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virtio-blk.c
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virtio-blk.c
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#include <assert.h>
#include <errno.h>
#include <fcntl.h>
#include <stdbool.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <sys/mman.h>
#include <sys/stat.h>
#include <unistd.h>
#include "common.h"
#include "device.h"
#include "riscv.h"
#include "riscv_private.h"
#include "virtio.h"
#define DISK_BLK_SIZE 512
#define VBLK_DEV_CNT_MAX 1
#define VBLK_FEATURES_0 0
#define VBLK_FEATURES_1 1 /* VIRTIO_F_VERSION_1 */
#define VBLK_QUEUE_NUM_MAX 1024
#define VBLK_QUEUE (vblk->queues[vblk->QueueSel])
#define PRIV(x) ((struct virtio_blk_config *) x->priv)
PACKED(struct virtio_blk_config {
uint64_t capacity;
uint32_t size_max;
uint32_t seg_max;
struct virtio_blk_geometry {
uint16_t cylinders;
uint8_t heads;
uint8_t sectors;
} geometry;
uint32_t blk_size;
struct virtio_blk_topology {
uint8_t physical_block_exp;
uint8_t alignment_offset;
uint16_t min_io_size;
uint32_t opt_io_size;
} topology;
uint8_t writeback;
uint8_t unused0[3];
uint32_t max_discard_sectors;
uint32_t max_discard_seg;
uint32_t discard_sector_alignment;
uint32_t max_write_zeroes_sectors;
uint32_t max_write_zeroes_seg;
uint8_t write_zeroes_may_unmap;
uint8_t unused1[3];
});
PACKED(struct vblk_req_header {
uint32_t type;
uint32_t reserved;
uint64_t sector;
uint8_t status;
});
static struct virtio_blk_config vblk_configs[VBLK_DEV_CNT_MAX];
static int vblk_dev_cnt = 0;
static void virtio_blk_set_fail(virtio_blk_state_t *vblk)
{
vblk->Status |= VIRTIO_STATUS__DEVICE_NEEDS_RESET;
if (vblk->Status & VIRTIO_STATUS__DRIVER_OK)
vblk->InterruptStatus |= VIRTIO_INT__CONF_CHANGE;
}
static inline uint32_t vblk_preprocess(virtio_blk_state_t *vblk, uint32_t addr)
{
if ((addr >= RAM_SIZE) || (addr & 0b11))
return virtio_blk_set_fail(vblk), 0;
return addr >> 2;
}
static void virtio_blk_update_status(virtio_blk_state_t *vblk, uint32_t status)
{
vblk->Status |= status;
if (status)
return;
/* Reset */
uint32_t *ram = vblk->ram;
uint32_t *disk = vblk->disk;
void *priv = vblk->priv;
uint32_t capacity = PRIV(vblk)->capacity;
memset(vblk, 0, sizeof(*vblk));
vblk->ram = ram;
vblk->disk = disk;
vblk->priv = priv;
PRIV(vblk)->capacity = capacity;
}
static void virtio_blk_write_handler(virtio_blk_state_t *vblk,
uint64_t sector,
uint32_t desc_addr,
uint32_t len)
{
void *dest = (void *) ((uintptr_t) vblk->disk + sector * DISK_BLK_SIZE);
const void *src = (void *) ((uintptr_t) vblk->ram + desc_addr);
memcpy(dest, src, len);
}
static void virtio_blk_read_handler(virtio_blk_state_t *vblk,
uint64_t sector,
uint32_t desc_addr,
uint32_t len)
{
void *dest = (void *) ((uintptr_t) vblk->ram + desc_addr);
const void *src =
(void *) ((uintptr_t) vblk->disk + sector * DISK_BLK_SIZE);
memcpy(dest, src, len);
}
static int virtio_blk_desc_handler(virtio_blk_state_t *vblk,
const virtio_blk_queue_t *queue,
uint32_t desc_idx,
uint32_t *plen)
{
/* A full virtio_blk_req is represented by 3 descriptors, where
* the first descriptor contains:
* le32 type
* le32 reserved
* le64 sector
* the second descriptor contains:
* u8 data[][512]
* the third descriptor contains:
* u8 status
*/
struct virtq_desc vq_desc[3];
/* Collect the descriptors */
for (int i = 0; i < 3; i++) {
/* The size of the `struct virtq_desc` is 4 words */
const uint32_t *desc = &vblk->ram[queue->QueueDesc + desc_idx * 4];
/* Retrieve the fields of current descriptor */
vq_desc[i].addr = desc[0];
vq_desc[i].len = desc[2];
vq_desc[i].flags = desc[3];
desc_idx = desc[3] >> 16; /* vq_desc[desc_cnt].next */
}
/* The next flag for the first and second descriptors should be set,
* whereas for the third descriptor is should not be set
*/
if (!(vq_desc[0].flags & VIRTIO_DESC_F_NEXT) ||
!(vq_desc[1].flags & VIRTIO_DESC_F_NEXT) ||
(vq_desc[2].flags & VIRTIO_DESC_F_NEXT)) {
/* since the descriptor list is abnormal, we don't write the status
* back here */
virtio_blk_set_fail(vblk);
return -1;
}
/* Process the header */
const struct vblk_req_header *header =
(struct vblk_req_header *) ((uintptr_t) vblk->ram + vq_desc[0].addr);
uint32_t type = header->type;
uint64_t sector = header->sector;
uint8_t *status = (uint8_t *) ((uintptr_t) vblk->ram + vq_desc[2].addr);
/* Check sector index is valid */
if (sector > (PRIV(vblk)->capacity - 1)) {
*status = VIRTIO_BLK_S_IOERR;
return -1;
}
/* Process the data */
switch (type) {
case VIRTIO_BLK_T_IN:
virtio_blk_read_handler(vblk, sector, vq_desc[1].addr, vq_desc[1].len);
break;
case VIRTIO_BLK_T_OUT:
virtio_blk_write_handler(vblk, sector, vq_desc[1].addr, vq_desc[1].len);
break;
default:
fprintf(stderr, "unsupported virtio-blk operation!\n");
*status = VIRTIO_BLK_S_UNSUPP;
return -1;
}
/* Return the device status */
*status = VIRTIO_BLK_S_OK;
*plen = vq_desc[1].len;
return 0;
}
static void virtio_queue_notify_handler(virtio_blk_state_t *vblk, int index)
{
uint32_t *ram = vblk->ram;
virtio_blk_queue_t *queue = &vblk->queues[index];
if (vblk->Status & VIRTIO_STATUS__DEVICE_NEEDS_RESET)
return;
if (!((vblk->Status & VIRTIO_STATUS__DRIVER_OK) && queue->ready))
return virtio_blk_set_fail(vblk);
/* Check for new buffers */
uint16_t new_avail = ram[queue->QueueAvail] >> 16;
if (new_avail - queue->last_avail > (uint16_t) queue->QueueNum)
return (fprintf(stderr, "size check fail\n"),
virtio_blk_set_fail(vblk));
if (queue->last_avail == new_avail)
return;
/* Process them */
uint16_t new_used = ram[queue->QueueUsed] >> 16; /* virtq_used.idx (le16) */
while (queue->last_avail != new_avail) {
/* Obtain the index in the ring buffer */
uint16_t queue_idx = queue->last_avail % queue->QueueNum;
/* Since each buffer index occupies 2 bytes but the memory is aligned
* with 4 bytes, and the first element of the available queue is stored
* at ram[queue->QueueAvail + 1], to acquire the buffer index, it
* requires the following array index calculation and bit shifting.
* Check also the `struct virtq_avail` on the spec.
*/
uint16_t buffer_idx = ram[queue->QueueAvail + 1 + queue_idx / 2] >>
(16 * (queue_idx % 2));
/* Consume request from the available queue and process the data in the
* descriptor list.
*/
uint32_t len = 0;
int result = virtio_blk_desc_handler(vblk, queue, buffer_idx, &len);
if (result != 0)
return virtio_blk_set_fail(vblk);
/* Write used element information (`struct virtq_used_elem`) to the used
* queue */
uint32_t vq_used_addr =
queue->QueueUsed + 1 + (new_used % queue->QueueNum) * 2;
ram[vq_used_addr] = buffer_idx; /* virtq_used_elem.id (le32) */
ram[vq_used_addr + 1] = len; /* virtq_used_elem.len (le32) */
queue->last_avail++;
new_used++;
}
/* Check le32 len field of `struct virtq_used_elem` on the spec */
vblk->ram[queue->QueueUsed] &= MASK(16); /* Reset low 16 bits to zero */
vblk->ram[queue->QueueUsed] |= ((uint32_t) new_used) << 16; /* len */
/* Send interrupt, unless VIRTQ_AVAIL_F_NO_INTERRUPT is set */
if (!(ram[queue->QueueAvail] & 1))
vblk->InterruptStatus |= VIRTIO_INT__USED_RING;
}
static bool virtio_blk_reg_read(virtio_blk_state_t *vblk,
uint32_t addr,
uint32_t *value)
{
#define _(reg) VIRTIO_##reg
switch (addr) {
case _(MagicValue):
*value = 0x74726976;
return true;
case _(Version):
*value = 2;
return true;
case _(DeviceID):
*value = 2;
return true;
case _(VendorID):
*value = VIRTIO_VENDOR_ID;
return true;
case _(DeviceFeatures):
*value = vblk->DeviceFeaturesSel == 0
? VBLK_FEATURES_0
: (vblk->DeviceFeaturesSel == 1 ? VBLK_FEATURES_1 : 0);
return true;
case _(QueueNumMax):
*value = VBLK_QUEUE_NUM_MAX;
return true;
case _(QueueReady):
*value = VBLK_QUEUE.ready ? 1 : 0;
return true;
case _(InterruptStatus):
*value = vblk->InterruptStatus;
return true;
case _(Status):
*value = vblk->Status;
return true;
case _(ConfigGeneration):
*value = 0;
return true;
default:
/* Invalid address which exceeded the range */
if (!RANGE_CHECK(addr, _(Config), sizeof(struct virtio_blk_config)))
return false;
/* Read configuration from the corresponding register */
*value = ((uint32_t *) PRIV(vblk))[addr - _(Config)];
return true;
}
#undef _
}
static bool virtio_blk_reg_write(virtio_blk_state_t *vblk,
uint32_t addr,
uint32_t value)
{
#define _(reg) VIRTIO_##reg
switch (addr) {
case _(DeviceFeaturesSel):
vblk->DeviceFeaturesSel = value;
return true;
case _(DriverFeatures):
vblk->DriverFeaturesSel == 0 ? (vblk->DriverFeatures = value) : 0;
return true;
case _(DriverFeaturesSel):
vblk->DriverFeaturesSel = value;
return true;
case _(QueueSel):
if (value < ARRAY_SIZE(vblk->queues))
vblk->QueueSel = value;
else
virtio_blk_set_fail(vblk);
return true;
case _(QueueNum):
if (value > 0 && value <= VBLK_QUEUE_NUM_MAX)
VBLK_QUEUE.QueueNum = value;
else
virtio_blk_set_fail(vblk);
return true;
case _(QueueReady):
VBLK_QUEUE.ready = value & 1;
if (value & 1)
VBLK_QUEUE.last_avail = vblk->ram[VBLK_QUEUE.QueueAvail] >> 16;
return true;
case _(QueueDescLow):
VBLK_QUEUE.QueueDesc = vblk_preprocess(vblk, value);
return true;
case _(QueueDescHigh):
if (value)
virtio_blk_set_fail(vblk);
return true;
case _(QueueDriverLow):
VBLK_QUEUE.QueueAvail = vblk_preprocess(vblk, value);
return true;
case _(QueueDriverHigh):
if (value)
virtio_blk_set_fail(vblk);
return true;
case _(QueueDeviceLow):
VBLK_QUEUE.QueueUsed = vblk_preprocess(vblk, value);
return true;
case _(QueueDeviceHigh):
if (value)
virtio_blk_set_fail(vblk);
return true;
case _(QueueNotify):
if (value < ARRAY_SIZE(vblk->queues))
virtio_queue_notify_handler(vblk, value);
else
virtio_blk_set_fail(vblk);
return true;
case _(InterruptACK):
vblk->InterruptStatus &= ~value;
return true;
case _(Status):
virtio_blk_update_status(vblk, value);
return true;
default:
/* Invalid address which exceeded the range */
if (!RANGE_CHECK(addr, _(Config), sizeof(struct virtio_blk_config)))
return false;
/* Write configuration to the corresponding register */
((uint32_t *) PRIV(vblk))[addr - _(Config)] = value;
return true;
}
#undef _
}
void virtio_blk_read(hart_t *vm,
virtio_blk_state_t *vblk,
uint32_t addr,
uint8_t width,
uint32_t *value)
{
switch (width) {
case RV_MEM_LW:
if (!virtio_blk_reg_read(vblk, addr >> 2, value))
vm_set_exception(vm, RV_EXC_LOAD_FAULT, vm->exc_val);
break;
case RV_MEM_LBU:
case RV_MEM_LB:
case RV_MEM_LHU:
case RV_MEM_LH:
vm_set_exception(vm, RV_EXC_LOAD_MISALIGN, vm->exc_val);
return;
default:
vm_set_exception(vm, RV_EXC_ILLEGAL_INSN, 0);
return;
}
}
void virtio_blk_write(hart_t *vm,
virtio_blk_state_t *vblk,
uint32_t addr,
uint8_t width,
uint32_t value)
{
switch (width) {
case RV_MEM_SW:
if (!virtio_blk_reg_write(vblk, addr >> 2, value))
vm_set_exception(vm, RV_EXC_STORE_FAULT, vm->exc_val);
break;
case RV_MEM_SB:
case RV_MEM_SH:
vm_set_exception(vm, RV_EXC_STORE_MISALIGN, vm->exc_val);
return;
default:
vm_set_exception(vm, RV_EXC_ILLEGAL_INSN, 0);
return;
}
}
uint32_t *virtio_blk_init(virtio_blk_state_t *vblk, char *disk_file)
{
if (vblk_dev_cnt >= VBLK_DEV_CNT_MAX) {
fprintf(stderr,
"Exceeded the number of virtio-blk devices that can be "
"allocated.\n");
exit(2);
}
/* Allocate memory for the private member */
vblk->priv = &vblk_configs[vblk_dev_cnt++];
/* No disk image is provided */
if (!disk_file) {
/* By setting the block capacity to zero, the kernel will
* then not to touch the device after booting */
PRIV(vblk)->capacity = 0;
return NULL;
}
/* Open disk file */
int disk_fd = open(disk_file, O_RDWR);
if (disk_fd < 0) {
fprintf(stderr, "could not open %s\n", disk_file);
exit(2);
}
/* Get the disk image size */
struct stat st;
fstat(disk_fd, &st);
size_t disk_size = st.st_size;
/* Set up the disk memory */
uint32_t *disk_mem =
mmap(NULL, disk_size, PROT_READ | PROT_WRITE, MAP_SHARED, disk_fd, 0);
if (disk_mem == MAP_FAILED) {
fprintf(stderr, "Could not map disk\n");
return NULL;
}
assert(!(((uintptr_t) disk_mem) & 0b11));
close(disk_fd);
vblk->disk = disk_mem;
PRIV(vblk)->capacity = (disk_size - 1) / DISK_BLK_SIZE + 1;
return disk_mem;
}