.\" Copyright (C) 2022 Jens Axboe .\" .\" SPDX-License-Identifier: LGPL-2.0-or-later .\" .TH io_uring_setup_buf_ring 3 "Mar 07, 2023" "liburing-2.4" "liburing Manual" .SH NAME io_uring_setup_buf_ring \- setup and register buffer ring for provided buffers .SH SYNOPSIS .nf .B #include .PP .BI "struct io_uring_buf_ring *io_uring_setup_buf_ring(struct io_uring *" ring ", .BI " unsigned int " nentries ", .BI " int " bgid ", .BI " unsigned int " flags ", .BI " int *" ret ");" .BI " .fi .SH DESCRIPTION .PP The .BR io_uring_setup_buf_ring (3) function registers a shared buffer ring to be used with provided buffers. For the request types that support it, provided buffers are given to the ring and one is selected by a request if it has .B IOSQE_BUFFER_SELECT set in the SQE .IR flags , when the request is ready to receive data. This allows both clear ownership of the buffer lifetime, and a way to have more read/receive type of operations in flight than buffers available. The .I ring argument must pointer to the ring for which the provided buffer ring is being registered, .I nentries is the number of entries requested in the buffer ring. This argument must be a power-of 2 in size. .I bgid is the chosen buffer group ID, .I flags are modifier flags for the operation, and .I *ret is is a pointer to an integer for the error value if any part of the ring allocation and registration fails. The .I flags argument is currently unused and must be set to zero. Under the covers, this function uses .BR io_uring_register_buf_ring (3) to register the ring, and handles the allocation of the ring rather than letting the application open code it. To unregister and free a buffer group ID setup with this function, the application must call .BR io_uring_free_buf_ring (3) . Available since 5.19. .SH RETURN VALUE On success .BR io_uring_setup_buf_ring (3) returns a pointer to the buffer ring. On failure it returns .BR NULL and sets .I *ret to -errno. .SH NOTES Note that even if the kernel supports this feature, registering a provided buffer ring may still fail with .B -EINVAL if the host is a 32-bit architecture and the memory being passed in resides in high memory. .SH SEE ALSO .BR io_uring_register_buf_ring (3), .BR io_uring_buf_ring_init (3), .BR io_uring_buf_ring_add (3), .BR io_uring_buf_ring_advance (3), .BR io_uring_buf_ring_cq_advance (3)