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Segmentation Offloads in the Linux Networking Stack

Introduction
============

This document describes a set of techniques in the Linux networking stack
to take advantage of segmentation offload capabilities of various NICs.

The following technologies are described:
 * TCP Segmentation Offload - TSO
 * UDP Fragmentation Offload - UFO
 * IPIP, SIT, GRE, and UDP Tunnel Offloads
 * Generic Segmentation Offload - GSO
 * Generic Receive Offload - GRO
 * Partial Generic Segmentation Offload - GSO_PARTIAL

TCP Segmentation Offload
========================

TCP segmentation allows a device to segment a single frame into multiple
frames with a data payload size specified in skb_shinfo()->gso_size.
When TCP segmentation requested the bit for either SKB_GSO_TCP or
SKB_GSO_TCP6 should be set in skb_shinfo()->gso_type and
skb_shinfo()->gso_size should be set to a non-zero value.

TCP segmentation is dependent on support for the use of partial checksum
offload.  For this reason TSO is normally disabled if the Tx checksum
offload for a given device is disabled.

In order to support TCP segmentation offload it is necessary to populate
the network and transport header offsets of the skbuff so that the device
drivers will be able determine the offsets of the IP or IPv6 header and the
TCP header.  In addition as CHECKSUM_PARTIAL is required csum_start should
also point to the TCP header of the packet.

For IPv4 segmentation we support one of two types in terms of the IP ID.
The default behavior is to increment the IP ID with every segment.  If the
GSO type SKB_GSO_TCP_FIXEDID is specified then we will not increment the IP
ID and all segments will use the same IP ID.  If a device has
NETIF_F_TSO_MANGLEID set then the IP ID can be ignored when performing TSO
and we will either increment the IP ID for all frames, or leave it at a
static value based on driver preference.

UDP Fragmentation Offload
=========================

UDP fragmentation offload allows a device to fragment an oversized UDP
datagram into multiple IPv4 fragments.  Many of the requirements for UDP
fragmentation offload are the same as TSO.  However the IPv4 ID for
fragments should not increment as a single IPv4 datagram is fragmented.

IPIP, SIT, GRE, UDP Tunnel, and Remote Checksum Offloads
========================================================

In addition to the offloads described above it is possible for a frame to
contain additional headers such as an outer tunnel.  In order to account
for such instances an additional set of segmentation offload types were
introduced including SKB_GSO_IPIP, SKB_GSO_SIT, SKB_GSO_GRE, and
SKB_GSO_UDP_TUNNEL.  These extra segmentation types are used to identify
cases where there are more than just 1 set of headers.  For example in the
case of IPIP and SIT we should have the network and transport headers moved
from the standard list of headers to "inner" header offsets.

Currently only two levels of headers are supported.  The convention is to
refer to the tunnel headers as the outer headers, while the encapsulated
data is normally referred to as the inner headers.  Below is the list of
calls to access the given headers:

IPIP/SIT Tunnel:
		Outer			Inner
MAC		skb_mac_header
Network		skb_network_header	skb_inner_network_header
Transport	skb_transport_header

UDP/GRE Tunnel:
		Outer			Inner
MAC		skb_mac_header		skb_inner_mac_header
Network		skb_network_header	skb_inner_network_header
Transport	skb_transport_header	skb_inner_transport_header

In addition to the above tunnel types there are also SKB_GSO_GRE_CSUM and
SKB_GSO_UDP_TUNNEL_CSUM.  These two additional tunnel types reflect the
fact that the outer header also requests to have a non-zero checksum
included in the outer header.

Finally there is SKB_GSO_REMCSUM which indicates that a given tunnel header
has requested a remote checksum offload.  In this case the inner headers
will be left with a partial checksum and only the outer header checksum
will be computed.

Generic Segmentation Offload
============================

Generic segmentation offload is a pure software offload that is meant to
deal with cases where device drivers cannot perform the offloads described
above.  What occurs in GSO is that a given skbuff will have its data broken
out over multiple skbuffs that have been resized to match the MSS provided
via skb_shinfo()->gso_size.

Before enabling any hardware segmentation offload a corresponding software
offload is required in GSO.  Otherwise it becomes possible for a frame to
be re-routed between devices and end up being unable to be transmitted.

Generic Receive Offload
=======================

Generic receive offload is the complement to GSO.  Ideally any frame
assembled by GRO should be segmented to create an identical sequence of
frames using GSO, and any sequence of frames segmented by GSO should be
able to be reassembled back to the original by GRO.  The only exception to
this is IPv4 ID in the case that the DF bit is set for a given IP header.
If the value of the IPv4 ID is not sequentially incrementing it will be
altered so that it is when a frame assembled via GRO is segmented via GSO.

Partial Generic Segmentation Offload
====================================

Partial generic segmentation offload is a hybrid between TSO and GSO.  What
it effectively does is take advantage of certain traits of TCP and tunnels
so that instead of having to rewrite the packet headers for each segment
only the inner-most transport header and possibly the outer-most network
header need to be updated.  This allows devices that do not support tunnel
offloads or tunnel offloads with checksum to still make use of segmentation.

With the partial offload what occurs is that all headers excluding the
inner transport header are updated such that they will contain the correct
values for if the header was simply duplicated.  The one exception to this
is the outer IPv4 ID field.  It is up to the device drivers to guarantee
that the IPv4 ID field is incremented in the case that a given header does
not have the DF bit set.