ref: b4c916efce5e1476d9ac7079ca8ffec54fdcbce2
dir: /sys/src/9/pc/sdvirtio10.c/
/* * virtio 1.0 disk driver * http://docs.oasis-open.org/virtio/virtio/v1.0/virtio-v1.0.html * * In contrast to sdvirtio.c, this driver handles the non-legacy * interface for virtio disk which uses mmio for all register accesses * and requires a laborate pci capability structure dance to get working. * * It is kind of pointless as it is most likely slower than * port i/o (harder to emulate on the pc platform). * * The reason why this driver is needed it is that vultr set the * disable-legacy=on option in the -device parameter for qemu * on their hypervisor. */ #include "u.h" #include "../port/lib.h" #include "mem.h" #include "dat.h" #include "fns.h" #include "io.h" #include "../port/pci.h" #include "ureg.h" #include "../port/error.h" #include "../port/sd.h" typedef struct Vscsidev Vscsidev; typedef struct Vblkdev Vblkdev; typedef struct Vconfig Vconfig; typedef struct Vring Vring; typedef struct Vdesc Vdesc; typedef struct Vused Vused; typedef struct Vqueue Vqueue; typedef struct Vdev Vdev; /* device types */ enum { TypBlk = 2, TypSCSI = 8, }; /* status flags */ enum { Acknowledge = 1, Driver = 2, FeaturesOk = 8, DriverOk = 4, Failed = 0x80, }; /* descriptor flags */ enum { Next = 1, Write = 2, Indirect = 4, }; /* struct sizes */ enum { VringSize = 4, }; enum { CDBSIZE = 32, SENSESIZE = 96, }; struct Vscsidev { u32int num_queues; u32int seg_max; u32int max_sectors; u32int cmd_per_lun; u32int event_info_size; u32int sense_size; u32int cdb_size; u16int max_channel; u16int max_target; u32int max_lun; }; struct Vblkdev { u64int capacity; }; struct Vconfig { u32int devfeatsel; u32int devfeat; u32int drvfeatsel; u32int drvfeat; u16int msixcfg; u16int nqueues; u8int status; u8int cfggen; u16int queuesel; u16int queuesize; u16int queuemsixvect; u16int queueenable; u16int queuenotifyoff; u64int queuedesc; u64int queueavail; u64int queueused; }; struct Vring { u16int flags; u16int idx; }; struct Vdesc { u64int addr; u32int len; u16int flags; u16int next; }; struct Vused { u32int id; u32int len; }; struct Vqueue { Lock; Vdev *dev; void *notify; int idx; int size; int free; int nfree; Vdesc *desc; Vring *avail; u16int *availent; u16int *availevent; Vring *used; Vused *usedent; u16int *usedevent; u16int lastused; void *rock[]; }; struct Vdev { int typ; Pcidev *pci; uvlong port; ulong feat[2]; int nqueue; Vqueue *queue[16]; void *dev; /* device specific config (for scsi) */ /* registers */ Vconfig *cfg; u8int *isr; u8int *notify; u32int notifyoffmult; Vdev *next; }; static Vqueue* mkvqueue(int size) { Vqueue *q; uchar *p; int i; q = malloc(sizeof(*q) + sizeof(void*)*size); p = mallocalign( PGROUND(sizeof(Vdesc)*size + VringSize + sizeof(u16int)*size + sizeof(u16int)) + PGROUND(VringSize + sizeof(Vused)*size + sizeof(u16int)), BY2PG, 0, 0); if(p == nil || q == nil){ print("virtio: no memory for Vqueue\n"); free(p); free(q); return nil; } q->desc = (void*)p; p += sizeof(Vdesc)*size; q->avail = (void*)p; p += VringSize; q->availent = (void*)p; p += sizeof(u16int)*size; q->availevent = (void*)p; p += sizeof(u16int); p = (uchar*)PGROUND((uintptr)p); q->used = (void*)p; p += VringSize; q->usedent = (void*)p; p += sizeof(Vused)*size; q->usedevent = (void*)p; q->free = -1; q->nfree = q->size = size; for(i=0; i<size; i++){ q->desc[i].next = q->free; q->free = i; } return q; } static int matchvirtiocfgcap(Pcidev *p, int cap, int off, int typ) { int bar; if(cap != 9 || pcicfgr8(p, off+3) != typ) return 1; /* skip invalid or non memory bars */ bar = pcicfgr8(p, off+4); if(bar < 0 || bar >= nelem(p->mem) || p->mem[bar].size == 0 || (p->mem[bar].bar & 3) != 0) return 1; return 0; } static int virtiocap(Pcidev *p, int typ) { return pcienumcaps(p, matchvirtiocfgcap, typ); } static void* virtiomapregs(Pcidev *p, int cap, int size) { int bar, len; uvlong addr; if(cap < 0) return nil; bar = pcicfgr8(p, cap+4) % nelem(p->mem); addr = pcicfgr32(p, cap+8); len = pcicfgr32(p, cap+12); if(size <= 0) size = len; else if(len < size) return nil; if(addr+len > p->mem[bar].size) return nil; addr += p->mem[bar].bar & ~0xFULL; return vmap(addr, size); } static Vdev* viopnpdevs(int typ) { Vdev *vd, *h, *t; Vconfig *cfg; Vqueue *q; Pcidev *p; int cap, bar; int n, i; h = t = nil; for(p = nil; p = pcimatch(p, 0x1AF4, 0x1040+typ);){ if(p->rid == 0) continue; if((cap = virtiocap(p, 1)) < 0) continue; bar = pcicfgr8(p, cap+4) % nelem(p->mem); cfg = virtiomapregs(p, cap, sizeof(Vconfig)); if(cfg == nil) continue; if((vd = malloc(sizeof(*vd))) == nil){ print("virtio: no memory for Vdev\n"); break; } vd->port = p->mem[bar].bar & ~0xFULL; vd->typ = typ; vd->pci = p; vd->cfg = cfg; pcienable(p); vd->isr = virtiomapregs(p, virtiocap(p, 3), 0); if(vd->isr == nil){ Baddev: pcidisable(p); /* TODO: vunmap */ free(vd); continue; } cap = virtiocap(p, 2); vd->notify = virtiomapregs(p, cap, 0); if(vd->notify == nil) goto Baddev; vd->notifyoffmult = pcicfgr32(p, cap+16); /* reset */ cfg->status = 0; while(cfg->status != 0) delay(1); cfg->status = Acknowledge|Driver; /* negotiate feature bits */ cfg->devfeatsel = 1; vd->feat[1] = cfg->devfeat; cfg->devfeatsel = 0; vd->feat[0] = cfg->devfeat; cfg->drvfeatsel = 1; cfg->drvfeat = vd->feat[1] & 1; cfg->drvfeatsel = 0; cfg->drvfeat = 0; cfg->status |= FeaturesOk; for(i=0; i<nelem(vd->queue); i++){ cfg->queuesel = i; n = cfg->queuesize; if(n == 0 || (n & (n-1)) != 0) break; if((q = mkvqueue(n)) == nil) break; q->notify = vd->notify + vd->notifyoffmult * cfg->queuenotifyoff; q->dev = vd; q->idx = i; vd->queue[i] = q; coherence(); cfg->queuedesc = PADDR(q->desc); cfg->queueavail = PADDR(q->avail); cfg->queueused = PADDR(q->used); } vd->nqueue = i; if(h == nil) h = vd; else t->next = vd; t = vd; } return h; } struct Rock { int done; Rendez *sleep; }; static void vqinterrupt(Vqueue *q) { int id, free, m; struct Rock *r; Rendez *z; m = q->size-1; ilock(q); while((q->lastused ^ q->used->idx) & m){ id = q->usedent[q->lastused++ & m].id; if(r = q->rock[id]){ q->rock[id] = nil; z = r->sleep; r->done = 1; /* hands off */ if(z != nil) wakeup(z); } do { free = id; id = q->desc[free].next; q->desc[free].next = q->free; q->free = free; q->nfree++; } while(q->desc[free].flags & Next); } iunlock(q); } static void viointerrupt(Ureg *, void *arg) { Vdev *vd = arg; if(vd->isr[0] & 1) vqinterrupt(vd->queue[vd->typ == TypSCSI ? 2 : 0]); } static int viodone(void *arg) { return ((struct Rock*)arg)->done; } static void vqio(Vqueue *q, int head) { struct Rock rock; rock.done = 0; rock.sleep = &up->sleep; q->rock[head] = &rock; q->availent[q->avail->idx & (q->size-1)] = head; coherence(); q->avail->idx++; iunlock(q); if((q->used->flags & 1) == 0) *((u16int*)q->notify) = q->idx; while(!rock.done){ while(waserror()) ; tsleep(rock.sleep, viodone, &rock, 1000); poperror(); if(!rock.done) vqinterrupt(q); } } static int vioblkreq(Vdev *vd, int typ, void *a, long count, long secsize, uvlong lba) { int need, free, head; Vqueue *q; Vdesc *d; u8int status; struct Vioblkreqhdr { u32int typ; u32int prio; u64int lba; } req; need = 2; if(a != nil) need = 3; status = -1; req.typ = typ; req.prio = 0; req.lba = lba; q = vd->queue[0]; ilock(q); while(q->nfree < need){ iunlock(q); if(!waserror()) tsleep(&up->sleep, return0, 0, 500); poperror(); ilock(q); } head = free = q->free; d = &q->desc[free]; free = d->next; d->addr = PADDR(&req); d->len = sizeof(req); d->flags = Next; if(a != nil){ d = &q->desc[free]; free = d->next; d->addr = PADDR(a); d->len = secsize*count; d->flags = typ ? Next : (Write|Next); } d = &q->desc[free]; free = d->next; d->addr = PADDR(&status); d->len = sizeof(status); d->flags = Write; q->free = free; q->nfree -= need; /* queue io, unlock and wait for completion */ vqio(q, head); return status; } static int vioscsireq(SDreq *r) { u8int resp[4+4+2+2+SENSESIZE]; u8int req[8+8+3+CDBSIZE]; int free, head; u32int len; Vqueue *q; Vdesc *d; Vdev *vd; SDunit *u; Vscsidev *scsi; u = r->unit; vd = u->dev->ctlr; scsi = vd->dev; memset(resp, 0, sizeof(resp)); memset(req, 0, sizeof(req)); req[0] = 1; req[1] = u->subno; req[2] = r->lun>>8; req[3] = r->lun&0xFF; *(u64int*)(&req[8]) = (uintptr)r; memmove(&req[8+8+3], r->cmd, r->clen); q = vd->queue[2]; ilock(q); while(q->nfree < 3){ iunlock(q); if(!waserror()) tsleep(&up->sleep, return0, 0, 500); poperror(); ilock(q); } head = free = q->free; d = &q->desc[free]; free = d->next; d->addr = PADDR(req); d->len = 8+8+3+scsi->cdb_size; d->flags = Next; if(r->write && r->dlen > 0){ d = &q->desc[free]; free = d->next; d->addr = PADDR(r->data); d->len = r->dlen; d->flags = Next; } d = &q->desc[free]; free = d->next; d->addr = PADDR(resp); d->len = 4+4+2+2+scsi->sense_size; d->flags = Write; if(!r->write && r->dlen > 0){ d->flags |= Next; d = &q->desc[free]; free = d->next; d->addr = PADDR(r->data); d->len = r->dlen; d->flags = Write; } q->free = free; q->nfree -= 2 + (r->dlen > 0); /* queue io, unlock and wait for completion */ vqio(q, head); /* response+status */ r->status = resp[10]; if(resp[11] != 0) r->status = SDcheck; /* sense_len */ len = *((u32int*)&resp[0]); if(len > 0){ if(len > sizeof(r->sense)) len = sizeof(r->sense); memmove(r->sense, &resp[4+4+2+2], len); r->flags |= SDvalidsense; } /* data residue */ len = *((u32int*)&resp[4]); if(len > r->dlen) r->rlen = 0; else r->rlen = r->dlen - len; return r->status; } static long viobio(SDunit *u, int lun, int write, void *a, long count, uvlong lba) { long ss, cc, max, ret; Vdev *vd; vd = u->dev->ctlr; if(vd->typ == TypSCSI) return scsibio(u, lun, write, a, count, lba); max = 32; ss = u->secsize; ret = 0; while(count > 0){ if((cc = count) > max) cc = max; if(vioblkreq(vd, write != 0, (uchar*)a + ret, cc, ss, lba) != 0) error(Eio); ret += cc*ss; count -= cc; lba += cc; } return ret; } static int viorio(SDreq *r) { int i, count, rw; uvlong lba; SDunit *u; Vdev *vd; u = r->unit; vd = u->dev->ctlr; if(vd->typ == TypSCSI) return vioscsireq(r); if(r->cmd[0] == 0x35 || r->cmd[0] == 0x91){ if(vioblkreq(vd, 4, nil, 0, 0, 0) != 0) return sdsetsense(r, SDcheck, 3, 0xc, 2); return sdsetsense(r, SDok, 0, 0, 0); } if((i = sdfakescsi(r)) != SDnostatus) return r->status = i; if((i = sdfakescsirw(r, &lba, &count, &rw)) != SDnostatus) return i; r->rlen = viobio(u, r->lun, rw == SDwrite, r->data, count, lba); return r->status = SDok; } static int vioonline(SDunit *u) { Vdev *vd; Vblkdev *blk; uvlong cap; vd = u->dev->ctlr; if(vd->typ == TypSCSI) return scsionline(u); blk = vd->dev; cap = blk->capacity; if(u->sectors != cap){ u->sectors = cap; u->secsize = 512; return 2; } return 1; } static int vioverify(SDunit *u) { Vdev *vd; vd = u->dev->ctlr; if(vd->typ == TypSCSI) return scsiverify(u); return 1; } SDifc sdvirtio10ifc; static int vioenable(SDev *sd) { char name[32]; Vdev *vd; int i; vd = sd->ctlr; pcisetbme(vd->pci); snprint(name, sizeof(name), "%s (%s)", sd->name, sd->ifc->name); intrenable(vd->pci->intl, viointerrupt, vd, vd->pci->tbdf, name); coherence(); for(i = 0; i < vd->nqueue; i++){ vd->cfg->queuesel = i; vd->cfg->queueenable = 1; } vd->cfg->status |= DriverOk; return 1; } static int viodisable(SDev *sd) { char name[32]; Vdev *vd; vd = sd->ctlr; snprint(name, sizeof(name), "%s (%s)", sd->name, sd->ifc->name); intrdisable(vd->pci->intl, viointerrupt, vd, vd->pci->tbdf, name); pciclrbme(vd->pci); return 1; } static SDev* viopnp(void) { SDev *s, *h, *t; Vdev *vd; int id; h = t = nil; id = 'F'; for(vd = viopnpdevs(TypBlk); vd; vd = vd->next){ if(vd->nqueue == 0) continue; if((vd->dev = virtiomapregs(vd->pci, virtiocap(vd->pci, 4), sizeof(Vblkdev))) == nil) break; if((s = malloc(sizeof(*s))) == nil) break; s->ctlr = vd; s->idno = id++; s->ifc = &sdvirtio10ifc; s->nunit = 1; if(h) t->next = s; else h = s; t = s; } id = '0'; for(vd = viopnpdevs(TypSCSI); vd; vd = vd->next){ Vscsidev *scsi; if(vd->nqueue < 3) continue; if((scsi = virtiomapregs(vd->pci, virtiocap(vd->pci, 4), sizeof(Vscsidev))) == nil) break; if(scsi->max_target == 0){ vunmap(scsi, sizeof(Vscsidev)); continue; } if((scsi->cdb_size > CDBSIZE) || (scsi->sense_size > SENSESIZE)){ print("sdvirtio: cdb %ud or sense size %ud too big\n", scsi->cdb_size, scsi->sense_size); vunmap(scsi, sizeof(Vscsidev)); continue; } vd->dev = scsi; if((s = malloc(sizeof(*s))) == nil) break; s->ctlr = vd; s->idno = id++; s->ifc = &sdvirtio10ifc; s->nunit = scsi->max_target; if(h) t->next = s; else h = s; t = s; } return h; } SDifc sdvirtio10ifc = { "virtio10", /* name */ viopnp, /* pnp */ nil, /* legacy */ vioenable, /* enable */ viodisable, /* disable */ vioverify, /* verify */ vioonline, /* online */ viorio, /* rio */ nil, /* rctl */ nil, /* wctl */ viobio, /* bio */ nil, /* probe */ nil, /* clear */ nil, /* rtopctl */ nil, /* wtopctl */ };