acrn-hypervisor/devicemodel/hw/pci/virtio/virtio_hyper_dmabuf.c

362 lines
9.2 KiB
C

/*
* Copyright (C) 2018 Intel Corporation. All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*
*/
/*
* virtio hyper dmabuf
* Allows to share data buffers between VMs using dmabuf like interface
*/
#include <fcntl.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
#include <assert.h>
#include <pthread.h>
#include "dm.h"
#include "pci_core.h"
#include "virtio.h"
#include "virtio_kernel.h"
#include "vmmapi.h"
/*
* Size of queue was chosen experimentaly in a way
* that it allows to run ~20 shared surfaces without
* any delays on hyper dmabuf dirver side due to lack
* of free buffers in queue
*/
#define HYPER_DMABUF_RINGSZ 128
/* Hyper dmabuf uses two queues one for Rx and one for Tx */
#define HYPER_DMABUF_VQ_NUM 2
const char *hyper_dmabuf_vbs_dev_path = "/dev/vbs_hyper_dmabuf";
static int virtio_hyper_dmabuf_debug;
#define DPRINTF(...)\
do {\
if (virtio_hyper_dmabuf_debug)\
printf(__VA_ARGS__);\
} while (0)
#define WPRINTF(...) printf(__VA_ARGS__)
static enum VBS_K_STATUS kstatus = VIRTIO_DEV_INITIAL;
static int vbs_k_hyper_dmabuf_fd = -1;
static struct vbs_dev_info kdev;
static struct vbs_vqs_info kvqs;
struct virtio_hyper_dmabuf {
struct virtio_base base;
struct virtio_vq_info vq[HYPER_DMABUF_VQ_NUM];
pthread_mutex_t mtx;
};
static int virtio_hyper_dmabuf_k_init(void);
static int virtio_hyper_dmabuf_k_start(void);
static int virtio_hyper_dmabuf_k_stop(void);
static int virtio_hyper_dmabuf_k_reset(void);
static int virtio_hyper_dmabuf_k_dev_set(const char *name, int vmid,
int nvq, uint32_t feature,
uint64_t pio_start, uint64_t pio_len);
static int virtio_hyper_dmabuf_k_vq_set(unsigned int nvq, unsigned int idx,
uint16_t qsize,
uint32_t pfn, uint16_t msix_idx,
uint64_t msix_addr, uint32_t msix_data);
static void virtio_hyper_dmabuf_no_notify(void *, struct virtio_vq_info *);
static void virtio_hyper_dmabuf_set_status(void *, uint64_t);
static void virtio_hyper_dmabuf_reset(void *);
static struct virtio_ops virtio_hyper_dmabuf_ops_k = {
"virtio_hyper_dmabuf", /* our name */
HYPER_DMABUF_VQ_NUM, /* we support 2 virtqueue */
0, /* config reg size */
virtio_hyper_dmabuf_reset, /* reset */
virtio_hyper_dmabuf_no_notify, /* device-wide qnotify */
NULL, /* read virtio config */
NULL, /* write virtio config */
NULL, /* apply negotiated features */
virtio_hyper_dmabuf_set_status, /* called on guest set status */
0, /* our capabilities */
};
static int
virtio_hyper_dmabuf_k_init()
{
if (vbs_k_hyper_dmabuf_fd != -1) {
WPRINTF("virtio_hyper_dmabuf: Ooops! Re-entered!!\n");
return -VIRTIO_ERROR_REENTER;
}
vbs_k_hyper_dmabuf_fd = open(hyper_dmabuf_vbs_dev_path, O_RDWR);
if (vbs_k_hyper_dmabuf_fd < 0) {
WPRINTF("virtio_hyper_dmabuf: Failed to open %s!\n",
hyper_dmabuf_vbs_dev_path);
return -VIRTIO_ERROR_FD_OPEN_FAILED;
}
DPRINTF("virtio_hyper_dmabuf: Open %s success!\n",
hyper_dmabuf_vbs_dev_path);
memset(&kdev, 0, sizeof(kdev));
memset(&kvqs, 0, sizeof(kvqs));
return VIRTIO_SUCCESS;
}
static int
virtio_hyper_dmabuf_k_dev_set(const char *name, int vmid, int nvq,
uint32_t feature, uint64_t pio_start,
uint64_t pio_len)
{
/* init kdev */
strncpy(kdev.name, name, VBS_NAME_LEN);
kdev.vmid = vmid;
kdev.nvq = nvq;
kdev.negotiated_features = feature;
kdev.pio_range_start = pio_start;
kdev.pio_range_len = pio_len;
return VIRTIO_SUCCESS;
}
static int
virtio_hyper_dmabuf_k_vq_set(unsigned int nvq, unsigned int idx,
uint16_t qsize, uint32_t pfn,
uint16_t msix_idx, uint64_t msix_addr,
uint32_t msix_data)
{
if (nvq <= idx) {
WPRINTF("virtio_hyper_dmabuf: wrong idx for vq_set!\n");
return -VIRTIO_ERROR_GENERAL;
}
/* init kvqs */
kvqs.nvq = nvq;
kvqs.vqs[idx].qsize = qsize;
kvqs.vqs[idx].pfn = pfn;
kvqs.vqs[idx].msix_idx = msix_idx;
kvqs.vqs[idx].msix_addr = msix_addr;
kvqs.vqs[idx].msix_data = msix_data;
return VIRTIO_SUCCESS;
}
static int
virtio_hyper_dmabuf_k_start(void)
{
if (vbs_kernel_start(vbs_k_hyper_dmabuf_fd, &kdev, &kvqs) < 0) {
WPRINTF("virtio_hyper_dmabuf: Failed in vbs_kernel_start!\n");
return -VIRTIO_ERROR_START;
}
DPRINTF("virtio_hyper_dmabuf: vbs_kernel_started!\n");
return VIRTIO_SUCCESS;
}
static int
virtio_hyper_dmabuf_k_stop(void)
{
return vbs_kernel_stop(vbs_k_hyper_dmabuf_fd);
}
static int
virtio_hyper_dmabuf_k_reset(void)
{
memset(&kdev, 0, sizeof(kdev));
memset(&kvqs, 0, sizeof(kvqs));
return vbs_kernel_reset(vbs_k_hyper_dmabuf_fd);
}
static void
virtio_hyper_dmabuf_reset(void *base)
{
struct virtio_hyper_dmabuf *hyper_dmabuf;
hyper_dmabuf = (struct virtio_hyper_dmabuf *)base;
DPRINTF("virtio_hyper_dmabuf: device reset requested !\n");
virtio_reset_dev(&hyper_dmabuf->base);
if (kstatus == VIRTIO_DEV_STARTED) {
virtio_hyper_dmabuf_k_stop();
virtio_hyper_dmabuf_k_reset();
kstatus = VIRTIO_DEV_INITIAL;
}
}
static void
virtio_hyper_dmabuf_no_notify(void *base, struct virtio_vq_info *vq)
{
}
/*
* This callback gives us a chance to determine the timings
* to kickoff VBS-K initialization
*/
static void
virtio_hyper_dmabuf_set_status(void *base, uint64_t status)
{
struct virtio_hyper_dmabuf *hyper_dmabuf;
int nvq;
struct msix_table_entry *mte;
uint64_t msix_addr = 0;
uint32_t msix_data = 0;
int rc, i, j;
hyper_dmabuf = (struct virtio_hyper_dmabuf *) base;
nvq = hyper_dmabuf->base.vops->nvq;
if (kstatus == VIRTIO_DEV_INIT_SUCCESS &&
(status & VIRTIO_CR_STATUS_DRIVER_OK)) {
/* time to kickoff VBS-K side */
/* init vdev first */
rc = virtio_hyper_dmabuf_k_dev_set(
hyper_dmabuf->base.vops->name,
hyper_dmabuf->base.dev->vmctx->vmid,
nvq,
hyper_dmabuf->base.negotiated_caps,
/* currently we let VBS-K handle
* kick register
*/
hyper_dmabuf->base.dev->bar[0].addr + 16,
2);
for (i = 0; i < nvq; i++) {
if (hyper_dmabuf->vq[i].msix_idx !=
VIRTIO_MSI_NO_VECTOR) {
j = hyper_dmabuf->vq[i].msix_idx;
mte = &hyper_dmabuf->base.dev->msix.table[j];
msix_addr = mte->addr;
msix_data = mte->msg_data;
}
rc = virtio_hyper_dmabuf_k_vq_set(
nvq, i,
hyper_dmabuf->vq[i].qsize,
hyper_dmabuf->vq[i].pfn,
hyper_dmabuf->vq[i].msix_idx,
msix_addr,
msix_data);
if (rc < 0) {
WPRINTF("virtio_hyper_dmabuf:");
WPRINTF("kernel_set_vq");
WPRINTF("failed, i %d ret %d\n", i, rc);
return;
}
}
rc = virtio_hyper_dmabuf_k_start();
if (rc < 0) {
WPRINTF("virtio_hyper_dmabuf:");
WPRINTF("kernel_start() failed\n");
kstatus = VIRTIO_DEV_START_FAILED;
} else {
kstatus = VIRTIO_DEV_STARTED;
}
}
}
static int
virtio_hyper_dmabuf_init(struct vmctx *ctx, struct pci_vdev *dev, char *opts)
{
struct virtio_hyper_dmabuf *hyper_dmabuf;
kstatus = VIRTIO_DEV_PRE_INIT;
pthread_mutexattr_t attr;
int rc;
hyper_dmabuf = calloc(1, sizeof(struct virtio_hyper_dmabuf));
if (!hyper_dmabuf) {
WPRINTF(("virtio_hdma: calloc returns NULL\n"));
return -1;
}
/* init mutex attribute properly */
rc = pthread_mutexattr_init(&attr);
if (rc)
DPRINTF("mutexattr init failed with erro %d!\n", rc);
if (virtio_uses_msix()) {
rc = pthread_mutexattr_settype(&attr, PTHREAD_MUTEX_DEFAULT);
DPRINTF("virtio_msix: mutexattr_settype ");
DPRINTF("failed with error %d!\n", rc);
} else {
rc = pthread_mutexattr_settype(&attr, PTHREAD_MUTEX_RECURSIVE);
DPRINTF("virtio_intx: mutexattr_settype ");
DPRINTF("failed with error %d!\n", rc);
}
rc = pthread_mutex_init(&hyper_dmabuf->mtx, &attr);
if (rc)
DPRINTF("mutex init failed with error %d!\n", rc);
virtio_linkup(&hyper_dmabuf->base,
&virtio_hyper_dmabuf_ops_k,
hyper_dmabuf,
dev,
hyper_dmabuf->vq);
rc = virtio_hyper_dmabuf_k_init();
if (rc < 0) {
WPRINTF("virtio_hyper_dmabuf: VBS-K ");
WPRINTF("init failed with error %d!\n", rc);
kstatus = VIRTIO_DEV_INIT_FAILED;
} else {
kstatus = VIRTIO_DEV_INIT_SUCCESS;
}
hyper_dmabuf->base.mtx = &hyper_dmabuf->mtx;
hyper_dmabuf->vq[0].qsize = HYPER_DMABUF_RINGSZ;
hyper_dmabuf->vq[1].qsize = HYPER_DMABUF_RINGSZ;
/* initialize config space */
pci_set_cfgdata16(dev, PCIR_DEVICE, VIRTIO_DEV_HYPERDMABUF);
pci_set_cfgdata16(dev, PCIR_VENDOR, INTEL_VENDOR_ID);
pci_set_cfgdata8(dev, PCIR_CLASS, PCIC_MEMORY);
pci_set_cfgdata16(dev, PCIR_SUBDEV_0, VIRTIO_TYPE_HYPERDMABUF);
pci_set_cfgdata16(dev, PCIR_SUBVEND_0, INTEL_VENDOR_ID);
if (virtio_interrupt_init(&hyper_dmabuf->base, virtio_uses_msix())) {
if (hyper_dmabuf)
free(hyper_dmabuf);
return -1;
}
virtio_set_io_bar(&hyper_dmabuf->base, 0);
return 0;
}
static void
virtio_hyper_dmabuf_deinit(struct vmctx *ctx, struct pci_vdev *dev, char *opts)
{
if (kstatus == VIRTIO_DEV_STARTED) {
DPRINTF("virtio_hyper_dmabuf: deinitializing\n");
virtio_hyper_dmabuf_k_stop();
virtio_hyper_dmabuf_k_reset();
kstatus = VIRTIO_DEV_INITIAL;
assert(vbs_k_hyper_dmabuf_fd >= 0);
close(vbs_k_hyper_dmabuf_fd);
vbs_k_hyper_dmabuf_fd = -1;
}
if (dev->arg)
free((struct virtio_hyper_dmabuf *)dev->arg);
}
struct pci_vdev_ops pci_ops_virtio_hyper_dmabuf = {
.class_name = "virtio-hyper_dmabuf",
.vdev_init = virtio_hyper_dmabuf_init,
.vdev_deinit = virtio_hyper_dmabuf_deinit,
.vdev_barwrite = virtio_pci_write,
.vdev_barread = virtio_pci_read
};
DEFINE_PCI_DEVTYPE(pci_ops_virtio_hyper_dmabuf);