Merge branch 'virtio' into riscv
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commit
84fb6f3dc2
1
Makefile
1
Makefile
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@ -157,6 +157,7 @@ CPUS := 3
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endif
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QEMUOPTS = -machine virt -bios none -kernel $K/kernel -m 128M -smp $(CPUS) -nographic
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QEMUOPTS += -global virtio-mmio.force-legacy=false
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QEMUOPTS += -drive file=fs.img,if=none,format=raw,id=x0
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QEMUOPTS += -device virtio-blk-device,drive=x0,bus=virtio-mmio-bus.0
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@ -2,7 +2,6 @@
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// virtio device definitions.
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// for both the mmio interface, and virtio descriptors.
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// only tested with qemu.
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// this is the "legacy" virtio interface.
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//
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// the virtio spec:
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// https://docs.oasis-open.org/virtio/virtio/v1.1/virtio-v1.1.pdf
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@ -16,17 +15,20 @@
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#define VIRTIO_MMIO_VENDOR_ID 0x00c // 0x554d4551
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#define VIRTIO_MMIO_DEVICE_FEATURES 0x010
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#define VIRTIO_MMIO_DRIVER_FEATURES 0x020
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#define VIRTIO_MMIO_GUEST_PAGE_SIZE 0x028 // page size for PFN, write-only
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#define VIRTIO_MMIO_QUEUE_SEL 0x030 // select queue, write-only
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#define VIRTIO_MMIO_QUEUE_NUM_MAX 0x034 // max size of current queue, read-only
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#define VIRTIO_MMIO_QUEUE_NUM 0x038 // size of current queue, write-only
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#define VIRTIO_MMIO_QUEUE_ALIGN 0x03c // used ring alignment, write-only
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#define VIRTIO_MMIO_QUEUE_PFN 0x040 // physical page number for queue, read/write
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#define VIRTIO_MMIO_QUEUE_READY 0x044 // ready bit
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#define VIRTIO_MMIO_QUEUE_NOTIFY 0x050 // write-only
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#define VIRTIO_MMIO_INTERRUPT_STATUS 0x060 // read-only
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#define VIRTIO_MMIO_INTERRUPT_ACK 0x064 // write-only
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#define VIRTIO_MMIO_STATUS 0x070 // read/write
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#define VIRTIO_MMIO_QUEUE_DESC_LOW 0x080 // physical address for descriptor table, write-only
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#define VIRTIO_MMIO_QUEUE_DESC_HIGH 0x084
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#define VIRTIO_MMIO_DRIVER_DESC_LOW 0x090 // physical address for available ring, write-only
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#define VIRTIO_MMIO_DRIVER_DESC_HIGH 0x094
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#define VIRTIO_MMIO_DEVICE_DESC_LOW 0x0a0 // physical address for used ring, write-only
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#define VIRTIO_MMIO_DEVICE_DESC_HIGH 0x0a4
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// status register bits, from qemu virtio_config.h
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#define VIRTIO_CONFIG_S_ACKNOWLEDGE 1
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@ -1,7 +1,6 @@
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//
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// driver for qemu's virtio disk device.
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// uses qemu's mmio interface to virtio.
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// qemu presents a "legacy" virtio interface.
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//
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// qemu ... -drive file=fs.img,if=none,format=raw,id=x0 -device virtio-blk-device,drive=x0,bus=virtio-mmio-bus.0
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//
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@ -21,36 +20,22 @@
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#define R(r) ((volatile uint32 *)(VIRTIO0 + (r)))
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static struct disk {
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// the virtio driver and device mostly communicate through a set of
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// structures in RAM. pages[] allocates that memory. pages[] is a
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// global (instead of calls to kalloc()) because it must consist of
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// two contiguous pages of page-aligned physical memory.
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char pages[2*PGSIZE];
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// pages[] is divided into three regions (descriptors, avail, and
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// used), as explained in Section 2.6 of the virtio specification
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// for the legacy interface.
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// https://docs.oasis-open.org/virtio/virtio/v1.1/virtio-v1.1.pdf
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// the first region of pages[] is a set (not a ring) of DMA
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// descriptors, with which the driver tells the device where to read
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// and write individual disk operations. there are NUM descriptors.
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// the first is a set (not a ring) of DMA descriptors, with which the
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// driver tells the device where to read and write individual
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// disk operations. there are NUM descriptors.
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// most commands consist of a "chain" (a linked list) of a couple of
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// these descriptors.
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// points into pages[].
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struct virtq_desc *desc;
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// next is a ring in which the driver writes descriptor numbers
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// that the driver would like the device to process. it only
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// includes the head descriptor of each chain. the ring has
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// NUM elements.
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// points into pages[].
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struct virtq_avail *avail;
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// finally a ring in which the device writes descriptor numbers that
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// the device has finished processing (just the head of each chain).
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// there are NUM used ring entries.
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// points into pages[].
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struct virtq_used *used;
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// our own book-keeping.
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@ -71,7 +56,7 @@ static struct disk {
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struct spinlock vdisk_lock;
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} __attribute__ ((aligned (PGSIZE))) disk;
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} disk;
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void
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virtio_disk_init(void)
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@ -81,15 +66,20 @@ virtio_disk_init(void)
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initlock(&disk.vdisk_lock, "virtio_disk");
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if(*R(VIRTIO_MMIO_MAGIC_VALUE) != 0x74726976 ||
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*R(VIRTIO_MMIO_VERSION) != 1 ||
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*R(VIRTIO_MMIO_VERSION) != 2 ||
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*R(VIRTIO_MMIO_DEVICE_ID) != 2 ||
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*R(VIRTIO_MMIO_VENDOR_ID) != 0x554d4551){
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panic("could not find virtio disk");
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}
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// reset device
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*R(VIRTIO_MMIO_STATUS) = status;
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// set ACKNOWLEDGE status bit
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status |= VIRTIO_CONFIG_S_ACKNOWLEDGE;
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*R(VIRTIO_MMIO_STATUS) = status;
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// set DRIVER status bit
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status |= VIRTIO_CONFIG_S_DRIVER;
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*R(VIRTIO_MMIO_STATUS) = status;
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@ -108,35 +98,57 @@ virtio_disk_init(void)
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status |= VIRTIO_CONFIG_S_FEATURES_OK;
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*R(VIRTIO_MMIO_STATUS) = status;
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// tell device we're completely ready.
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status |= VIRTIO_CONFIG_S_DRIVER_OK;
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*R(VIRTIO_MMIO_STATUS) = status;
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*R(VIRTIO_MMIO_GUEST_PAGE_SIZE) = PGSIZE;
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// re-read status to ensure FEATURES_OK is set.
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status = *R(VIRTIO_MMIO_STATUS);
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if(!(status & VIRTIO_CONFIG_S_FEATURES_OK))
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panic("virtio disk FEATURES_OK unset");
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// initialize queue 0.
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*R(VIRTIO_MMIO_QUEUE_SEL) = 0;
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// ensure queue 0 is not in use.
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if(*R(VIRTIO_MMIO_QUEUE_READY))
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panic("virtio disk should not be ready");
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// check maximum queue size.
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uint32 max = *R(VIRTIO_MMIO_QUEUE_NUM_MAX);
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if(max == 0)
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panic("virtio disk has no queue 0");
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if(max < NUM)
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panic("virtio disk max queue too short");
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// allocate and zero queue memory.
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disk.desc = kalloc();
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disk.avail = kalloc();
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disk.used = kalloc();
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if(!disk.desc || !disk.avail || !disk.used)
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panic("virtio disk kalloc");
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memset(disk.desc, 0, PGSIZE);
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memset(disk.avail, 0, PGSIZE);
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memset(disk.used, 0, PGSIZE);
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// set queue size.
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*R(VIRTIO_MMIO_QUEUE_NUM) = NUM;
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memset(disk.pages, 0, sizeof(disk.pages));
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*R(VIRTIO_MMIO_QUEUE_PFN) = ((uint64)disk.pages) >> PGSHIFT;
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// desc = pages -- num * virtq_desc
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// avail = pages + 0x40 -- 2 * uint16, then num * uint16
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// used = pages + 4096 -- 2 * uint16, then num * vRingUsedElem
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// write physical addresses.
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*R(VIRTIO_MMIO_QUEUE_DESC_LOW) = (uint64)disk.desc;
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*R(VIRTIO_MMIO_QUEUE_DESC_HIGH) = (uint64)disk.desc >> 32;
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*R(VIRTIO_MMIO_DRIVER_DESC_LOW) = (uint64)disk.avail;
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*R(VIRTIO_MMIO_DRIVER_DESC_HIGH) = (uint64)disk.avail >> 32;
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*R(VIRTIO_MMIO_DEVICE_DESC_LOW) = (uint64)disk.used;
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*R(VIRTIO_MMIO_DEVICE_DESC_HIGH) = (uint64)disk.used >> 32;
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disk.desc = (struct virtq_desc *) disk.pages;
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disk.avail = (struct virtq_avail *)(disk.pages + NUM*sizeof(struct virtq_desc));
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disk.used = (struct virtq_used *) (disk.pages + PGSIZE);
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// queue is ready.
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*R(VIRTIO_MMIO_QUEUE_READY) = 0x1;
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// all NUM descriptors start out unused.
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for(int i = 0; i < NUM; i++)
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disk.free[i] = 1;
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// tell device we're completely ready.
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status |= VIRTIO_CONFIG_S_DRIVER_OK;
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*R(VIRTIO_MMIO_STATUS) = status;
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// plic.c and trap.c arrange for interrupts from VIRTIO0_IRQ.
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}
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