�p9�9�0
d�e��g�g�8i�j�<l�l��n�n�pp�p�Xr�s�u�u�0 w�w��!�����"����%����0)�����*����,����t-����.-�1�l<6�6�4A8�8�B:�:��B<�<��C>�]��D_�l�������X�����X�������'�'�P�X�X�\�Z�Z�l�\�\���^�^���`�`�ĺb�b������������4�����<� �*�������<�����������������������@�����������h���������0�� �O�  Log Always

Error

 Information

Verbose

VfpExt on port %1 received a IPv4 TCP Handshake packet. Direction %2 Type = %3 SourceIp = %4 DestIp= %5 SourcePort = %6 DestPort = %7

VfpExt on port %1 received a IPv6 TCP Handshake packet. Direction = %2 Type = %3 SourceIp = %4 DestIp= %5 SourcePort = %6 DestPort = %7

$VfpExt on port %1 (Name = %6, FriendlyName = %7) %3 %2 raw packets. GftFlags is %8. Contents (up to 64B) of the first packet in the NBL = %5

VfpExt on port %1 (Name = %4, FriendlyName = %5) injected raw packets. Contents (up to 64B) of the first packet in the NBL = %3

�VfpExt on port %1 (Name = %6, FriendlyName = %7) dropped %2 raw packets because of %3. GftFlags is %8. Contents (up to 64B) of the first packet in the NBL = %5 (DropStatus=%9, DropLocation = %10)

VfpExt on port %1 (Name = %7, FriendlyName = %8) dropped %2packets because of %3. {src mac = %4, dst mac = %5, type = %6, gftFlags = %9}

\VfpExt on port %1 (Name = %9, FriendlyName = %10) dropped %2packets because of %3. {src mac = %4, dst mac = %5}:{src ip = %6, dst ip = %7, protocol = %8, gftFlags = %11}

�VfpExt on port %1 (Name = %12, FriendlyName = %13) dropped %2packets because of %3. {src mac = %4, dst mac = %5}:{src ip = %6, dst ip = %7, protocol = %8}:{src port = %9, dst port = %10, isTcpSyn = %11, gftFlags = %14}

|VfpExt on port %1 (Name = %9, FriendlyName = %10) dropped %2ARP packets because of %3. ARP type - %4, {sender mac = %5, sender ip = %6, target mac = %7, target ip = %8, gftFlags = %11}

HVfpExt on port %1 (Name = %6, FriendlyName = %7) %3 %2 raw packets. GftFlags is %8, ResumeLayer is %9. Contents (up to 64B) of the first packet in the NBL = %5

D%6rule with ID %5 processed %2packets on port %1 (Name = %14, FriendlyName = %15) with status = %13 and statusLocation = %17: flow ID {src ip = %7, dst ip = %8, src port = %9, dst port = %10, protocol = %11, isTcpSyn = %12}, rule {layer = %3, group = %4, rule id = %5, gftFlags = %16}

%6rule with ID %5 processed %2packets on port %1 (Name = %12, FriendlyName = %13) with status = %11 and statusLocation = %15: flow id {src ip = %7, dst ip = %8, protocol = %9, icmp type = %10}, rule {layer = %3, group = %4, rule id = %5, gftFlags = %14}

�%6rule with ID %5 processed %2packets on port %1 (Name = %11, FriendlyName = %12) with status = %10 and statusLocation = %14: flow id {src ip = %7, dst ip = %8, gre key = %9}, rule {layer = %3, group = %4, rule id = %5, gftFlags = %13}

�VfpExt on port %1 (Name = %11, FriendlyName = %12) matched %2packets with flow id {src ip = %5, dst ip = %6, src port = %7, dst port = %8, protocol = %9, isTcpSyn = %10} to flow {layer = %3, flow type = %4}. GftFlags = %13.

�VfpExt on port %1 (Name = %9, FriendlyName = %10) matched %2packets with flow id {src ip = %5, dst ip = %6, protocol = %7, icmp type = %8} to flow {layer = %3, flow type = %4}. GftFlags = %11.

�VfpExt has finished processing %2packets on port %1 (Name = %10, FriendlyName = %11) with status %3 and statusLocation %13 with flow id {src ip = %4, dst ip = %5, src port = %6, dst port = %7, protocol = %8, isTcpSyn = %9}. GftFlags = %12.

�VfpExt has finished processing %2packets on port %1 (Name = %8, FriendlyName = %9) with status %3 and statusLocation %11 with flow id {src ip = %4, dst ip = %5, protocol = %6, icmp type = %7}. GftFlags = %10.

�VfpExt has finished processing %2packets on port %1 (Name = %7, FriendlyName = %8) with status %3 and statusLocation %10 with flow id {src ip = %4, dst ip = %5, gre key = %6}. GftFlags = %9

�VfpExt on port %1 (Name = %10, FriendlyName = %11) found no match in layer %3 for %2packets with flow id {src ip = %4, dst ip = %5, src port = %6, dst port = %7, protocol = %8, isTcpSyn = %9}, gftFlags = %12

lVfpExt on port %1 (Name = %8, FriendlyName = %9) found no match in layer %3 for %2packets with flow id {src ip = %4, dst ip = %5, protocol = %6, icmp type = %7}. GftFlags = %10

HVfpExt on port %1 (Name = %7, FriendlyName = %8) found no match in layer %3 for %2packets with flow id {src ip = %4, dst ip = %5, gre key = %6}. GftFlags = %9

�VfpExt on port %1 (Name = %5, FriendlyName = %6) rewrote %2packets with following header: {src mac = %3, dst mac = %4}

0VfpExt on port %1 (Name = %7, FriendlyName = %8) rewrote %2packets with following header: {src ip = %3, dst ip = %4}:{src port = %5, dst port = %6}

xVfpExt on port %1 (Name = %9, FriendlyName = %10) encapped %2packets with following header: {src mac = %3, dst mac = %4}:{src ip = %5, dst ip = %6, encap type = %7, isolation id = %8}

�VfpExt on port %1 (Name = %3, FriendlyName = %4) decapped %2packets

VfpExt on port %1 (Name = %5, FriendlyName = %6) duplicated %2packets. GftFlags = %7. Contents (up to 64B) of the first packet = %4

VfpExt on port %1 (Name = %5, FriendlyName = %6) swallowed %2packet. GftFlags = %7. Contents (up to 64B) of the first packet = %4

lVfpExt on port %1 (Name = %8, FriendlyName = %9) deposited into nat pool %2 the following nat range: {range type = %3, addr = %4, start port = %5, end port = %6, ref limit = %7}

pVfpExt on port %1 (Name = %8, FriendlyName = %9) withdrawed from nat pool %2 the following nat range: {range type = %3, addr = %4, start port = %5, end port = %6, ref limit = %7}

hVfpExt on port %1 (Name = %8, FriendlyName = %9) removed from nat pool %2 the following nat range: {range type = %3, addr = %4, start port = %5, end port = %6, ref limit = %7}

TVfpExt on port %1 (Name = %8, FriendlyName = %9) %2 NatPortBinding: {internal addr = %3, internal port = %4, external addr = %5, external port = %6, reference = %7}

�VfpExt on port %1 (Name = %19, FriendlyName = %20) added into space %2 the following mapping: {mapping type = %3, ca = %4, pa = %7, mac addr = %10, customer mac addr = %11, isolation id = %12, flags = {all = %13, permanent = %14, non unique PA = %15, mac mapping = %16, L4-load-balanced mapping = %17, L3-load-balanced mapping = %18}}

�VfpExt on port %1 (Name = %19, FriendlyName = %20) removed from space %2 the following mapping: {mapping type = %3, ca = %4, pa = %7, mac addr = %10, customer mac addr = %11, isolation id = %12, flags = {all = %13, permanent = %14, non unique PA = %15, mac mapping = %16, L4-load-balanced mapping = %17, L3-load-balanced mapping = %18}}

�VfpExt on port %1 (Name = %19, FriendlyName = %20) removed (timer expiration) from space %2 the following mapping: {mapping type = %3, ca = %4, pa = %7, mac addr = %10, customer mac addr = %11, isolation id = %12, flags = {all = %13, permanent = %14, non unique PA = %15, mac mapping = %16, L4-load-balanced mapping = %17, L3-load-balanced mapping = %18}}

`VfpExt on port %1 (Name = %7, FriendlyName = %8) pended into space %2 the following mapping with notify Irp sent : {index type = %3, ip = %9, mac = %5, mapping type = %6}

`VfpExt on port %1 (Name = %7, FriendlyName = %8) pended into space %2 the following mapping with notify Irp missed: {index type = %3, ip = %9, mac = %5, mapping type = %6}

`VfpExt on port %1 (Name = %7, FriendlyName = %8) pended into space %2 the following mapping with notify Irp sent : {index type = %3, ip = %4, mac = %5, mapping type = %6}

`VfpExt on port %1 (Name = %7, FriendlyName = %8) pended into space %2 the following mapping with notify Irp missed: {index type = %3, ip = %4, mac = %5, mapping type = %6}

@VfpExt on port %1 (Name = %9, FriendlyName = %10) performing action %2 for item %3 with size %4 reference %5 version %6 status %7: {additional context %8}

8VfpExt on QoS queue %1 performing action %2 for port %3 with EnforceIntraHostLimit = %4, TxCap = %5, TxMin = %6, RxCap = %7, TxQueue = %8, RxQueue = %9

�VfpExt on max cap queue %1 with rate = %2 performing action %3

0Subscriber %2 has subscribed for notifications in compartment id %1 with status = %3, flags = {all = %4, neighbor changes = %5, route changes = %6}

�Subscriber %2 has unsubscribed from notifications in compartment ID %1

�A ND mapping has been added with status %6: { next hop ip %1, MAC address %4, interface %2, type %5 }

�A ND mapping has been deleted: { next hop ip %1, interface %2, MAC address %4, type %5, access time %3 }

�A flow matched PA route rule: { rule context %1, src ip %2, dst ip %3, next hop ip %4, resolved MAC address %5 }

�A callback from IP for PA route rule: { rule context %1, flags %2, dest ip %3, MAC address %4 }

�VfpExt on port %1 (Name = %19, FriendlyName = %20) added into space %2 the following mapping: {mapping type = %3, ca = %6, pa = %7, mac addr = %10, customer mac addr = %11, isolation id = %12, flags = {all = %13, permanent = %14, non unique PA = %15, mac mapping = %16, L4-load-balanced mapping = %17, L3-load-balanced mapping = %18}}

�VfpExt on port %1 (Name = %19, FriendlyName = %20) removed from space %2 the following mapping: {mapping type = %3, ca = %6, pa = %7, mac addr = %10, customer mac addr = %11, isolation id = %12, flags = {all = %13, permanent = %14, non unique PA = %15, mac mapping = %16, L4-load-balanced mapping = %17, L3-load-balanced mapping = %18}}

�VfpExt on port %1 (Name = %19, FriendlyName = %20) removed (timer expiration) from space %2 the following mapping: {mapping type = %3, ca = %6, pa = %7, mac addr = %10, customer mac addr = %11, isolation id = %12, flags = {all = %13, permanent = %14, non unique PA = %15, mac mapping = %16, L4-load-balanced mapping = %17, L3-load-balanced mapping = %18}}

�VfpExt on port %1 (Name = %19, FriendlyName = %20) added into space %2 the following mapping: {mapping type = %3, ca = %4, pa = %9, mac addr = %10, customer mac addr = %11, isolation id = %12, flags = {all = %13, permanent = %14, non unique PA = %15, mac mapping = %16, L4-load-balanced mapping = %17, L3-load-balanced mapping = %18}}

�VfpExt on port %1 (Name = %19, FriendlyName = %20) removed from space %2 the following mapping: {mapping type = %3, ca = %4, pa = %9, mac addr = %10, customer mac addr = %11, isolation id = %12, flags = {all = %13, permanent = %14, non unique PA = %15, mac mapping = %16, L4-load-balanced mapping = %17, L3-load-balanced mapping = %18}}

�VfpExt on port %1 (Name = %19, FriendlyName = %20) removed (timer expiration) from space %2 the following mapping: {mapping type = %3, ca = %4, pa = %9, mac addr = %10, customer mac addr = %11, isolation id = %12, flags = {all = %13, permanent = %14, non unique PA = %15, mac mapping = %16, L4-load-balanced mapping = %17, L3-load-balanced mapping = %18}}

�VfpExt on port %1 (Name = %19, FriendlyName = %20) added into space %2 the following mapping: {mapping type = %3, ca = %6, pa = %9, mac addr = %10, customer mac addr = %11, isolation id = %12, flags = {all = %13, permanent = %14, non unique PA = %15, mac mapping = %16, L4-load-balanced mapping = %17, L3-load-balanced mapping = %18}}

�VfpExt on port %1 (Name = %19, FriendlyName = %20) removed from space %2 the following mapping: {mapping type = %3, ca = %6, pa = %9, mac addr = %10, customer mac addr = %11, isolation id = %12, flags = {all = %13, permanent = %14, non unique PA = %15, mac mapping = %16, L4-load-balanced mapping = %17, L3-load-balanced mapping = %18}}

�VfpExt on port %1 (Name = %19, FriendlyName = %20) removed (timer expiration) from space %2 the following mapping: {mapping type = %3, ca = %6, pa = %9, mac addr = %10, customer mac addr = %11, isolation id = %12, flags = {all = %13, permanent = %14, non unique PA = %15, mac mapping = %16, L4-load-balanced mapping = %17, L3-load-balanced mapping = %18}}

(A flow matched Mapencap rule: {rule context %1, original dest mac = %2, new dest mac = %3, src ca = %4, dest ca = %7, src pa = %10, dest pa = %13, isolation id = %16, flags = {all = %17, encap type = %18, mac lookup = %19, ca route = %20, use mapping isolation id = %21}}

(A flow matched Mapencap rule: {rule context %1, original dest mac = %2, new dest mac = %3, src ca = %6, dest ca = %9, src pa = %10, dest pa = %13, isolation id = %16, flags = {all = %17, encap type = %18, mac lookup = %19, ca route = %20, use mapping isolation id = %21}}

(A flow matched Mapencap rule: {rule context %1, original dest mac = %2, new dest mac = %3, src ca = %4, dest ca = %7, src pa = %12, dest pa = %15, isolation id = %16, flags = {all = %17, encap type = %18, mac lookup = %19, ca route = %20, use mapping isolation id = %21}}

(A flow matched Mapencap rule: {rule context %1, original dest mac = %2, new dest mac = %3, src ca = %6, dest ca = %9, src pa = %12, dest pa = %15, isolation id = %16, flags = {all = %17, encap type = %18, mac lookup = %19, ca route = %20, use mapping isolation id = %21}}

�QoS reservation created line %2 on switch %1 with status=%3. Line's config is {res mode = %4, default res = %5, link speed pct = %6, NIC link speed = %7, NIC min guarantee pct = %8 reservable bw = %9, avail bw = %10}

�QoS reservation updated line %2 on switch %1 with status=%3. Line's config is {res mode = %4, default res = %5, link speed pct = %6, NIC link speed = %7, NIC min guarantee pct = %8 reservable bw = %9, avail bw = %10}

�QoS reservation deleted line %2 on switch %1 with status=%3.

�QoS reservation line %2 on switch %1 changes available BW with status=%3. Line's config is {res mode = %4, default res = %5, link speed pct = %6, NIC link speed = %7, NIC min guarantee pct = %8 reservable bw = %9, avail bw = %10}

QoS reservation for line %2 on switch %1 handles an external NIC connect event with status=%3. Line's config is {res mode = %4, default res = %5, link speed pct = %6, NIC link speed = %7, NIC min guarantee pct = %8 reservable bw = %9, avail bw = %10}

QoS reservation for line %2 on switch %1 handles an external NIC link state event with status=%3. Line's config is {res mode = %4, default res = %5, link speed pct = %6, NIC link speed = %7, NIC min guarantee pct = %8 reservable bw = %9, avail bw = %10}

QoS reservation for line %2 on switch %1 handles an external NIC link speed change event with status=%3. Line's config is {res mode = %4, default res = %5, link speed pct = %6, NIC link speed = %7, NIC min guarantee pct = %8 reservable bw = %9, avail bw = %10}

�QoS reservation for line %1 handles a new rate allocation event: %2

�QoS reservation for line %2 on switch %1 adds queue %3 to the line

�QoS reservation for line %2 on switch %1 deletes queue %3 from the line

$VfpExt QoS queue %1 with EnforceIntraHostLimit=%3, TxCap=%4, TxMin=%5, RxCap=%6, TxQueueDepth=%7, RxQueueDepth=%8, TxBurstSize=%9, RxBurstSize=%10, ResLowPct=%11, ResHighPct=%12, ResHeadroomPct=%13, ResRampupTime=%14, ResMinRate=%15, successfully performed action '%2'

@VfpExt QoS queue %1 with EnforceIntraHostLimit=%3, TxCap=%4, TxMin=%5, RxCap=%6, TxQueueDepth=%9, RxQueueDepth=%10, TxBurstSize=%11, RxBurstSize=%12, ResLowPct=%13, ResHighPct=%14, ResHeadroomPct=%15, ResRampupTime=%16, ResMinRate=%17, failed action '%2' with reason '%8', status=%7

�VfpExt QoS queue %1 and port %2 successfully performed action '%3'

�VfpExt QoS queue %1 and port %2 failed action '%3' with reason '%5', status=%4

VfpExt QoS reservation on vswitch '%1' successfully performed action '%2', line info = {mode=%3, defaultRes=%4, defaultQDepth=%11, defaultQBurstSize=%12, defaultQUnderUtilized=%13, defaultQOverUtilized=%14, defaultQHeadroom=%15, defaultQRampup=%16, defaultQueueMinRate=%17, NIC linkspeed=%6, res linkspeed pct=%5, DCB0 pct=%7, reservableBW=%8, availableBW=%9, numActiveQueues=%10}

<VfpExt QoS reservation on vswitch '%1' failed action '%2' with reason '%11', status=%10, failed config={mode=%3, defaultRes=%4, defaultQDepth=%13, defaultQBurstSize=%14, defaultQUnderUtilized=%15, defaultQOverUtilized=%16, defaultQHeadroom=%17, defaultQRampup=%18, defaultQueueMinRate=%19, res linkspeed pct=%5}, line info= {NIC linkspeed=%6, DCB0 pct=%7, reservableBW=%8, availableBW=%9, numActiveQueues=%12}

�VfpExt QoS reservation on vswitch '%1' got external NIC event '%2', status='%10', line info = {mode=%3, default res=%4, NIC linkspeed=%6, res linkspeed pct=%5, DCB0 pct=%7, reservableBW=%8, availableBW=%9, numActiveQueues=%11}

VfpExt QoS reservation on vswitch '%1' and queue '%2' with reservation %3 successfully performed action '%4', line info = {mode=%5, default res=%6, NIC linkspeed=%8, res linkspeed pct=%7, DCB0 pct=%9, reservableBW=%10, availableBW=%11, numActiveQueues=%12}

�VfpExt QoS reservation (line:'%1') has congestion control event '%2'

TVfpExt dropped a packet from port %1 (Name = %7, FriendlyName = %8) in forwarding because of %2. {src mac = %3, dst mac = %4, type = %5, vlanID = %6}, gftFlags = %9

�VfpExt successfully forwarded a packet from port %1 (Name = %9, FriendlyName = %10) to destination %2 (Name = %11, FriendlyName = %12). {src mac = %3, dst mac = %4, type = %5, vlanID = %6, isBroadcast = %7, innerForwardingUsed = %8}, gftFlags = %13

�VfpExt is skipping destination port %2 (Name = %9, FriendlyName = %10) in broadcast list of packet from source port %1 (Name = %7, FriendlyName = %8). {src mac = %3, dst mac = %4, type = %5, vlanID = %6}, gftFlags = %11

0VfpExt failed to forward packet from source port %1 (Name = %8, FriendlyName = %9) based on inner headers, attempting to forward based on outer headers. {outer src mac = %2, outer dst mac = %3, type = %4, inner dest mac = %5, vlan id = %6, isolation id = %7}, gftFlags = %10

The save operation for port %1 (Name = %5, FriendlyName = %6) failed with reason '%2'. ExtendedData1: %3, ExtendedData2: %4.

The save completion operation for port %1 (Name = %5, FriendlyName = %6) failed with reason '%2'. ExtendedData1: %3, ExtendedData2: %4.

The save operation for port %1 (Name = %5, FriendlyName = %6) failed with reason '%2'. ExtendedData1: %3, ExtendedData2: %4.

�Succesfully saved port %1 (Name = %4, FriendlyName = %5). Size: %2, BlockPortOnRestore: %3.

�The overall save operation for port %1 (Name = %4, FriendlyName = %5) is complete.

�Succesfully restored port %1 (Name = %4, FriendlyName = %5). Size: %2, Block State: %3.

�Save request for port %1 (Name = %3, FriendlyName = %4) returned to caller with a size request of %2.

�Save request for port %1 (Name = %5, FriendlyName = %6) allowed to proceed to the next component with reason '%4'.

�Restore request for port %1 (Name = %5, FriendlyName = %6) ignored by extension '%3' with reason '%4'.

�Restore request failure for port %1 (Name = %4, FriendlyName = %5) suppressed

�Redirect for port %1 (Name = %3, FriendlyName = %4) failed. Reason: '%2'.

�OID %2 issued on port ID %1 (Name = %4, FriendlyName = %5). Status: %3.

�Status Indication code %2 from port ID %1 (Name = %3, FriendlyName = %4).

�NDIS_OFFLOAD state in the context of %1. HeaderRevision %2, EncapsulationTypes %3, MaxHeaderSizeSupported %4, NvgreTransmitChecksumOffloadSupported %5, NvgreReceiveChecksumOffloadSupported %6, NvgreLsoV2Supported %7, NvgreRssSupported %8, NvgreVmqSupported %9, VxlanTransmitChecksumOffloadSupported %10, VxlanReceiveChecksumOffloadSupported %11, VxlanLsoV2Supported %12, VxlanRssSupported %13, VxlanVmqSupported %14, VxlanUDPPortNumber %15, VxlanUDPPortNumberConfigurable %16.

POID_RECEIVE_FILTER_SET_FILTER for port ID %2 (Name = %5, FriendlyName = %6). Inner Mac VMQ Setting Enabled = %1, MAC address on filter %3, Inner Mac Flag Set = %4.

PA route rule update callback: { rule context %1, elapsed time %2, cache pruning timeout %3, cache pruning threshold %4, ND entries %5 }

�DTLS Session {Port %1 (Name = %13, FriendlyName = %14), Session ID %2} {Port %1 Peer Outer IP %3, Peer Inner MAC %4, TNI %5, Tunnel ID %6} Called  security API %7 with select params %8, %9, %10 and %11 returned status %12.

TDTLS Session {Port %1 (Name = %8, FriendlyName = %9), Session ID %2} {Port %1 Peer Outer IP %3, Peer Inner MAC %4, TNI %5, Tunnel ID %6}  Handshake fatal error: %7.

xDTLS Session {Port %1 (Name = %10, FriendlyName = %11), Session ID %2} {Port %1 Peer Outer IP %3, Peer Inner MAC %4, TNI %5, Tunnel ID %6}  Transition state from %7 to %8. Reason: %9

�DTLS Session {Port %1 (Name = %10, FriendlyName = %11), Session ID %2} {Port %1 Peer Outer IP %3, Peer Inner MAC %4, TNI %5, Tunnel ID %6}  DTLS packet direction %7 Content Type %8, Handshake Protocol %9

$DTLS Session {Port %1 (Name = %8, FriendlyName = %9), Session ID %2} {Port %1 Peer Outer IP %3, Peer Inner MAC %4, TNI %5, Tunnel ID %6}  %7

|DTLS Session {Port %1 (Name = %12, FriendlyName = %13), Session ID %2} {Port %1 Peer Outer IP %3, Peer Inner MAC %4, TNI %5, Tunnel ID %6}  %7.  Numeric params:%8 %9 Str params: %10 %11

pDTLS on Port %1 ((Name = %3, FriendlyName = %4) %2

�PADiscoveryEvent port %1 (Name = %12, FriendlyName = %13) direction %2 state %3 flow id {src ip = %4, dst ip = %5, src port = %6, dst port = %7, protocol = %8} DiscoveryType = %9 PADiscovered = %10  message = %11

Port %1 (Name = %16, FriendlyName = %17) parsed DHCP packet Operation:%2 MessageType:%3 ClientIp:%4 ClientMac:%5 TransactionId:%6 AssignedIp:%7 ServerIp:%8 RequestedIp:%9 RelayIp:%10 DnsIp:%11 SrcIp=>SrcPort:%12=>%13 DstIp=>DstPort:%14=>%15. GftFlags = %18

VfpExt on port %1 (Name = %33, FriendlyName = %34) created %2 unified flow %35: IsMain=%3, IsPending=%4, IsSecondary=%36, IsMirror=%37, IsHairpin=%38, HairpinChecked=%39, OriginalInbound=%40, IsTcpSyn=%29, Tni=%5, VlanId=%6, NumEncaps=%7, {EncapFlowId0 (EncapType=%8, SrcMac=%9, DestMac=%10, SrcIp=%11, DestIp=%12, TenantId=%13, EncryptVlanId=%14) EncapFlowId1 (EncapType=%15, SrcMac=%16, DestMac=%17, SrcIp=%18, DestIp=%19, TenantId=%20, EncryptVlanId=%21) InnerFlowId (Protocol=%22, SrcMac=%23, DestMac=%24, SrcIp=%25, DestIp=%26, SrcPort=%27, DestPort=%28)}, {EncapTransposition0 (%30), EncapTransposition1 (%31), InnerTransposition (%32)}

$VfpExt on port %1 (Name = %31, FriendlyName = %32) created %2 unified flow: IsMain=%3, IsPending=%4, Tni=%5, VlanId=%6, NumEncaps=%7, {EncapFlowId0 (EncapType=%8, SrcMac=%9, DestMac=%10, SrcIp=%11, DestIp=%12, TenantId=%13, EncryptVlanId=%14) EncapFlowId1 (EncapType=%15, SrcMac=%16, DestMac=%17, SrcIp=%18, DestIp=%19, TenantId=%20, EncryptVlanId=%21) InnerFlowId (Protocol=%22, SrcMac=%23, DestMac=%24, SrcIp=%25, DestIp=%26, IcmpType=%27)}, {EncapTransposition0 (%28), EncapTransposition1 (%29), InnerTransposition (%30)}

VfpExt on port %1 (Name = %33, FriendlyName = %34) matched %2 unified flow %35: IsMain=%3, IsSecondary=%36, IsMirror=%37, IsHairpin=%38, HairpinChecked=%39, OriginalInbound=%40, IsPending=%4, IsTcpSyn=%29, Tni=%5, VlanId=%6, NumEncaps=%7, {EncapFlowId0 (EncapType=%8, SrcMac=%9, DestMac=%10, SrcIp=%11, DestIp=%12, TenantId=%13, EncryptVlanId=%14) EncapFlowId1 (EncapType=%15, SrcMac=%16, DestMac=%17, SrcIp=%18, DestIp=%19, TenantId=%20, EncryptVlanId=%21) InnerFlowId (Protocol=%22, SrcMac=%23, DestMac=%24, SrcIp=%25, DestIp=%26, SrcPort=%27, DestPort=%28)}, {EncapTransposition0 (%30), EncapTransposition1 (%31), InnerTransposition (%32)}

$VfpExt on port %1 (Name = %31, FriendlyName = %32) matched %2 unified flow: IsMain=%3, IsPending=%4, Tni=%5, VlanId=%6, NumEncaps=%7, {EncapFlowId0 (EncapType=%8, SrcMac=%9, DestMac=%10, SrcIp=%11, DestIp=%12, TenantId=%13, EncryptVlanId=%14) EncapFlowId1 (EncapType=%15, SrcMac=%16, DestMac=%17, SrcIp=%18, DestIp=%19, TenantId=%20, EncryptVlanId=%21) InnerFlowId (Protocol=%22, SrcMac=%23, DestMac=%24, SrcIp=%25, DestIp=%26, IcmpType=%27)}, {EncapTransposition0 (%28), EncapTransposition1 (%29), InnerTransposition (%30)}

PVfpExt on port %1 (Name = %29, FriendlyName = %30) deleted %2 unified flow %31: IsMain=%3, IsPending=%4, IsSecondary=%32, IsMirror=%33, IsHairpin=%34, HairpinChecked=%35, OriginalInbound=%36, Tni=%5, VlanId=%6, NumEncaps=%7, {EncapFlowId0 (EncapType=%8, SrcMac=%9, DestMac=%10, SrcIp=%11, DestIp=%12, TenantId=%13, EncryptVlanId=%14) EncapFlowId1 (EncapType=%15, SrcMac=%16, DestMac=%17, SrcIp=%18, DestIp=%19, TenantId=%20, EncryptVlanId=%21) InnerFlowId (Protocol=%22, SrcMac=%23, DestMac=%24, SrcIp=%25, DestIp=%26, SrcPort=%27, DestPort=%28)}

�VfpExt on port %1 (Name = %28, FriendlyName = %29) deleted %2 unified flow: IsMain=%3, IsPending=%4, Tni=%5, VlanId=%6, NumEncaps=%7, {EncapFlowId0 (EncapType=%8, SrcMac=%9, DestMac=%10, SrcIp=%11, DestIp=%12, TenantId=%13, EncryptVlanId=%14) EncapFlowId1 (EncapType=%15, SrcMac=%16, DestMac=%17, SrcIp=%18, DestIp=%19, TenantId=%20, EncryptVlanId=%21) InnerFlowId (Protocol=%22, SrcMac=%23, DestMac=%24, SrcIp=%25, DestIp=%26, IcmpType=%27)}

�File operation %1 on file %2 with size %3 completed with status %4, hex %5

�Failure in control processing for object. Id: %1, Name: %11, Operation Type: %2, Type: %3, SubType: %4, Flags: %5, Port id: %6, Port name: %7, Status: %8, Failure reason (value = %10): %9

,Success during control processing for object. Id: %1, Name: %11, Operation Type: %2, Type: %3, SubType: %4, Flags: %5, Port id: %6, Port name: %7

�Ioctl completed. Switch name: %1, Port id: %2, Port name: %3, Process id: %5, Irp: %6, Status: %7

Failed when setting port information. Port Id: %1, Port Name: %2, Operation: %3, Status: %4, Failure reason (value = %6): %5

�Ioctl started. Switch name: %1, Port id: %2, Port name: %3, Operation: %4, Process id: %5, Irp: %6

�Failed when setting switch information. Switch name: %1, Operation: %2, Status: %3, Failure reason (value = %5): %4

�Ioctl pended. Switch name: %1, Port id: %2, Port name: %3, Operation: %4, Process id: %5, Irp: %6

�Matched redirect flow for deletion. Port id: %1, Layer id: %2, Src ip: %3, Dst ip: %4, Src port: %5, Dst port: %6, Protocol: %7, Encap dest ip: %8, Encap src ip: %9, Inner dest mac: %10, Gre key: %11, Port name: %12

�GFT offload capabilities in the context of %1. Flags %2, CounterCapabilities %3, SupportedTableTypes %4, SupportedEncapsulationTypes %5, SupportedIngressExactMatchTableActions %6, SupportedEgressExactMatchTableActions %7, SoftwareSupportedIngressExactMatchTableActions %8, SoftwareSupportedEgressExactMatchTableActions %9, SupportedIngressWildcardMatchTableActions %10, SupportedEgressWildcardMatchTableActions %11, SoftwareSupportedIngressWildcardMatchTableActions %12, SoftwareSupportedEgressWildcardMatchTableActions %13, NumPacketCounterObjects %14, NumByteCounterObjects %15, NumPacketByteCounterObjects %16, NumPacketByteCounterAndStateObjects %17, NumCounterObjectsPerIngressExactMatchFlowEntry %18, NumCounterObjectsPerEgressExactMatchFlowEntry %19 NumCounterObjectsPerIngressWildcardMatchFlowEntry %20, NumCounterObjectsPerEgressWildcardMatchFlowEntry %21.

LGFT offload counters updated %1. 

dGFT aggregate counters are not freed because either the port could not be referenced or the OID request failed. Status: %1, GFT Counter id: %2, Port id: %3, Port name: %4. 

VfpExt on port %1 (Name = %2, FriendlyName = %3) reset TTL for GFT offloaded unified flow %4  , GftProviderFlowEntryId %5. CurrSysTime %6, GftTimeStamp %7, GftUpdateInTtlUnits %8, MaxTtl %9, Ttl %10, PrevNumPackets %13, PrevNumBytes %14 NumPackets %11, NumBytes %12

�VfpExt on port %1 (Name = %2, FriendlyName = %3) changed GFT flow state of UF %4 from %5 to %6. GftPendingDelete is %7, GftMarkedForHwDeletion is %8, ReoffloadReqd is %9, RetryOffload is %10, BlockReason %11, RetryReason %12

�VfpExt on port %1 (Name = %2, FriendlyName = %3) UF %4 add_flow failed with status %5 due to %6

4VfpExt on port %1 (Name = %2, FriendlyName = %3) UF %4, ProviderFlowEntry %5 add_flow succeded. Flow state %6, Offload reason %7, GftPendingDelete %8

�VfpExt on port %1 (Name = %2, FriendlyName = %3) UF %4 delete_flow failed with status %5 due to %6

�Skipping Sx Port context %1 (Name = %2, FriendlyName = %3) as a match with reason '%4'

�Vfp failed to issue OID for VPort %1 with status %2 due to %3

�Failed to set GFT port parser settings on port %1 (Name = %2, FriendlyName = %3) with status %4 due to %5

�Tag Id %1 completed operation with status: %2. Extended operation status: %3

�VfpExt on port %1 (Name = %19, FriendlyName = %20) ignore adding into space %2 the following mapping: {mapping type = %3, ca = %4, pa = %7, mac addr = %10, customer mac addr = %11, isolation id = %12, flags = {all = %13, permanent = %14, non unique PA = %15, mac mapping = %16, L4-load-balanced mapping = %17, L3-load-balanced mapping = %18}}

�VfpExt on port %1 (Name = %19, FriendlyName = %20) ignore adding into space %2 the following mapping: {mapping type = %3, ca = %6, pa = %7, mac addr = %10, customer mac addr = %11, isolation id = %12, flags = {all = %13, permanent = %14, non unique PA = %15, mac mapping = %16, L4-load-balanced mapping = %17, L3-load-balanced mapping = %18}}

�VfpExt on port %1 (Name = %19, FriendlyName = %20) ignore adding into space %2 the following mapping: {mapping type = %3, ca = %4, pa = %9, mac addr = %10, customer mac addr = %11, isolation id = %12, flags = {all = %13, permanent = %14, non unique PA = %15, mac mapping = %16, L4-load-balanced mapping = %17, L3-load-balanced mapping = %18}}

�VfpExt on port %1 (Name = %19, FriendlyName = %20) ignore adding into space %2 the following mapping: {mapping type = %3, ca = %6, pa = %9, mac addr = %10, customer mac addr = %11, isolation id = %12, flags = {all = %13, permanent = %14, non unique PA = %15, mac mapping = %16, L4-load-balanced mapping = %17, L3-load-balanced mapping = %18}}

VfpExt deleted layer flow of type %1 with flow id {src ip = %2, dst ip = %3, src port = %4, dst port = %5, protocol = %6}.

�VfpExt deleted layer flow of type %1 with flow id {src ip = %2, dst ip = %3, protocol = %4, icmp type = %5}.

�VfpExt deleted layer flow of type %1 with flow id {src ip = %3, dst ip = %4, src port = %5, dst port = %6, protocol = %7}. IsMain = %2, NumPackets = %8, NumBytes = %9, NumPackets = %10, NumBytes = %11

|VfpExt deleted layer flow of type %1 with flow id {src ip = %3, dst ip = %4, protocol = %5, icmp type = %6}. IsMain = %2, NumPackets = %7, NumBytes = %8. NumPackets = %9, NumBytes = %10

�VfpExt on port %1 (Name = %2, FriendlyName = %3) failed to schedule work item due to status %4

xReplacing layer flow addresses succeeded on port %1 (Name = %2, FriendlyName = %3), layer %4, status %5, number of outbound flows replaced = %6, number of inbound flows replaced = %7

pReplacing layer flow addresses failed on port %1 (Name = %2, FriendlyName = %3), layer %4, status %5, number of outbound flows replaced = %6, number of inbound flows replaced = %7

�VfpExt on port %1 (Name = %2, FriendlyName = %3) ran port timer function %4

�Suspended live migration state change on port %1 (Name = %2, FriendlyName = %3), new live migration state = %4

VfpExt set NDIS_NIC_SWITCH_VPORT_PARAMS_ENFORCE_MAX_SG_LIST on port (name = %1, Friendlyname = %2) during VF VPort Creation

�VfpExt on port %1 (Name = %2, FriendlyName = %3) with numFlows %4 with StepDownMinItem enabled : %5 with timer interval %6 is scheduled with status %7 with %8 outstanding work times and heurstic is enabled: %9

�Skipping Sx Switch context %1 (Name = %2, FriendlyName = %3) as a match with reason '%4'

�Managing VM Context failed for VMId: %1 on port (name = %2, FriendlyName = %3) with status = %4, internal reason: %5

�VfpExt on port %1 (Name = %19, FriendlyName = %20) refreshing into space %2 the following mapping: {mapping type = %3, ca = %4, pa = %7, mac addr = %10, customer mac addr = %11, isolation id = %12, flags = {all = %13, permanent = %14, non unique PA = %15, mac mapping = %16, L4-load-balanced mapping = %17, L3-load-balanced mapping = %18}}

�VfpExt on port %1 (Name = %19, FriendlyName = %20) refreshing into space %2 the following mapping: {mapping type = %3, ca = %6, pa = %7, mac addr = %10, customer mac addr = %11, isolation id = %12, flags = {all = %13, permanent = %14, non unique PA = %15, mac mapping = %16, L4-load-balanced mapping = %17, L3-load-balanced mapping = %18}}

�VfpExt on port %1 (Name = %19, FriendlyName = %20) refreshing into space %2 the following mapping: {mapping type = %3, ca = %4, pa = %9, mac addr = %10, customer mac addr = %11, isolation id = %12, flags = {all = %13, permanent = %14, non unique PA = %15, mac mapping = %16, L4-load-balanced mapping = %17, L3-load-balanced mapping = %18}}

�VfpExt on port %1 (Name = %19, FriendlyName = %20) refreshing into space %2 the following mapping: {mapping type = %3, ca = %6, pa = %9, mac addr = %10, customer mac addr = %11, isolation id = %12, flags = {all = %13, permanent = %14, non unique PA = %15, mac mapping = %16, L4-load-balanced mapping = %17, L3-load-balanced mapping = %18}}

�VfpExt on port %1 (Name = %19, FriendlyName = %20) Negative caching into space %2 the following mapping: {mapping type = %3, ca = %4, pa = %7, mac addr = %10, customer mac addr = %11, isolation id = %12, flags = {all = %13, permanent = %14, non unique PA = %15, mac mapping = %16, L4-load-balanced mapping = %17, L3-load-balanced mapping = %18}}

�VfpExt on port %1 (Name = %19, FriendlyName = %20) Negative caching into space %2 the following mapping: {mapping type = %3, ca = %6, pa = %7, mac addr = %10, customer mac addr = %11, isolation id = %12, flags = {all = %13, permanent = %14, non unique PA = %15, mac mapping = %16, L4-load-balanced mapping = %17, L3-load-balanced mapping = %18}}

�VfpExt on port %1 (Name = %19, FriendlyName = %20) Negative caching into space %2 the following mapping: {mapping type = %3, ca = %4, pa = %9, mac addr = %10, customer mac addr = %11, isolation id = %12, flags = {all = %13, permanent = %14, non unique PA = %15, mac mapping = %16, L4-load-balanced mapping = %17, L3-load-balanced mapping = %18}}

�VfpExt on port %1 (Name = %19, FriendlyName = %20) Negative caching into space %2 the following mapping: {mapping type = %3, ca = %6, pa = %9, mac addr = %10, customer mac addr = %11, isolation id = %12, flags = {all = %13, permanent = %14, non unique PA = %15, mac mapping = %16, L4-load-balanced mapping = %17, L3-load-balanced mapping = %18}}

�VfpExt on port %1 received mappingdesc for following mapping: {mapping index type = %2, address = %3}}

�VfpExt on port %1 received mappingdesc for following mapping: {mapping index type = %2, address = %5}}

�Applying GFT Multi-Tenant Settings status %1 - port %2 (Name = %3), Enable: %4, UseVlanMask: %5, UseVlanMaxRange: %6, UseVlanMinRange: %7, VlanMask: %8, MaxVlanRange: %9, MinVlanRange: %10

(%1, status = %2

`GFT direct configuration dispatch table for switch %1 returned status %2. ClientHandle %3, ProviderHandle %4, ClientRequestCompletionHandler %5, ProviderRequestHandler %6.

�VfpExt on port %1 layer %2 matched a redirect rule, using reconcilation path {%3}

VfpExt hairpin processing dropped packet because destination port after hairpin processing is same as original source part. Source port %1 (Name = %2, FriendlyName = %3) Target port %4 (Name = %5, FriendlyName = %6) IsMirror = %7, Packet = %8, Original Packet = %9

�VFP PktMon Registration failed for switch %1 with status %2 and statusLocation %3

@VfpExt QoS config with EnableHardwareCaps=%1, EnableHardwareReservations=%2, EnableSoftwareReservations=%3, Flags=%4, failed with status:(%5), reason:(%6)

�VPort OID failed for VportName=%1, AttachedFunctionId=%2, status=(%4), reason=(%3)

outbound

inbound

(TCP Syn Packet

,TCP SynAck Packet

(TCP Ack Packet

(TCP Fin Packet

(TCP Rst Packet

 intercepted

,missed intercept

ARP guard

 ARP limiter

 DHCP guard

$DHCP limiter

(block broadcast

$block non-IP

 ARP filter

 Ipv4 guard

 Ipv6 guard

MAC guard

Lfound no destinations (broadcast)

Hfound no destination (unicast)

Lfound destination, port not ready

<vmswitch callback failed

(ICMPV6 limiter

(invalid packet

intercept

,intercept blocked

NDP guard

0Source Port Blocked

$Nic Suspended

Arp

Ipv4

Ipv6

request

response

 V4EchoReply

 V4Redirect

$V4EchoRequest

(V4RouterAdvert

(V4RouterSolicit

0V4TimestampRequest

,V4TimestampReply

$V6EchoRequest

 V6EchoReply

(V6RouterSolicit

(V6RouterAdvert

,V6NeighborSolicit

,V6NeighborAdvert

None

Allow

Block

Meter

Nat

 DynamicNat

Decap

MapOut

MapIn

MapEncap

MapDecap

MapIpOut

MapIpIn

MapMacOut

MapMacIn

Profile

Redirect

 RouteEncap

 TunneledNat

Qos

$Transposition

PaRoute

Mark

$PingResponse

 CaRedirect

MapNat

LbNat

None

Pending

Allow

Dnat

Snat

 DynamicDnat

 DynamicSnat

Redirect

$TunneledDnat

$TunneledSnat

 PADiscovery

,AllowWithCounters

MapNat

Mark

$Transposition

LbDNat

LbSNat

Idle

Partial

Used

Removed

Provider

Customer

Joint

 CustomerMac

0VfpMapIndexProvider

0VfpMapIndexCustomer

8VfpMapIndexCustomerMac

Normal

(PendingProvider

(PendingCustomer

$PendingJoint

0PendingCustomerMac

Serialize

 Deserialize

4SerializationItemNone

0SerializationItemId

4SerializationItemName

DSerializationItemUserContext

8SerializationItemLayer

8SerializationItemGroup

4SerializationItemRule

4SerializationItemFlow

DSerializationItemUnifiedFlow

@SerializationItemCondition

HSerializationItemConditionData1

HSerializationItemConditionData2

8SerializationItemSpace

<SerializationItemMapping

<SerializationItemNatPool

<SerializationItemNatRange

LSerializationItemMeterRuleContext

HSerializationItemNatRuleContext

LSerializationItemDecapRuleContext

TSerializationItemMapEncapRuleContext

LSerializationItemRedirectRuleData

XSerializationItemRouteEncapRuleContext

XSerializationItemTunneledNatRuleContext

HSerializationItemQosRuleContext

\SerializationItemTranspositionRuleContext

PSerializationItemNatRangeReference

TSerializationItemUnifiedFlowSavedData

DSerializationItemPortContext

<SerializationItemVersion

PSerializationItemPaRouteRuleContext

LSerializationItemPaRouteNdMapping

HSerializationItemNatPortBinding

4SerializationItemBlob

DSerializationItemObjectCount

4SerializationItemMax

Pending

Normal

Max

creating

deleting

 referencing

$dereferencing

Create

Remove

Free

Update

PortSet

PortClear

 LineCreate

 LineRemove

 LineUpdate

4UpdateExternalNicInfo

(AddQueueToLine

0RemoveQueueFromLine

,ChangeAvailableBw

NoFailure

,UnexpectedFailure

,UnexpectedFailure

@InsufficientSystemResources

DInvalidReservationParameters

HInsufficientBandwidthAvailable

$LineIsInUsed

TExternalLinkSpeedLessThanReservation

$InvalidConfig

$QueueNotFound

A queue parameter is not supported on offloaded queue, and queue offload cannot be revoked, possibly due to association with VF vPorts

DNot all queues can be revoked

�A queue parameter that cannot be modified has changed its value

|QoS offload does not support reservation in Absolute mode

xVF vPort cannot be associated with non-offloaded queue

�Transmit reservation is not supported on IOV-enabled vswitch

�Hardware QoS transmit reservation is not current supported

(InvalidModeNone

 WeightMode

$AbsoluteMode

(InvalidModeMax

 StartTimer

StopTimer

0EnterCongestionMode

0ExitCongestionMode

,Linkspeed changed

8DCB allocation changed

8External NIC connected

Unknown

hUnsupported Save/Restore OID structure revision

(Empty port list

$Unknown port

4Save state too large

<Serialization step failed

LInvalid restore input buffer size

0Invalid save state

@Deserialization step failed

Unknown

pWe returned our save state in the previous request

DSave restore feature disabled

TSave state owned by another extension

tNo extended information was present in the redirect.

hRedirect was sent without extended information.

hRedirect information was across address family.

dRedirect information had invalid encap type.

None

IpInGre

IpInIp

EthInGre

VXLAN

HOID_TCP_OFFLOAD_CURRENT_CONFIG

TOID_TCP_OFFLOAD_HARDWARE_CAPABILITIES

@OID_TCP_OFFLOAD_PARAMETERS

XNDIS_STATUS_TASK_OFFLOAD_CURRENT_CONFIG

None

NVGRE

VXLAN

(NVGRE and VXLAN

None

Larval

 Established

Inactive

Zombie

(Not Applicable

4Time Lifetime reached

<Client failed to initiate

8Larval lifetime reached

Idle out

,Peer sent delete

4Contrl plane deleted

0Create cred failed

0Negotiation failed

@Post handshake check failed

8Max retransmit exceeded

<All sessions deactivated

DPeer failed to send keealives

4Byte Lifetime reached

Other

$Change Cipher

Alert

Handshake

App Data

$Hello Request

$Client Hello

$Server Hello

(Verify Request

0New Session Ticket

Cert

$Server Key X

Cert Req

,Server Hello Done

 Cert Verify

$Client Key X

Finished

 Cert status

 Supplement

$Next Protocol

(Not Applicable

Request

Reply

Discover

Offer

Request

Ack

Success

<UnableToGetDevicePointer

LUnableToBuildDeviceControlRequest

0FailureZwCreateFile

DFailureZwQueryInformationFile

,FailureZwReadFile

0FailureZwWriteFile

DFailureInsufficientResources

8FailureInvalidParameter

HFailureFileSizeSmallerThanInput

Create

Read

Write

Delete

(PAUndiscovered

$PADiscovered

,PADiscoveryTypeL3

,PADiscoveryTypeL4

0PADiscoveryTypeNone

AddObject

SetObject

0AddSerializedObject

(QosDeserialize

None

Specifier

General

Layer

Group

Rule

Nat Pool

Nat Range

 Information

Flow

Space

Mapping

Packet

Port Name

$Unified Flow

$Transposition

Status

Qos Queue

Port

$Port Binding

$InformationEx

Condition

$Dtls Session

0PA Discovery Route

(Unknown failure

 No failure

@Parent not found for object

dId already present in new list or target list

,Id already exists

8Insufficient resources

(Parsing object

4Unsupported operation

HInvalid id specified for layer

pMore than one egress forwarding layer not supported

\Egress forwarding id exists in layer list

LToo many layers specified on port

`Layer id matches egress forwarding layer id

hStateful layer specified for egress forwarding

DInvalid layer type specified

�Invalid flow limit info size specified during set for layer

�Flow limit specified for stateless layer during set for layer

lInvalid flow class specified during set for layer

tInvalid TTL info size specified during set for layer

lInvalid TTL value specified during set for layer

�Invalid size specified for clear flow state info during set for layer

hSet operation specified on layer not supported

TInvalid sub type specified for group

pOut group specified for layer with hairpin flag set

PFailed when creating condition list

PFailed when initializing classifier

�End port value is less than start port value for the nat range

@Invalid nat range specified

�Failed to allocate internal port binding table for nat pool

�Failed to allocate external port binding table for nat pool

�Invalid reset nat pool counter info size specified during set for nat pool

lSet operation specified on nat pool not supported

PInvalid sub type specified for rule

HInvalid TTL specified for rule

�Stateful rule or rule with non zero TTL specified on stateless layer

xInvalid rule type specified for layer with hairpin flag

�Invalid rule sub type or layer specified for rule with hairpin flag

dFailed when creating condition list for rule

pSyn only and non syn only flags specified for rule

xSyn only flag specified with no tcp condition for rule

\Failed when inserting rule to classifier

xInvalid RuleDataSize at index 0 specified for nat rule

\Nat rule not stateful or 0 TTL specified

dSingle IP condition check failed for nat rule

�Failed when parsing context for RuleDataSize at 0 index for nat rule

TFailed to initialize nat rule context

hSingle port condition check failed for nat rule

|Invalid RuleDataSize at index 0 specified for dynnat rule

`Dynnat rule not stateful or 0 TTL specified

�Failed when parsing context for RuleDataSize at 0 index for dynnat rule

XFailed to find NAT pool for dynnat rule

Failed to verify UDP protocol condition when use existing port binding on the dynnat rule or reuse port binding on the nat pool specified

pFailed to verify protocol condition for dynnat rule

�Mismtach between flags for port binding specified by dynnat rule and the nat pool

DStateful decap rule specified

pInvalid protocol condition specified for decap rule

|Invalid RuleDataSize specified at index 0 for decap rule

�Failed when parsing context for RuleDataSize at index 0 for decap rule

XFailed to initialize decap rule context

dRedirect rule stateful or zero TTL specified

�Failed when parsing context for RuleDataSize at 0 index for redirect rule

`Failed to initialize redirect rule context

DStateful trans rule specified

|Invalid RuleDataSize at index 0 specified for trans rule

�Failed when parsing context for RuleDataSize at index 0 for trans rule

hFailed to initialize transposition rule context

hInvalid number of headers in transposition rule

�IP version specified by GFP header present flag does not match version of group

dInvalid group sub type for transposition rule

�Transposition rule specifies Forward To Port but layer does not have hairpin flag set

�Invalid headers present specified for transposition action push

XInvalid transposition action specified

�Transposition rule specifies flag decrement ttl if not one, but transposition action is not modify

�Transposition rule specifies invalid partial ip preservation parameters

TStateful specified for PA route rule

�Invalid RuleDataSize at index 0 specified for PA route rule

�Failed when parsing context for RuleDataSize at index 0 for PA route rule

`Failed to initialize PA route rule context

�Invalid RuleDataSize at index 0 specified for route encap rule

�Failed when parsing context for RuleDataSize at index 0 for route encap rule

�Zero or excessive destinations specified for route encap rule

�Failed when parsing context for RuleDataSize at index 0 (Ex version) for route encap rule

�Zero or excessive destinations specified for route encap rule (Ex version)

�Failed when parsing context for RuleDataSize at index 0 (Ex2 version) for route encap rule

�Zero or excessive destinations specified for route encap rule (Ex2 version)

�RuleDataSize of 0 specified at index 1 for route encap rule when encrypted VxLan and L3 discovery flags are set

�Route encap rule non stateful or with zero TTL when L4 discovery flag specified

xRoute encap rule is stateful or specifies non zero TTL

lInvalid cert name specified for route encap rule

lFailed to initialize context for route encap rule

�Failed when parsing context for RuleDataSize at index 1 for route encap rule

TSpace not found for route encap rule

DStateful meter rule specified

`Failed to initialize context for meter rule

xInvalid RuleDataSize at index 0 specified for map rule

�Non stateful or zero TTL specified with encrypted vxlan for map rule

�Stateful or non zero TTL specified with non encrypted vxlan for map rule

�Failed to parse context for RuleDataSize at index 0 for map rule

DSpace not found for map rule

�Failed to parse context for RuleDataSize at index 1 for map encap rule

�Failed to parse context for RuleDataSize at index 1 (Ex version) for map encap rule

�Invalid RuleDataSize at index 1 specified for map encap rule

hInvalid cert name specified for map encap rule

hFailed to initialize context for map encap rule

dSecondary source has same IP version as first

�Failed to parse context for RuleDataSize at index 1 for map decap rule

�Invalid RuleDataSize at index 1 specified for map decap rule

�No rule data present for encrypted vxlan for map decap rule

hInvalid cert name specified for map decap rule

hFailed to initialize context for map decap rule

�Failed to parse context for RuleDataSize at index 1 for map rewrite rule

tInvalid RuleDataSize at index 1 for map rewrite rule

lFailed to initialize context for map rewrite rule

`Tunneled nat rule not stateful or zero ttl

�Invalid protocol condition specified for tunneled nat rule

�Failed to parse context for RuleDataSize at index 0 for tunneled nat rule

pFailed to initialize context for tunneled nat rule

HQos rule specified as stateful

xInvalid RuleDataSize at index 0 specified for qos rule

�Failed to parse context for RuleDataSize at index 0 for qos rule

\Failed to initialize context for qos rule

HMark rule specified as stateful

xInvalid RuleDataSize at index 0 specified for mark rule

�Failed to parse context for RuleDataSize at index 0 for mark rule

hInvalid value for dscp specified for mark rule

`Failed to initialize context for mark rule

lFailed to allocate mapping index table for space

�Invalid space config info size specified during set for space

hSet operation specified on space not supported

XInvalid sub type specified for mapping

�Empty address specified for customer mac, customer ip or provider ip for mapping when mac mapping flag is set

�Empty address specified for customer ip or provider ip for mapping

tBoth L3 and L4 discovery flags specified for mapping

|Customer or Provider port missing when both were expected

lFailed to allocate memory for mapping extra index

hMapping creation type not supported by setting

PNull Object specified for qos queue

pInsufficient resources when initializing qos queue

pInvalid qos parameters when initializing qos queue

pFailed to create queue when initializing qos queue

�Invalid operation or information size during set for qos queue

hInvalid qos parameters during set for qos queue

hFailed to create queue during set for qos queue

|Failed to create the object when adding serialized object

�Failed to deserialize object item when adding serialized object

�Deserialized object id already present in new list when adding serialized object

�Failed to verify item header when setting port information

xFailed to parse item body when setting port information

�Failed to parse context for info size when setting port information

�Invalid address info size specified when setting port information

�Invalid address configuration specified for non virtualized address info when setting port information

�Invalid port flow limit size specified when setting port information

�Invalid flow class specified for flow limit when setting port information

�Invalid flow setting size specified when setting port information

�Failed to set default group option for port flow settings when setting port information

�Invalid dtls info size specified when setting port information

�Invalid clear unified flow state info size specified when setting port information

�Invalid clear flow state info size specified when setting port information

�Invalid guard config info size specified when setting port information

�Invalid flags specified for guard config when setting port information

�Invalid port context settings when arp limiter flag specified for guard config when setting port information

�Invalid port context settings when dhcp limiter flag specified for guard config when setting port information

�Invalid port context settings when broadcast limiter flag specified for guard config when setting port information

�Invalid arp limiter config info size specified when setting port information

�Invalid arp limiter configuration specified when setting port information

�Invalid dhcp limiter config info size specified when setting port information

�Invalid dhcp limiter configuration specified when setting port information

�Invalid icmpv6 limiter config info size specified when setting port information

�Invalid icmpv6 limiter configuration specified when setting port information

�Invalid broadcast limiter config info size specified when setting port information

�Invalid broadcast limiter configuration specified when setting port information

�Invalid arp filter info size specified when setting port information

�Failed to initialize arp filter when setting port information

�Invalid info size specified for adding local ipv4 address when setting port information

�Failed adding the the local ipv4 address when setting port information

�Invalid info size specified for removing local ipv4 address when setting port information

�Failed removing the the local ipv4 address when setting port information

�Invalid info size specified for adding local ipv6 address when setting port information

�Failed adding the the local ipv6 address when setting port information

�Invalid info size specified for removing local ipv6 address when setting port information

�Failed removing the the local ipv6 address when setting port information

�Invalid next hop address info size specified when setting port information

�Failed to set qos port queue when setting port information

�Invalid dscp mapping info size specified when setting port information

�Invalid isolation allowed tni list info size specified when setting port information

�Failed to add isolation allowed tni list when setting port information

pFailed to set port parser settings - invalid size.

Failed to set flow table utilization threshold for UDP scaling. Both minimum and maximum flow table utilization threshold must be between 0 and 100 (inclusive) and maximum flow table utilization must be strictly greater than minimum flow table utilization.

�Failed to verify item header when setting switch information

|Failed to parse item body when setting switch information

�Failed to parse context for info size when setting switch information

�Invalid switch forward settings info size specified when setting switch information

�Invalid qos config info size specified when setting switch information

xFailed to configure qos when setting switch information

�Invalid qos line config info size specified when setting switch information

�Null present for transmit reservation line in switch context when setting qos line config switch information

�Failed to update qos line config when setting switch information

�Invalid isolation allowed tni list info size specified when setting switch information

�Failed to add isolation allowed tni list when setting switch information

None

 PendingAdd

 PendingDel

$PendingDelAll

8PendingProfileCreation

0CreateProfileFailed

0AddFlowEntryFailed

Offloaded

Blocked

 DeferredAdd

4DeferredAddAndUpdate

(DeferredUpdate

 DeferredDel

None

<Connection Establishment

0Flow Reconciliation

$Timer Update

,Deferred Offload

LPort Context is pending deletion

`Port Context's save restore state is saving

`Port Context's save restore state is saved

hPort Context's save restore state is restoring

LPort Context is a validation port

LPort Context cannot be referenced

�Switch Context cannot be referenced might because of not being initialized

Dtag operation status unknown

\Tag ID is longer than Tag Condition limit

<Memory Allocation Failure

HCondition List creation failure

HTag condition insertion failure

TRule condition tag ID does not exist

pThe ipaddress don't match any tag in the tag list'

<Flow match tag conditions

XSuccessfully configured the tag object

8GftFlowBlockReasonNone

@GftFlowBlockReasonLocalDest

DGftFlowBlockReasonLocalSource

LGftFlowBlockReasonMissingActions

HGftFlowBlockReasonMultiTenancy

PGftFlowBlockReasonMultipleMetering

4GftFlowBlockReasonQoS

8GftFlowBlockReasonDtls

PGftFlowBlockReasonUnsupportedAction

LGftFlowBlockReasonEncryptedVxlan

DGftFlowBlockReasonDnsTraffic

TGftFlowBlockReasonUdpUseVxlanDestPort

@GftFlowBlockReasonRESERVED

PGftFlowBlockReasonConfigVxlanFailed

LGftFlowBlockReasonDoubleEncapEsp

HGftFlowBlockReasonHairpinMirror

@GftFlowBlockReasonMulticast

4GftFlowBlockReasonMax

DGftFlowOffloadRetryReasonNone

dGftFlowOffloadRetryReasonMeteringNotOffloaded

`GftFlowOffloadRetryReasonFlowOffloadFailed

DGftFlowOffloadRetryReasonMax

$FunctionStart

8ShrinkLookasideListPool

DGftUpdateDeferredDeleteFlows

4VfpUpdateUnifiedFlows

<VfpUpdateMonitoringFlows

4VfpUpdateFragEntries

(VfpUpdateLayers

(VfpUpdateSpaces

,VfpUpdateLimiters

,VfpUpdateNatPools

4VfpUpdateDtlsSessions

4VfpUpdateSubscribers

(VfpSimulateFlow

PVfpStronglyEnumerateEntryHashTable

@VfpHashRestructureHashTable

4VfpUpdateInboundFlows

8VfpUpdateOutboundFlows

None

Started

Finished

Max

HRedirectRuleUpdateGenerationId

HRedirectRuleInvalidateTargetUf

Unknown

4PreCreateFailGftAllow

4PreCreatePortNotFound

�VPort Create is blocked by QoS offload, likely due to the associated QoS queue not currently offloaded

�4VS_VERSION_INFO��
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Anon7 - 2021