Commit 49ca37d0 authored by Magnus Karlsson's avatar Magnus Karlsson Committed by Alexei Starovoitov

xsk: add multi-buffer documentation

Add AF_XDP multi-buffer support documentation including two
pseudo-code samples.
Signed-off-by: default avatarMagnus Karlsson <magnus.karlsson@intel.com>
Link: https://lore.kernel.org/r/20230719132421.584801-18-maciej.fijalkowski@intel.comSigned-off-by: default avatarAlexei Starovoitov <ast@kernel.org>
parent a92b96c4
......@@ -462,8 +462,92 @@ XDP_OPTIONS getsockopt
Gets options from an XDP socket. The only one supported so far is
XDP_OPTIONS_ZEROCOPY which tells you if zero-copy is on or not.
Multi-Buffer Support
====================
With multi-buffer support, programs using AF_XDP sockets can receive
and transmit packets consisting of multiple buffers both in copy and
zero-copy mode. For example, a packet can consist of two
frames/buffers, one with the header and the other one with the data,
or a 9K Ethernet jumbo frame can be constructed by chaining together
three 4K frames.
Some definitions:
* A packet consists of one or more frames
* A descriptor in one of the AF_XDP rings always refers to a single
frame. In the case the packet consists of a single frame, the
descriptor refers to the whole packet.
To enable multi-buffer support for an AF_XDP socket, use the new bind
flag XDP_USE_SG. If this is not provided, all multi-buffer packets
will be dropped just as before. Note that the XDP program loaded also
needs to be in multi-buffer mode. This can be accomplished by using
"xdp.frags" as the section name of the XDP program used.
To represent a packet consisting of multiple frames, a new flag called
XDP_PKT_CONTD is introduced in the options field of the Rx and Tx
descriptors. If it is true (1) the packet continues with the next
descriptor and if it is false (0) it means this is the last descriptor
of the packet. Why the reverse logic of end-of-packet (eop) flag found
in many NICs? Just to preserve compatibility with non-multi-buffer
applications that have this bit set to false for all packets on Rx,
and the apps set the options field to zero for Tx, as anything else
will be treated as an invalid descriptor.
These are the semantics for producing packets onto AF_XDP Tx ring
consisting of multiple frames:
* When an invalid descriptor is found, all the other
descriptors/frames of this packet are marked as invalid and not
completed. The next descriptor is treated as the start of a new
packet, even if this was not the intent (because we cannot guess
the intent). As before, if your program is producing invalid
descriptors you have a bug that must be fixed.
* Zero length descriptors are treated as invalid descriptors.
* For copy mode, the maximum supported number of frames in a packet is
equal to CONFIG_MAX_SKB_FRAGS + 1. If it is exceeded, all
descriptors accumulated so far are dropped and treated as
invalid. To produce an application that will work on any system
regardless of this config setting, limit the number of frags to 18,
as the minimum value of the config is 17.
* For zero-copy mode, the limit is up to what the NIC HW
supports. Usually at least five on the NICs we have checked. We
consciously chose to not enforce a rigid limit (such as
CONFIG_MAX_SKB_FRAGS + 1) for zero-copy mode, as it would have
resulted in copy actions under the hood to fit into what limit the
NIC supports. Kind of defeats the purpose of zero-copy mode. How to
probe for this limit is explained in the "probe for multi-buffer
support" section.
On the Rx path in copy-mode, the xsk core copies the XDP data into
multiple descriptors, if needed, and sets the XDP_PKT_CONTD flag as
detailed before. Zero-copy mode works the same, though the data is not
copied. When the application gets a descriptor with the XDP_PKT_CONTD
flag set to one, it means that the packet consists of multiple buffers
and it continues with the next buffer in the following
descriptor. When a descriptor with XDP_PKT_CONTD == 0 is received, it
means that this is the last buffer of the packet. AF_XDP guarantees
that only a complete packet (all frames in the packet) is sent to the
application. If there is not enough space in the AF_XDP Rx ring, all
frames of the packet will be dropped.
If application reads a batch of descriptors, using for example the libxdp
interfaces, it is not guaranteed that the batch will end with a full
packet. It might end in the middle of a packet and the rest of the
buffers of that packet will arrive at the beginning of the next batch,
since the libxdp interface does not read the whole ring (unless you
have an enormous batch size or a very small ring size).
An example program each for Rx and Tx multi-buffer support can be found
later in this document.
Usage
=====
-----
In order to use AF_XDP sockets two parts are needed. The
user-space application and the XDP program. For a complete setup and
......@@ -541,6 +625,131 @@ like this:
But please use the libbpf functions as they are optimized and ready to
use. Will make your life easier.
Usage Multi-Buffer Rx
---------------------
Here is a simple Rx path pseudo-code example (using libxdp interfaces
for simplicity). Error paths have been excluded to keep it short:
.. code-block:: c
void rx_packets(struct xsk_socket_info *xsk)
{
static bool new_packet = true;
u32 idx_rx = 0, idx_fq = 0;
static char *pkt;
int rcvd = xsk_ring_cons__peek(&xsk->rx, opt_batch_size, &idx_rx);
xsk_ring_prod__reserve(&xsk->umem->fq, rcvd, &idx_fq);
for (int i = 0; i < rcvd; i++) {
struct xdp_desc *desc = xsk_ring_cons__rx_desc(&xsk->rx, idx_rx++);
char *frag = xsk_umem__get_data(xsk->umem->buffer, desc->addr);
bool eop = !(desc->options & XDP_PKT_CONTD);
if (new_packet)
pkt = frag;
else
add_frag_to_pkt(pkt, frag);
if (eop)
process_pkt(pkt);
new_packet = eop;
*xsk_ring_prod__fill_addr(&xsk->umem->fq, idx_fq++) = desc->addr;
}
xsk_ring_prod__submit(&xsk->umem->fq, rcvd);
xsk_ring_cons__release(&xsk->rx, rcvd);
}
Usage Multi-Buffer Tx
---------------------
Here is an example Tx path pseudo-code (using libxdp interfaces for
simplicity) ignoring that the umem is finite in size, and that we
eventually will run out of packets to send. Also assumes pkts.addr
points to a valid location in the umem.
.. code-block:: c
void tx_packets(struct xsk_socket_info *xsk, struct pkt *pkts,
int batch_size)
{
u32 idx, i, pkt_nb = 0;
xsk_ring_prod__reserve(&xsk->tx, batch_size, &idx);
for (i = 0; i < batch_size;) {
u64 addr = pkts[pkt_nb].addr;
u32 len = pkts[pkt_nb].size;
do {
struct xdp_desc *tx_desc;
tx_desc = xsk_ring_prod__tx_desc(&xsk->tx, idx + i++);
tx_desc->addr = addr;
if (len > xsk_frame_size) {
tx_desc->len = xsk_frame_size;
tx_desc->options = XDP_PKT_CONTD;
} else {
tx_desc->len = len;
tx_desc->options = 0;
pkt_nb++;
}
len -= tx_desc->len;
addr += xsk_frame_size;
if (i == batch_size) {
/* Remember len, addr, pkt_nb for next iteration.
* Skipped for simplicity.
*/
break;
}
} while (len);
}
xsk_ring_prod__submit(&xsk->tx, i);
}
Probing for Multi-Buffer Support
--------------------------------
To discover if a driver supports multi-buffer AF_XDP in SKB or DRV
mode, use the XDP_FEATURES feature of netlink in linux/netdev.h to
query for NETDEV_XDP_ACT_RX_SG support. This is the same flag as for
querying for XDP multi-buffer support. If XDP supports multi-buffer in
a driver, then AF_XDP will also support that in SKB and DRV mode.
To discover if a driver supports multi-buffer AF_XDP in zero-copy
mode, use XDP_FEATURES and first check the NETDEV_XDP_ACT_XSK_ZEROCOPY
flag. If it is set, it means that at least zero-copy is supported and
you should go and check the netlink attribute
NETDEV_A_DEV_XDP_ZC_MAX_SEGS in linux/netdev.h. An unsigned integer
value will be returned stating the max number of frags that are
supported by this device in zero-copy mode. These are the possible
return values:
1: Multi-buffer for zero-copy is not supported by this device, as max
one fragment supported means that multi-buffer is not possible.
>=2: Multi-buffer is supported in zero-copy mode for this device. The
returned number signifies the max number of frags supported.
For an example on how these are used through libbpf, please take a
look at tools/testing/selftests/bpf/xskxceiver.c.
Multi-Buffer Support for Zero-Copy Drivers
------------------------------------------
Zero-copy drivers usually use the batched APIs for Rx and Tx
processing. Note that the Tx batch API guarantees that it will provide
a batch of Tx descriptors that ends with full packet at the end. This
to facilitate extending a zero-copy driver with multi-buffer support.
Sample application
==================
......
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