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|
/* $OpenBSD: gdt_common.c,v 1.32 2005/12/03 16:53:16 krw Exp $ */
/*
* Copyright (c) 1999, 2000, 2003 Niklas Hallqvist. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
* IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
* NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
* THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
/*
* This driver would not have written if it was not for the hardware donations
* from both ICP-Vortex and Öko.neT. I want to thank them for their support.
*/
#include <sys/param.h>
#include <sys/buf.h>
#include <sys/device.h>
#include <sys/ioctl.h>
#include <sys/kernel.h>
#include <sys/malloc.h>
#include <sys/systm.h>
#include <machine/bus.h>
#include <uvm/uvm_extern.h>
#include <scsi/scsi_all.h>
#include <scsi/scsi_disk.h>
#include <scsi/scsiconf.h>
#include <dev/biovar.h>
#include <dev/ic/gdtreg.h>
#include <dev/ic/gdtvar.h>
#include "bio.h"
#ifdef GDT_DEBUG
int gdt_maxcmds = GDT_MAXCMDS;
#undef GDT_MAXCMDS
#define GDT_MAXCMDS gdt_maxcmds
#endif
#define GDT_DRIVER_VERSION 1
#define GDT_DRIVER_SUBVERSION 2
int gdt_async_event(struct gdt_softc *, int);
void gdt_chain(struct gdt_softc *);
void gdt_clear_events(struct gdt_softc *);
void gdt_copy_internal_data(struct scsi_xfer *, u_int8_t *, size_t);
struct scsi_xfer *gdt_dequeue(struct gdt_softc *);
void gdt_enqueue(struct gdt_softc *, struct scsi_xfer *, int);
void gdt_enqueue_ccb(struct gdt_softc *, struct gdt_ccb *);
void gdt_eval_mapping(u_int32_t, int *, int *, int *);
int gdt_exec_ccb(struct gdt_ccb *);
void gdt_free_ccb(struct gdt_softc *, struct gdt_ccb *);
struct gdt_ccb *gdt_get_ccb(struct gdt_softc *, int);
void gdt_internal_cache_cmd(struct scsi_xfer *);
int gdt_internal_cmd(struct gdt_softc *, u_int8_t, u_int16_t,
u_int32_t, u_int32_t, u_int32_t);
#if NBIO > 0
int gdt_ioctl(struct device *, u_long, caddr_t);
#endif
int gdt_raw_scsi_cmd(struct scsi_xfer *);
int gdt_scsi_cmd(struct scsi_xfer *);
void gdt_start_ccbs(struct gdt_softc *);
int gdt_sync_event(struct gdt_softc *, int, u_int8_t,
struct scsi_xfer *);
void gdt_timeout(void *);
int gdt_wait(struct gdt_softc *, struct gdt_ccb *, int);
void gdt_watchdog(void *);
struct cfdriver gdt_cd = {
NULL, "gdt", DV_DULL
};
struct scsi_adapter gdt_switch = {
gdt_scsi_cmd, gdtminphys, 0, 0,
};
struct scsi_adapter gdt_raw_switch = {
gdt_raw_scsi_cmd, gdtminphys, 0, 0,
};
struct scsi_device gdt_dev = {
NULL, NULL, NULL, NULL
};
int gdt_cnt = 0;
u_int8_t gdt_polling;
u_int8_t gdt_from_wait;
struct gdt_softc *gdt_wait_gdt;
int gdt_wait_index;
#ifdef GDT_DEBUG
int gdt_debug = GDT_DEBUG;
#endif
int
gdt_attach(gdt)
struct gdt_softc *gdt;
{
u_int16_t cdev_cnt;
int i, id, drv_cyls, drv_hds, drv_secs, error, nsegs;
gdt_polling = 1;
gdt_from_wait = 0;
if (bus_dmamem_alloc(gdt->sc_dmat, GDT_SCRATCH_SZ, PAGE_SIZE, 0,
&gdt->sc_scratch_seg, 1, &nsegs, BUS_DMA_NOWAIT))
panic("%s: bus_dmamem_alloc failed", gdt->sc_dev.dv_xname);
if (bus_dmamem_map(gdt->sc_dmat, &gdt->sc_scratch_seg, 1,
GDT_SCRATCH_SZ, &gdt->sc_scratch, BUS_DMA_NOWAIT))
panic("%s: bus_dmamem_map failed", gdt->sc_dev.dv_xname);
gdt_clear_events(gdt);
TAILQ_INIT(&gdt->sc_free_ccb);
TAILQ_INIT(&gdt->sc_ccbq);
TAILQ_INIT(&gdt->sc_ucmdq);
LIST_INIT(&gdt->sc_queue);
/* Initialize the ccbs */
for (i = 0; i < GDT_MAXCMDS; i++) {
gdt->sc_ccbs[i].gc_cmd_index = i + 2;
error = bus_dmamap_create(gdt->sc_dmat,
(GDT_MAXOFFSETS - 1) << PGSHIFT, GDT_MAXOFFSETS,
(GDT_MAXOFFSETS - 1) << PGSHIFT, 0,
BUS_DMA_NOWAIT | BUS_DMA_ALLOCNOW,
&gdt->sc_ccbs[i].gc_dmamap_xfer);
if (error) {
printf("%s: cannot create ccb dmamap (%d)",
gdt->sc_dev.dv_xname, error);
return (1);
}
(void)gdt_ccb_set_cmd(gdt->sc_ccbs + i, GDT_GCF_UNUSED);
TAILQ_INSERT_TAIL(&gdt->sc_free_ccb, &gdt->sc_ccbs[i],
gc_chain);
}
/* Fill in the prototype scsi_link. */
gdt->sc_link.adapter_softc = gdt;
gdt->sc_link.adapter = &gdt_switch;
gdt->sc_link.device = &gdt_dev;
/* openings will be filled in later. */
gdt->sc_link.adapter_buswidth =
(gdt->sc_class & GDT_FC) ? GDT_MAXID : GDT_MAX_HDRIVES;
gdt->sc_link.adapter_target = gdt->sc_link.adapter_buswidth;
if (!gdt_internal_cmd(gdt, GDT_SCREENSERVICE, GDT_INIT, 0, 0, 0)) {
printf("screen service initialization error %d\n",
gdt->sc_status);
return (1);
}
if (!gdt_internal_cmd(gdt, GDT_CACHESERVICE, GDT_INIT, GDT_LINUX_OS, 0,
0)) {
printf("cache service initialization error %d\n",
gdt->sc_status);
return (1);
}
cdev_cnt = (u_int16_t)gdt->sc_info;
/* Detect number of busses */
gdt_enc32(gdt->sc_scratch + GDT_IOC_VERSION, GDT_IOC_NEWEST);
gdt->sc_scratch[GDT_IOC_LIST_ENTRIES] = GDT_MAXBUS;
gdt->sc_scratch[GDT_IOC_FIRST_CHAN] = 0;
gdt->sc_scratch[GDT_IOC_LAST_CHAN] = GDT_MAXBUS - 1;
gdt_enc32(gdt->sc_scratch + GDT_IOC_LIST_OFFSET, GDT_IOC_HDR_SZ);
if (gdt_internal_cmd(gdt, GDT_CACHESERVICE, GDT_IOCTL,
GDT_IOCHAN_RAW_DESC, GDT_INVALID_CHANNEL,
GDT_IOC_HDR_SZ + GDT_RAWIOC_SZ)) {
gdt->sc_bus_cnt = gdt->sc_scratch[GDT_IOC_CHAN_COUNT];
for (i = 0; i < gdt->sc_bus_cnt; i++) {
id = gdt->sc_scratch[GDT_IOC_HDR_SZ +
i * GDT_RAWIOC_SZ + GDT_RAWIOC_PROC_ID];
gdt->sc_bus_id[id] = id < GDT_MAXBUS ? id : 0xff;
}
} else {
/* New method failed, use fallback. */
gdt_enc32(gdt->sc_scratch + GDT_GETCH_CHANNEL_NO, i);
for (i = 0; i < GDT_MAXBUS; i++) {
if (!gdt_internal_cmd(gdt, GDT_CACHESERVICE, GDT_IOCTL,
GDT_SCSI_CHAN_CNT | GDT_L_CTRL_PATTERN,
GDT_IO_CHANNEL | GDT_INVALID_CHANNEL,
GDT_GETCH_SZ)) {
if (i == 0) {
printf("cannot get channel count, "
"error %d\n", gdt->sc_status);
return (1);
}
break;
}
gdt->sc_bus_id[i] =
(gdt->sc_scratch[GDT_GETCH_SIOP_ID] < GDT_MAXID) ?
gdt->sc_scratch[GDT_GETCH_SIOP_ID] : 0xff;
}
gdt->sc_bus_cnt = i;
}
/* Read cache configuration */
if (!gdt_internal_cmd(gdt, GDT_CACHESERVICE, GDT_IOCTL, GDT_CACHE_INFO,
GDT_INVALID_CHANNEL, GDT_CINFO_SZ)) {
printf("cannot get cache info, error %d\n", gdt->sc_status);
return (1);
}
gdt->sc_cpar.cp_version =
gdt_dec32(gdt->sc_scratch + GDT_CPAR_VERSION);
gdt->sc_cpar.cp_state = gdt_dec16(gdt->sc_scratch + GDT_CPAR_STATE);
gdt->sc_cpar.cp_strategy =
gdt_dec16(gdt->sc_scratch + GDT_CPAR_STRATEGY);
gdt->sc_cpar.cp_write_back =
gdt_dec16(gdt->sc_scratch + GDT_CPAR_WRITE_BACK);
gdt->sc_cpar.cp_block_size =
gdt_dec16(gdt->sc_scratch + GDT_CPAR_BLOCK_SIZE);
/* Read board information and features */
gdt->sc_more_proc = 0;
if (gdt_internal_cmd(gdt, GDT_CACHESERVICE, GDT_IOCTL, GDT_BOARD_INFO,
GDT_INVALID_CHANNEL, GDT_BINFO_SZ)) {
/* XXX A lot of these assignments can probably go later */
gdt->sc_binfo.bi_ser_no =
gdt_dec32(gdt->sc_scratch + GDT_BINFO_SER_NO);
bcopy(gdt->sc_scratch + GDT_BINFO_OEM_ID,
gdt->sc_binfo.bi_oem_id, sizeof gdt->sc_binfo.bi_oem_id);
gdt->sc_binfo.bi_ep_flags =
gdt_dec16(gdt->sc_scratch + GDT_BINFO_EP_FLAGS);
gdt->sc_binfo.bi_proc_id =
gdt_dec32(gdt->sc_scratch + GDT_BINFO_PROC_ID);
gdt->sc_binfo.bi_memsize =
gdt_dec32(gdt->sc_scratch + GDT_BINFO_MEMSIZE);
gdt->sc_binfo.bi_mem_banks =
gdt->sc_scratch[GDT_BINFO_MEM_BANKS];
gdt->sc_binfo.bi_chan_type =
gdt->sc_scratch[GDT_BINFO_CHAN_TYPE];
gdt->sc_binfo.bi_chan_count =
gdt->sc_scratch[GDT_BINFO_CHAN_COUNT];
gdt->sc_binfo.bi_rdongle_pres =
gdt->sc_scratch[GDT_BINFO_RDONGLE_PRES];
gdt->sc_binfo.bi_epr_fw_ver =
gdt_dec32(gdt->sc_scratch + GDT_BINFO_EPR_FW_VER);
gdt->sc_binfo.bi_upd_fw_ver =
gdt_dec32(gdt->sc_scratch + GDT_BINFO_UPD_FW_VER);
gdt->sc_binfo.bi_upd_revision =
gdt_dec32(gdt->sc_scratch + GDT_BINFO_UPD_REVISION);
bcopy(gdt->sc_scratch + GDT_BINFO_TYPE_STRING,
gdt->sc_binfo.bi_type_string,
sizeof gdt->sc_binfo.bi_type_string);
bcopy(gdt->sc_scratch + GDT_BINFO_RAID_STRING,
gdt->sc_binfo.bi_raid_string,
sizeof gdt->sc_binfo.bi_raid_string);
gdt->sc_binfo.bi_update_pres =
gdt->sc_scratch[GDT_BINFO_UPDATE_PRES];
gdt->sc_binfo.bi_xor_pres =
gdt->sc_scratch[GDT_BINFO_XOR_PRES];
gdt->sc_binfo.bi_prom_type =
gdt->sc_scratch[GDT_BINFO_PROM_TYPE];
gdt->sc_binfo.bi_prom_count =
gdt->sc_scratch[GDT_BINFO_PROM_COUNT];
gdt->sc_binfo.bi_dup_pres =
gdt_dec32(gdt->sc_scratch + GDT_BINFO_DUP_PRES);
gdt->sc_binfo.bi_chan_pres =
gdt_dec32(gdt->sc_scratch + GDT_BINFO_CHAN_PRES);
gdt->sc_binfo.bi_mem_pres =
gdt_dec32(gdt->sc_scratch + GDT_BINFO_MEM_PRES);
gdt->sc_binfo.bi_ft_bus_system =
gdt->sc_scratch[GDT_BINFO_FT_BUS_SYSTEM];
gdt->sc_binfo.bi_subtype_valid =
gdt->sc_scratch[GDT_BINFO_SUBTYPE_VALID];
gdt->sc_binfo.bi_board_subtype =
gdt->sc_scratch[GDT_BINFO_BOARD_SUBTYPE];
gdt->sc_binfo.bi_rampar_pres =
gdt->sc_scratch[GDT_BINFO_RAMPAR_PRES];
if (gdt_internal_cmd(gdt, GDT_CACHESERVICE, GDT_IOCTL,
GDT_BOARD_FEATURES, GDT_INVALID_CHANNEL, GDT_BFEAT_SZ)) {
gdt->sc_bfeat.bf_chaining =
gdt->sc_scratch[GDT_BFEAT_CHAINING];
gdt->sc_bfeat.bf_striping =
gdt->sc_scratch[GDT_BFEAT_STRIPING];
gdt->sc_bfeat.bf_mirroring =
gdt->sc_scratch[GDT_BFEAT_MIRRORING];
gdt->sc_bfeat.bf_raid =
gdt->sc_scratch[GDT_BFEAT_RAID];
gdt->sc_more_proc = 1;
}
} else {
/* XXX Not implemented yet */
}
/* Read more information */
if (gdt->sc_more_proc) {
/* XXX Not implemented yet */
}
if (!gdt_internal_cmd(gdt, GDT_SCSIRAWSERVICE, GDT_INIT, 0, 0, 0)) {
printf("raw service initialization error %d\n",
gdt->sc_status);
return (1);
}
/* Set/get features raw service (scatter/gather) */
gdt->sc_raw_feat = 0;
if (gdt_internal_cmd(gdt, GDT_SCSIRAWSERVICE, GDT_SET_FEAT,
GDT_SCATTER_GATHER, 0, 0))
if (gdt_internal_cmd(gdt, GDT_SCSIRAWSERVICE, GDT_GET_FEAT, 0,
0, 0))
gdt->sc_raw_feat = gdt->sc_info;
/* Set/get features cache service (scatter/gather) */
gdt->sc_cache_feat = 0;
if (gdt_internal_cmd(gdt, GDT_CACHESERVICE, GDT_SET_FEAT, 0,
GDT_SCATTER_GATHER, 0))
if (gdt_internal_cmd(gdt, GDT_CACHESERVICE, GDT_GET_FEAT, 0, 0,
0))
gdt->sc_cache_feat = gdt->sc_info;
/* XXX Linux reserve drives here, potentially */
gdt->sc_ndevs = 0;
/* Scan for cache devices */
for (i = 0; i < cdev_cnt && i < GDT_MAX_HDRIVES; i++)
if (gdt_internal_cmd(gdt, GDT_CACHESERVICE, GDT_INFO, i, 0,
0)) {
gdt->sc_hdr[i].hd_present = 1;
gdt->sc_hdr[i].hd_size = gdt->sc_info;
if (gdt->sc_hdr[i].hd_size > 0)
gdt->sc_ndevs++;
/*
* Evaluate mapping (sectors per head, heads per cyl)
*/
gdt->sc_hdr[i].hd_size &= ~GDT_SECS32;
if (gdt->sc_info2 == 0)
gdt_eval_mapping(gdt->sc_hdr[i].hd_size,
&drv_cyls, &drv_hds, &drv_secs);
else {
drv_hds = gdt->sc_info2 & 0xff;
drv_secs = (gdt->sc_info2 >> 8) & 0xff;
drv_cyls = gdt->sc_hdr[i].hd_size / drv_hds /
drv_secs;
}
gdt->sc_hdr[i].hd_heads = drv_hds;
gdt->sc_hdr[i].hd_secs = drv_secs;
/* Round the size */
gdt->sc_hdr[i].hd_size = drv_cyls * drv_hds * drv_secs;
if (gdt_internal_cmd(gdt, GDT_CACHESERVICE,
GDT_DEVTYPE, i, 0, 0))
gdt->sc_hdr[i].hd_devtype = gdt->sc_info;
}
if (gdt->sc_ndevs == 0)
gdt->sc_link.openings = 0;
else
gdt->sc_link.openings = (GDT_MAXCMDS - GDT_CMD_RESERVE) /
gdt->sc_ndevs;
printf("dpmem %x %d-bus %d cache device%s\n", gdt->sc_dpmembase,
gdt->sc_bus_cnt, cdev_cnt, cdev_cnt == 1 ? "" : "s");
printf("%s: ver %x, cache %s, strategy %d, writeback %s, blksz %d\n",
gdt->sc_dev.dv_xname, gdt->sc_cpar.cp_version,
gdt->sc_cpar.cp_state ? "on" : "off", gdt->sc_cpar.cp_strategy,
gdt->sc_cpar.cp_write_back ? "on" : "off",
gdt->sc_cpar.cp_block_size);
#if 1
printf("%s: raw feat %x cache feat %x\n", gdt->sc_dev.dv_xname,
gdt->sc_raw_feat, gdt->sc_cache_feat);
#endif
#if NBIO > 0
if (bio_register(&gdt->sc_dev, gdt_ioctl) != 0)
panic("%s: controller registration failed", gdt->sc_dev.dv_xname);
#endif
gdt_cnt++;
config_found(&gdt->sc_dev, &gdt->sc_link, scsiprint);
gdt->sc_raw_link = malloc(gdt->sc_bus_cnt * sizeof (struct scsi_link),
M_DEVBUF, M_NOWAIT);
if (gdt->sc_raw_link == NULL)
panic("gdt_attach");
bzero(gdt->sc_raw_link, gdt->sc_bus_cnt * sizeof (struct scsi_link));
for (i = 0; i < gdt->sc_bus_cnt; i++) {
/* Fill in the prototype scsi_link. */
gdt->sc_raw_link[i].adapter_softc = gdt;
gdt->sc_raw_link[i].adapter = &gdt_raw_switch;
gdt->sc_raw_link[i].adapter_target = 7;
gdt->sc_raw_link[i].device = &gdt_dev;
gdt->sc_raw_link[i].openings = 4; /* XXX a guess */
gdt->sc_raw_link[i].adapter_buswidth =
(gdt->sc_class & GDT_FC) ? GDT_MAXID : 16; /* XXX */
config_found(&gdt->sc_dev, &gdt->sc_raw_link[i], scsiprint);
}
gdt_polling = 0;
return (0);
}
void
gdt_eval_mapping(size, cyls, heads, secs)
u_int32_t size;
int *cyls, *heads, *secs;
{
*cyls = size / GDT_HEADS / GDT_SECS;
if (*cyls < GDT_MAXCYLS) {
*heads = GDT_HEADS;
*secs = GDT_SECS;
} else {
/* Too high for 64 * 32 */
*cyls = size / GDT_MEDHEADS / GDT_MEDSECS;
if (*cyls < GDT_MAXCYLS) {
*heads = GDT_MEDHEADS;
*secs = GDT_MEDSECS;
} else {
/* Too high for 127 * 63 */
*cyls = size / GDT_BIGHEADS / GDT_BIGSECS;
*heads = GDT_BIGHEADS;
*secs = GDT_BIGSECS;
}
}
}
/*
* Insert a command into the driver queue, either at the front or at the tail.
* It's ok to overload the freelist link as these structures are never on
* the freelist at this time.
*/
void
gdt_enqueue(gdt, xs, infront)
struct gdt_softc *gdt;
struct scsi_xfer *xs;
int infront;
{
if (infront || LIST_FIRST(&gdt->sc_queue) == NULL) {
if (LIST_FIRST(&gdt->sc_queue) == NULL)
gdt->sc_queuelast = xs;
LIST_INSERT_HEAD(&gdt->sc_queue, xs, free_list);
return;
}
LIST_INSERT_AFTER(gdt->sc_queuelast, xs, free_list);
gdt->sc_queuelast = xs;
}
/*
* Pull a command off the front of the driver queue.
*/
struct scsi_xfer *
gdt_dequeue(gdt)
struct gdt_softc *gdt;
{
struct scsi_xfer *xs;
xs = LIST_FIRST(&gdt->sc_queue);
if (xs == NULL)
return (NULL);
LIST_REMOVE(xs, free_list);
if (LIST_FIRST(&gdt->sc_queue) == NULL)
gdt->sc_queuelast = NULL;
return (xs);
}
/*
* Start a SCSI operation on a cache device.
* XXX Polled operation is not yet complete. What kind of locking do we need?
*/
int
gdt_scsi_cmd(xs)
struct scsi_xfer *xs;
{
struct scsi_link *link = xs->sc_link;
struct gdt_softc *gdt = link->adapter_softc;
u_int8_t target = link->target;
struct gdt_ccb *ccb;
#if 0
struct gdt_ucmd *ucmd;
#endif
u_int32_t blockno, blockcnt;
struct scsi_rw *rw;
struct scsi_rw_big *rwb;
bus_dmamap_t xfer;
int error, retval = SUCCESSFULLY_QUEUED;
gdt_lock_t lock;
GDT_DPRINTF(GDT_D_CMD, ("gdt_scsi_cmd "));
xs->error = XS_NOERROR;
if (target >= GDT_MAX_HDRIVES || !gdt->sc_hdr[target].hd_present ||
link->lun != 0) {
/*
* XXX Should be XS_SENSE but that would require setting up a
* faked sense too.
*/
xs->error = XS_DRIVER_STUFFUP;
xs->flags |= ITSDONE;
scsi_done(xs);
return (COMPLETE);
}
lock = GDT_LOCK_GDT(lock);
/* Don't double enqueue if we came from gdt_chain. */
if (xs != LIST_FIRST(&gdt->sc_queue))
gdt_enqueue(gdt, xs, 0);
while ((xs = gdt_dequeue(gdt)) != NULL) {
xs->error = XS_NOERROR;
ccb = NULL;
link = xs->sc_link;
target = link->target;
if (!gdt_polling && !(xs->flags & SCSI_POLL) &&
gdt->sc_test_busy(gdt)) {
/*
* Put it back in front. XXX Should we instead
* set xs->error to XS_BUSY?
*/
gdt_enqueue(gdt, xs, 1);
break;
}
switch (xs->cmd->opcode) {
case TEST_UNIT_READY:
case REQUEST_SENSE:
case INQUIRY:
case MODE_SENSE:
case START_STOP:
case READ_CAPACITY:
#if 0
case VERIFY:
#endif
gdt_internal_cache_cmd(xs);
xs->flags |= ITSDONE;
scsi_done(xs);
goto ready;
case PREVENT_ALLOW:
GDT_DPRINTF(GDT_D_CMD, ("PREVENT/ALLOW "));
/* XXX Not yet implemented */
xs->error = XS_NOERROR;
xs->flags |= ITSDONE;
scsi_done(xs);
goto ready;
default:
GDT_DPRINTF(GDT_D_CMD,
("unknown opc %d ", xs->cmd->opcode));
/* XXX Not yet implemented */
xs->error = XS_DRIVER_STUFFUP;
xs->flags |= ITSDONE;
scsi_done(xs);
goto ready;
case READ_COMMAND:
case READ_BIG:
case WRITE_COMMAND:
case WRITE_BIG:
case SYNCHRONIZE_CACHE:
/*
* A new command chain, start from the beginning.
*/
gdt->sc_cmd_off = 0;
if (xs->cmd->opcode != SYNCHRONIZE_CACHE) {
/* A read or write operation. */
if (xs->cmdlen == 6) {
rw = (struct scsi_rw *)xs->cmd;
blockno = _3btol(rw->addr) &
(SRW_TOPADDR << 16 | 0xffff);
blockcnt =
rw->length ? rw->length : 0x100;
} else {
rwb = (struct scsi_rw_big *)xs->cmd;
blockno = _4btol(rwb->addr);
blockcnt = _2btol(rwb->length);
}
if (blockno >= gdt->sc_hdr[target].hd_size ||
blockno + blockcnt >
gdt->sc_hdr[target].hd_size) {
printf(
"%s: out of bounds %u-%u >= %u\n",
gdt->sc_dev.dv_xname, blockno,
blockcnt,
gdt->sc_hdr[target].hd_size);
/*
* XXX Should be XS_SENSE but that
* would require setting up a faked
* sense too.
*/
xs->error = XS_DRIVER_STUFFUP;
xs->flags |= ITSDONE;
scsi_done(xs);
goto ready;
}
}
ccb = gdt_get_ccb(gdt, xs->flags);
/*
* We are out of commands, try again in a little while.
*/
if (ccb == NULL) {
GDT_UNLOCK_GDT(gdt, lock);
return (TRY_AGAIN_LATER);
}
ccb->gc_blockno = blockno;
ccb->gc_blockcnt = blockcnt;
ccb->gc_xs = xs;
ccb->gc_timeout = xs->timeout;
ccb->gc_service = GDT_CACHESERVICE;
gdt_ccb_set_cmd(ccb, GDT_GCF_SCSI);
if (xs->cmd->opcode != SYNCHRONIZE_CACHE) {
xfer = ccb->gc_dmamap_xfer;
error = bus_dmamap_load(gdt->sc_dmat, xfer,
xs->data, xs->datalen, NULL,
(xs->flags & SCSI_NOSLEEP) ?
BUS_DMA_NOWAIT : BUS_DMA_WAITOK);
if (error) {
printf("%s: gdt_scsi_cmd: ",
gdt->sc_dev.dv_xname);
if (error == EFBIG)
printf(
"more than %d dma segs\n",
GDT_MAXOFFSETS);
else
printf("error %d "
"loading dma map\n",
error);
gdt_free_ccb(gdt, ccb);
xs->error = XS_DRIVER_STUFFUP;
xs->flags |= ITSDONE;
scsi_done(xs);
goto ready;
}
bus_dmamap_sync(gdt->sc_dmat, xfer, 0,
xfer->dm_mapsize,
(xs->flags & SCSI_DATA_IN) ?
BUS_DMASYNC_PREREAD :
BUS_DMASYNC_PREWRITE);
}
gdt_enqueue_ccb(gdt, ccb);
/* XXX what if enqueue did not start a transfer? */
if (gdt_polling || (xs->flags & SCSI_POLL)) {
if (!gdt_wait(gdt, ccb, ccb->gc_timeout)) {
GDT_UNLOCK_GDT(gdt, lock);
printf("%s: command %d timed out\n",
gdt->sc_dev.dv_xname,
ccb->gc_cmd_index);
return (TRY_AGAIN_LATER);
}
xs->flags |= ITSDONE;
scsi_done(xs);
}
}
ready:
/*
* Don't process the queue if we are polling.
*/
if (xs->flags & SCSI_POLL) {
retval = COMPLETE;
break;
}
}
GDT_UNLOCK_GDT(gdt, lock);
return (retval);
}
/* XXX Currently only for cacheservice, returns 0 if busy */
int
gdt_exec_ccb(ccb)
struct gdt_ccb *ccb;
{
struct scsi_xfer *xs = ccb->gc_xs;
struct scsi_link *link = xs->sc_link;
struct gdt_softc *gdt = link->adapter_softc;
u_int8_t target = link->target;
u_int32_t sg_canz;
bus_dmamap_t xfer;
int i;
#if 1 /* XXX */
static int __level = 0;
if (__level++ > 0)
panic("level > 0");
#endif
GDT_DPRINTF(GDT_D_CMD, ("gdt_exec_ccb(%p, %p) ", xs, ccb));
gdt->sc_cmd_cnt = 0;
/*
* XXX Yeah I know it's an always-true condition, but that may change
* later.
*/
if (gdt->sc_cmd_cnt == 0)
gdt->sc_set_sema0(gdt);
gdt_enc32(gdt->sc_cmd + GDT_CMD_COMMANDINDEX, ccb->gc_cmd_index);
gdt_enc32(gdt->sc_cmd + GDT_CMD_BOARDNODE, GDT_LOCALBOARD);
gdt_enc16(gdt->sc_cmd + GDT_CMD_UNION + GDT_CACHE_DEVICENO,
target);
switch (xs->cmd->opcode) {
case PREVENT_ALLOW:
case SYNCHRONIZE_CACHE:
if (xs->cmd->opcode == PREVENT_ALLOW) {
/* XXX PREVENT_ALLOW support goes here */
} else {
GDT_DPRINTF(GDT_D_CMD,
("SYNCHRONIZE CACHE tgt %d ", target));
gdt->sc_cmd[GDT_CMD_OPCODE] = GDT_FLUSH;
}
gdt_enc32(gdt->sc_cmd + GDT_CMD_UNION + GDT_CACHE_BLOCKNO,
1);
sg_canz = 0;
break;
case WRITE_COMMAND:
case WRITE_BIG:
/* XXX WRITE_THR could be supported too */
gdt->sc_cmd[GDT_CMD_OPCODE] = GDT_WRITE;
break;
case READ_COMMAND:
case READ_BIG:
gdt->sc_cmd[GDT_CMD_OPCODE] = GDT_READ;
break;
}
if (xs->cmd->opcode != PREVENT_ALLOW &&
xs->cmd->opcode != SYNCHRONIZE_CACHE) {
gdt_enc32(gdt->sc_cmd + GDT_CMD_UNION + GDT_CACHE_BLOCKNO,
ccb->gc_blockno);
gdt_enc32(gdt->sc_cmd + GDT_CMD_UNION + GDT_CACHE_BLOCKCNT,
ccb->gc_blockcnt);
xfer = ccb->gc_dmamap_xfer;
if (gdt->sc_cache_feat & GDT_SCATTER_GATHER) {
gdt_enc32(
gdt->sc_cmd + GDT_CMD_UNION + GDT_CACHE_DESTADDR,
0xffffffff);
for (i = 0; i < xfer->dm_nsegs; i++) {
gdt_enc32(gdt->sc_cmd + GDT_CMD_UNION +
GDT_CACHE_SG_LST + i * GDT_SG_SZ +
GDT_SG_PTR,
xfer->dm_segs[i].ds_addr);
gdt_enc32(gdt->sc_cmd + GDT_CMD_UNION +
GDT_CACHE_SG_LST + i * GDT_SG_SZ +
GDT_SG_LEN,
xfer->dm_segs[i].ds_len);
GDT_DPRINTF(GDT_D_IO,
("#%d va %p pa %p len %x\n", i, buf,
xfer->dm_segs[i].ds_addr,
xfer->dm_segs[i].ds_len));
}
sg_canz = xfer->dm_nsegs;
gdt_enc32(
gdt->sc_cmd + GDT_CMD_UNION + GDT_CACHE_SG_LST +
sg_canz * GDT_SG_SZ + GDT_SG_LEN, 0);
} else {
/* XXX Hardly correct */
gdt_enc32(
gdt->sc_cmd + GDT_CMD_UNION + GDT_CACHE_DESTADDR,
xfer->dm_segs[0].ds_addr);
sg_canz = 0;
}
}
gdt_enc32(gdt->sc_cmd + GDT_CMD_UNION + GDT_CACHE_SG_CANZ, sg_canz);
gdt->sc_cmd_len =
roundup(GDT_CMD_UNION + GDT_CACHE_SG_LST + sg_canz * GDT_SG_SZ,
sizeof (u_int32_t));
if (gdt->sc_cmd_cnt > 0 &&
gdt->sc_cmd_off + gdt->sc_cmd_len + GDT_DPMEM_COMMAND_OFFSET >
gdt->sc_ic_all_size) {
printf("%s: DPMEM overflow\n", gdt->sc_dev.dv_xname);
gdt_free_ccb(gdt, ccb);
xs->error = XS_BUSY;
#if 1 /* XXX */
__level--;
#endif
return (0);
}
gdt->sc_copy_cmd(gdt, ccb);
gdt->sc_release_event(gdt, ccb);
xs->error = XS_NOERROR;
xs->resid = 0;
#if 1 /* XXX */
__level--;
#endif
return (1);
}
void
gdt_copy_internal_data(xs, data, size)
struct scsi_xfer *xs;
u_int8_t *data;
size_t size;
{
size_t copy_cnt;
GDT_DPRINTF(GDT_D_MISC, ("gdt_copy_internal_data "));
if (!xs->datalen)
printf("uio move not yet supported\n");
else {
copy_cnt = MIN(size, xs->datalen);
bcopy(data, xs->data, copy_cnt);
}
}
/* Emulated SCSI operation on cache device */
void
gdt_internal_cache_cmd(xs)
struct scsi_xfer *xs;
{
struct scsi_link *link = xs->sc_link;
struct gdt_softc *gdt = link->adapter_softc;
struct scsi_inquiry_data inq;
struct scsi_sense_data sd;
struct scsi_read_cap_data rcd;
u_int8_t target = link->target;
GDT_DPRINTF(GDT_D_CMD, ("gdt_internal_cache_cmd "));
switch (xs->cmd->opcode) {
case TEST_UNIT_READY:
case START_STOP:
#if 0
case VERIFY:
#endif
GDT_DPRINTF(GDT_D_CMD, ("opc %d tgt %d ", xs->cmd->opcode,
target));
break;
case REQUEST_SENSE:
GDT_DPRINTF(GDT_D_CMD, ("REQUEST SENSE tgt %d ", target));
bzero(&sd, sizeof sd);
sd.error_code = 0x70;
sd.segment = 0;
sd.flags = SKEY_NO_SENSE;
gdt_enc32(sd.info, 0);
sd.extra_len = 0;
gdt_copy_internal_data(xs, (u_int8_t *)&sd, sizeof sd);
break;
case INQUIRY:
GDT_DPRINTF(GDT_D_CMD, ("INQUIRY tgt %d devtype %x ", target,
gdt->sc_hdr[target].hd_devtype));
bzero(&inq, sizeof inq);
inq.device =
(gdt->sc_hdr[target].hd_devtype & 4) ? T_CDROM : T_DIRECT;
inq.dev_qual2 =
(gdt->sc_hdr[target].hd_devtype & 1) ? SID_REMOVABLE : 0;
inq.version = 2;
inq.response_format = 2;
inq.additional_length = 32;
strlcpy(inq.vendor, "ICP ", sizeof inq.vendor);
snprintf(inq.product, sizeof inq.product, "Host drive #%02d",
target);
strlcpy(inq.revision, " ", sizeof inq.revision);
gdt_copy_internal_data(xs, (u_int8_t *)&inq, sizeof inq);
break;
case READ_CAPACITY:
GDT_DPRINTF(GDT_D_CMD, ("READ CAPACITY tgt %d ", target));
bzero(&rcd, sizeof rcd);
_lto4b(gdt->sc_hdr[target].hd_size - 1, rcd.addr);
_lto4b(GDT_SECTOR_SIZE, rcd.length);
gdt_copy_internal_data(xs, (u_int8_t *)&rcd, sizeof rcd);
break;
default:
GDT_DPRINTF(GDT_D_CMD, ("unsupported scsi command %#x tgt %d ",
xs->cmd->opcode, target));
xs->error = XS_DRIVER_STUFFUP;
return;
}
xs->error = XS_NOERROR;
}
/* Start a raw SCSI operation */
int
gdt_raw_scsi_cmd(xs)
struct scsi_xfer *xs;
{
GDT_DPRINTF(GDT_D_CMD, ("gdt_raw_scsi_cmd "));
/* XXX Not yet implemented */
xs->error = XS_DRIVER_STUFFUP;
return (COMPLETE);
}
void
gdt_clear_events(gdt)
struct gdt_softc *gdt;
{
GDT_DPRINTF(GDT_D_MISC, ("gdt_clear_events(%p) ", gdt));
/* XXX To be implemented */
}
int
gdt_async_event(gdt, service)
struct gdt_softc *gdt;
int service;
{
GDT_DPRINTF(GDT_D_INTR, ("gdt_async_event(%p, %d) ", gdt, service));
if (service == GDT_SCREENSERVICE) {
/* XXX To be implemented */
} else {
/* XXX To be implemented */
}
return (0);
}
int
gdt_sync_event(gdt, service, index, xs)
struct gdt_softc *gdt;
int service;
u_int8_t index;
struct scsi_xfer *xs;
{
GDT_DPRINTF(GDT_D_INTR,
("gdt_sync_event(%p, %d, %d, %p) ", gdt, service, index, xs));
if (service == GDT_SCREENSERVICE) {
GDT_DPRINTF(GDT_D_INTR, ("service == GDT_SCREENSERVICE "));
/* XXX To be implemented */
return (0);
} else {
switch (gdt->sc_status) {
case GDT_S_OK:
GDT_DPRINTF(GDT_D_INTR, ("sc_status == GDT_S_OK "));
/* XXX To be implemented */
break;
case GDT_S_BSY:
GDT_DPRINTF(GDT_D_INTR, ("sc_status == GDT_S_BSY "));
/* XXX To be implemented */
return (2);
default:
GDT_DPRINTF(GDT_D_INTR, ("sc_status is %d ",
gdt->sc_status));
/* XXX To be implemented */
return (0);
}
}
return (1);
}
int
gdt_intr(arg)
void *arg;
{
struct gdt_softc *gdt = arg;
struct gdt_intr_ctx ctx;
int chain = 1;
int sync_val = 0;
struct scsi_xfer *xs;
int prev_cmd;
struct gdt_ccb *ccb;
gdt_lock_t lock;
GDT_DPRINTF(GDT_D_INTR, ("gdt_intr(%p) ", gdt));
/* If polling and we were not called from gdt_wait, just return */
if (gdt_polling && !gdt_from_wait)
return (0);
if (!gdt_polling)
lock = GDT_LOCK_GDT(gdt);
ctx.istatus = gdt->sc_get_status(gdt);
if (!ctx.istatus) {
if (!gdt_polling)
GDT_UNLOCK_GDT(gdt, lock);
gdt->sc_status = GDT_S_NO_STATUS;
return (0);
}
gdt_wait_index = 0;
ctx.service = ctx.info2 = 0;
gdt->sc_intr(gdt, &ctx);
gdt->sc_status = ctx.cmd_status;
gdt->sc_info = ctx.info;
gdt->sc_info2 = ctx.info2;
if (gdt_from_wait) {
gdt_wait_gdt = gdt;
gdt_wait_index = ctx.istatus;
}
switch (ctx.istatus) {
case GDT_ASYNCINDEX:
gdt_async_event(gdt, ctx.service);
goto finish;
case GDT_SPEZINDEX:
printf("%s: uninitialized or unknown service (%d %d)\n",
gdt->sc_dev.dv_xname, ctx.info, ctx.info2);
chain = 0;
goto finish;
}
ccb = &gdt->sc_ccbs[ctx.istatus - 2];
xs = ccb->gc_xs;
if (!gdt_polling)
timeout_del(&xs->stimeout);
ctx.service = ccb->gc_service;
prev_cmd = ccb->gc_flags & GDT_GCF_CMD_MASK;
if (xs && xs->cmd->opcode != PREVENT_ALLOW &&
xs->cmd->opcode != SYNCHRONIZE_CACHE) {
bus_dmamap_sync(gdt->sc_dmat, ccb->gc_dmamap_xfer, 0,
ccb->gc_dmamap_xfer->dm_mapsize,
(xs->flags & SCSI_DATA_IN) ? BUS_DMASYNC_POSTREAD :
BUS_DMASYNC_POSTWRITE);
bus_dmamap_unload(gdt->sc_dmat, ccb->gc_dmamap_xfer);
}
gdt_free_ccb(gdt, ccb);
switch (prev_cmd) {
case GDT_GCF_UNUSED:
/* XXX Not yet implemented */
chain = 0;
goto finish;
case GDT_GCF_INTERNAL:
chain = 0;
goto finish;
}
sync_val = gdt_sync_event(gdt, ctx.service, ctx.istatus, xs);
finish:
if (!gdt_polling)
GDT_UNLOCK_GDT(gdt, lock);
switch (sync_val) {
case 1:
xs->flags |= ITSDONE;
scsi_done(xs);
break;
case 2:
gdt_enqueue(gdt, xs, 0);
}
if (chain)
gdt_chain(gdt);
return (1);
}
void
gdtminphys(bp)
struct buf *bp;
{
GDT_DPRINTF(GDT_D_MISC, ("gdtminphys(0x%x) ", bp));
/* As this is way more than MAXPHYS it's really not necessary. */
if ((GDT_MAXOFFSETS - 1) * PAGE_SIZE < MAXPHYS &&
bp->b_bcount > ((GDT_MAXOFFSETS - 1) * PAGE_SIZE))
bp->b_bcount = ((GDT_MAXOFFSETS - 1) * PAGE_SIZE);
minphys(bp);
}
int
gdt_wait(gdt, ccb, timeout)
struct gdt_softc *gdt;
struct gdt_ccb *ccb;
int timeout;
{
int rv = 0;
GDT_DPRINTF(GDT_D_MISC,
("gdt_wait(%p, %p, %d) ", gdt, ccb, timeout));
gdt_from_wait = 1;
do {
if (gdt_intr(gdt) && gdt == gdt_wait_gdt &&
ccb->gc_cmd_index == gdt_wait_index) {
rv = 1;
break;
}
DELAY(1);
} while (--timeout);
gdt_from_wait = 0;
while (gdt->sc_test_busy(gdt))
DELAY(0); /* XXX correct? */
return (rv);
}
int
gdt_internal_cmd(gdt, service, opcode, arg1, arg2, arg3)
struct gdt_softc *gdt;
u_int8_t service;
u_int16_t opcode;
u_int32_t arg1, arg2, arg3;
{
int retries;
struct gdt_ccb *ccb;
GDT_DPRINTF(GDT_D_CMD, ("gdt_internal_cmd(%p, %d, %d, %d, %d, %d) ",
gdt, service, opcode, arg1, arg2, arg3));
bzero(gdt->sc_cmd, GDT_CMD_SZ);
for (retries = GDT_RETRIES; ; ) {
ccb = gdt_get_ccb(gdt, SCSI_NOSLEEP);
if (ccb == NULL) {
printf("%s: no free command index found\n",
gdt->sc_dev.dv_xname);
return (0);
}
ccb->gc_service = service;
gdt_ccb_set_cmd(ccb, GDT_GCF_INTERNAL);
gdt->sc_set_sema0(gdt);
gdt_enc32(gdt->sc_cmd + GDT_CMD_COMMANDINDEX,
ccb->gc_cmd_index);
gdt_enc16(gdt->sc_cmd + GDT_CMD_OPCODE, opcode);
gdt_enc32(gdt->sc_cmd + GDT_CMD_BOARDNODE, GDT_LOCALBOARD);
switch (service) {
case GDT_CACHESERVICE:
if (opcode == GDT_IOCTL) {
gdt_enc32(gdt->sc_cmd + GDT_CMD_UNION +
GDT_IOCTL_SUBFUNC, arg1);
gdt_enc32(gdt->sc_cmd + GDT_CMD_UNION +
GDT_IOCTL_CHANNEL, arg2);
gdt_enc16(gdt->sc_cmd + GDT_CMD_UNION +
GDT_IOCTL_PARAM_SIZE, (u_int16_t)arg3);
gdt_enc32(gdt->sc_cmd + GDT_CMD_UNION +
GDT_IOCTL_P_PARAM,
gdt->sc_scratch_seg.ds_addr);
} else {
gdt_enc16(gdt->sc_cmd + GDT_CMD_UNION +
GDT_CACHE_DEVICENO, (u_int16_t)arg1);
gdt_enc32(gdt->sc_cmd + GDT_CMD_UNION +
GDT_CACHE_BLOCKNO, arg2);
}
break;
case GDT_SCSIRAWSERVICE:
gdt_enc32(gdt->sc_cmd + GDT_CMD_UNION +
GDT_RAW_DIRECTION, arg1);
gdt->sc_cmd[GDT_CMD_UNION + GDT_RAW_BUS] =
(u_int8_t)arg2;
gdt->sc_cmd[GDT_CMD_UNION + GDT_RAW_TARGET] =
(u_int8_t)arg3;
gdt->sc_cmd[GDT_CMD_UNION + GDT_RAW_LUN] =
(u_int8_t)(arg3 >> 8);
}
gdt->sc_cmd_len = GDT_CMD_SZ;
gdt->sc_cmd_off = 0;
gdt->sc_cmd_cnt = 0;
gdt->sc_copy_cmd(gdt, ccb);
gdt->sc_release_event(gdt, ccb);
DELAY(20);
if (!gdt_wait(gdt, ccb, GDT_POLL_TIMEOUT))
return (0);
if (gdt->sc_status != GDT_S_BSY || --retries == 0)
break;
DELAY(1);
}
return (gdt->sc_status == GDT_S_OK);
}
struct gdt_ccb *
gdt_get_ccb(gdt, flags)
struct gdt_softc *gdt;
int flags;
{
struct gdt_ccb *ccb;
gdt_lock_t lock;
GDT_DPRINTF(GDT_D_QUEUE, ("gdt_get_ccb(%p, 0x%x) ", gdt, flags));
lock = GDT_LOCK_GDT(gdt);
for (;;) {
ccb = TAILQ_FIRST(&gdt->sc_free_ccb);
if (ccb != NULL)
break;
if (flags & SCSI_NOSLEEP)
goto bail_out;
tsleep(&gdt->sc_free_ccb, PRIBIO, "gdt_ccb", 0);
}
TAILQ_REMOVE(&gdt->sc_free_ccb, ccb, gc_chain);
bail_out:
GDT_UNLOCK_GDT(gdt, lock);
return (ccb);
}
void
gdt_free_ccb(gdt, ccb)
struct gdt_softc *gdt;
struct gdt_ccb *ccb;
{
gdt_lock_t lock;
GDT_DPRINTF(GDT_D_QUEUE, ("gdt_free_ccb(%p, %p) ", gdt, ccb));
lock = GDT_LOCK_GDT(gdt);
TAILQ_INSERT_HEAD(&gdt->sc_free_ccb, ccb, gc_chain);
/* If the free list was empty, wake up potential waiters. */
if (TAILQ_NEXT(ccb, gc_chain) == NULL)
wakeup(&gdt->sc_free_ccb);
GDT_UNLOCK_GDT(gdt, lock);
}
void
gdt_enqueue_ccb(gdt, ccb)
struct gdt_softc *gdt;
struct gdt_ccb *ccb;
{
GDT_DPRINTF(GDT_D_QUEUE, ("gdt_enqueue_ccb(%p, %p) ", gdt, ccb));
timeout_set(&ccb->gc_xs->stimeout, gdt_timeout, ccb);
TAILQ_INSERT_TAIL(&gdt->sc_ccbq, ccb, gc_chain);
gdt_start_ccbs(gdt);
}
void
gdt_start_ccbs(gdt)
struct gdt_softc *gdt;
{
struct gdt_ccb *ccb;
struct scsi_xfer *xs;
GDT_DPRINTF(GDT_D_QUEUE, ("gdt_start_ccbs(%p) ", gdt));
while ((ccb = TAILQ_FIRST(&gdt->sc_ccbq)) != NULL) {
xs = ccb->gc_xs;
if (ccb->gc_flags & GDT_GCF_WATCHDOG)
timeout_del(&xs->stimeout);
if (gdt_exec_ccb(ccb) == 0) {
ccb->gc_flags |= GDT_GCF_WATCHDOG;
timeout_set(&ccb->gc_xs->stimeout, gdt_watchdog, ccb);
timeout_add(&xs->stimeout,
(GDT_WATCH_TIMEOUT * hz) / 1000);
break;
}
TAILQ_REMOVE(&gdt->sc_ccbq, ccb, gc_chain);
if ((xs->flags & SCSI_POLL) == 0) {
timeout_set(&ccb->gc_xs->stimeout, gdt_timeout, ccb);
timeout_add(&xs->stimeout,
(ccb->gc_timeout * hz) / 1000);
}
}
}
void
gdt_chain(gdt)
struct gdt_softc *gdt;
{
GDT_DPRINTF(GDT_D_INTR, ("gdt_chain(%p) ", gdt));
if (LIST_FIRST(&gdt->sc_queue))
gdt_scsi_cmd(LIST_FIRST(&gdt->sc_queue));
}
void
gdt_timeout(arg)
void *arg;
{
struct gdt_ccb *ccb = arg;
struct scsi_link *link = ccb->gc_xs->sc_link;
struct gdt_softc *gdt = link->adapter_softc;
gdt_lock_t lock;
sc_print_addr(link);
printf("timed out\n");
/* XXX Test for multiple timeouts */
ccb->gc_xs->error = XS_TIMEOUT;
lock = GDT_LOCK_GDT(gdt);
gdt_enqueue_ccb(gdt, ccb);
GDT_UNLOCK_GDT(gdt, lock);
}
void
gdt_watchdog(arg)
void *arg;
{
struct gdt_ccb *ccb = arg;
struct scsi_link *link = ccb->gc_xs->sc_link;
struct gdt_softc *gdt = link->adapter_softc;
gdt_lock_t lock;
lock = GDT_LOCK_GDT(gdt);
ccb->gc_flags &= ~GDT_GCF_WATCHDOG;
gdt_start_ccbs(gdt);
GDT_UNLOCK_GDT(gdt, lock);
}
#if NBIO > 0
int
gdt_ioctl(dev, cmd, addr)
struct device *dev;
u_long cmd;
caddr_t addr;
{
int error = 0;
struct gdt_dummy *dummy;
switch (cmd) {
case GDT_IOCTL_DUMMY:
dummy = (struct gdt_dummy *)addr;
printf("%s: GDT_IOCTL_DUMMY %d\n", dev->dv_xname, dummy->x++);
break;
case GDT_IOCTL_GENERAL: {
gdt_ucmd_t *ucmd;
struct gdt_softc *gdt = (struct gdt_softc *)dev;
gdt_lock_t lock;
ucmd = (gdt_ucmd_t *)addr;
lock = GDT_LOCK_GDT(gdt);
TAILQ_INSERT_TAIL(&gdt->sc_ucmdq, ucmd, links);
ucmd->complete_flag = FALSE;
GDT_UNLOCK_GDT(gdt, lock);
gdt_chain(gdt);
if (!ucmd->complete_flag)
(void)tsleep((void *)ucmd, PCATCH | PRIBIO, "gdtucw",
0);
break;
}
case GDT_IOCTL_DRVERS:
((gdt_drvers_t *)addr)->vers =
(GDT_DRIVER_VERSION << 8) | GDT_DRIVER_SUBVERSION;
break;
case GDT_IOCTL_CTRCNT:
((gdt_ctrcnt_t *)addr)->cnt = gdt_cnt;
break;
#ifdef notyet
case GDT_IOCTL_CTRTYPE: {
gdt_ctrt_t *p;
struct gdt_softc *gdt = (struct gdt_softc *)dev;
p = (gdt_ctrt_t *)addr;
p->oem_id = 0x8000;
p->type = 0xfd;
p->info = (gdt->sc_bus << 8) | (gdt->sc_slot << 3);
p->ext_type = 0x6000 | gdt->sc_subdevice;
p->device_id = gdt->sc_device;
p->sub_device_id = gdt->sc_subdevice;
break;
}
#endif
case GDT_IOCTL_OSVERS: {
gdt_osv_t *p;
p = (gdt_osv_t *)addr;
p->oscode = 10;
p->version = osrelease[0] - '0';
if (osrelease[1] == '.')
p->subversion = osrelease[2] - '0';
else
p->subversion = 0;
if (osrelease[3] == '.')
p->revision = osrelease[4] - '0';
else
p->revision = 0;
strlcpy(p->name, ostype, sizeof p->name);
break;
}
#ifdef notyet
case GDT_IOCTL_EVENT: {
gdt_event_t *p;
gdt_lock_t lock;
p = (gdt_event_t *)addr;
if (p->erase == 0xff) {
if (p->dvr.event_source == GDT_ES_TEST)
p->dvr.event_data.size =
sizeof(p->dvr.event_data.eu.test);
else if (p->dvr.event_source == GDT_ES_DRIVER)
p->dvr.event_data.size =
sizeof(p->dvr.event_data.eu.driver);
else if (p->dvr.event_source == GDT_ES_SYNC)
p->dvr.event_data.size =
sizeof(p->dvr.event_data.eu.sync);
else
p->dvr.event_data.size =
sizeof(p->dvr.event_data.eu.async);
lock = GDT_LOCK_GDT(gdt);
gdt_store_event(p->dvr.event_source, p->dvr.event_idx,
&p->dvr.event_data);
GDT_UNLOCK_GDT(gdt, lock);
} else if (p->erase == 0xfe) {
lock = GDT_LOCK_GDT(gdt);
gdt_clear_events();
GDT_UNLOCK_GDT(gdt, lock);
} else if (p->erase == 0) {
p->handle = gdt_read_event(p->handle, &p->dvr);
} else {
gdt_readapp_event((u_int8_t)p->erase, &p->dvr);
}
break;
}
#endif
case GDT_IOCTL_STATIST:
#if 0
bcopy(&gdt_stat, (gdt_statist_t *)addr, sizeof gdt_stat);
#else
error = EOPNOTSUPP;
#endif
break;
default:
error = EINVAL;
}
return (error);
}
#endif
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