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Socket option SO_ZEROCOPY determines whether the kernel ignores or processes flag MSG_ZEROCOPY on subsequent send calls. This to avoid changing behavior for legacy processes. Limiting the state change to closed sockets is annoying with passive sockets and not necessary for correctness. Once created, zerocopy skbs are processed based on their private state, not this socket flag. Remove the constraint. Signed-off-by: Willem de Bruijn <willemb@google.com> Signed-off-by: David S. Miller <davem@davemloft.net>
257 lines
8.6 KiB
ReStructuredText
257 lines
8.6 KiB
ReStructuredText
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============
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MSG_ZEROCOPY
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============
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Intro
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=====
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The MSG_ZEROCOPY flag enables copy avoidance for socket send calls.
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The feature is currently implemented for TCP sockets.
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Opportunity and Caveats
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-----------------------
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Copying large buffers between user process and kernel can be
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expensive. Linux supports various interfaces that eschew copying,
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such as sendpage and splice. The MSG_ZEROCOPY flag extends the
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underlying copy avoidance mechanism to common socket send calls.
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Copy avoidance is not a free lunch. As implemented, with page pinning,
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it replaces per byte copy cost with page accounting and completion
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notification overhead. As a result, MSG_ZEROCOPY is generally only
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effective at writes over around 10 KB.
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Page pinning also changes system call semantics. It temporarily shares
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the buffer between process and network stack. Unlike with copying, the
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process cannot immediately overwrite the buffer after system call
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return without possibly modifying the data in flight. Kernel integrity
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is not affected, but a buggy program can possibly corrupt its own data
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stream.
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The kernel returns a notification when it is safe to modify data.
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Converting an existing application to MSG_ZEROCOPY is not always as
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trivial as just passing the flag, then.
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More Info
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---------
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Much of this document was derived from a longer paper presented at
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netdev 2.1. For more in-depth information see that paper and talk,
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the excellent reporting over at LWN.net or read the original code.
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paper, slides, video
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https://netdevconf.org/2.1/session.html?debruijn
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LWN article
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https://lwn.net/Articles/726917/
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patchset
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[PATCH net-next v4 0/9] socket sendmsg MSG_ZEROCOPY
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http://lkml.kernel.org/r/20170803202945.70750-1-willemdebruijn.kernel@gmail.com
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Interface
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=========
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Passing the MSG_ZEROCOPY flag is the most obvious step to enable copy
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avoidance, but not the only one.
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Socket Setup
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------------
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The kernel is permissive when applications pass undefined flags to the
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send system call. By default it simply ignores these. To avoid enabling
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copy avoidance mode for legacy processes that accidentally already pass
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this flag, a process must first signal intent by setting a socket option:
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::
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if (setsockopt(fd, SOL_SOCKET, SO_ZEROCOPY, &one, sizeof(one)))
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error(1, errno, "setsockopt zerocopy");
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Transmission
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------------
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The change to send (or sendto, sendmsg, sendmmsg) itself is trivial.
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Pass the new flag.
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::
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ret = send(fd, buf, sizeof(buf), MSG_ZEROCOPY);
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A zerocopy failure will return -1 with errno ENOBUFS. This happens if
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the socket option was not set, the socket exceeds its optmem limit or
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the user exceeds its ulimit on locked pages.
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Mixing copy avoidance and copying
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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Many workloads have a mixture of large and small buffers. Because copy
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avoidance is more expensive than copying for small packets, the
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feature is implemented as a flag. It is safe to mix calls with the flag
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with those without.
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Notifications
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-------------
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The kernel has to notify the process when it is safe to reuse a
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previously passed buffer. It queues completion notifications on the
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socket error queue, akin to the transmit timestamping interface.
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The notification itself is a simple scalar value. Each socket
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maintains an internal unsigned 32-bit counter. Each send call with
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MSG_ZEROCOPY that successfully sends data increments the counter. The
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counter is not incremented on failure or if called with length zero.
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The counter counts system call invocations, not bytes. It wraps after
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UINT_MAX calls.
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Notification Reception
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~~~~~~~~~~~~~~~~~~~~~~
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The below snippet demonstrates the API. In the simplest case, each
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send syscall is followed by a poll and recvmsg on the error queue.
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Reading from the error queue is always a non-blocking operation. The
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poll call is there to block until an error is outstanding. It will set
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POLLERR in its output flags. That flag does not have to be set in the
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events field. Errors are signaled unconditionally.
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::
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pfd.fd = fd;
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pfd.events = 0;
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if (poll(&pfd, 1, -1) != 1 || pfd.revents & POLLERR == 0)
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error(1, errno, "poll");
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ret = recvmsg(fd, &msg, MSG_ERRQUEUE);
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if (ret == -1)
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error(1, errno, "recvmsg");
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read_notification(msg);
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The example is for demonstration purpose only. In practice, it is more
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efficient to not wait for notifications, but read without blocking
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every couple of send calls.
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Notifications can be processed out of order with other operations on
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the socket. A socket that has an error queued would normally block
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other operations until the error is read. Zerocopy notifications have
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a zero error code, however, to not block send and recv calls.
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Notification Batching
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~~~~~~~~~~~~~~~~~~~~~
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Multiple outstanding packets can be read at once using the recvmmsg
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call. This is often not needed. In each message the kernel returns not
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a single value, but a range. It coalesces consecutive notifications
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while one is outstanding for reception on the error queue.
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When a new notification is about to be queued, it checks whether the
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new value extends the range of the notification at the tail of the
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queue. If so, it drops the new notification packet and instead increases
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the range upper value of the outstanding notification.
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For protocols that acknowledge data in-order, like TCP, each
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notification can be squashed into the previous one, so that no more
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than one notification is outstanding at any one point.
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Ordered delivery is the common case, but not guaranteed. Notifications
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may arrive out of order on retransmission and socket teardown.
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Notification Parsing
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~~~~~~~~~~~~~~~~~~~~
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The below snippet demonstrates how to parse the control message: the
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read_notification() call in the previous snippet. A notification
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is encoded in the standard error format, sock_extended_err.
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The level and type fields in the control data are protocol family
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specific, IP_RECVERR or IPV6_RECVERR.
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Error origin is the new type SO_EE_ORIGIN_ZEROCOPY. ee_errno is zero,
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as explained before, to avoid blocking read and write system calls on
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the socket.
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The 32-bit notification range is encoded as [ee_info, ee_data]. This
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range is inclusive. Other fields in the struct must be treated as
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undefined, bar for ee_code, as discussed below.
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::
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struct sock_extended_err *serr;
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struct cmsghdr *cm;
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cm = CMSG_FIRSTHDR(msg);
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if (cm->cmsg_level != SOL_IP &&
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cm->cmsg_type != IP_RECVERR)
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error(1, 0, "cmsg");
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serr = (void *) CMSG_DATA(cm);
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if (serr->ee_errno != 0 ||
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serr->ee_origin != SO_EE_ORIGIN_ZEROCOPY)
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error(1, 0, "serr");
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printf("completed: %u..%u\n", serr->ee_info, serr->ee_data);
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Deferred copies
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~~~~~~~~~~~~~~~
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Passing flag MSG_ZEROCOPY is a hint to the kernel to apply copy
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avoidance, and a contract that the kernel will queue a completion
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notification. It is not a guarantee that the copy is elided.
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Copy avoidance is not always feasible. Devices that do not support
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scatter-gather I/O cannot send packets made up of kernel generated
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protocol headers plus zerocopy user data. A packet may need to be
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converted to a private copy of data deep in the stack, say to compute
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a checksum.
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In all these cases, the kernel returns a completion notification when
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it releases its hold on the shared pages. That notification may arrive
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before the (copied) data is fully transmitted. A zerocopy completion
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notification is not a transmit completion notification, therefore.
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Deferred copies can be more expensive than a copy immediately in the
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system call, if the data is no longer warm in the cache. The process
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also incurs notification processing cost for no benefit. For this
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reason, the kernel signals if data was completed with a copy, by
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setting flag SO_EE_CODE_ZEROCOPY_COPIED in field ee_code on return.
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A process may use this signal to stop passing flag MSG_ZEROCOPY on
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subsequent requests on the same socket.
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Implementation
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==============
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Loopback
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--------
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Data sent to local sockets can be queued indefinitely if the receive
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process does not read its socket. Unbound notification latency is not
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acceptable. For this reason all packets generated with MSG_ZEROCOPY
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that are looped to a local socket will incur a deferred copy. This
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includes looping onto packet sockets (e.g., tcpdump) and tun devices.
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Testing
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=======
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More realistic example code can be found in the kernel source under
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tools/testing/selftests/net/msg_zerocopy.c.
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Be cognizant of the loopback constraint. The test can be run between
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a pair of hosts. But if run between a local pair of processes, for
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instance when run with msg_zerocopy.sh between a veth pair across
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namespaces, the test will not show any improvement. For testing, the
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loopback restriction can be temporarily relaxed by making
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skb_orphan_frags_rx identical to skb_orphan_frags.
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