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Change all links from using the lkml redirector to the lore redirector, as the kernel.org admin recently indicated: we shouldn't be using lkml.kernel.org anymore because the domain can create confusion, as it indicates it is only valid for messages sent to the LKML; the convention has been to use https://lore.kernel.org/r/msgid for this reason. In this process also change three links from using http to https. Link: https://lore.kernel.org/r/20211006170025.qw3glxvocczfuhar@meerkat.local CC: Thomas Gleixner <tglx@linutronix.de> CC: Ingo Molnar <mingo@redhat.com> CC: Borislav Petkov <bp@alien8.de> CC: Hu Haowen <src.res@email.cn> CC: Alex Shi <alexs@kernel.org> CC: Federico Vaga <federico.vaga@vaga.pv.it> Signed-off-by: Thorsten Leemhuis <linux@leemhuis.info> Reviewed-by: Konstantin Ryabitsev <konstantin@linuxfoundation.org> Link: https://lore.kernel.org/r/5bb55bac6ba10fafab19bf2b21572dd0e2f8cea2.1633593385.git.linux@leemhuis.info Signed-off-by: Jonathan Corbet <corbet@lwn.net>
257 lines
8.6 KiB
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257 lines
8.6 KiB
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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 and UDP 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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https://lore.kernel.org/netdev/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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