.\" Copyright (C) 2022 Jens Axboe .\" .\" SPDX-License-Identifier: LGPL-2.0-or-later .\" .TH io_uring_prep_send 3 "March 12, 2022" "liburing-2.2" "liburing Manual" .SH NAME io_uring_prep_send \- prepare a send request .SH SYNOPSIS .nf .B #include .PP .BI "void io_uring_prep_send(struct io_uring_sqe *" sqe "," .BI " int " sockfd "," .BI " const void *" buf "," .BI " size_t " len "," .BI " int " flags ");" .PP .BI "void io_uring_prep_sendto(struct io_uring_sqe *" sqe "," .BI " int " sockfd "," .BI " const void *" buf "," .BI " size_t " len "," .BI " int " flags "," .BI " const struct sockaddr *" addr "," .BI " socklen_t " addrlen ");" .PP .BI "void io_uring_prep_send_bundle(struct io_uring_sqe *" sqe "," .BI " int " sockfd "," .BI " size_t " len "," .BI " int " flags ");" .fi .SH DESCRIPTION .PP The .BR io_uring_prep_send (3) function prepares a send request. The submission queue entry .I sqe is setup to use the file descriptor .I sockfd to start sending the data from .I buf of size .I len bytes and with modifier flags .IR flags . Note that using .B IOSQE_IO_LINK with this request type requires the setting of .B MSG_WAITALL in the .IR flags argument, as a short send isn't a considered an error condition without that being set. This function prepares an async .BR send (2) request. See that man page for details. The .BR io_uring_prep_sendto (3) function prepares a sendto request. The submission queue entry .I sqe is setup to use the file descriptor .I sockfd to start sending the data from .I buf of size .I len bytes and with modifier flags .IR flags . The destination address is specified by .I addr and .I addrlen and must be a valid address for the socket type. This function prepares an async .BR sendto (2) request. See that man page for details. Both of the above send variants may be used with provided buffers, where rather than pass a buffer in directly with the request, .B IOSQE_BUFFER_SELECT is set in the SQE .I flags field, and additionally a buffer group ID is set in the SQE .I buf_group field. By using provided buffers with send requests, the application can prevent any kind of reordering of the outgoing data which can otherwise occur if the application has more than one send request inflight for a single socket. This provides better pipelining of data, where previously the app needed to manually serialize sends. The bundle version allows the application to issue a single send request, with a buffer group ID given in the SQE .I buf_group field, which keeps sending from that buffer group until it runs out of buffers. As with any other request using provided buffers, .B IOSQE_BUFFER_SELECT must also be set in the SQE .I flags before submission. Currently .I len must be given as .B 0 otherwise the request will be errored with .B -EINVAL as the result code. Future versions may allow setting .I to limit the transfer size. A single CQE is posted for the send, with the result being how many bytes were sent, on success. When used with provided buffers, send or send bundle will contain the starting buffer group ID in the CQE .I flags field. The number of bytes sent starts from there, and will be in contiguous buffer IDs after that. Send bundle, and send with provided buffers in general, are available since kernel 6.10, and can be further identified by checking for the .B IORING_FEAT_SEND_BUF_SELECT flag returned in when using .BR io_uring_init_queue_params (3) to setup the ring. .SH RETURN VALUE None .SH ERRORS The CQE .I res field will contain the result of the operation. See the related man page for details on possible values. Note that where synchronous system calls will return .B -1 on failure and set .I errno to the actual error value, io_uring never uses .IR errno . Instead it returns the negated .I errno directly in the CQE .I res field. .SH SEE ALSO .BR io_uring_get_sqe (3), .BR io_uring_submit (3), .BR io_uring_buf_ring_init (3), .BR io_uring_buf_ring_add (3), .BR send (2) .BR sendto (2)