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authorDavid S. Miller <davem@davemloft.net>2014-09-19 17:15:40 -0400
committerDavid S. Miller <davem@davemloft.net>2014-09-19 17:15:40 -0400
commitfb5690d2458340b645ea3b36e8db560cb3272e65 (patch)
tree20325e752fc92b2e487d650185387ff6ab3cca03 /include/net/snmp.h
parent4e2840eee6b21cb5230bd7cac8407badb201aac3 (diff)
parent4565e9919cda747815547e2e5d7b78f15efbffdf (diff)
downloadlinux-fb5690d2458340b645ea3b36e8db560cb3272e65.tar.bz2
Merge branch 'fou-next'
Tom Herbert says: ==================== net: foo-over-udp (fou) This patch series implements foo-over-udp. The idea is that we can encapsulate different IP protocols in UDP packets. The rationale for this is that networking devices such as NICs and switches are usually implemented with UDP (and TCP) specific mechanims for processing. For instance, many switches and routers will implement a 5-tuple hash for UDP packets to perform Equal Cost Multipath Routing (ECMP) or RSS (on NICs). Many NICs also only provide rudimentary checksum offload (basic TCP and UDP packet), with foo-over-udp we may be able to leverage these NICs to offload checksums of tunneled packets (using checksum unnecessary conversion and eventually remote checksum offload) An example encapsulation of IPIP over FOU is diagrammed below. As illustrated, the packet overhead for FOU is the 8 byte UDP header. +------------------+ | IPv4 hdr | +------------------+ | UDP hdr | +------------------+ | IPv4 hdr | +------------------+ | TCP hdr | +------------------+ | TCP payload | +------------------+ Conceptually, FOU should be able to encapsulate any IP protocol. The FOU header (UDP hdr.) is essentially an inserted header between the IP header and transport, so in the case of TCP or UDP encapsulation the pseudo header would be based on the outer IP header and its length field must not include the UDP header. * Receive In this patch set the RX path for FOU is implemented in a new fou module. To enable FOU for a particular protocol, a UDP-FOU socket is opened to the port to receive FOU packets. The socket is mapped to the IP protocol for the packets. The XFRM mechanism used to receive encapsulated packets (udp_encap_rcv) for the port. Upon reception, the UDP is removed and packet is reinjected in the stack for the corresponding protocol associated with the socket (return -protocol from udp_encap_rcv function). GRO is provided with the appropriate fou_gro_receive and fou_gro_complete. These routines need to know the encapsulation protocol so we save that in udp_offloads structure with the port and pass it in the napi_gro_cb structure. * TX This patch series implements FOU transmit encapsulation for IPIP, GRE, and SIT. This done by some common infrastructure in ip_tunnel including an ip_tunnel_encap to perform FOU encapsulation and common configuration to enable FOU on IP tunnels. FOU is configured on existing tunnels and does not create any new interfaces. The transmit and receive paths are independent, so use of FOU may be assymetric between tunnel endpoints. * Configuration The fou module using netlink to configure FOU receive ports. The ip command can be augmented with a fou subcommand to support this. e.g. to configure FOU for IPIP on port 5555: ip fou add port 5555 ipproto 4 GRE, IPIP, and SIT have been modified with netlink commands to configure use of FOU on transmit. The "ip link" command will be augmented with an encap subcommand (for supporting various forms of secondary encapsulation). For instance, to configure an ipip tunnel with FOU on port 5555: ip link add name tun1 type ipip \ remote 192.168.1.1 local 192.168.1.2 ttl 225 \ encap fou encap-sport auto encap-dport 5555 * Notes - This patch set does not implement GSO for FOU. The UDP encapsulation code assumes TEB, so that will need to be reimplemented. - When a packet is received through FOU, the UDP header is not actually removed for the skbuf, pointers to transport header and length in the IP header are updated (like in ESP/UDP RX). A side effect is the IP header will now appear to have an incorrect checksum by an external observer (e.g. tcpdump), it will be off by sizeof UDP header. If necessary we could adjust the checksum to compensate. - Performance results are below. My expectation is that FOU should entail little overhead (clearly there is some work to do :-) ). Optimizing UDP socket lookup for encapsulation ports should help significantly. - I really don't expect/want devices to have special support for any of this. Generic checksum offload mechanisms (NETIF_HW_CSUM and use of CHECKSUM_COMPLETE) should be sufficient. RSS and flow steering is provided by commonly implemented UDP hashing. GRO/GSO seem fairly comparable with LRO/TSO already. * Performance Ran netperf TCP_RR and TCP_STREAM tests across various configurations. This was performed on bnx2x and I disabled TSO/GSO on sender to get fair comparison for FOU versus non-FOU. CPU utilization is reported for receive in TCP_STREAM. GRE IPv4, FOU, UDP checksum enabled TCP_STREAM 24.85% CPU utilization 9310.6 Mbps TCP_RR 94.2% CPU utilization 155/249/460 90/95/99% latencies 1.17018e+06 tps IPv4, FOU, UDP checksum disabled TCP_STREAM 31.04% CPU utilization 9302.22 Mbps TCP_RR 94.13% CPU utilization 154/239/419 90/95/99% latencies 1.17555e+06 tps IPv4, no FOU TCP_STREAM 23.13% CPU utilization 9354.58 Mbps TCP_RR 90.24% CPU utilization 156/228/360 90/95/99% latencies 1.18169e+06 tps IPIP FOU, UDP checksum enabled TCP_STREAM 24.13% CPU utilization 9328 Mbps TCP_RR 94.23 149/237/429 90/95/99% latencies 1.19553e+06 tps FOU, UDP checksum disabled TCP_STREAM 29.13% CPU utilization 9370.25 Mbps TCP_RR 94.13% CPU utilization 149/232/398 90/95/99% latencies 1.19225e+06 tps No FOU TCP_STREAM 10.43% CPU utilization 5302.03 Mbps TCP_RR 51.53% CPU utilization 215/324/475 90/95/99% latencies 864998 tps SIT FOU, UDP checksum enabled TCP_STREAM 30.38% CPU utilization 9176.76 Mbps TCP_RR 96.9% CPU utilization 170/281/581 90/95/99% latencies 1.03372e+06 tps FOU, UDP checksum disabled TCP_STREAM 39.6% CPU utilization 9176.57 Mbps TCP_RR 97.14% CPU utilization 167/272/548 90/95/99% latencies 1.03203e+06 tps No FOU TCP_STREAM 11.2% CPU utilization 4636.05 Mbps TCP_RR 59.51% CPU utilization 232/346/489 90/95/99% latencies 813199 tps v2: - Removed encap IP tunnel ioctls, configuration is done by netlink only. - Don't export fou_create and fou_destroy, they are currently intended to be called within fou module only. - Filled on tunnel netlink structures and functions for new values. v3: - Fixed change logs for some of the patches. - Remove inline from fou_gro_receive and fou_gro_complete, let compiler decide on these. v4: - Don't need to cast void in fou_from_sock - Removed incorrest htons for port in fou_destroy - Some minor cleanup for readability ==================== Signed-off-by: David S. Miller <davem@davemloft.net>
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