.\" This manpage is Copyright (C) 2006 Jens Axboe .\" and Copyright (C) 2006 Michael Kerrisk .\" .\" SPDX-License-Identifier: Linux-man-pages-copyleft .\" .TH vmsplice 2 2024-05-02 "Linux man-pages 6.9.1" .SH NAME vmsplice \- splice user pages to/from a pipe .SH LIBRARY Standard C library .RI ( libc ", " \-lc ) .SH SYNOPSIS .nf .BR "#define _GNU_SOURCE" " /* See feature_test_macros(7) */" .B #include .P .BI "ssize_t vmsplice(int " fd ", const struct iovec *" iov , .BI " size_t " nr_segs ", unsigned int " flags ); .fi .\" Return type was long before glibc 2.7 .SH DESCRIPTION .\" Linus: vmsplice() system call to basically do a "write to .\" the buffer", but using the reference counting and VM traversal .\" to actually fill the buffer. This means that the user needs to .\" be careful not to reuse the user-space buffer it spliced into .\" the kernel-space one (contrast this to "write()", which copies .\" the actual data, and you can thus reuse the buffer immediately .\" after a successful write), but that is often easy to do. If .I fd is opened for writing, the .BR vmsplice () system call maps .I nr_segs ranges of user memory described by .I iov into a pipe. If .I fd is opened for reading, .\" Since Linux 2.6.23 .\" commit 6a14b90bb6bc7cd83e2a444bf457a2ea645cbfe7 the .BR vmsplice () system call fills .I nr_segs ranges of user memory described by .I iov from a pipe. The file descriptor .I fd must refer to a pipe. .P The pointer .I iov points to an array of .I iovec structures as described in .BR iovec (3type). .P The .I flags argument is a bit mask that is composed by ORing together zero or more of the following values: .TP .B SPLICE_F_MOVE Unused for .BR vmsplice (); see .BR splice (2). .TP .B SPLICE_F_NONBLOCK .\" Not used for vmsplice .\" May be in the future -- therefore EAGAIN Do not block on I/O; see .BR splice (2) for further details. .TP .B SPLICE_F_MORE Currently has no effect for .BR vmsplice (), but may be implemented in the future; see .BR splice (2). .TP .B SPLICE_F_GIFT The user pages are a gift to the kernel. The application may not modify this memory ever, .\" FIXME . Explain the following line in a little more detail: otherwise the page cache and on-disk data may differ. Gifting pages to the kernel means that a subsequent .BR splice (2) .B SPLICE_F_MOVE can successfully move the pages; if this flag is not specified, then a subsequent .BR splice (2) .B SPLICE_F_MOVE must copy the pages. Data must also be properly page aligned, both in memory and length. .\" FIXME .\" It looks like the page-alignment requirement went away with .\" commit bd1a68b59c8e3bce45fb76632c64e1e063c3962d .\" .\" .... if we expect to later SPLICE_F_MOVE to the cache. .SH RETURN VALUE Upon successful completion, .BR vmsplice () returns the number of bytes transferred to the pipe. On error, .BR vmsplice () returns \-1 and .I errno is set to indicate the error. .SH ERRORS .TP .B EAGAIN .B SPLICE_F_NONBLOCK was specified in .IR flags , and the operation would block. .TP .B EBADF .I fd either not valid, or doesn't refer to a pipe. .TP .B EINVAL .I nr_segs is greater than .BR IOV_MAX ; or memory not aligned if .B SPLICE_F_GIFT set. .TP .B ENOMEM Out of memory. .SH STANDARDS Linux. .SH HISTORY Linux 2.6.17, glibc 2.5. .SH NOTES .BR vmsplice () follows the other vectorized read/write type functions when it comes to limitations on the number of segments being passed in. This limit is .B IOV_MAX as defined in .IR . Currently, .\" UIO_MAXIOV in kernel source this limit is 1024. .P .\" commit 6a14b90bb6bc7cd83e2a444bf457a2ea645cbfe7 .BR vmsplice () really supports true splicing only from user memory to a pipe. In the opposite direction, it actually just copies the data to user space. But this makes the interface nice and symmetric and enables people to build on .BR vmsplice () with room for future improvement in performance. .SH SEE ALSO .BR splice (2), .BR tee (2), .BR pipe (7)