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xdpbridge_user.c
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xdpbridge_user.c
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/* Copyright(c) 2017 - 2018 Intel Corporation. */
#include <assert.h>
#include <errno.h>
#include "xdpbridge_user.h"
#include <stdbool.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <net/ethernet.h>
#include <sys/socket.h>
#include <sys/mman.h>
#include <sys/sysinfo.h>
#include <time.h>
#include <unistd.h>
#include <locale.h>
#include <poll.h>
#include <bpf/libbpf.h>
#include <bpf/bpf.h>
#include <linux/ip.h>
#include <linux/udp.h>
#include "xdpbridge.h"
#ifndef SOL_XDP
#define SOL_XDP 283
#endif
#ifndef AF_XDP
#define AF_XDP 44
#endif
#ifndef PF_XDP
#define PF_XDP AF_XDP
#endif
#define NUM_FRAMES 131072
#define FRAME_HEADROOM 0
#define FRAME_SHIFT 11
#define FRAME_SIZE 2048
#define NUM_DESCS 1024
#define FQ_NUM_DESCS 1024
#define CQ_NUM_DESCS 1024
#if NO_ABORT_ON_LASSERT
#define LASSERT_ACTION return 0;
#else
#define LASSERT_ACTION abort();
#endif
#define lassert(expr) \
do { \
if (!(expr)) { \
fprintf(stderr, "%s:%s:%i: Assertion failed: " \
#expr ": errno: %d/\"%s\"\n", \
__FILE__, __func__, __LINE__, \
errno, strerror(errno)); \
LASSERT_ACTION; \
} \
} while (0)
#define barrier() __asm__ __volatile__("": : :"memory")
#ifdef __aarch64__
#define u_smp_rmb() __asm__ __volatile__("dmb ishld": : :"memory")
#define u_smp_wmb() __asm__ __volatile__("dmb ishst": : :"memory")
#else
#define u_smp_rmb() barrier()
#define u_smp_wmb() barrier()
#endif
#define likely(x) __builtin_expect(!!(x), 1)
#define unlikely(x) __builtin_expect(!!(x), 0)
static inline u32 umem_nb_free(struct xdp_umem_uqueue *q, u32 nb)
{
u32 free_entries = q->cached_cons - q->cached_prod;
if (free_entries >= nb)
return free_entries;
/* Refresh the local tail pointer */
q->cached_cons = *q->consumer + q->size;
return q->cached_cons - q->cached_prod;
}
static inline u32 xq_nb_free(struct xdp_uqueue *q, u32 ndescs)
{
u32 free_entries = q->cached_cons - q->cached_prod;
if (free_entries >= ndescs)
return free_entries;
/* Refresh the local tail pointer */
q->cached_cons = *q->consumer + q->size;
return q->cached_cons - q->cached_prod;
}
static inline u32 umem_nb_avail(struct xdp_umem_uqueue *q, u32 nb)
{
u32 entries = q->cached_prod - q->cached_cons;
if (entries == 0) {
q->cached_prod = *q->producer;
entries = q->cached_prod - q->cached_cons;
}
return (entries > nb) ? nb : entries;
}
static inline u32 xq_nb_avail(struct xdp_uqueue *q, u32 ndescs)
{
u32 entries = q->cached_prod - q->cached_cons;
if (entries == 0) {
q->cached_prod = *q->producer;
entries = q->cached_prod - q->cached_cons;
}
return (entries > ndescs) ? ndescs : entries;
}
static inline int umem_fill_to_kernel(struct xdp_umem_uqueue *fq, u64 *d,
size_t nb)
{
u32 i;
if (umem_nb_free(fq, nb) < nb)
return -ENOSPC;
for (i = 0; i < nb; i++) {
u32 idx = fq->cached_prod++ & fq->mask;
fq->ring[idx] = d[i];
}
u_smp_wmb();
*fq->producer = fq->cached_prod;
return 0;
}
static inline int umem_fill_to_kernel_ex(struct xdp_umem_uqueue *fq,
struct xdp_desc *d,
size_t nb)
{
u32 i;
if (umem_nb_free(fq, nb) < nb)
return -ENOSPC;
for (i = 0; i < nb; i++) {
u32 idx = fq->cached_prod++ & fq->mask;
fq->ring[idx] = d[i].addr;
}
u_smp_wmb();
*fq->producer = fq->cached_prod;
return 0;
}
static inline size_t umem_complete_from_kernel(struct xdp_umem_uqueue *cq,
u64 *d, size_t nb)
{
u32 idx, i, entries = umem_nb_avail(cq, nb);
u_smp_rmb();
for (i = 0; i < entries; i++) {
idx = cq->cached_cons++ & cq->mask;
d[i] = cq->ring[idx];
}
if (entries > 0) {
u_smp_wmb();
*cq->consumer = cq->cached_cons;
}
return entries;
}
static inline void *xq_get_data(struct xdpsock *xsk, u64 addr)
{
return &xsk->umem->frames[addr];
}
static inline unsigned int xq_enq_copy(struct xdpsock *xsk_in,
struct xdpsock *xsk_out,
unsigned int *idptr,
struct xdp_uqueue *uq, // tx queue
const struct xdp_desc *descs,
int *pass_flags,
unsigned int ndescs)
{
struct xdp_desc *r = uq->ring;
unsigned int i;
if (xq_nb_free(uq, ndescs) < ndescs)
return -ENOSPC;
unsigned int id = *idptr;
for (i = 0; i < ndescs; i++, id++, id %= NUM_FRAMES) {
if (!pass_flags || pass_flags[i]) {
u32 idx = uq->cached_prod++ & uq->mask;
char *pkt = xq_get_data(xsk_in, descs[i].addr);
r[idx].addr = id << FRAME_SHIFT;
r[idx].len = descs[i].len;
memcpy(&xsk_out->umem->frames[r[idx].addr], pkt, descs[i].len);
}
}
*idptr = id;
u_smp_wmb();
*uq->producer = uq->cached_prod;
return i;
}
static inline int xq_deq(struct xdp_uqueue *uq,
struct xdp_desc *descs,
int ndescs)
{
struct xdp_desc *r = uq->ring;
unsigned int idx;
int i, entries;
entries = xq_nb_avail(uq, ndescs);
u_smp_rmb();
for (i = 0; i < entries; i++) {
idx = uq->cached_cons++ & uq->mask;
descs[i] = r[idx];
}
if (entries > 0) {
u_smp_wmb();
*uq->consumer = uq->cached_cons;
}
return entries;
}
static struct xdp_umem *xdp_umem_configure(int sfd)
{
int fq_size = FQ_NUM_DESCS, cq_size = CQ_NUM_DESCS;
struct xdp_mmap_offsets off;
struct xdp_umem_reg mr;
struct xdp_umem *umem;
socklen_t optlen;
void *bufs;
umem = calloc(1, sizeof(*umem));
lassert(umem);
lassert(posix_memalign(&bufs, getpagesize(), /* PAGE_SIZE aligned */
NUM_FRAMES * FRAME_SIZE) == 0);
mr.addr = (__u64)bufs;
mr.len = NUM_FRAMES * FRAME_SIZE;
mr.chunk_size = FRAME_SIZE;
mr.headroom = FRAME_HEADROOM;
lassert(setsockopt(sfd, SOL_XDP, XDP_UMEM_REG, &mr, sizeof(mr)) == 0);
lassert(setsockopt(sfd, SOL_XDP, XDP_UMEM_FILL_RING, &fq_size,
sizeof(int)) == 0);
lassert(setsockopt(sfd, SOL_XDP, XDP_UMEM_COMPLETION_RING, &cq_size,
sizeof(int)) == 0);
optlen = sizeof(off);
lassert(getsockopt(sfd, SOL_XDP, XDP_MMAP_OFFSETS, &off,
&optlen) == 0);
umem->fq.map = mmap(0, off.fr.desc +
FQ_NUM_DESCS * sizeof(u64),
PROT_READ | PROT_WRITE,
MAP_SHARED | MAP_POPULATE, sfd,
XDP_UMEM_PGOFF_FILL_RING);
lassert(umem->fq.map != MAP_FAILED);
umem->fq.mask = FQ_NUM_DESCS - 1;
umem->fq.size = FQ_NUM_DESCS;
umem->fq.producer = umem->fq.map + off.fr.producer;
umem->fq.consumer = umem->fq.map + off.fr.consumer;
umem->fq.ring = umem->fq.map + off.fr.desc;
umem->fq.cached_cons = FQ_NUM_DESCS;
umem->cq.map = mmap(0, off.cr.desc +
CQ_NUM_DESCS * sizeof(u64),
PROT_READ | PROT_WRITE,
MAP_SHARED | MAP_POPULATE, sfd,
XDP_UMEM_PGOFF_COMPLETION_RING);
lassert(umem->cq.map != MAP_FAILED);
umem->cq.mask = CQ_NUM_DESCS - 1;
umem->cq.size = CQ_NUM_DESCS;
umem->cq.producer = umem->cq.map + off.cr.producer;
umem->cq.consumer = umem->cq.map + off.cr.consumer;
umem->cq.ring = umem->cq.map + off.cr.desc;
umem->frames = bufs;
umem->fd = sfd;
return umem;
}
struct xdpsock *xsk_configure(struct xdp_umem *umem, int queue, int ifindex, u32 xdp_bind_flags)
{
struct sockaddr_xdp sxdp = {};
struct xdp_mmap_offsets off;
int sfd, ndescs = NUM_DESCS;
struct xdpsock *xsk;
bool shared = true;
socklen_t optlen;
u64 i;
fprintf(stderr, "configure for queue %d\n", queue);
sfd = socket(PF_XDP, SOCK_RAW, 0);
lassert(sfd >= 0);
xsk = calloc(1, sizeof(*xsk));
lassert(xsk);
xsk->sfd = sfd;
xsk->outstanding_tx = 0;
if (!umem) {
shared = false;
xsk->umem = xdp_umem_configure(sfd);
lassert(xsk->umem);
} else {
xsk->umem = umem;
}
lassert(setsockopt(sfd, SOL_XDP, XDP_RX_RING,
&ndescs, sizeof(int)) == 0);
lassert(setsockopt(sfd, SOL_XDP, XDP_TX_RING,
&ndescs, sizeof(int)) == 0);
optlen = sizeof(off);
lassert(getsockopt(sfd, SOL_XDP, XDP_MMAP_OFFSETS, &off,
&optlen) == 0);
/* Rx */
xsk->rx.map = mmap(NULL,
off.rx.desc +
NUM_DESCS * sizeof(struct xdp_desc),
PROT_READ | PROT_WRITE,
MAP_SHARED | MAP_POPULATE, sfd,
XDP_PGOFF_RX_RING);
lassert(xsk->rx.map != MAP_FAILED);
if (!shared) {
for (i = 0; i < NUM_DESCS * FRAME_SIZE; i += FRAME_SIZE)
lassert(umem_fill_to_kernel(&xsk->umem->fq, &i, 1)
== 0);
}
/* Tx */
xsk->tx.map = mmap(NULL,
off.tx.desc +
NUM_DESCS * sizeof(struct xdp_desc),
PROT_READ | PROT_WRITE,
MAP_SHARED | MAP_POPULATE, sfd,
XDP_PGOFF_TX_RING);
lassert(xsk->tx.map != MAP_FAILED);
xsk->rx.mask = NUM_DESCS - 1;
xsk->rx.size = NUM_DESCS;
xsk->rx.producer = xsk->rx.map + off.rx.producer;
xsk->rx.consumer = xsk->rx.map + off.rx.consumer;
xsk->rx.ring = xsk->rx.map + off.rx.desc;
xsk->tx.mask = NUM_DESCS - 1;
xsk->tx.size = NUM_DESCS;
xsk->tx.producer = xsk->tx.map + off.tx.producer;
xsk->tx.consumer = xsk->tx.map + off.tx.consumer;
xsk->tx.ring = xsk->tx.map + off.tx.desc;
xsk->tx.cached_cons = NUM_DESCS;
sxdp.sxdp_family = PF_XDP;
sxdp.sxdp_ifindex = ifindex;
sxdp.sxdp_queue_id = queue;
if (shared) {
sxdp.sxdp_flags = XDP_SHARED_UMEM;
sxdp.sxdp_shared_umem_fd = umem->fd;
} else {
sxdp.sxdp_flags = xdp_bind_flags;
}
fprintf(stderr, "Configuring queue %d, in fd %d(%d)\n", queue, ifindex, sfd);
lassert(bind(sfd, (struct sockaddr *)&sxdp, sizeof(sxdp)) == 0);
return xsk;
}
static void kick_tx(int fd)
{
int ret;
// fprintf(stderr, "kick_tx\n");
ret = sendto(fd, NULL, 0, MSG_DONTWAIT, NULL, 0);
if (ret >= 0 || errno == ENOBUFS || errno == EAGAIN || errno == EBUSY)
return;
lassert(0);
}
static inline void complete_tx(struct xdpsock *xsk)
{
u64 descs[BATCH_SIZE];
unsigned int rcvd;
size_t ndescs;
// fprintf(stderr, "complete_tx\n");
if (!xsk->outstanding_tx)
return;
// fprintf(stderr, "outstanding_tx\n");
kick_tx(xsk->sfd);
ndescs = (xsk->outstanding_tx > BATCH_SIZE) ? BATCH_SIZE :
xsk->outstanding_tx;
// re-add completed Tx buffers
rcvd = umem_complete_from_kernel(&xsk->umem->cq, descs, ndescs);
if (rcvd > 0) {
// umem_fill_to_kernel(&xsk->umem->fq, descs, rcvd);
xsk->outstanding_tx -= rcvd;
// fprintf(stderr, "xsk->outstanding_tx %d\n", xsk->outstanding_tx);
}
}
int XDPGet(struct sock_port *sp, struct xdp_desc *descs)
{
return xq_deq(&sp->xdps_in->rx, descs, BATCH_SIZE);
}
void XDPMelt(struct sock_port *sp, struct xdp_desc *descs, int rcvd)
{
umem_fill_to_kernel_ex(&sp->xdps_in->umem->fq, descs, rcvd);
}
int XDPPut(struct sock_port *sp, struct xdp_desc *descs, int *pass_flags, unsigned int rcvd, unsigned int *idx)
{
int ret = 0;
do {
ret = xq_enq_copy(sp->xdps_in, sp->xdps_out, idx, &sp->xdps_out->tx, descs, 0, rcvd);
if (rcvd > 0 && ret >= 0) {
XDPMelt(sp, descs, rcvd);
sp->xdps_out->outstanding_tx += ret;
}
// Complete the TX
complete_tx(sp->xdps_out);
} while (ret == -ENOSPC);
return 0;
}