123 строки
6.3 KiB
Plaintext
123 строки
6.3 KiB
Plaintext
Checksum Offloads in the Linux Networking Stack
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Introduction
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============
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This document describes a set of techniques in the Linux networking stack
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to take advantage of checksum offload capabilities of various NICs.
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The following technologies are described:
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* TX Checksum Offload
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* LCO: Local Checksum Offload
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* RCO: Remote Checksum Offload
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Things that should be documented here but aren't yet:
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* RX Checksum Offload
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* CHECKSUM_UNNECESSARY conversion
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TX Checksum Offload
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===================
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The interface for offloading a transmit checksum to a device is explained
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in detail in comments near the top of include/linux/skbuff.h.
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In brief, it allows to request the device fill in a single ones-complement
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checksum defined by the sk_buff fields skb->csum_start and
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skb->csum_offset. The device should compute the 16-bit ones-complement
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checksum (i.e. the 'IP-style' checksum) from csum_start to the end of the
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packet, and fill in the result at (csum_start + csum_offset).
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Because csum_offset cannot be negative, this ensures that the previous
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value of the checksum field is included in the checksum computation, thus
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it can be used to supply any needed corrections to the checksum (such as
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the sum of the pseudo-header for UDP or TCP).
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This interface only allows a single checksum to be offloaded. Where
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encapsulation is used, the packet may have multiple checksum fields in
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different header layers, and the rest will have to be handled by another
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mechanism such as LCO or RCO.
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CRC32c can also be offloaded using this interface, by means of filling
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skb->csum_start and skb->csum_offset as described above, and setting
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skb->csum_not_inet: see skbuff.h comment (section 'D') for more details.
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No offloading of the IP header checksum is performed; it is always done in
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software. This is OK because when we build the IP header, we obviously
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have it in cache, so summing it isn't expensive. It's also rather short.
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The requirements for GSO are more complicated, because when segmenting an
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encapsulated packet both the inner and outer checksums may need to be
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edited or recomputed for each resulting segment. See the skbuff.h comment
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(section 'E') for more details.
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A driver declares its offload capabilities in netdev->hw_features; see
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Documentation/networking/netdev-features.txt for more. Note that a device
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which only advertises NETIF_F_IP[V6]_CSUM must still obey the csum_start
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and csum_offset given in the SKB; if it tries to deduce these itself in
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hardware (as some NICs do) the driver should check that the values in the
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SKB match those which the hardware will deduce, and if not, fall back to
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checksumming in software instead (with skb_csum_hwoffload_help() or one of
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the skb_checksum_help() / skb_crc32c_csum_help functions, as mentioned in
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include/linux/skbuff.h).
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The stack should, for the most part, assume that checksum offload is
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supported by the underlying device. The only place that should check is
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validate_xmit_skb(), and the functions it calls directly or indirectly.
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That function compares the offload features requested by the SKB (which
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may include other offloads besides TX Checksum Offload) and, if they are
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not supported or enabled on the device (determined by netdev->features),
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performs the corresponding offload in software. In the case of TX
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Checksum Offload, that means calling skb_csum_hwoffload_help(skb, features).
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LCO: Local Checksum Offload
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===========================
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LCO is a technique for efficiently computing the outer checksum of an
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encapsulated datagram when the inner checksum is due to be offloaded.
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The ones-complement sum of a correctly checksummed TCP or UDP packet is
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equal to the complement of the sum of the pseudo header, because everything
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else gets 'cancelled out' by the checksum field. This is because the sum was
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complemented before being written to the checksum field.
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More generally, this holds in any case where the 'IP-style' ones complement
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checksum is used, and thus any checksum that TX Checksum Offload supports.
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That is, if we have set up TX Checksum Offload with a start/offset pair, we
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know that after the device has filled in that checksum, the ones
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complement sum from csum_start to the end of the packet will be equal to
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the complement of whatever value we put in the checksum field beforehand.
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This allows us to compute the outer checksum without looking at the payload:
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we simply stop summing when we get to csum_start, then add the complement of
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the 16-bit word at (csum_start + csum_offset).
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Then, when the true inner checksum is filled in (either by hardware or by
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skb_checksum_help()), the outer checksum will become correct by virtue of
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the arithmetic.
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LCO is performed by the stack when constructing an outer UDP header for an
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encapsulation such as VXLAN or GENEVE, in udp_set_csum(). Similarly for
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the IPv6 equivalents, in udp6_set_csum().
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It is also performed when constructing an IPv4 GRE header, in
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net/ipv4/ip_gre.c:build_header(). It is *not* currently performed when
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constructing an IPv6 GRE header; the GRE checksum is computed over the
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whole packet in net/ipv6/ip6_gre.c:ip6gre_xmit2(), but it should be
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possible to use LCO here as IPv6 GRE still uses an IP-style checksum.
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All of the LCO implementations use a helper function lco_csum(), in
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include/linux/skbuff.h.
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LCO can safely be used for nested encapsulations; in this case, the outer
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encapsulation layer will sum over both its own header and the 'middle'
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header. This does mean that the 'middle' header will get summed multiple
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times, but there doesn't seem to be a way to avoid that without incurring
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bigger costs (e.g. in SKB bloat).
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RCO: Remote Checksum Offload
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============================
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RCO is a technique for eliding the inner checksum of an encapsulated
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datagram, allowing the outer checksum to be offloaded. It does, however,
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involve a change to the encapsulation protocols, which the receiver must
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also support. For this reason, it is disabled by default.
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RCO is detailed in the following Internet-Drafts:
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https://tools.ietf.org/html/draft-herbert-remotecsumoffload-00
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https://tools.ietf.org/html/draft-herbert-vxlan-rco-00
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In Linux, RCO is implemented individually in each encapsulation protocol,
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and most tunnel types have flags controlling its use. For instance, VXLAN
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has the flag VXLAN_F_REMCSUM_TX (per struct vxlan_rdst) to indicate that
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RCO should be used when transmitting to a given remote destination.
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