diff --git a/usr.sbin/bhyve/net_backends.c b/usr.sbin/bhyve/net_backends.c index ca4c96b10239..9fcc33216bad 100644 --- a/usr.sbin/bhyve/net_backends.c +++ b/usr.sbin/bhyve/net_backends.c @@ -1,1145 +1,1153 @@ /*- * SPDX-License-Identifier: BSD-2-Clause-FreeBSD * * Copyright (c) 2019 Vincenzo Maffione * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, * OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT * OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR * BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE * OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, * EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * $FreeBSD$ */ /* * This file implements multiple network backends (tap, netmap, ...), * to be used by network frontends such as virtio-net and e1000. * The API to access the backend (e.g. send/receive packets, negotiate * features) is exported by net_backends.h. */ #include __FBSDID("$FreeBSD$"); #include /* u_short etc */ #ifndef WITHOUT_CAPSICUM #include #endif #include #include #include #include #if defined(INET6) || defined(INET) #include #endif #include #include #define NETMAP_WITH_LIBS #include #ifndef WITHOUT_CAPSICUM #include #endif #include #include #include #include #include #include #include #include #include #include #include #include #include #include #ifdef NETGRAPH #include #include #include #endif #include "config.h" #include "debug.h" #include "iov.h" #include "mevent.h" #include "net_backends.h" #include "pci_emul.h" #include /* * Each network backend registers a set of function pointers that are * used to implement the net backends API. * This might need to be exposed if we implement backends in separate files. */ struct net_backend { const char *prefix; /* prefix matching this backend */ /* * Routines used to initialize and cleanup the resources needed * by a backend. The cleanup function is used internally, * and should not be called by the frontend. */ int (*init)(struct net_backend *be, const char *devname, nvlist_t *nvl, net_be_rxeof_t cb, void *param); void (*cleanup)(struct net_backend *be); /* * Called to serve a guest transmit request. The scatter-gather * vector provided by the caller has 'iovcnt' elements and contains * the packet to send. */ ssize_t (*send)(struct net_backend *be, const struct iovec *iov, int iovcnt); /* * Get the length of the next packet that can be received from * the backend. If no packets are currently available, this * function returns 0. */ ssize_t (*peek_recvlen)(struct net_backend *be); /* * Called to receive a packet from the backend. When the function * returns a positive value 'len', the scatter-gather vector * provided by the caller contains a packet with such length. * The function returns 0 if the backend doesn't have a new packet to * receive. */ ssize_t (*recv)(struct net_backend *be, const struct iovec *iov, int iovcnt); /* * Ask the backend to enable or disable receive operation in the * backend. On return from a disable operation, it is guaranteed * that the receive callback won't be called until receive is * enabled again. Note however that it is up to the caller to make * sure that netbe_recv() is not currently being executed by another * thread. */ void (*recv_enable)(struct net_backend *be); void (*recv_disable)(struct net_backend *be); /* * Ask the backend for the virtio-net features it is able to * support. Possible features are TSO, UFO and checksum offloading * in both rx and tx direction and for both IPv4 and IPv6. */ uint64_t (*get_cap)(struct net_backend *be); /* * Tell the backend to enable/disable the specified virtio-net * features (capabilities). */ int (*set_cap)(struct net_backend *be, uint64_t features, unsigned int vnet_hdr_len); struct pci_vtnet_softc *sc; int fd; /* * Length of the virtio-net header used by the backend and the * frontend, respectively. A zero value means that the header * is not used. */ unsigned int be_vnet_hdr_len; unsigned int fe_vnet_hdr_len; /* Size of backend-specific private data. */ size_t priv_size; /* Room for backend-specific data. */ char opaque[0]; }; SET_DECLARE(net_backend_set, struct net_backend); #define VNET_HDR_LEN sizeof(struct virtio_net_rxhdr) #define WPRINTF(params) PRINTLN params /* * The tap backend */ #if defined(INET6) || defined(INET) const int pf_list[] = { #if defined(INET6) PF_INET6, #endif #if defined(INET) PF_INET, #endif }; #endif struct tap_priv { struct mevent *mevp; /* * A bounce buffer that allows us to implement the peek_recvlen * callback. In the future we may get the same information from * the kevent data. */ char bbuf[1 << 16]; ssize_t bbuflen; }; static void tap_cleanup(struct net_backend *be) { struct tap_priv *priv = (struct tap_priv *)be->opaque; if (priv->mevp) { mevent_delete(priv->mevp); } if (be->fd != -1) { close(be->fd); be->fd = -1; } } static int tap_init(struct net_backend *be, const char *devname, nvlist_t *nvl, net_be_rxeof_t cb, void *param) { struct tap_priv *priv = (struct tap_priv *)be->opaque; char tbuf[80]; int opt = 1; #if defined(INET6) || defined(INET) struct ifreq ifrq; int i, s; #endif #ifndef WITHOUT_CAPSICUM cap_rights_t rights; #endif if (cb == NULL) { WPRINTF(("TAP backend requires non-NULL callback")); return (-1); } strcpy(tbuf, "/dev/"); strlcat(tbuf, devname, sizeof(tbuf)); be->fd = open(tbuf, O_RDWR); if (be->fd == -1) { WPRINTF(("open of tap device %s failed", tbuf)); goto error; } /* * Set non-blocking and register for read * notifications with the event loop */ if (ioctl(be->fd, FIONBIO, &opt) < 0) { WPRINTF(("tap device O_NONBLOCK failed")); goto error; } #if defined(INET6) || defined(INET) /* * Try to UP the interface rather than relying on * net.link.tap.up_on_open. */ bzero(&ifrq, sizeof(ifrq)); if (ioctl(be->fd, TAPGIFNAME, &ifrq) < 0) { WPRINTF(("Could not get interface name")); goto error; } s = -1; for (i = 0; s == -1 && i < nitems(pf_list); i++) s = socket(pf_list[i], SOCK_DGRAM, 0); if (s == -1) { WPRINTF(("Could open socket")); goto error; } if (ioctl(s, SIOCGIFFLAGS, &ifrq) < 0) { (void)close(s); WPRINTF(("Could not get interface flags")); goto error; } ifrq.ifr_flags |= IFF_UP; if (ioctl(s, SIOCSIFFLAGS, &ifrq) < 0) { (void)close(s); WPRINTF(("Could not set interface flags")); goto error; } (void)close(s); #endif #ifndef WITHOUT_CAPSICUM cap_rights_init(&rights, CAP_EVENT, CAP_READ, CAP_WRITE); if (caph_rights_limit(be->fd, &rights) == -1) errx(EX_OSERR, "Unable to apply rights for sandbox"); #endif memset(priv->bbuf, 0, sizeof(priv->bbuf)); priv->bbuflen = 0; priv->mevp = mevent_add_disabled(be->fd, EVF_READ, cb, param); if (priv->mevp == NULL) { WPRINTF(("Could not register event")); goto error; } return (0); error: tap_cleanup(be); return (-1); } /* * Called to send a buffer chain out to the tap device */ static ssize_t tap_send(struct net_backend *be, const struct iovec *iov, int iovcnt) { return (writev(be->fd, iov, iovcnt)); } static ssize_t tap_peek_recvlen(struct net_backend *be) { struct tap_priv *priv = (struct tap_priv *)be->opaque; ssize_t ret; if (priv->bbuflen > 0) { /* * We already have a packet in the bounce buffer. * Just return its length. */ return priv->bbuflen; } /* * Read the next packet (if any) into the bounce buffer, so * that we get to know its length and we can return that * to the caller. */ ret = read(be->fd, priv->bbuf, sizeof(priv->bbuf)); if (ret < 0 && errno == EWOULDBLOCK) { return (0); } if (ret > 0) priv->bbuflen = ret; return (ret); } static ssize_t tap_recv(struct net_backend *be, const struct iovec *iov, int iovcnt) { struct tap_priv *priv = (struct tap_priv *)be->opaque; ssize_t ret; if (priv->bbuflen > 0) { /* * A packet is available in the bounce buffer, so * we read it from there. */ ret = buf_to_iov(priv->bbuf, priv->bbuflen, iov, iovcnt, 0); /* Mark the bounce buffer as empty. */ priv->bbuflen = 0; return (ret); } ret = readv(be->fd, iov, iovcnt); if (ret < 0 && errno == EWOULDBLOCK) { return (0); } return (ret); } static void tap_recv_enable(struct net_backend *be) { struct tap_priv *priv = (struct tap_priv *)be->opaque; mevent_enable(priv->mevp); } static void tap_recv_disable(struct net_backend *be) { struct tap_priv *priv = (struct tap_priv *)be->opaque; mevent_disable(priv->mevp); } static uint64_t tap_get_cap(struct net_backend *be) { return (0); /* no capabilities for now */ } static int tap_set_cap(struct net_backend *be, uint64_t features, unsigned vnet_hdr_len) { return ((features || vnet_hdr_len) ? -1 : 0); } static struct net_backend tap_backend = { .prefix = "tap", .priv_size = sizeof(struct tap_priv), .init = tap_init, .cleanup = tap_cleanup, .send = tap_send, .peek_recvlen = tap_peek_recvlen, .recv = tap_recv, .recv_enable = tap_recv_enable, .recv_disable = tap_recv_disable, .get_cap = tap_get_cap, .set_cap = tap_set_cap, }; /* A clone of the tap backend, with a different prefix. */ static struct net_backend vmnet_backend = { .prefix = "vmnet", .priv_size = sizeof(struct tap_priv), .init = tap_init, .cleanup = tap_cleanup, .send = tap_send, .peek_recvlen = tap_peek_recvlen, .recv = tap_recv, .recv_enable = tap_recv_enable, .recv_disable = tap_recv_disable, .get_cap = tap_get_cap, .set_cap = tap_set_cap, }; DATA_SET(net_backend_set, tap_backend); DATA_SET(net_backend_set, vmnet_backend); #ifdef NETGRAPH /* * Netgraph backend */ #define NG_SBUF_MAX_SIZE (4 * 1024 * 1024) static int ng_init(struct net_backend *be, const char *devname, nvlist_t *nvl, net_be_rxeof_t cb, void *param) { struct tap_priv *p = (struct tap_priv *)be->opaque; struct ngm_connect ngc; const char *value, *nodename; int sbsz; int ctrl_sock; int flags; unsigned long maxsbsz; size_t msbsz; #ifndef WITHOUT_CAPSICUM cap_rights_t rights; #endif if (cb == NULL) { WPRINTF(("Netgraph backend requires non-NULL callback")); return (-1); } be->fd = -1; memset(&ngc, 0, sizeof(ngc)); value = get_config_value_node(nvl, "path"); if (value == NULL) { WPRINTF(("path must be provided")); return (-1); } strncpy(ngc.path, value, NG_PATHSIZ - 1); value = get_config_value_node(nvl, "hook"); if (value == NULL) value = "vmlink"; strncpy(ngc.ourhook, value, NG_HOOKSIZ - 1); value = get_config_value_node(nvl, "peerhook"); if (value == NULL) { WPRINTF(("peer hook must be provided")); return (-1); } strncpy(ngc.peerhook, value, NG_HOOKSIZ - 1); nodename = get_config_value_node(nvl, "socket"); if (NgMkSockNode(nodename, &ctrl_sock, &be->fd) < 0) { WPRINTF(("can't get Netgraph sockets")); return (-1); } if (NgSendMsg(ctrl_sock, ".", NGM_GENERIC_COOKIE, NGM_CONNECT, &ngc, sizeof(ngc)) < 0) { WPRINTF(("can't connect to node")); close(ctrl_sock); goto error; } close(ctrl_sock); flags = fcntl(be->fd, F_GETFL); if (flags < 0) { WPRINTF(("can't get socket flags")); goto error; } if (fcntl(be->fd, F_SETFL, flags | O_NONBLOCK) < 0) { WPRINTF(("can't set O_NONBLOCK flag")); goto error; } /* * The default ng_socket(4) buffer's size is too low. * Calculate the minimum value between NG_SBUF_MAX_SIZE * and kern.ipc.maxsockbuf. */ msbsz = sizeof(maxsbsz); if (sysctlbyname("kern.ipc.maxsockbuf", &maxsbsz, &msbsz, NULL, 0) < 0) { WPRINTF(("can't get 'kern.ipc.maxsockbuf' value")); goto error; } /* * We can't set the socket buffer size to kern.ipc.maxsockbuf value, * as it takes into account the mbuf(9) overhead. */ maxsbsz = maxsbsz * MCLBYTES / (MSIZE + MCLBYTES); sbsz = MIN(NG_SBUF_MAX_SIZE, maxsbsz); if (setsockopt(be->fd, SOL_SOCKET, SO_SNDBUF, &sbsz, sizeof(sbsz)) < 0) { WPRINTF(("can't set TX buffer size")); goto error; } if (setsockopt(be->fd, SOL_SOCKET, SO_RCVBUF, &sbsz, sizeof(sbsz)) < 0) { WPRINTF(("can't set RX buffer size")); goto error; } #ifndef WITHOUT_CAPSICUM cap_rights_init(&rights, CAP_EVENT, CAP_READ, CAP_WRITE); if (caph_rights_limit(be->fd, &rights) == -1) errx(EX_OSERR, "Unable to apply rights for sandbox"); #endif memset(p->bbuf, 0, sizeof(p->bbuf)); p->bbuflen = 0; p->mevp = mevent_add_disabled(be->fd, EVF_READ, cb, param); if (p->mevp == NULL) { WPRINTF(("Could not register event")); goto error; } return (0); error: tap_cleanup(be); return (-1); } static struct net_backend ng_backend = { .prefix = "netgraph", .priv_size = sizeof(struct tap_priv), .init = ng_init, .cleanup = tap_cleanup, .send = tap_send, .peek_recvlen = tap_peek_recvlen, .recv = tap_recv, .recv_enable = tap_recv_enable, .recv_disable = tap_recv_disable, .get_cap = tap_get_cap, .set_cap = tap_set_cap, }; DATA_SET(net_backend_set, ng_backend); #endif /* NETGRAPH */ /* * The netmap backend */ /* The virtio-net features supported by netmap. */ #define NETMAP_FEATURES (VIRTIO_NET_F_CSUM | VIRTIO_NET_F_HOST_TSO4 | \ VIRTIO_NET_F_HOST_TSO6 | VIRTIO_NET_F_HOST_UFO | \ VIRTIO_NET_F_GUEST_CSUM | VIRTIO_NET_F_GUEST_TSO4 | \ VIRTIO_NET_F_GUEST_TSO6 | VIRTIO_NET_F_GUEST_UFO) struct netmap_priv { char ifname[IFNAMSIZ]; struct nm_desc *nmd; uint16_t memid; struct netmap_ring *rx; struct netmap_ring *tx; struct mevent *mevp; net_be_rxeof_t cb; void *cb_param; }; static void nmreq_init(struct nmreq *req, char *ifname) { memset(req, 0, sizeof(*req)); strlcpy(req->nr_name, ifname, sizeof(req->nr_name)); req->nr_version = NETMAP_API; } static int netmap_set_vnet_hdr_len(struct net_backend *be, int vnet_hdr_len) { int err; struct nmreq req; struct netmap_priv *priv = (struct netmap_priv *)be->opaque; nmreq_init(&req, priv->ifname); req.nr_cmd = NETMAP_BDG_VNET_HDR; req.nr_arg1 = vnet_hdr_len; err = ioctl(be->fd, NIOCREGIF, &req); if (err) { WPRINTF(("Unable to set vnet header length %d", vnet_hdr_len)); return (err); } be->be_vnet_hdr_len = vnet_hdr_len; return (0); } static int netmap_has_vnet_hdr_len(struct net_backend *be, unsigned vnet_hdr_len) { int prev_hdr_len = be->be_vnet_hdr_len; int ret; if (vnet_hdr_len == prev_hdr_len) { return (1); } ret = netmap_set_vnet_hdr_len(be, vnet_hdr_len); if (ret) { return (0); } netmap_set_vnet_hdr_len(be, prev_hdr_len); return (1); } static uint64_t netmap_get_cap(struct net_backend *be) { return (netmap_has_vnet_hdr_len(be, VNET_HDR_LEN) ? NETMAP_FEATURES : 0); } static int netmap_set_cap(struct net_backend *be, uint64_t features, unsigned vnet_hdr_len) { return (netmap_set_vnet_hdr_len(be, vnet_hdr_len)); } static int netmap_init(struct net_backend *be, const char *devname, nvlist_t *nvl, net_be_rxeof_t cb, void *param) { struct netmap_priv *priv = (struct netmap_priv *)be->opaque; strlcpy(priv->ifname, devname, sizeof(priv->ifname)); priv->ifname[sizeof(priv->ifname) - 1] = '\0'; priv->nmd = nm_open(priv->ifname, NULL, NETMAP_NO_TX_POLL, NULL); if (priv->nmd == NULL) { WPRINTF(("Unable to nm_open(): interface '%s', errno (%s)", devname, strerror(errno))); free(priv); return (-1); } priv->memid = priv->nmd->req.nr_arg2; priv->tx = NETMAP_TXRING(priv->nmd->nifp, 0); priv->rx = NETMAP_RXRING(priv->nmd->nifp, 0); priv->cb = cb; priv->cb_param = param; be->fd = priv->nmd->fd; priv->mevp = mevent_add_disabled(be->fd, EVF_READ, cb, param); if (priv->mevp == NULL) { WPRINTF(("Could not register event")); return (-1); } return (0); } static void netmap_cleanup(struct net_backend *be) { struct netmap_priv *priv = (struct netmap_priv *)be->opaque; if (priv->mevp) { mevent_delete(priv->mevp); } if (priv->nmd) { nm_close(priv->nmd); } be->fd = -1; } static ssize_t netmap_send(struct net_backend *be, const struct iovec *iov, int iovcnt) { struct netmap_priv *priv = (struct netmap_priv *)be->opaque; struct netmap_ring *ring; ssize_t totlen = 0; int nm_buf_size; int nm_buf_len; uint32_t head; void *nm_buf; int j; ring = priv->tx; head = ring->head; if (head == ring->tail) { WPRINTF(("No space, drop %zu bytes", count_iov(iov, iovcnt))); goto txsync; } nm_buf = NETMAP_BUF(ring, ring->slot[head].buf_idx); nm_buf_size = ring->nr_buf_size; nm_buf_len = 0; for (j = 0; j < iovcnt; j++) { int iov_frag_size = iov[j].iov_len; void *iov_frag_buf = iov[j].iov_base; totlen += iov_frag_size; /* * Split each iovec fragment over more netmap slots, if * necessary. */ for (;;) { int copylen; copylen = iov_frag_size < nm_buf_size ? iov_frag_size : nm_buf_size; memcpy(nm_buf, iov_frag_buf, copylen); iov_frag_buf += copylen; iov_frag_size -= copylen; nm_buf += copylen; nm_buf_size -= copylen; nm_buf_len += copylen; if (iov_frag_size == 0) { break; } ring->slot[head].len = nm_buf_len; ring->slot[head].flags = NS_MOREFRAG; head = nm_ring_next(ring, head); if (head == ring->tail) { /* * We ran out of netmap slots while * splitting the iovec fragments. */ WPRINTF(("No space, drop %zu bytes", count_iov(iov, iovcnt))); goto txsync; } nm_buf = NETMAP_BUF(ring, ring->slot[head].buf_idx); nm_buf_size = ring->nr_buf_size; nm_buf_len = 0; } } /* Complete the last slot, which must not have NS_MOREFRAG set. */ ring->slot[head].len = nm_buf_len; ring->slot[head].flags = 0; head = nm_ring_next(ring, head); /* Now update ring->head and ring->cur. */ ring->head = ring->cur = head; txsync: ioctl(be->fd, NIOCTXSYNC, NULL); return (totlen); } static ssize_t netmap_peek_recvlen(struct net_backend *be) { struct netmap_priv *priv = (struct netmap_priv *)be->opaque; struct netmap_ring *ring = priv->rx; uint32_t head = ring->head; ssize_t totlen = 0; while (head != ring->tail) { struct netmap_slot *slot = ring->slot + head; totlen += slot->len; if ((slot->flags & NS_MOREFRAG) == 0) break; head = nm_ring_next(ring, head); } return (totlen); } static ssize_t netmap_recv(struct net_backend *be, const struct iovec *iov, int iovcnt) { struct netmap_priv *priv = (struct netmap_priv *)be->opaque; struct netmap_slot *slot = NULL; struct netmap_ring *ring; void *iov_frag_buf; int iov_frag_size; ssize_t totlen = 0; uint32_t head; assert(iovcnt); ring = priv->rx; head = ring->head; iov_frag_buf = iov->iov_base; iov_frag_size = iov->iov_len; do { int nm_buf_len; void *nm_buf; if (head == ring->tail) { return (0); } slot = ring->slot + head; nm_buf = NETMAP_BUF(ring, slot->buf_idx); nm_buf_len = slot->len; for (;;) { int copylen = nm_buf_len < iov_frag_size ? nm_buf_len : iov_frag_size; memcpy(iov_frag_buf, nm_buf, copylen); nm_buf += copylen; nm_buf_len -= copylen; iov_frag_buf += copylen; iov_frag_size -= copylen; totlen += copylen; if (nm_buf_len == 0) { break; } iov++; iovcnt--; if (iovcnt == 0) { /* No space to receive. */ WPRINTF(("Short iov, drop %zd bytes", totlen)); return (-ENOSPC); } iov_frag_buf = iov->iov_base; iov_frag_size = iov->iov_len; } head = nm_ring_next(ring, head); } while (slot->flags & NS_MOREFRAG); /* Release slots to netmap. */ ring->head = ring->cur = head; return (totlen); } static void netmap_recv_enable(struct net_backend *be) { struct netmap_priv *priv = (struct netmap_priv *)be->opaque; mevent_enable(priv->mevp); } static void netmap_recv_disable(struct net_backend *be) { struct netmap_priv *priv = (struct netmap_priv *)be->opaque; mevent_disable(priv->mevp); } static struct net_backend netmap_backend = { .prefix = "netmap", .priv_size = sizeof(struct netmap_priv), .init = netmap_init, .cleanup = netmap_cleanup, .send = netmap_send, .peek_recvlen = netmap_peek_recvlen, .recv = netmap_recv, .recv_enable = netmap_recv_enable, .recv_disable = netmap_recv_disable, .get_cap = netmap_get_cap, .set_cap = netmap_set_cap, }; /* A clone of the netmap backend, with a different prefix. */ static struct net_backend vale_backend = { .prefix = "vale", .priv_size = sizeof(struct netmap_priv), .init = netmap_init, .cleanup = netmap_cleanup, .send = netmap_send, .peek_recvlen = netmap_peek_recvlen, .recv = netmap_recv, .recv_enable = netmap_recv_enable, .recv_disable = netmap_recv_disable, .get_cap = netmap_get_cap, .set_cap = netmap_set_cap, }; DATA_SET(net_backend_set, netmap_backend); DATA_SET(net_backend_set, vale_backend); int netbe_legacy_config(nvlist_t *nvl, const char *opts) { char *backend, *cp; if (opts == NULL) return (0); cp = strchr(opts, ','); if (cp == NULL) { set_config_value_node(nvl, "backend", opts); return (0); } backend = strndup(opts, cp - opts); set_config_value_node(nvl, "backend", backend); free(backend); return (pci_parse_legacy_config(nvl, cp + 1)); } /* * Initialize a backend and attach to the frontend. * This is called during frontend initialization. * @ret is a pointer to the backend to be initialized * @devname is the backend-name as supplied on the command line, * e.g. -s 2:0,frontend-name,backend-name[,other-args] * @cb is the receive callback supplied by the frontend, * and it is invoked in the event loop when a receive * event is generated in the hypervisor, * @param is a pointer to the frontend, and normally used as * the argument for the callback. */ int netbe_init(struct net_backend **ret, nvlist_t *nvl, net_be_rxeof_t cb, void *param) { struct net_backend **pbe, *nbe, *tbe = NULL; - const char *value; + const char *value, *type; char *devname; int err; value = get_config_value_node(nvl, "backend"); if (value == NULL) { return (-1); } devname = strdup(value); + /* + * Use the type given by configuration if exists; otherwise + * use the prefix of the backend as the type. + */ + type = get_config_value_node(nvl, "type"); + if (type == NULL) + type = devname; + /* * Find the network backend that matches the user-provided * device name. net_backend_set is built using a linker set. */ SET_FOREACH(pbe, net_backend_set) { - if (strncmp(devname, (*pbe)->prefix, + if (strncmp(type, (*pbe)->prefix, strlen((*pbe)->prefix)) == 0) { tbe = *pbe; assert(tbe->init != NULL); assert(tbe->cleanup != NULL); assert(tbe->send != NULL); assert(tbe->recv != NULL); assert(tbe->get_cap != NULL); assert(tbe->set_cap != NULL); break; } } *ret = NULL; if (tbe == NULL) { free(devname); return (EINVAL); } nbe = calloc(1, sizeof(*nbe) + tbe->priv_size); *nbe = *tbe; /* copy the template */ nbe->fd = -1; nbe->sc = param; nbe->be_vnet_hdr_len = 0; nbe->fe_vnet_hdr_len = 0; /* Initialize the backend. */ err = nbe->init(nbe, devname, nvl, cb, param); if (err) { free(devname); free(nbe); return (err); } *ret = nbe; free(devname); return (0); } void netbe_cleanup(struct net_backend *be) { if (be != NULL) { be->cleanup(be); free(be); } } uint64_t netbe_get_cap(struct net_backend *be) { assert(be != NULL); return (be->get_cap(be)); } int netbe_set_cap(struct net_backend *be, uint64_t features, unsigned vnet_hdr_len) { int ret; assert(be != NULL); /* There are only three valid lengths, i.e., 0, 10 and 12. */ if (vnet_hdr_len && vnet_hdr_len != VNET_HDR_LEN && vnet_hdr_len != (VNET_HDR_LEN - sizeof(uint16_t))) return (-1); be->fe_vnet_hdr_len = vnet_hdr_len; ret = be->set_cap(be, features, vnet_hdr_len); assert(be->be_vnet_hdr_len == 0 || be->be_vnet_hdr_len == be->fe_vnet_hdr_len); return (ret); } ssize_t netbe_send(struct net_backend *be, const struct iovec *iov, int iovcnt) { return (be->send(be, iov, iovcnt)); } ssize_t netbe_peek_recvlen(struct net_backend *be) { return (be->peek_recvlen(be)); } /* * Try to read a packet from the backend, without blocking. * If no packets are available, return 0. In case of success, return * the length of the packet just read. Return -1 in case of errors. */ ssize_t netbe_recv(struct net_backend *be, const struct iovec *iov, int iovcnt) { return (be->recv(be, iov, iovcnt)); } /* * Read a packet from the backend and discard it. * Returns the size of the discarded packet or zero if no packet was available. * A negative error code is returned in case of read error. */ ssize_t netbe_rx_discard(struct net_backend *be) { /* * MP note: the dummybuf is only used to discard frames, * so there is no need for it to be per-vtnet or locked. * We only make it large enough for TSO-sized segment. */ static uint8_t dummybuf[65536 + 64]; struct iovec iov; iov.iov_base = dummybuf; iov.iov_len = sizeof(dummybuf); return netbe_recv(be, &iov, 1); } void netbe_rx_disable(struct net_backend *be) { return be->recv_disable(be); } void netbe_rx_enable(struct net_backend *be) { return be->recv_enable(be); } size_t netbe_get_vnet_hdr_len(struct net_backend *be) { return (be->be_vnet_hdr_len); }