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|
/* $OpenBSD: xbf.c,v 1.46 2020/09/02 21:16:29 krw Exp $ */
/*
* Copyright (c) 2016, 2017 Mike Belopuhov
* Copyright (c) 2009, 2011 Mark Kettenis
*
* Permission to use, copy, modify, and distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice appear in all copies.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
* ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
* OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*/
#include "bio.h"
#include <sys/param.h>
#include <sys/systm.h>
#include <sys/atomic.h>
#include <sys/device.h>
#include <sys/kernel.h>
#include <sys/buf.h>
#include <sys/malloc.h>
#include <sys/task.h>
#include <machine/bus.h>
#include <dev/pv/xenreg.h>
#include <dev/pv/xenvar.h>
#include <scsi/scsi_all.h>
#include <scsi/cd.h>
#include <scsi/scsi_disk.h>
#include <scsi/scsiconf.h>
/* #define XBF_DEBUG */
#ifdef XBF_DEBUG
#define DPRINTF(x...) printf(x)
#else
#define DPRINTF(x...)
#endif
#define XBF_OP_READ 0
#define XBF_OP_WRITE 1
#define XBF_OP_BARRIER 2 /* feature-barrier */
#define XBF_OP_FLUSH 3 /* feature-flush-cache */
#define XBF_OP_DISCARD 5 /* feature-discard */
#define XBF_OP_INDIRECT 6 /* feature-max-indirect-segments */
#define XBF_MAX_SGE 11
#define XBF_MAX_ISGE 8
#define XBF_SEC_SHIFT 9
#define XBF_CDROM 1
#define XBF_REMOVABLE 2
#define XBF_READONLY 4
#define XBF_OK 0
#define XBF_EIO -1 /* generic failure */
#define XBF_EOPNOTSUPP -2 /* only for XBF_OP_BARRIER */
struct xbf_sge {
uint32_t sge_ref;
uint8_t sge_first;
uint8_t sge_last;
uint16_t sge_pad;
} __packed;
/* Generic I/O request */
struct xbf_req {
uint8_t req_op;
uint8_t req_nsegs;
uint16_t req_unit;
#ifdef __amd64__
uint32_t req_pad;
#endif
uint64_t req_id;
uint64_t req_sector;
struct xbf_sge req_sgl[XBF_MAX_SGE];
} __packed;
/* Indirect I/O request */
struct xbf_ireq {
uint8_t req_op;
uint8_t req_iop;
uint16_t req_nsegs;
#ifdef __amd64__
uint32_t req_pad;
#endif
uint64_t req_id;
uint64_t req_sector;
uint16_t req_unit;
uint32_t req_gref[XBF_MAX_ISGE];
#ifdef __i386__
uint64_t req_pad;
#endif
} __packed;
struct xbf_rsp {
uint64_t rsp_id;
uint8_t rsp_op;
uint8_t rsp_pad1;
int16_t rsp_status;
#ifdef __amd64__
uint32_t rsp_pad2;
#endif
} __packed;
union xbf_ring_desc {
struct xbf_req xrd_req;
struct xbf_ireq xrd_ireq;
struct xbf_rsp xrd_rsp;
} __packed;
#define XBF_MIN_RING_SIZE 1
#define XBF_MAX_RING_SIZE 8
#define XBF_MAX_REQS 256 /* must be a power of 2 */
struct xbf_ring {
volatile uint32_t xr_prod;
volatile uint32_t xr_prod_event;
volatile uint32_t xr_cons;
volatile uint32_t xr_cons_event;
uint32_t xr_reserved[12];
union xbf_ring_desc xr_desc[0];
} __packed;
struct xbf_dma_mem {
bus_size_t dma_size;
bus_dma_tag_t dma_tag;
bus_dmamap_t dma_map;
bus_dma_segment_t *dma_seg;
int dma_nsegs; /* total amount */
int dma_rsegs; /* used amount */
caddr_t dma_vaddr;
};
struct xbf_ccb {
struct scsi_xfer *ccb_xfer; /* associated transfer */
bus_dmamap_t ccb_dmap; /* transfer map */
struct xbf_dma_mem ccb_bbuf; /* bounce buffer */
uint32_t ccb_first; /* first descriptor */
uint32_t ccb_last; /* last descriptor */
uint16_t ccb_want; /* expected chunks */
uint16_t ccb_seen; /* completed chunks */
TAILQ_ENTRY(xbf_ccb) ccb_link;
};
TAILQ_HEAD(xbf_ccb_queue, xbf_ccb);
struct xbf_softc {
struct device sc_dev;
struct device *sc_parent;
char sc_node[XEN_MAX_NODE_LEN];
char sc_backend[XEN_MAX_BACKEND_LEN];
bus_dma_tag_t sc_dmat;
int sc_domid;
xen_intr_handle_t sc_xih;
int sc_state;
#define XBF_CONNECTED 4
#define XBF_CLOSING 5
int sc_caps;
#define XBF_CAP_BARRIER 0x0001
#define XBF_CAP_FLUSH 0x0002
uint32_t sc_type;
uint32_t sc_unit;
char sc_dtype[16];
char sc_prod[16];
uint64_t sc_disk_size;
uint32_t sc_block_size;
/* Ring */
struct xbf_ring *sc_xr;
uint32_t sc_xr_cons;
uint32_t sc_xr_prod;
uint32_t sc_xr_size; /* in pages */
struct xbf_dma_mem sc_xr_dma;
uint32_t sc_xr_ref[XBF_MAX_RING_SIZE];
int sc_xr_ndesc;
/* Maximum number of blocks that one descriptor may refer to */
int sc_xrd_nblk;
/* CCBs */
int sc_nccb;
struct xbf_ccb *sc_ccbs;
struct xbf_ccb_queue sc_ccb_fq; /* free queue */
struct xbf_ccb_queue sc_ccb_sq; /* pending requests */
struct mutex sc_ccb_fqlck;
struct mutex sc_ccb_sqlck;
struct scsi_iopool sc_iopool;
struct device *sc_scsibus;
};
int xbf_match(struct device *, void *, void *);
void xbf_attach(struct device *, struct device *, void *);
int xbf_detach(struct device *, int);
struct cfdriver xbf_cd = {
NULL, "xbf", DV_DULL
};
const struct cfattach xbf_ca = {
sizeof(struct xbf_softc), xbf_match, xbf_attach, xbf_detach
};
void xbf_intr(void *);
int xbf_load_cmd(struct scsi_xfer *);
int xbf_bounce_cmd(struct scsi_xfer *);
void xbf_reclaim_cmd(struct scsi_xfer *);
void xbf_scsi_cmd(struct scsi_xfer *);
int xbf_submit_cmd(struct scsi_xfer *);
int xbf_poll_cmd(struct scsi_xfer *);
void xbf_complete_cmd(struct xbf_softc *, struct xbf_ccb_queue *, int);
struct scsi_adapter xbf_switch = {
xbf_scsi_cmd, NULL, NULL, NULL, NULL
};
void xbf_scsi_inq(struct scsi_xfer *);
void xbf_scsi_inquiry(struct scsi_xfer *);
void xbf_scsi_capacity(struct scsi_xfer *);
void xbf_scsi_capacity16(struct scsi_xfer *);
void xbf_scsi_done(struct scsi_xfer *, int);
int xbf_dma_alloc(struct xbf_softc *, struct xbf_dma_mem *,
bus_size_t, int, int);
void xbf_dma_free(struct xbf_softc *, struct xbf_dma_mem *);
int xbf_get_type(struct xbf_softc *);
int xbf_init(struct xbf_softc *);
int xbf_ring_create(struct xbf_softc *);
void xbf_ring_destroy(struct xbf_softc *);
void xbf_stop(struct xbf_softc *);
int xbf_alloc_ccbs(struct xbf_softc *);
void xbf_free_ccbs(struct xbf_softc *);
void *xbf_get_ccb(void *);
void xbf_put_ccb(void *, void *);
int
xbf_match(struct device *parent, void *match, void *aux)
{
struct xen_attach_args *xa = aux;
if (strcmp("vbd", xa->xa_name))
return (0);
return (1);
}
void
xbf_attach(struct device *parent, struct device *self, void *aux)
{
struct xen_attach_args *xa = aux;
struct xbf_softc *sc = (struct xbf_softc *)self;
struct scsibus_attach_args saa;
sc->sc_parent = parent;
sc->sc_dmat = xa->xa_dmat;
sc->sc_domid = xa->xa_domid;
memcpy(sc->sc_node, xa->xa_node, XEN_MAX_NODE_LEN);
memcpy(sc->sc_backend, xa->xa_backend, XEN_MAX_BACKEND_LEN);
if (xbf_get_type(sc))
return;
if (xen_intr_establish(0, &sc->sc_xih, sc->sc_domid, xbf_intr, sc,
sc->sc_dev.dv_xname)) {
printf(": failed to establish an interrupt\n");
return;
}
xen_intr_mask(sc->sc_xih);
printf(" backend %d channel %u: %s\n", sc->sc_domid, sc->sc_xih,
sc->sc_dtype);
if (xbf_init(sc))
goto error;
if (xen_intr_unmask(sc->sc_xih)) {
printf("%s: failed to enable interrupts\n",
sc->sc_dev.dv_xname);
goto error;
}
saa.saa_adapter = &xbf_switch;
saa.saa_adapter_softc = self;
saa.saa_adapter_buswidth = 1;
saa.saa_luns = 1;
saa.saa_adapter_target = SDEV_NO_ADAPTER_TARGET;
saa.saa_openings = sc->sc_nccb;
saa.saa_pool = &sc->sc_iopool;
saa.saa_quirks = saa.saa_flags = 0;
saa.saa_wwpn = saa.saa_wwnn = 0;
sc->sc_scsibus = config_found(self, &saa, scsiprint);
xen_unplug_emulated(parent, XEN_UNPLUG_IDE | XEN_UNPLUG_IDESEC);
return;
error:
xen_intr_disestablish(sc->sc_xih);
}
int
xbf_detach(struct device *self, int flags)
{
struct xbf_softc *sc = (struct xbf_softc *)self;
int ostate = sc->sc_state;
sc->sc_state = XBF_CLOSING;
xen_intr_mask(sc->sc_xih);
xen_intr_barrier(sc->sc_xih);
if (ostate == XBF_CONNECTED) {
xen_intr_disestablish(sc->sc_xih);
xbf_stop(sc);
}
if (sc->sc_scsibus)
return (config_detach(sc->sc_scsibus, flags | DETACH_FORCE));
return (0);
}
void
xbf_intr(void *xsc)
{
struct xbf_softc *sc = xsc;
struct xbf_ring *xr = sc->sc_xr;
struct xbf_dma_mem *dma = &sc->sc_xr_dma;
struct xbf_ccb_queue cq;
struct xbf_ccb *ccb, *nccb;
uint32_t cons;
int desc, s;
TAILQ_INIT(&cq);
for (;;) {
bus_dmamap_sync(dma->dma_tag, dma->dma_map, 0, dma->dma_size,
BUS_DMASYNC_POSTREAD | BUS_DMASYNC_POSTWRITE);
for (cons = sc->sc_xr_cons; cons != xr->xr_cons; cons++) {
desc = cons & (sc->sc_xr_ndesc - 1);
xbf_complete_cmd(sc, &cq, desc);
}
sc->sc_xr_cons = cons;
if (TAILQ_EMPTY(&cq))
break;
s = splbio();
KERNEL_LOCK();
TAILQ_FOREACH_SAFE(ccb, &cq, ccb_link, nccb) {
TAILQ_REMOVE(&cq, ccb, ccb_link);
xbf_reclaim_cmd(ccb->ccb_xfer);
scsi_done(ccb->ccb_xfer);
}
KERNEL_UNLOCK();
splx(s);
}
}
void
xbf_scsi_cmd(struct scsi_xfer *xs)
{
struct xbf_softc *sc = xs->sc_link->bus->sb_adapter_softc;
switch (xs->cmd->opcode) {
case READ_COMMAND:
case READ_10:
case READ_12:
case READ_16:
case WRITE_COMMAND:
case WRITE_10:
case WRITE_12:
case WRITE_16:
if (sc->sc_state != XBF_CONNECTED) {
xbf_scsi_done(xs, XS_SELTIMEOUT);
return;
}
break;
case SYNCHRONIZE_CACHE:
if (!(sc->sc_caps & (XBF_CAP_BARRIER|XBF_CAP_FLUSH))) {
xbf_scsi_done(xs, XS_NOERROR);
return;
}
break;
case INQUIRY:
xbf_scsi_inq(xs);
return;
case READ_CAPACITY:
xbf_scsi_capacity(xs);
return;
case READ_CAPACITY_16:
xbf_scsi_capacity16(xs);
return;
case TEST_UNIT_READY:
case START_STOP:
case PREVENT_ALLOW:
xbf_scsi_done(xs, XS_NOERROR);
return;
default:
printf("%s cmd 0x%02x\n", __func__, xs->cmd->opcode);
case MODE_SENSE:
case MODE_SENSE_BIG:
case REPORT_LUNS:
case READ_TOC:
xbf_scsi_done(xs, XS_DRIVER_STUFFUP);
return;
}
if (xbf_submit_cmd(xs)) {
xbf_scsi_done(xs, XS_DRIVER_STUFFUP);
return;
}
if (ISSET(xs->flags, SCSI_POLL) && xbf_poll_cmd(xs)) {
printf("%s: op %#x timed out\n", sc->sc_dev.dv_xname,
xs->cmd->opcode);
if (sc->sc_state == XBF_CONNECTED) {
xbf_reclaim_cmd(xs);
xbf_scsi_done(xs, XS_TIMEOUT);
}
return;
}
}
int
xbf_load_cmd(struct scsi_xfer *xs)
{
struct xbf_softc *sc = xs->sc_link->bus->sb_adapter_softc;
struct xbf_ccb *ccb = xs->io;
struct xbf_sge *sge;
union xbf_ring_desc *xrd;
bus_dmamap_t map;
int error, mapflags, nsg, seg;
int desc, ndesc = 0;
map = ccb->ccb_dmap;
mapflags = (sc->sc_domid << 16);
if (ISSET(xs->flags, SCSI_NOSLEEP))
mapflags |= BUS_DMA_NOWAIT;
else
mapflags |= BUS_DMA_WAITOK;
if (ISSET(xs->flags, SCSI_DATA_IN))
mapflags |= BUS_DMA_READ;
else
mapflags |= BUS_DMA_WRITE;
error = bus_dmamap_load(sc->sc_dmat, map, xs->data, xs->datalen,
NULL, mapflags);
if (error) {
printf("%s: failed to load %d bytes of data\n",
sc->sc_dev.dv_xname, xs->datalen);
return (error);
}
xrd = &sc->sc_xr->xr_desc[ccb->ccb_first];
/* seg is the segment map iterator, nsg is the s-g list iterator */
for (seg = 0, nsg = 0; seg < map->dm_nsegs; seg++, nsg++) {
if (nsg == XBF_MAX_SGE) {
/* Number of segments so far */
xrd->xrd_req.req_nsegs = nsg;
/* Pick next descriptor */
ndesc++;
desc = (sc->sc_xr_prod + ndesc) & (sc->sc_xr_ndesc - 1);
xrd = &sc->sc_xr->xr_desc[desc];
nsg = 0;
}
sge = &xrd->xrd_req.req_sgl[nsg];
sge->sge_ref = map->dm_segs[seg].ds_addr;
sge->sge_first = nsg > 0 ? 0 :
(((vaddr_t)xs->data + ndesc * sc->sc_xrd_nblk *
(1 << XBF_SEC_SHIFT)) & PAGE_MASK) >> XBF_SEC_SHIFT;
sge->sge_last = sge->sge_first +
(map->dm_segs[seg].ds_len >> XBF_SEC_SHIFT) - 1;
DPRINTF("%s: seg %d/%d ref %lu len %lu first %u last %u\n",
sc->sc_dev.dv_xname, nsg + 1, map->dm_nsegs,
map->dm_segs[seg].ds_addr, map->dm_segs[seg].ds_len,
sge->sge_first, sge->sge_last);
KASSERT(sge->sge_last <= 7);
}
xrd->xrd_req.req_nsegs = nsg;
return (0);
}
int
xbf_bounce_cmd(struct scsi_xfer *xs)
{
struct xbf_softc *sc = xs->sc_link->bus->sb_adapter_softc;
struct xbf_ccb *ccb = xs->io;
struct xbf_sge *sge;
struct xbf_dma_mem *dma;
union xbf_ring_desc *xrd;
bus_dmamap_t map;
bus_size_t size;
int error, mapflags, nsg, seg;
int desc, ndesc = 0;
size = roundup(xs->datalen, PAGE_SIZE);
if (size > MAXPHYS)
return (EFBIG);
mapflags = (sc->sc_domid << 16);
if (ISSET(xs->flags, SCSI_NOSLEEP))
mapflags |= BUS_DMA_NOWAIT;
else
mapflags |= BUS_DMA_WAITOK;
if (ISSET(xs->flags, SCSI_DATA_IN))
mapflags |= BUS_DMA_READ;
else
mapflags |= BUS_DMA_WRITE;
dma = &ccb->ccb_bbuf;
error = xbf_dma_alloc(sc, dma, size, size / PAGE_SIZE, mapflags);
if (error) {
DPRINTF("%s: failed to allocate a %lu byte bounce buffer\n",
sc->sc_dev.dv_xname, size);
return (error);
}
map = dma->dma_map;
DPRINTF("%s: bouncing %d bytes via %lu size map with %d segments\n",
sc->sc_dev.dv_xname, xs->datalen, size, map->dm_nsegs);
if (ISSET(xs->flags, SCSI_DATA_OUT))
memcpy(dma->dma_vaddr, xs->data, xs->datalen);
xrd = &sc->sc_xr->xr_desc[ccb->ccb_first];
/* seg is the map segment iterator, nsg is the s-g element iterator */
for (seg = 0, nsg = 0; seg < map->dm_nsegs; seg++, nsg++) {
if (nsg == XBF_MAX_SGE) {
/* Number of segments so far */
xrd->xrd_req.req_nsegs = nsg;
/* Pick next descriptor */
ndesc++;
desc = (sc->sc_xr_prod + ndesc) & (sc->sc_xr_ndesc - 1);
xrd = &sc->sc_xr->xr_desc[desc];
nsg = 0;
}
sge = &xrd->xrd_req.req_sgl[nsg];
sge->sge_ref = map->dm_segs[seg].ds_addr;
sge->sge_first = nsg > 0 ? 0 :
(((vaddr_t)dma->dma_vaddr + ndesc * sc->sc_xrd_nblk *
(1 << XBF_SEC_SHIFT)) & PAGE_MASK) >> XBF_SEC_SHIFT;
sge->sge_last = sge->sge_first +
(map->dm_segs[seg].ds_len >> XBF_SEC_SHIFT) - 1;
DPRINTF("%s: seg %d/%d ref %lu len %lu first %u last %u\n",
sc->sc_dev.dv_xname, nsg + 1, map->dm_nsegs,
map->dm_segs[seg].ds_addr, map->dm_segs[seg].ds_len,
sge->sge_first, sge->sge_last);
KASSERT(sge->sge_last <= 7);
}
xrd->xrd_req.req_nsegs = nsg;
return (0);
}
void
xbf_reclaim_cmd(struct scsi_xfer *xs)
{
struct xbf_softc *sc = xs->sc_link->bus->sb_adapter_softc;
struct xbf_ccb *ccb = xs->io;
struct xbf_dma_mem *dma = &ccb->ccb_bbuf;
if (dma->dma_size == 0)
return;
if (ISSET(xs->flags, SCSI_DATA_IN))
memcpy(xs->data, (caddr_t)dma->dma_vaddr, xs->datalen);
xbf_dma_free(sc, &ccb->ccb_bbuf);
}
int
xbf_submit_cmd(struct scsi_xfer *xs)
{
struct xbf_softc *sc = xs->sc_link->bus->sb_adapter_softc;
struct xbf_ccb *ccb = xs->io;
union xbf_ring_desc *xrd;
struct scsi_rw *rw;
struct scsi_rw_10 *rw10;
struct scsi_rw_12 *rw12;
struct scsi_rw_16 *rw16;
uint64_t lba = 0;
uint32_t nblk = 0;
uint8_t operation = 0;
unsigned int ndesc = 0;
int desc, error;
switch (xs->cmd->opcode) {
case READ_COMMAND:
case READ_10:
case READ_12:
case READ_16:
operation = XBF_OP_READ;
break;
case WRITE_COMMAND:
case WRITE_10:
case WRITE_12:
case WRITE_16:
operation = XBF_OP_WRITE;
break;
case SYNCHRONIZE_CACHE:
if (sc->sc_caps & XBF_CAP_FLUSH)
operation = XBF_OP_FLUSH;
else if (sc->sc_caps & XBF_CAP_BARRIER)
operation = XBF_OP_BARRIER;
break;
}
/*
* READ/WRITE/SYNCHRONIZE commands. SYNCHRONIZE CACHE
* has the same layout as 10-byte READ/WRITE commands.
*/
if (xs->cmdlen == 6) {
rw = (struct scsi_rw *)xs->cmd;
lba = _3btol(rw->addr) & (SRW_TOPADDR << 16 | 0xffff);
nblk = rw->length ? rw->length : 0x100;
} else if (xs->cmdlen == 10) {
rw10 = (struct scsi_rw_10 *)xs->cmd;
lba = _4btol(rw10->addr);
nblk = _2btol(rw10->length);
} else if (xs->cmdlen == 12) {
rw12 = (struct scsi_rw_12 *)xs->cmd;
lba = _4btol(rw12->addr);
nblk = _4btol(rw12->length);
} else if (xs->cmdlen == 16) {
rw16 = (struct scsi_rw_16 *)xs->cmd;
lba = _8btol(rw16->addr);
nblk = _4btol(rw16->length);
}
ccb->ccb_want = ccb->ccb_seen = 0;
do {
desc = (sc->sc_xr_prod + ndesc) & (sc->sc_xr_ndesc - 1);
if (ndesc == 0)
ccb->ccb_first = desc;
xrd = &sc->sc_xr->xr_desc[desc];
xrd->xrd_req.req_op = operation;
xrd->xrd_req.req_unit = (uint16_t)sc->sc_unit;
xrd->xrd_req.req_sector = lba + ndesc * sc->sc_xrd_nblk;
ccb->ccb_want |= 1 << ndesc;
ndesc++;
} while (ndesc * sc->sc_xrd_nblk < nblk);
ccb->ccb_last = desc;
if (operation == XBF_OP_READ || operation == XBF_OP_WRITE) {
DPRINTF("%s: desc %u,%u %s%s lba %llu nsec %u "
"len %d\n", sc->sc_dev.dv_xname, ccb->ccb_first,
ccb->ccb_last, operation == XBF_OP_READ ? "read" :
"write", ISSET(xs->flags, SCSI_POLL) ? "-poll" : "",
lba, nblk, xs->datalen);
if (((vaddr_t)xs->data & ((1 << XBF_SEC_SHIFT) - 1)) == 0)
error = xbf_load_cmd(xs);
else
error = xbf_bounce_cmd(xs);
if (error)
return (-1);
} else {
DPRINTF("%s: desc %u %s%s lba %llu\n", sc->sc_dev.dv_xname,
ccb->ccb_first, operation == XBF_OP_FLUSH ? "flush" :
"barrier", ISSET(xs->flags, SCSI_POLL) ? "-poll" : "",
lba);
xrd->xrd_req.req_nsegs = 0;
}
ccb->ccb_xfer = xs;
bus_dmamap_sync(sc->sc_dmat, ccb->ccb_dmap, 0,
ccb->ccb_dmap->dm_mapsize, BUS_DMASYNC_PREREAD |
BUS_DMASYNC_PREWRITE);
mtx_enter(&sc->sc_ccb_sqlck);
TAILQ_INSERT_TAIL(&sc->sc_ccb_sq, ccb, ccb_link);
mtx_leave(&sc->sc_ccb_sqlck);
sc->sc_xr_prod += ndesc;
sc->sc_xr->xr_prod = sc->sc_xr_prod;
sc->sc_xr->xr_cons_event = sc->sc_xr_prod;
bus_dmamap_sync(sc->sc_dmat, sc->sc_xr_dma.dma_map, 0,
sc->sc_xr_dma.dma_map->dm_mapsize, BUS_DMASYNC_PREREAD |
BUS_DMASYNC_PREWRITE);
xen_intr_signal(sc->sc_xih);
return (0);
}
int
xbf_poll_cmd(struct scsi_xfer *xs)
{
int timo = 1000;
do {
if (ISSET(xs->flags, ITSDONE))
break;
if (ISSET(xs->flags, SCSI_NOSLEEP))
delay(10);
else
tsleep_nsec(xs, PRIBIO, "xbfpoll", USEC_TO_NSEC(10));
xbf_intr(xs->sc_link->bus->sb_adapter_softc);
} while(--timo > 0);
return (0);
}
void
xbf_complete_cmd(struct xbf_softc *sc, struct xbf_ccb_queue *cq, int desc)
{
struct xbf_ccb *ccb;
union xbf_ring_desc *xrd;
bus_dmamap_t map;
uint32_t id, chunk;
int error;
xrd = &sc->sc_xr->xr_desc[desc];
error = xrd->xrd_rsp.rsp_status == XBF_OK ? XS_NOERROR :
XS_DRIVER_STUFFUP;
mtx_enter(&sc->sc_ccb_sqlck);
/*
* To find a CCB for id equal to x within an interval [a, b] we must
* locate a CCB such that (x - a) mod N <= (b - a) mod N, where a is
* the first descriptor, b is the last one and N is the ring size.
*/
id = (uint32_t)xrd->xrd_rsp.rsp_id;
TAILQ_FOREACH(ccb, &sc->sc_ccb_sq, ccb_link) {
if (((id - ccb->ccb_first) & (sc->sc_xr_ndesc - 1)) <=
((ccb->ccb_last - ccb->ccb_first) & (sc->sc_xr_ndesc - 1)))
break;
}
KASSERT(ccb != NULL);
/* Assert that this chunk belongs to this CCB */
chunk = 1 << ((id - ccb->ccb_first) & (sc->sc_xr_ndesc - 1));
KASSERT((ccb->ccb_want & chunk) != 0);
KASSERT((ccb->ccb_seen & chunk) == 0);
/* When all chunks are collected remove the CCB from the queue */
ccb->ccb_seen |= chunk;
if (ccb->ccb_seen == ccb->ccb_want)
TAILQ_REMOVE(&sc->sc_ccb_sq, ccb, ccb_link);
mtx_leave(&sc->sc_ccb_sqlck);
DPRINTF("%s: completing desc %d(%llu) op %u with error %d\n",
sc->sc_dev.dv_xname, desc, xrd->xrd_rsp.rsp_id,
xrd->xrd_rsp.rsp_op, xrd->xrd_rsp.rsp_status);
memset(xrd, 0, sizeof(*xrd));
xrd->xrd_req.req_id = desc;
if (ccb->ccb_seen != ccb->ccb_want)
return;
if (ccb->ccb_bbuf.dma_size > 0)
map = ccb->ccb_bbuf.dma_map;
else
map = ccb->ccb_dmap;
bus_dmamap_sync(sc->sc_dmat, map, 0, map->dm_mapsize,
BUS_DMASYNC_POSTREAD | BUS_DMASYNC_POSTWRITE);
bus_dmamap_unload(sc->sc_dmat, map);
ccb->ccb_xfer->resid = 0;
ccb->ccb_xfer->error = error;
TAILQ_INSERT_TAIL(cq, ccb, ccb_link);
}
void
xbf_scsi_inq(struct scsi_xfer *xs)
{
struct scsi_inquiry *inq = (struct scsi_inquiry *)xs->cmd;
if (ISSET(inq->flags, SI_EVPD))
xbf_scsi_done(xs, XS_DRIVER_STUFFUP);
else
xbf_scsi_inquiry(xs);
}
void
xbf_scsi_inquiry(struct scsi_xfer *xs)
{
struct xbf_softc *sc = xs->sc_link->bus->sb_adapter_softc;
struct scsi_inquiry_data inq;
/* char buf[5]; */
bzero(&inq, sizeof(inq));
switch (sc->sc_type) {
case XBF_CDROM:
inq.device = T_CDROM;
break;
default:
inq.device = T_DIRECT;
break;
}
inq.version = SCSI_REV_SPC3;
inq.response_format = 2;
inq.additional_length = 32;
inq.flags |= SID_CmdQue;
bcopy("Xen ", inq.vendor, sizeof(inq.vendor));
bcopy(sc->sc_prod, inq.product, sizeof(inq.product));
bcopy("0000", inq.revision, sizeof(inq.revision));
bcopy(&inq, xs->data, MIN(sizeof(inq), xs->datalen));
xbf_scsi_done(xs, XS_NOERROR);
}
void
xbf_scsi_capacity(struct scsi_xfer *xs)
{
struct xbf_softc *sc = xs->sc_link->bus->sb_adapter_softc;
struct scsi_read_cap_data rcd;
uint64_t capacity;
bzero(&rcd, sizeof(rcd));
capacity = sc->sc_disk_size - 1;
if (capacity > 0xffffffff)
capacity = 0xffffffff;
_lto4b(capacity, rcd.addr);
_lto4b(sc->sc_block_size, rcd.length);
bcopy(&rcd, xs->data, MIN(sizeof(rcd), xs->datalen));
xbf_scsi_done(xs, XS_NOERROR);
}
void
xbf_scsi_capacity16(struct scsi_xfer *xs)
{
struct xbf_softc *sc = xs->sc_link->bus->sb_adapter_softc;
struct scsi_read_cap_data_16 rcd;
bzero(&rcd, sizeof(rcd));
_lto8b(sc->sc_disk_size - 1, rcd.addr);
_lto4b(sc->sc_block_size, rcd.length);
bcopy(&rcd, xs->data, MIN(sizeof(rcd), xs->datalen));
xbf_scsi_done(xs, XS_NOERROR);
}
void
xbf_scsi_done(struct scsi_xfer *xs, int error)
{
int s;
xs->error = error;
s = splbio();
scsi_done(xs);
splx(s);
}
int
xbf_get_type(struct xbf_softc *sc)
{
unsigned long long res;
const char *prop;
char val[32];
int error;
prop = "type";
if ((error = xs_getprop(sc->sc_parent, sc->sc_backend, prop, val,
sizeof(val))) != 0)
goto errout;
snprintf(sc->sc_prod, sizeof(sc->sc_prod), "%s", val);
prop = "dev";
if ((error = xs_getprop(sc->sc_parent, sc->sc_backend, prop, val,
sizeof(val))) != 0)
goto errout;
snprintf(sc->sc_prod, sizeof(sc->sc_prod), "%s %s", sc->sc_prod, val);
prop = "virtual-device";
if ((error = xs_getnum(sc->sc_parent, sc->sc_node, prop, &res)) != 0)
goto errout;
sc->sc_unit = (uint32_t)res;
snprintf(sc->sc_prod, sizeof(sc->sc_prod), "%s %llu", sc->sc_prod, res);
prop = "device-type";
if ((error = xs_getprop(sc->sc_parent, sc->sc_node, prop,
sc->sc_dtype, sizeof(sc->sc_dtype))) != 0)
goto errout;
if (!strcmp(sc->sc_dtype, "cdrom"))
sc->sc_type = XBF_CDROM;
return (0);
errout:
printf("%s: failed to read \"%s\" property\n", sc->sc_dev.dv_xname,
prop);
return (-1);
}
int
xbf_init(struct xbf_softc *sc)
{
unsigned long long res;
const char *action, *prop;
char pbuf[sizeof("ring-refXX")];
unsigned int i;
int error;
prop = "max-ring-page-order";
error = xs_getnum(sc->sc_parent, sc->sc_backend, prop, &res);
if (error == 0)
sc->sc_xr_size = 1 << res;
if (error == ENOENT) {
prop = "max-ring-pages";
error = xs_getnum(sc->sc_parent, sc->sc_backend, prop, &res);
if (error == 0)
sc->sc_xr_size = res;
}
/* Fallback to the known minimum */
if (error)
sc->sc_xr_size = XBF_MIN_RING_SIZE;
if (sc->sc_xr_size < XBF_MIN_RING_SIZE)
sc->sc_xr_size = XBF_MIN_RING_SIZE;
if (sc->sc_xr_size > XBF_MAX_RING_SIZE)
sc->sc_xr_size = XBF_MAX_RING_SIZE;
if (!powerof2(sc->sc_xr_size))
sc->sc_xr_size = 1 << (fls(sc->sc_xr_size) - 1);
sc->sc_xr_ndesc = ((sc->sc_xr_size * PAGE_SIZE) -
sizeof(struct xbf_ring)) / sizeof(union xbf_ring_desc);
if (!powerof2(sc->sc_xr_ndesc))
sc->sc_xr_ndesc = 1 << (fls(sc->sc_xr_ndesc) - 1);
if (sc->sc_xr_ndesc > XBF_MAX_REQS)
sc->sc_xr_ndesc = XBF_MAX_REQS;
DPRINTF("%s: %u ring pages, %d requests\n",
sc->sc_dev.dv_xname, sc->sc_xr_size, sc->sc_xr_ndesc);
if (xbf_ring_create(sc))
return (-1);
action = "set";
for (i = 0; i < sc->sc_xr_size; i++) {
if (i == 0 && sc->sc_xr_size == 1)
snprintf(pbuf, sizeof(pbuf), "ring-ref");
else
snprintf(pbuf, sizeof(pbuf), "ring-ref%d", i);
prop = pbuf;
if (xs_setnum(sc->sc_parent, sc->sc_node, prop,
sc->sc_xr_ref[i]))
goto errout;
}
if (sc->sc_xr_size > 1) {
prop = "num-ring-pages";
if (xs_setnum(sc->sc_parent, sc->sc_node, prop,
sc->sc_xr_size))
goto errout;
prop = "ring-page-order";
if (xs_setnum(sc->sc_parent, sc->sc_node, prop,
fls(sc->sc_xr_size) - 1))
goto errout;
}
prop = "event-channel";
if (xs_setnum(sc->sc_parent, sc->sc_node, prop, sc->sc_xih))
goto errout;
prop = "protocol";
#ifdef __amd64__
if (xs_setprop(sc->sc_parent, sc->sc_node, prop, "x86_64-abi",
strlen("x86_64-abi")))
goto errout;
#else
if (xs_setprop(sc->sc_parent, sc->sc_node, prop, "x86_32-abi",
strlen("x86_32-abi")))
goto errout;
#endif
if (xs_setprop(sc->sc_parent, sc->sc_node, "state",
XEN_STATE_INITIALIZED, strlen(XEN_STATE_INITIALIZED))) {
printf("%s: failed to set state to INITIALIZED\n",
sc->sc_dev.dv_xname);
xbf_ring_destroy(sc);
return (-1);
}
if (xs_await_transition(sc->sc_parent, sc->sc_backend, "state",
XEN_STATE_CONNECTED, 10000)) {
printf("%s: timed out waiting for backend to connect\n",
sc->sc_dev.dv_xname);
xbf_ring_destroy(sc);
return (-1);
}
action = "read";
prop = "sectors";
if ((error = xs_getnum(sc->sc_parent, sc->sc_backend, prop, &res)) != 0)
goto errout;
sc->sc_disk_size = res;
prop = "sector-size";
if ((error = xs_getnum(sc->sc_parent, sc->sc_backend, prop, &res)) != 0)
goto errout;
sc->sc_block_size = res;
prop = "feature-barrier";
if ((error = xs_getnum(sc->sc_parent, sc->sc_backend, prop, &res)) != 0
&& error != ENOENT)
goto errout;
if (error == 0 && res == 1)
sc->sc_caps |= XBF_CAP_BARRIER;
prop = "feature-flush-cache";
if ((error = xs_getnum(sc->sc_parent, sc->sc_backend, prop, &res)) != 0
&& error != ENOENT)
goto errout;
if (error == 0 && res == 1)
sc->sc_caps |= XBF_CAP_FLUSH;
#ifdef XBF_DEBUG
if (sc->sc_caps) {
printf("%s: features:", sc->sc_dev.dv_xname);
if (sc->sc_caps & XBF_CAP_BARRIER)
printf(" BARRIER");
if (sc->sc_caps & XBF_CAP_FLUSH)
printf(" FLUSH");
printf("\n");
}
#endif
if (xs_setprop(sc->sc_parent, sc->sc_node, "state",
XEN_STATE_CONNECTED, strlen(XEN_STATE_CONNECTED))) {
printf("%s: failed to set state to CONNECTED\n",
sc->sc_dev.dv_xname);
return (-1);
}
sc->sc_state = XBF_CONNECTED;
return (0);
errout:
printf("%s: failed to %s \"%s\" property (%d)\n", sc->sc_dev.dv_xname,
action, prop, error);
xbf_ring_destroy(sc);
return (-1);
}
int
xbf_dma_alloc(struct xbf_softc *sc, struct xbf_dma_mem *dma,
bus_size_t size, int nsegs, int mapflags)
{
int error;
dma->dma_tag = sc->sc_dmat;
dma->dma_seg = mallocarray(nsegs, sizeof(bus_dma_segment_t), M_DEVBUF,
M_ZERO | M_NOWAIT);
if (dma->dma_seg == NULL) {
printf("%s: failed to allocate a segment array\n",
sc->sc_dev.dv_xname);
return (ENOMEM);
}
error = bus_dmamap_create(dma->dma_tag, size, nsegs, PAGE_SIZE, 0,
BUS_DMA_NOWAIT, &dma->dma_map);
if (error) {
printf("%s: failed to create a memory map (%d)\n",
sc->sc_dev.dv_xname, error);
goto errout;
}
error = bus_dmamem_alloc(dma->dma_tag, size, PAGE_SIZE, 0,
dma->dma_seg, nsegs, &dma->dma_rsegs, BUS_DMA_ZERO |
BUS_DMA_NOWAIT);
if (error) {
printf("%s: failed to allocate DMA memory (%d)\n",
sc->sc_dev.dv_xname, error);
goto destroy;
}
error = bus_dmamem_map(dma->dma_tag, dma->dma_seg, dma->dma_rsegs,
size, &dma->dma_vaddr, BUS_DMA_NOWAIT);
if (error) {
printf("%s: failed to map DMA memory (%d)\n",
sc->sc_dev.dv_xname, error);
goto free;
}
error = bus_dmamap_load(dma->dma_tag, dma->dma_map, dma->dma_vaddr,
size, NULL, mapflags | BUS_DMA_NOWAIT);
if (error) {
printf("%s: failed to load DMA memory (%d)\n",
sc->sc_dev.dv_xname, error);
goto unmap;
}
dma->dma_size = size;
dma->dma_nsegs = nsegs;
return (0);
unmap:
bus_dmamem_unmap(dma->dma_tag, dma->dma_vaddr, size);
free:
bus_dmamem_free(dma->dma_tag, dma->dma_seg, dma->dma_rsegs);
destroy:
bus_dmamap_destroy(dma->dma_tag, dma->dma_map);
errout:
free(dma->dma_seg, M_DEVBUF, nsegs * sizeof(bus_dma_segment_t));
dma->dma_map = NULL;
dma->dma_tag = NULL;
return (error);
}
void
xbf_dma_free(struct xbf_softc *sc, struct xbf_dma_mem *dma)
{
if (dma->dma_tag == NULL || dma->dma_map == NULL)
return;
bus_dmamap_sync(dma->dma_tag, dma->dma_map, 0, dma->dma_size,
BUS_DMASYNC_POSTREAD | BUS_DMASYNC_POSTWRITE);
bus_dmamap_unload(dma->dma_tag, dma->dma_map);
bus_dmamem_unmap(dma->dma_tag, dma->dma_vaddr, dma->dma_size);
bus_dmamem_free(dma->dma_tag, dma->dma_seg, dma->dma_rsegs);
bus_dmamap_destroy(dma->dma_tag, dma->dma_map);
free(dma->dma_seg, M_DEVBUF, dma->dma_nsegs * sizeof(bus_dma_segment_t));
dma->dma_seg = NULL;
dma->dma_map = NULL;
dma->dma_size = 0;
}
int
xbf_ring_create(struct xbf_softc *sc)
{
int i;
if (xbf_dma_alloc(sc, &sc->sc_xr_dma, sc->sc_xr_size * PAGE_SIZE,
sc->sc_xr_size, sc->sc_domid << 16))
return (-1);
for (i = 0; i < sc->sc_xr_dma.dma_map->dm_nsegs; i++)
sc->sc_xr_ref[i] = sc->sc_xr_dma.dma_map->dm_segs[i].ds_addr;
sc->sc_xr = (struct xbf_ring *)sc->sc_xr_dma.dma_vaddr;
sc->sc_xr->xr_prod_event = sc->sc_xr->xr_cons_event = 1;
for (i = 0; i < sc->sc_xr_ndesc; i++)
sc->sc_xr->xr_desc[i].xrd_req.req_id = i;
/* The number of contiguous blocks addressable by one descriptor */
sc->sc_xrd_nblk = (PAGE_SIZE * XBF_MAX_SGE) / (1 << XBF_SEC_SHIFT);
if (xbf_alloc_ccbs(sc)) {
xbf_ring_destroy(sc);
return (-1);
}
return (0);
}
void
xbf_ring_destroy(struct xbf_softc *sc)
{
xbf_free_ccbs(sc);
xbf_dma_free(sc, &sc->sc_xr_dma);
sc->sc_xr = NULL;
}
void
xbf_stop(struct xbf_softc *sc)
{
struct xbf_ccb *ccb, *nccb;
bus_dmamap_t map;
bus_dmamap_sync(sc->sc_dmat, sc->sc_xr_dma.dma_map, 0,
sc->sc_xr_dma.dma_map->dm_mapsize, BUS_DMASYNC_POSTREAD |
BUS_DMASYNC_POSTWRITE);
TAILQ_FOREACH_SAFE(ccb, &sc->sc_ccb_sq, ccb_link, nccb) {
TAILQ_REMOVE(&sc->sc_ccb_sq, ccb, ccb_link);
if (ccb->ccb_bbuf.dma_size > 0)
map = ccb->ccb_bbuf.dma_map;
else
map = ccb->ccb_dmap;
bus_dmamap_sync(sc->sc_dmat, map, 0, map->dm_mapsize,
BUS_DMASYNC_POSTREAD | BUS_DMASYNC_POSTWRITE);
bus_dmamap_unload(sc->sc_dmat, map);
xbf_reclaim_cmd(ccb->ccb_xfer);
xbf_scsi_done(ccb->ccb_xfer, XS_SELTIMEOUT);
}
xbf_ring_destroy(sc);
}
int
xbf_alloc_ccbs(struct xbf_softc *sc)
{
int i, error;
TAILQ_INIT(&sc->sc_ccb_fq);
TAILQ_INIT(&sc->sc_ccb_sq);
mtx_init(&sc->sc_ccb_fqlck, IPL_BIO);
mtx_init(&sc->sc_ccb_sqlck, IPL_BIO);
sc->sc_nccb = sc->sc_xr_ndesc / 2;
sc->sc_ccbs = mallocarray(sc->sc_nccb, sizeof(struct xbf_ccb),
M_DEVBUF, M_ZERO | M_NOWAIT);
if (sc->sc_ccbs == NULL) {
printf("%s: failed to allocate CCBs\n", sc->sc_dev.dv_xname);
return (-1);
}
for (i = 0; i < sc->sc_nccb; i++) {
/*
* Each CCB is set up to use up to 2 descriptors and
* each descriptor can transfer XBF_MAX_SGE number of
* pages.
*/
error = bus_dmamap_create(sc->sc_dmat, MAXPHYS, 2 *
XBF_MAX_SGE, PAGE_SIZE, PAGE_SIZE, BUS_DMA_NOWAIT,
&sc->sc_ccbs[i].ccb_dmap);
if (error) {
printf("%s: failed to create a memory map for "
"the xfer %d (%d)\n", sc->sc_dev.dv_xname, i,
error);
goto errout;
}
xbf_put_ccb(sc, &sc->sc_ccbs[i]);
}
scsi_iopool_init(&sc->sc_iopool, sc, xbf_get_ccb, xbf_put_ccb);
return (0);
errout:
xbf_free_ccbs(sc);
return (-1);
}
void
xbf_free_ccbs(struct xbf_softc *sc)
{
struct xbf_ccb *ccb;
int i;
for (i = 0; i < sc->sc_nccb; i++) {
ccb = &sc->sc_ccbs[i];
if (ccb->ccb_dmap == NULL)
continue;
bus_dmamap_sync(sc->sc_dmat, ccb->ccb_dmap, 0, 0,
BUS_DMASYNC_POSTREAD | BUS_DMASYNC_POSTWRITE);
bus_dmamap_unload(sc->sc_dmat, ccb->ccb_dmap);
bus_dmamap_destroy(sc->sc_dmat, ccb->ccb_dmap);
}
free(sc->sc_ccbs, M_DEVBUF, sc->sc_nccb * sizeof(struct xbf_ccb));
sc->sc_ccbs = NULL;
sc->sc_nccb = 0;
}
void *
xbf_get_ccb(void *xsc)
{
struct xbf_softc *sc = xsc;
struct xbf_ccb *ccb;
if (sc->sc_state != XBF_CONNECTED &&
sc->sc_state != XBF_CLOSING)
return (NULL);
mtx_enter(&sc->sc_ccb_fqlck);
ccb = TAILQ_FIRST(&sc->sc_ccb_fq);
if (ccb != NULL)
TAILQ_REMOVE(&sc->sc_ccb_fq, ccb, ccb_link);
mtx_leave(&sc->sc_ccb_fqlck);
return (ccb);
}
void
xbf_put_ccb(void *xsc, void *io)
{
struct xbf_softc *sc = xsc;
struct xbf_ccb *ccb = io;
ccb->ccb_xfer = NULL;
mtx_enter(&sc->sc_ccb_fqlck);
TAILQ_INSERT_HEAD(&sc->sc_ccb_fq, ccb, ccb_link);
mtx_leave(&sc->sc_ccb_fqlck);
}
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