/*! \file osmo_io_uring.c * io_uring backend for osmo_io. * * (C) 2022-2023 by sysmocom s.f.m.c. * Author: Daniel Willmann * (C) 2023-2024 by Harald Welte * * All Rights Reserved. * * SPDX-License-Identifier: GPL-2.0+ * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. */ /* TODO: * Parameters: * - number of simultaneous read/write in uring for given fd * */ #include "../config.h" #if defined(__linux__) #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "osmo_io_internal.h" #define IOFD_URING_ENTRIES 4096 struct osmo_io_uring { struct osmo_fd event_ofd; struct io_uring ring; }; static __thread struct osmo_io_uring g_ring; static void iofd_uring_cqe(struct io_uring *ring); /*! read call-back for eventfd notifying us if entries are in the completion queue */ static int iofd_uring_poll_cb(struct osmo_fd *ofd, unsigned int what) { struct io_uring *ring = ofd->data; eventfd_t val; int rc; if (what & OSMO_FD_READ) { rc = eventfd_read(ofd->fd, &val); if (rc < 0) { LOGP(DLIO, LOGL_ERROR, "eventfd_read() returned error\n"); return rc; } iofd_uring_cqe(ring); } if (what & OSMO_FD_WRITE) OSMO_ASSERT(0); return 0; } /*! initialize the uring and tie it into our event loop */ void osmo_iofd_uring_init(void) { int rc, evfd; rc = io_uring_queue_init(IOFD_URING_ENTRIES, &g_ring.ring, 0); if (rc < 0) osmo_panic("failure during io_uring_queue_init(): %s\n", strerror(-rc)); rc = eventfd(0, 0); if (rc < 0) { io_uring_queue_exit(&g_ring.ring); osmo_panic("failure creating eventfd(0, 0) for io_uring: %s\n", strerror(-rc)); } evfd = rc; osmo_fd_setup(&g_ring.event_ofd, evfd, OSMO_FD_READ, iofd_uring_poll_cb, &g_ring.ring, 0); rc = osmo_fd_register(&g_ring.event_ofd); if (rc < 0) { close(evfd); io_uring_queue_exit(&g_ring.ring); osmo_panic("failure registering io_uring-eventfd as osmo_fd: %d\n", rc); } rc = io_uring_register_eventfd(&g_ring.ring, evfd); if (rc < 0) { osmo_fd_unregister(&g_ring.event_ofd); close(evfd); io_uring_queue_exit(&g_ring.ring); osmo_panic("failure registering eventfd with io_uring: %s\n", strerror(-rc)); } } static void iofd_uring_submit_recv(struct osmo_io_fd *iofd, enum iofd_msg_action action) { struct msgb *msg; struct iofd_msghdr *msghdr; struct io_uring_sqe *sqe; msg = iofd_msgb_pending_or_alloc(iofd); if (!msg) { LOGPIO(iofd, LOGL_ERROR, "Could not allocate msgb for reading\n"); OSMO_ASSERT(0); } msghdr = iofd_msghdr_alloc(iofd, action, msg, iofd->cmsg_size); if (!msghdr) { LOGPIO(iofd, LOGL_ERROR, "Could not allocate msghdr for reading\n"); OSMO_ASSERT(0); } msghdr->iov[0].iov_base = msg->tail; msghdr->iov[0].iov_len = msgb_tailroom(msg); switch (action) { case IOFD_ACT_READ: break; case IOFD_ACT_RECVMSG: msghdr->hdr.msg_control = msghdr->cmsg; msghdr->hdr.msg_controllen = iofd->cmsg_size; /* fall-through */ case IOFD_ACT_RECVFROM: msghdr->hdr.msg_iov = &msghdr->iov[0]; msghdr->hdr.msg_iovlen = 1; msghdr->hdr.msg_name = &msghdr->osa.u.sa; msghdr->hdr.msg_namelen = osmo_sockaddr_size(&msghdr->osa); break; default: OSMO_ASSERT(0); } sqe = io_uring_get_sqe(&g_ring.ring); if (!sqe) { LOGPIO(iofd, LOGL_ERROR, "Could not get io_uring_sqe\n"); OSMO_ASSERT(0); } switch (action) { case IOFD_ACT_READ: io_uring_prep_readv(sqe, iofd->fd, msghdr->iov, 1, 0); break; case IOFD_ACT_RECVMSG: case IOFD_ACT_RECVFROM: io_uring_prep_recvmsg(sqe, iofd->fd, &msghdr->hdr, msghdr->flags); break; default: OSMO_ASSERT(0); } io_uring_sqe_set_data(sqe, msghdr); io_uring_submit(&g_ring.ring); /* NOTE: This only works if we have one read per fd */ iofd->u.uring.read_msghdr = msghdr; } /*! completion call-back for READ/RECVFROM */ static void iofd_uring_handle_recv(struct iofd_msghdr *msghdr, int rc) { struct osmo_io_fd *iofd = msghdr->iofd; struct msgb *msg = msghdr->msg; if (rc > 0) msgb_put(msg, rc); if (!IOFD_FLAG_ISSET(iofd, IOFD_FLAG_CLOSED)) iofd_handle_recv(iofd, msg, rc, msghdr); if (iofd->u.uring.read_enabled && !IOFD_FLAG_ISSET(iofd, IOFD_FLAG_CLOSED)) iofd_uring_submit_recv(iofd, msghdr->action); else iofd->u.uring.read_msghdr = NULL; iofd_msghdr_free(msghdr); } static int iofd_uring_submit_tx(struct osmo_io_fd *iofd); /*! completion call-back for WRITE/SENDTO */ static void iofd_uring_handle_tx(struct iofd_msghdr *msghdr, int rc) { struct osmo_io_fd *iofd = msghdr->iofd; /* Detach msghdr from iofd. It might get freed here or it is freed during iofd_handle_send_completion(). * If there is pending data to send, iofd_uring_submit_tx() will attach it again. * iofd_handle_send_completion() will invoke a callback function to signal the possibility of write/send. * This callback function might close iofd, leading to the potential freeing of iofd->u.uring.write_msghdr if * still attached. Since iofd_handle_send_completion() frees msghdr at the end of the function, detaching * msghdr here prevents a double-free bug. */ if (iofd->u.uring.write_msghdr == msghdr) iofd->u.uring.write_msghdr = NULL; if (OSMO_UNLIKELY(IOFD_FLAG_ISSET(iofd, IOFD_FLAG_CLOSED))) { msgb_free(msghdr->msg); iofd_msghdr_free(msghdr); } else { iofd_handle_send_completion(iofd, rc, msghdr); } /* submit the next to-be-transmitted message for this file descriptor */ if (iofd->u.uring.write_enabled && !IOFD_FLAG_ISSET(iofd, IOFD_FLAG_CLOSED)) iofd_uring_submit_tx(iofd); } /*! handle completion of a single I/O message */ static void iofd_uring_handle_completion(struct iofd_msghdr *msghdr, int res) { struct osmo_io_fd *iofd = msghdr->iofd; IOFD_FLAG_SET(iofd, IOFD_FLAG_IN_CALLBACK); switch (msghdr->action) { case IOFD_ACT_READ: case IOFD_ACT_RECVFROM: case IOFD_ACT_RECVMSG: iofd_uring_handle_recv(msghdr, res); break; case IOFD_ACT_WRITE: case IOFD_ACT_SENDTO: case IOFD_ACT_SENDMSG: iofd_uring_handle_tx(msghdr, res); break; default: OSMO_ASSERT(0) } IOFD_FLAG_UNSET(iofd, IOFD_FLAG_IN_CALLBACK); if (IOFD_FLAG_ISSET(iofd, IOFD_FLAG_TO_FREE) && !iofd->u.uring.read_msghdr && !iofd->u.uring.write_msghdr) talloc_free(iofd); } /*! process all pending completion queue entries in given io_uring */ static void iofd_uring_cqe(struct io_uring *ring) { int rc; struct io_uring_cqe *cqe; struct iofd_msghdr *msghdr; while (io_uring_peek_cqe(ring, &cqe) == 0) { msghdr = io_uring_cqe_get_data(cqe); if (!msghdr) { LOGP(DLIO, LOGL_DEBUG, "Cancellation returned\n"); io_uring_cqe_seen(ring, cqe); continue; } if (!msghdr->iofd) { io_uring_cqe_seen(ring, cqe); iofd_msghdr_free(msghdr); continue; } rc = cqe->res; /* Hand the entry back to the kernel before */ io_uring_cqe_seen(ring, cqe); iofd_uring_handle_completion(msghdr, rc); } } /*! will submit the next to-be-transmitted message for given iofd */ static int iofd_uring_submit_tx(struct osmo_io_fd *iofd) { struct io_uring_sqe *sqe; struct iofd_msghdr *msghdr; msghdr = iofd_txqueue_dequeue(iofd); if (!msghdr) return -ENODATA; sqe = io_uring_get_sqe(&g_ring.ring); if (!sqe) { LOGPIO(iofd, LOGL_ERROR, "Could not get io_uring_sqe\n"); OSMO_ASSERT(0); } io_uring_sqe_set_data(sqe, msghdr); switch (msghdr->action) { case IOFD_ACT_WRITE: case IOFD_ACT_SENDTO: case IOFD_ACT_SENDMSG: io_uring_prep_sendmsg(sqe, msghdr->iofd->fd, &msghdr->hdr, msghdr->flags); break; default: OSMO_ASSERT(0); } io_uring_submit(&g_ring.ring); iofd->u.uring.write_msghdr = msghdr; return 0; } static void iofd_uring_write_enable(struct osmo_io_fd *iofd); static void iofd_uring_read_enable(struct osmo_io_fd *iofd); /* called via osmocom poll/select main handling once outbound non-blocking connect() completes */ static int iofd_uring_connected_cb(struct osmo_fd *ofd, unsigned int what) { struct osmo_io_fd *iofd = ofd->data; LOGPIO(iofd, LOGL_DEBUG, "Socket connected or failed.\n"); if (!(what & OSMO_FD_WRITE)) return 0; /* Unregister from poll/select handling. */ osmo_fd_unregister(ofd); IOFD_FLAG_UNSET(iofd, IOFD_FLAG_NOTIFY_CONNECTED); /* Notify the application about this via a zero-length write completion call-back. */ IOFD_FLAG_SET(iofd, IOFD_FLAG_IN_CALLBACK); switch (iofd->mode) { case OSMO_IO_FD_MODE_READ_WRITE: iofd->io_ops.write_cb(iofd, 0, NULL); break; case OSMO_IO_FD_MODE_RECVFROM_SENDTO: iofd->io_ops.sendto_cb(iofd, 0, NULL, NULL); break; case OSMO_IO_FD_MODE_RECVMSG_SENDMSG: iofd->io_ops.sendmsg_cb(iofd, 0, NULL); break; } IOFD_FLAG_UNSET(iofd, IOFD_FLAG_IN_CALLBACK); /* If write/read notifications are pending, enable it now. */ if (iofd->u.uring.write_enabled && !IOFD_FLAG_ISSET(iofd, IOFD_FLAG_CLOSED)) iofd_uring_write_enable(iofd); if (iofd->u.uring.read_enabled && !IOFD_FLAG_ISSET(iofd, IOFD_FLAG_CLOSED)) iofd_uring_read_enable(iofd); if (IOFD_FLAG_ISSET(iofd, IOFD_FLAG_TO_FREE) && !iofd->u.uring.read_msghdr && !iofd->u.uring.write_msghdr) talloc_free(iofd); return 0; } static int iofd_uring_register(struct osmo_io_fd *iofd) { if (iofd->mode != OSMO_IO_FD_MODE_RECVMSG_SENDMSG) return 0; /* Nothing to be done */ /* OSMO_IO_FD_MODE_RECVMSG_SENDMSG: * Use a temporary osmo_fd which we can use to notify us once the connection is established * or failed (indicated by FD becoming writable). This is needed as (at least for SCTP sockets) * one cannot submit a zero-length writev/sendmsg in order to get notification when the socekt * is writable.*/ if (IOFD_FLAG_ISSET(iofd, IOFD_FLAG_NOTIFY_CONNECTED)) { osmo_fd_setup(&iofd->u.uring.connect_ofd, iofd->fd, OSMO_FD_WRITE, iofd_uring_connected_cb, iofd, 0); if (osmo_fd_register(&iofd->u.uring.connect_ofd) < 0) { LOGPIO(iofd, LOGL_ERROR, "Failed to register FD for connect event.\n"); return -EBADFD; } } return 0; } static int iofd_uring_unregister(struct osmo_io_fd *iofd) { struct io_uring_sqe *sqe; struct iofd_msghdr *msghdr; if (iofd->u.uring.read_msghdr) { msghdr = iofd->u.uring.read_msghdr; sqe = io_uring_get_sqe(&g_ring.ring); OSMO_ASSERT(sqe != NULL); io_uring_sqe_set_data(sqe, NULL); LOGPIO(iofd, LOGL_DEBUG, "Cancelling read\n"); iofd->u.uring.read_msghdr = NULL; talloc_steal(OTC_GLOBAL, msghdr); msghdr->iofd = NULL; io_uring_prep_cancel(sqe, msghdr, 0); } if (iofd->u.uring.write_msghdr) { msghdr = iofd->u.uring.write_msghdr; sqe = io_uring_get_sqe(&g_ring.ring); OSMO_ASSERT(sqe != NULL); io_uring_sqe_set_data(sqe, NULL); LOGPIO(iofd, LOGL_DEBUG, "Cancelling write\n"); iofd->u.uring.write_msghdr = NULL; talloc_steal(OTC_GLOBAL, msghdr); msgb_free(msghdr->msg); msghdr->iofd = NULL; io_uring_prep_cancel(sqe, msghdr, 0); } io_uring_submit(&g_ring.ring); if (IOFD_FLAG_ISSET(iofd, IOFD_FLAG_NOTIFY_CONNECTED)) { osmo_fd_unregister(&iofd->u.uring.connect_ofd); IOFD_FLAG_UNSET(iofd, IOFD_FLAG_NOTIFY_CONNECTED); } return 0; } static void iofd_uring_write_enable(struct osmo_io_fd *iofd) { iofd->u.uring.write_enabled = true; if (iofd->u.uring.write_msghdr) return; /* This function is called again, once the socket is connected. */ if (IOFD_FLAG_ISSET(iofd, IOFD_FLAG_NOTIFY_CONNECTED)) return; if (osmo_iofd_txqueue_len(iofd) > 0) iofd_uring_submit_tx(iofd); else if (iofd->mode == OSMO_IO_FD_MODE_READ_WRITE) { /* Empty write request to check when the socket is connected */ struct iofd_msghdr *msghdr; struct io_uring_sqe *sqe; struct msgb *msg = msgb_alloc_headroom(0, 0, "io_uring write dummy"); if (!msg) { LOGPIO(iofd, LOGL_ERROR, "Could not allocate msgb for writing\n"); OSMO_ASSERT(0); } msghdr = iofd_msghdr_alloc(iofd, IOFD_ACT_WRITE, msg, 0); if (!msghdr) { LOGPIO(iofd, LOGL_ERROR, "Could not allocate msghdr for writing\n"); OSMO_ASSERT(0); } msghdr->iov[0].iov_base = msgb_data(msg); msghdr->iov[0].iov_len = msgb_length(msg); sqe = io_uring_get_sqe(&g_ring.ring); if (!sqe) { LOGPIO(iofd, LOGL_ERROR, "Could not get io_uring_sqe\n"); OSMO_ASSERT(0); } io_uring_prep_writev(sqe, iofd->fd, msghdr->iov, 1, 0); io_uring_sqe_set_data(sqe, msghdr); io_uring_submit(&g_ring.ring); iofd->u.uring.write_msghdr = msghdr; } } static void iofd_uring_write_disable(struct osmo_io_fd *iofd) { iofd->u.uring.write_enabled = false; } static void iofd_uring_read_enable(struct osmo_io_fd *iofd) { iofd->u.uring.read_enabled = true; if (iofd->u.uring.read_msghdr) return; /* This function is called again, once the socket is connected. */ if (IOFD_FLAG_ISSET(iofd, IOFD_FLAG_NOTIFY_CONNECTED)) return; switch (iofd->mode) { case OSMO_IO_FD_MODE_READ_WRITE: iofd_uring_submit_recv(iofd, IOFD_ACT_READ); break; case OSMO_IO_FD_MODE_RECVFROM_SENDTO: iofd_uring_submit_recv(iofd, IOFD_ACT_RECVFROM); break; case OSMO_IO_FD_MODE_RECVMSG_SENDMSG: iofd_uring_submit_recv(iofd, IOFD_ACT_RECVMSG); break; default: OSMO_ASSERT(0); } } static void iofd_uring_read_disable(struct osmo_io_fd *iofd) { iofd->u.uring.read_enabled = false; } static int iofd_uring_close(struct osmo_io_fd *iofd) { return close(iofd->fd); } static void iofd_uring_notify_connected(struct osmo_io_fd *iofd) { if (iofd->mode != OSMO_IO_FD_MODE_RECVMSG_SENDMSG) { iofd_uring_write_enable(iofd); return; } /* OSMO_IO_FD_MODE_RECVMSG_SENDMSG: Don't call this function after enabling read or write. */ OSMO_ASSERT(!iofd->u.uring.write_enabled && !iofd->u.uring.read_enabled); /* Set flag to enable temporary osmo_fd during register() time: */ IOFD_FLAG_SET(iofd, IOFD_FLAG_NOTIFY_CONNECTED); } const struct iofd_backend_ops iofd_uring_ops = { .register_fd = iofd_uring_register, .unregister_fd = iofd_uring_unregister, .close = iofd_uring_close, .write_enable = iofd_uring_write_enable, .write_disable = iofd_uring_write_disable, .read_enable = iofd_uring_read_enable, .read_disable = iofd_uring_read_disable, .notify_connected = iofd_uring_notify_connected, }; #endif /* defined(__linux__) */