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Test Methodology
================
+VPP Forwarding Modes
+--------------------
+
+VPP is tested in a number of L2 and IP packet lookup and forwarding
+modes. Within each mode baseline and scale tests are executed, the
+latter with varying number of lookup entries.
+
+L2 Ethernet Switching
+~~~~~~~~~~~~~~~~~~~~~
+
+VPP is tested in three L2 forwarding modes:
+
+- *l2patch*: L2 patch, the fastest point-to-point L2 path that loops
+ packets between two interfaces without any Ethernet frame checks or
+ lookups.
+- *l2xc*: L2 cross-connect, point-to-point L2 path with all Ethernet
+ frame checks, but no MAC learning and no MAC lookup.
+- *l2bd*: L2 bridge-domain, multipoint-to-multipoint L2 path with all
+ Ethernet frame checks, with MAC learning (unless static MACs are used)
+ and MAC lookup.
+
+l2bd tests are executed in baseline and scale configurations:
+
+- *l2bdbase*: low number of L2 flows (253 per direction) is switched by
+ VPP. They drive the content of MAC FIB size (506 total MAC entries).
+ Both source and destination MAC addresses are incremented on a packet
+ by packet basis.
+
+- *l2bdscale*: high number of L2 flows is switched by VPP. Tested MAC
+ FIB sizes include: i) 10k (5k unique flows per direction), ii) 100k
+ (2x 50k flows) and iii) 1M (2x 500k). Both source and destination MAC
+ addresses are incremented on a packet by packet basis, ensuring new
+ entries are learn refreshed and looked up at every packet, making it
+ the worst case scenario.
+
+Ethernet wire encapsulations tested include: untagged, dot1q, dot1ad.
+
+IPv4 Routing
+~~~~~~~~~~~~
+
+IPv4 routing tests are executed in baseline and scale configurations:
+
+- *ip4base*: low number of IPv4 flows (253 per direction) is routed by
+ VPP. They drive the content of IPv4 FIB size (506 total /32 prefixes).
+ Destination IPv4 addresses are incremented on a packet by packet
+ basis.
+
+- *ip4scale*: high number of IPv4 flows is routed by VPP. Tested IPv4
+ FIB sizes of /32 prefixes include: i) 20k (10k unique flows per
+ direction), ii) 200k (2x 100k flows) and iii) 2M (2x 1M). Destination
+ IPv4 addresses are incremented on a packet by packet basis, ensuring
+ new FIB entries are looked up at every packet, making it the worst
+ case scenario.
+
+IPv6 Routing
+~~~~~~~~~~~~
+
+IPv6 routing tests are executed in baseline and scale configurations:
+
+- *ip6base*: low number of IPv6 flows (253 per direction) is routed by
+ VPP. They drive the content of IPv6 FIB size (506 total /128 prefixes).
+ Destination IPv6 addresses are incremented on a packet by packet
+ basis.
+
+- *ip6scale*: high number of IPv6 flows is routed by VPP. Tested IPv6
+ FIB sizes of /128 prefixes include: i) 20k (10k unique flows per
+ direction), ii) 200k (2x 100k flows) and iii) 2M (2x 1M). Destination
+ IPv6 addresses are incremented on a packet by packet basis, ensuring
+ new FIB entries are looked up at every packet, making it the worst
+ case scenario.
+
+SRv6 Routing
+~~~~~~~~~~~~
+
+SRv6 routing tests are executed in a number of baseline configurations,
+in each case SR policy and steering policy are configured for one
+direction and one (or two) SR behaviours (functions) in the other
+directions:
+
+- *srv6enc1sid*: One SID (no SRH present), one SR function - End.
+- *srv6enc2sids*: Two SIDs (SRH present), two SR functions - End and
+ End.DX6.
+- *srv6enc2sids-nodecaps*: Two SIDs (SRH present) without decapsulation,
+ one SR function - End.
+- *srv6proxy-dyn*: Dynamic SRv6 proxy, one SR function - End.AD.
+- *srv6proxy-masq*: Masquerading SRv6 proxy, one SR function - End.AM.
+- *srv6proxy-stat*: Static SRv6 proxy, one SR function - End.AS.
+
+In all listed cases low number of IPv6 flows (253 per direction) is
+routed by VPP.
+
+Tunnel Encapsulations
+---------------------
+
+Tunnel encapsulations testing is grouped based on the type of outer
+header: IPv4 or IPv6.
+
+IPv4 Tunnels
+~~~~~~~~~~~~
+
+VPP is tested in the following IPv4 tunnel baseline configurations:
+
+- *ip4vxlan-l2bdbase*: VXLAN over IPv4 tunnels with L2 bridge-domain MAC
+ switching.
+- *ip4vxlan-l2xcbase*: VXLAN over IPv4 tunnels with L2 cross-connect.
+- *ip4lispip4-ip4base*: LISP over IPv4 tunnels with IPv4 routing.
+- *ip4lispip6-ip6base*: LISP over IPv4 tunnels with IPv6 routing.
+
+In all cases listed above low number of MAC, IPv4, IPv6 flows (253 per
+direction) is switched or routed by VPP.
+
+In addition selected IPv4 tunnels are tested at scale:
+
+- *dot1q--ip4vxlanscale-l2bd*: VXLAN over IPv4 tunnels with L2 bridge-
+ domain MAC switching, with scaled up dot1q VLANs (10, 100, 1k),
+ mapped to scaled up L2 bridge-domains (10, 100, 1k), that are in turn
+ mapped to (10, 100, 1k) VXLAN tunnels. 64.5k flows are transmitted per
+ direction.
+
+IPv6 Tunnels
+~~~~~~~~~~~~
+
+VPP is tested in the following IPv6 tunnel baseline configurations:
+
+- *ip6lispip4-ip4base*: LISP over IPv4 tunnels with IPv4 routing.
+- *ip6lispip6-ip6base*: LISP over IPv4 tunnels with IPv6 routing.
+
+In all cases listed above low number of IPv4, IPv6 flows (253 per
+direction) is routed by VPP.
+
+VPP Features
+------------
+
+VPP is tested in a number of data plane feature configurations across
+different forwarding modes. Following sections list features tested.
+
+ACL Security-Groups
+~~~~~~~~~~~~~~~~~~~
+
+Both stateless and stateful access control lists (ACL), also known as
+security-groups, are supported by VPP.
+
+Following ACL configurations are tested for MAC switching with L2
+bridge-domains:
+
+- *l2bdbasemaclrn-iacl{E}sl-{F}flows*: Input stateless ACL, with {E}
+ entries and {F} flows.
+- *l2bdbasemaclrn-oacl{E}sl-{F}flows*: Output stateless ACL, with {E}
+ entries and {F} flows.
+- *l2bdbasemaclrn-iacl{E}sf-{F}flows*: Input stateful ACL, with {E}
+ entries and {F} flows.
+- *l2bdbasemaclrn-oacl{E}sf-{F}flows*: Output stateful ACL, with {E}
+ entries and {F} flows.
+
+Following ACL configurations are tested with IPv4 routing:
+
+- *ip4base-iacl{E}sl-{F}flows*: Input stateless ACL, with {E} entries
+ and {F} flows.
+- *ip4base-oacl{E}sl-{F}flows*: Output stateless ACL, with {E} entries
+ and {F} flows.
+- *ip4base-iacl{E}sf-{F}flows*: Input stateful ACL, with {E} entries and
+ {F} flows.
+- *ip4base-oacl{E}sf-{F}flows*: Output stateful ACL, with {E} entries
+ and {F} flows.
+
+ACL tests are executed with the following combinations of ACL entries
+and number of flows:
+
+- ACL entry definitions
+
+ - flow non-matching deny entry: (src-ip4, dst-ip4, src-port, dst-port).
+ - flow matching permit ACL entry: (src-ip4, dst-ip4).
+
+- {E} - number of non-matching deny ACL entries, {E} = [1, 10, 50].
+- {F} - number of UDP flows with different tuple (src-ip4, dst-ip4,
+ src-port, dst-port), {F} = [100, 10k, 100k].
+- All {E}x{F} combinations are tested per ACL type, total of 9.
+
+ACL MAC-IP
+~~~~~~~~~~
+
+MAC-IP binding ACLs are tested for MAC switching with L2 bridge-domains:
+
+- *l2bdbasemaclrn-macip-iacl{E}sl-{F}flows*: Input stateless ACL, with
+ {E} entries and {F} flows.
+
+MAC-IP ACL tests are executed with the following combinations of ACL
+entries and number of flows:
+
+- ACL entry definitions
+
+ - flow non-matching deny entry: (dst-ip4, dst-mac, bit-mask)
+ - flow matching permit ACL entry: (dst-ip4, dst-mac, bit-mask)
+
+- {E} - number of non-matching deny ACL entries, {E} = [1, 10, 50]
+- {F} - number of UDP flows with different tuple (dst-ip4, dst-mac),
+ {F} = [100, 10k, 100k]
+- All {E}x{F} combinations are tested per ACL type, total of 9.
+
+NAT44
+~~~~~
+
+NAT44 is tested in baseline and scale configurations with IPv4 routing:
+
+- *ip4base-nat44*: baseline test with single NAT entry (addr, port),
+ single UDP flow.
+- *ip4base-udpsrcscale{U}-nat44*: baseline test with {U} NAT entries
+ (addr, {U}ports), {U}=15.
+- *ip4scale{R}-udpsrcscale{U}-nat44*: scale tests with {R}*{U} NAT
+ entries ({R}addr, {U}ports), {R}=[100, 1k, 2k, 4k], {U}=15.
+
Data Plane Throughput
---------------------